#+title: Emacs configuration #+author: Aryadev Chavali #+description: My Emacs configuration #+property: header-args:emacs-lisp :tangle config.el :comments link :results none #+options: toc:nil #+startup: noindent #+begin_center My configuration for (a very specific form of) Emacs #+end_center #+latex: \clearpage #+toc: headlines * Basics Firstly, set full name and mail address. This is used in encryption and mailing. #+begin_src emacs-lisp (setq user-full-name "Aryadev Chavali" user-mail-address "aryadev@aryadevchavali.com") #+end_src Let's set all yes or no questions to single letter responses. #+begin_src emacs-lisp (fset 'yes-or-no-p 'y-or-n-p) #+end_src Set the encoding to UTF-8-Unix by default. #+begin_src emacs-lisp (use-package emacs :straight nil :init (setq-default buffer-file-coding-system 'utf-8-unix save-buffer-coding-system 'utf-8-unix)) #+end_src ** File saves and custom file Setup automatic saving for files (in case of system failure) and auto-revert-mode (which refreshes the buffer on changes to the underlying file). Along with that, set the custom-file (which holds temporary customisation) in the etc folder. #+begin_src emacs-lisp (use-package emacs :straight nil :init (setq backup-directory-alist `(("." . ,(no-littering-expand-var-file-name "saves/"))) global-auto-revert-non-file-buffers t auto-revert-verbose nil) :config (global-auto-revert-mode 1)) #+end_src * Custom functionality Functions that don't require a packages to work other than Emacs, which means I can define them early. These are used much later in the config. ** Toggle buffer Like VSCode's toggling feature for just the terminal but now for any buffer of choice, as long as I can generate it via a command. #+begin_src emacs-lisp (with-eval-after-load "window" (defmacro +oreo/create-toggle-function (func-name buf-name buf-create &optional accept-numeric) "Generate a function named FUNC-NAME that toggles the buffer with name BUF-NAME, using BUF-CREATE to generate it if buffer BUF-NAME does not exist already. BUF-NAME cannot be a regexp, it must be a fixed name. ACCEPT-NUMERIC modifies the function to allow numeric arguments via C-u. Mostly used in Eshell." (let ((interactive-arg (if accept-numeric '(interactive "p") '(interactive))) (arguments (if accept-numeric '(&optional arg) nil)) (buffer-name (if accept-numeric `(if (= arg 1) ,buf-name (concat ,buf-name "<" (int-to-string arg) ">")) buf-name)) (buffer-create (if accept-numeric `(if (= arg 1) (,buf-create) (,buf-create arg)) `(,buf-create)))) `(defun ,func-name ,arguments ,interactive-arg (let* ((buffer (or (get-buffer ,buffer-name) ,buffer-create)) (displayed (get-buffer-window buffer))) (if displayed (delete-window displayed) (display-buffer buffer) (select-window (get-buffer-window buffer)))))))) #+end_src ** Auto-run command after-save-hook Define a macro which creates hooks into the ~after-save-hook~. On certain ~conditions~ being met, ~to-run~ is evaluated. #+begin_src emacs-lisp (use-package simple :straight nil :config (defmacro +oreo/create-auto-save (conditions &rest to-run) "Create a hook for after saves, where (on CONDITIONS being met) TO-RUN is evaluated. " `(add-hook 'after-save-hook #'(lambda () (interactive) (when ,conditions ,@to-run))))) #+end_src ** Procedure A ~lambda~ which takes no arguments is a procedure. This macro generates procedures, with the parameters of the macro being the body of the procedure. It returns it in quoted form, as that is the most common use of this macro. (You may notice ~proc~ is used where the return value is irrelevant). #+begin_src emacs-lisp (defmacro proc (&rest BODY) "For a given list of forms BODY, return a quoted 0 argument lambda." `(quote (lambda nil ,@BODY))) #+end_src ** System specificity A macro that acts as a switch case on ~(system-name)~ which allows the writing of system specific code. For me this is for my desktop and laptop, particularly for font sizes. Though there may be an easier solution than this, this seems simple enough. #+begin_src emacs-lisp (defmacro +oreo/sys-name-cond (&rest pairs) "Switch case on result of function `system-name'. Each pair in PAIRS is typed as: (string . (forms...)) where the string represents the system name to test, and forms being the consequence if true." `(cond ,@(mapcar #'(lambda (pair) ;; (str . forms..) -> ((string= str (system-name)) ;; forms...) (let ((name (car pair)) (body (cdr pair))) `((string= ,name (system-name)) ,@body))) pairs))) #+end_src In [[file:early-init.el][early-init.el]] I set the number of native-workers to 4, which isn't necessarily optimal when loading/compiling the rest of this file depending on the machine I use: - On my laptop (=spiderboy=) I'd prefer to have it use 2-3 threads so I can actually use the rest of the laptop while waiting for compilation - On my desktop (=oldboy=) I'd prefer to use 4-6 threads as I can afford more, so I can get a faster load up. #+begin_src emacs-lisp (+oreo/sys-name-cond ("spiderboy" (setq native-comp-async-jobs-number 3)) ("oldboy" (setq native-comp-async-jobs-number 6))) #+end_src ** Clean buffer list Instead of cleaning my buffer list manually, selectively preserving some fixed set of buffers, this function does it for me. Preserves any buffers in ~+oreo/keep-buffer~ and kills the rest. #+begin_src emacs-lisp (defconst +oreo/keep-buffers (list "config.org" "*scratch*" "*dashboard*" "*Messages*" "*Warnings*") "List of buffer names to preserve.") (defun +oreo/clean-buffer-list () "Kill all buffers except any with names in +oreo/keep-buffers." (interactive) (mapcar #'(lambda (buf) (if (not (member (buffer-name buf) +oreo/keep-buffers)) (kill-buffer buf))) (buffer-list))) #+end_src * Aesthetics General look and feel of Emacs (mostly disabling stuff I don't like). ** Themes *** Dark theme My preferred dark theme is my own "personal-primary" theme which is stored in the Emacs lisp folder (look at [[file:elisp/personal-primary-theme.el][this file]]). It tries to use the primary colours for everything, leading to a colour -> meaning relation. I have an older version of this theme that uses a homogeneous colour scheme ([[file:elisp/personal-theme.el][this file]]) #+begin_src emacs-lisp (use-package custom :demand t :straight nil :init (setq custom-theme-directory (concat user-emacs-directory "elisp/")) :config (load-theme 'personal-primary t)) #+end_src *** Light theme I'm not very good at designing light themes as I don't really use them. However they are necessary in high light situations where a dark mode would strain the eyes too much. So I built a custom theme on top of the default Emacs theme, "personal-light" (look at [[file:elisp/personal-light-theme.el][this file]]). I don't use it by default but I may need to switch between light and dark easily, so here's a command to switch between them. #+begin_src emacs-lisp (use-package custom :defer t :straight nil :commands +oreo/switch-theme :init (defvar +oreo/theme 'dark) :config (defun +oreo/switch-theme () (interactive) (cond ((eq +oreo/theme 'dark) (load-theme 'personal-light t) (setq +oreo/theme 'light)) ((eq +oreo/theme 'light) (load-theme 'personal-primary t) (setq +oreo/theme 'dark))))) #+end_src ** Font size Set font size to 140 if on my desktop (oldboy) or 175 if on my laptop (spiderboy). #+begin_src emacs-lisp (use-package faces :straight nil :config (+oreo/sys-name-cond ("spiderboy" (set-face-attribute 'default nil :height 175)) ("oldboy" (set-face-attribute 'default nil :height 140)))) #+end_src ** Startup screen The default startup screen is quite bad in all honesty, great for first time users who have no idea what is going on but terrible for regular users. The scratch buffer is an interaction buffer made when Emacs is first started, as a way to quickly prototype Emacs Lisp code. When startup screen is disabled, this buffer is the first thing presented on boot for Emacs. So we can use it to store some useful information. As I use [[*Org mode][org-mode]] to compile my Emacs, it is available essentially at startup, so I use it for the scratch buffer. That way, I can use all the abilities of org-mode (particularly writing a system of code using =#+RESULTS=) in an ephemeral buffer at startup! #+begin_src emacs-lisp (use-package emacs :straight nil :init (setq inhibit-startup-screen t initial-major-mode 'org-mode initial-scratch-message "" ring-bell-function 'ignore) (add-hook 'after-init-hook (proc (with-current-buffer "*scratch*" (goto-char (point-max)) (insert (format "#+title: Scratch buffer ,#+author: %s ,#+description: Emacs v%s Booted in %s " user-full-name emacs-version (emacs-init-time))))))) #+end_src ** Blinking cursor Turn off blinking-cursor-mode as [[*Hl-line][hl-line]] is better. #+begin_src emacs-lisp (use-package frame :straight nil :config (blink-cursor-mode 0)) #+end_src ** Fringes Turning off borders in my window manager was a good idea, so turn off the borders for Emacs. #+begin_src emacs-lisp (use-package fringe :after dashboard :straight nil :config (fringe-mode 0)) #+end_src ** Mode line A mode line in an editor can provide a LOT of information, or very little. I customised the Emacs modeline to give me a bit of info, ~telephone-line~ to give me a lot. Currently I use the default mode line with some customisation; simplicity is above all. *** Emacs Mode-line #+begin_src emacs-lisp (defun +mode-line/generate-padding () (let ((wid (frame-width)) (str "")) (dotimes (n (floor (/ wid 7))) (setq str (concat str " "))) str)) (setq-default mode-line-format (list "%l:%c " ;; Line and column "%p[" ;; Where in file + Evil state '(:eval (upcase (substring (format "%s" (if (bound-and-true-p evil-state) evil-state "")) 0 1))) "] " "%+%b(" '(:eval (format "%s" major-mode)) ") " "%I " '(:eval (+mode-line/generate-padding)) '(vc-mode vc-mode) mode-line-misc-info mode-line-end-spaces)) #+end_src *** WIP Telephone-line :PROPERTIES: :header-args:emacs-lisp: :tangle no :END: Telephone-line is a mode-line package for Emacs which prioritises extensibility. It also looks much nicer than the default mode line with colouring and a ton of presentations to choose from. #+begin_src emacs-lisp (use-package telephone-line :init (defface +telephone/position-face '((t (:foreground "red" :background "grey10"))) "") (defface +telephone/mode-face '((t (:foreground "white" :background "dark green"))) "") (defface +telephone/file-info-face '((t (:foreground "white" :background "Dark Blue"))) "") :custom (telephone-line-faces '((evil . telephone-line-modal-face) (modal . telephone-line-modal-face) (ryo . telephone-line-ryo-modal-face) (accent . (telephone-line-accent-active . telephone-line-accent-inactive)) (nil . (mode-line . mode-line-inactive)) (position . (+telephone/position-face . mode-line-inactive)) (mode . (+telephone/mode-face . mode-line-inactive)) (file-info . (+telephone/file-info-face . mode-line-inactive)))) (telephone-line-primary-left-separator 'telephone-line-halfcos-left) (telephone-line-secondary-left-separator 'telephone-line-halfcos-hollow-left) (telephone-line-primary-right-separator 'telephone-line-identity-right) (telephone-line-secondary-right-separator 'telephone-line-identity-hollow-right) (telephone-line-height 24) (telephone-line-evil-use-short-tag nil) :config (telephone-line-defsegment +telephone/buffer-or-filename () (cond ((buffer-file-name) (if (and (fboundp 'projectile-project-name) (fboundp 'projectile-project-p) (projectile-project-p)) (list "" (funcall (telephone-line-projectile-segment) face) (propertize (concat "/" (file-relative-name (file-truename (buffer-file-name)) (projectile-project-root))) 'help-echo (buffer-file-name))) (buffer-file-name))) (t (buffer-name)))) (telephone-line-defsegment +telephone/get-position () `(,(concat "%lL:%cC" (if (not mark-active) "" (format " | %dc" (- (+ 1 (region-end)) (region-beginning))))))) (setq-default telephone-line-lhs '((mode telephone-line-major-mode-segment) (file-info telephone-line-input-info-segment) (position +telephone/get-position) (accent +telephone/buffer-or-filename telephone-line-process-segment)) telephone-line-rhs '((accent telephone-line-flycheck-segment telephone-line-misc-info-segment telephone-line-projectile-segment) (file-info telephone-line-filesize-segment) (evil telephone-line-evil-tag-segment))) (telephone-line-mode)) #+end_src ** Mouse Eww who uses a mouse? #+begin_src emacs-lisp (setq use-file-dialog nil) #+end_src * Core packages (loading) For my core packages, whose configuration doesn't change much anyway, I have a [[file:core.org][separate file]]. Here I'll load it up for usage later on. #+begin_src emacs-lisp (load-file (concat user-emacs-directory "core.el")) #+end_src * Small packages ** ISearch ISearch is the default incremental search application in Emacs. I use ~evil-search-forward~ so I don't interact with isearch that much, but I may need it occasionally. #+begin_src emacs-lisp (use-package isearch :straight nil :general (:keymaps 'isearch-mode-map "M-s" #'isearch-repeat-forward)) #+end_src ** Info Info is GNU's attempt at better man pages. Most Emacs packages have info pages so I'd like nice navigation options. #+begin_src emacs-lisp (use-package info :straight nil :general (nmmap :keymaps 'Info-mode-map "h" #'evil-backward-char "k" #'evil-previous-line "l" #'evil-forward-char "H" #'Info-history-back "L" #'Info-history-forward "RET" #'Info-follow-nearest-node)) #+end_src ** Display line numbers I don't really like line numbers, I find them similar to [[*Fringes][fringes]] as useless space, but at least it provides some information. Sometimes it can help with doing repeated commands so a toggle option is necessary. #+begin_src emacs-lisp (use-package display-line-numbers :straight nil :commands display-line-numbers-mode :general (mode-leader "l" #'display-line-numbers-mode) :init (setq-default display-line-numbers-type 'relative)) #+end_src ** esup I used to be able to just use [[file:elisp/profiler-dotemacs.el][profile-dotemacs.el]], when my Emacs config was smaller, but now it tells me very little information about where my setup is inefficient due to the literate config. Just found this ~esup~ thing and it works perfectly, exactly how I would prefer getting this kind of information. It runs an external Emacs instance and collects information from it, so it doesn't require restarting Emacs to profile. #+begin_src emacs-lisp (use-package esup :defer t) #+end_src ** xref Find definitions, references and general objects using tags without external packages. Provided by default in Emacs and just requires a way of generating a =TAGS= file for your project. Helps with minimal setups for programming without heavier packages like [[*Eglot][Eglot]]. [[*Projectile][Projectile]] provides a nice way to generate tags. #+begin_src emacs-lisp (use-package xref :straight nil :display ("\\*xref\\*" (display-buffer-at-bottom) (inhibit-duplicate-buffer . t) (window-height . 0.25)) :general (code-leader "t" '(nil :which-key "Tags")) (code-leader :infix "t" "t" #'xref-find-apropos "d" #'xref-find-definitions "r" #'xref-find-references) (nmmap :keymaps 'xref--xref-buffer-mode-map "RET" #'xref-goto-xref "J" #'xref-next-line "K" #'xref-prev-line "g" #'xref-revert-buffer "q" #'quit-window)) #+end_src ** Hl-line Highlights the current line, much better than a blinking cursor. #+begin_src emacs-lisp (use-package hl-line :straight t :hook (text-mode-hook . hl-line-mode) :hook (prog-mode-hook . hl-line-mode)) #+end_src ** Recentf Recentf provides a method of keeping track of recently opened files. #+begin_src emacs-lisp (use-package recentf :straight nil :hook (emacs-startup-hook . recentf-mode)) #+end_src ** Projectile Projectile is a project management package which integrates with Emacs very well. It essentially provides alternative Emacs commands scoped to the current 'project', based on differing signs that a directory is a 'project'. #+begin_src emacs-lisp (use-package projectile :after evil :hook (emacs-startup-hook . projectile-mode) :general (general-def :keymaps 'projectile-command-map "t" #'projectile-test-project "r" #'projectile-run-project "q" #'projectile-replace-regexp) (leader "p" '(projectile-command-map :which-key "Projectile")) (nmap "" #'projectile-compile-project "" #'projectile-configure-project "" #'projectile-test-project) :init (setq projectile-tags-command "ctags -Re -f \"%s\" %s \"%s\"")) #+end_src *** Counsel projectile Counsel integration for projectile commands, very nice. #+begin_src emacs-lisp (use-package counsel-projectile :after (projectile counsel) :config (counsel-projectile-mode +1)) #+end_src ** Avy Setup avy with leader. As I use ~avy-goto-char-timer~ a lot, use the ~C-s~ bind which replaces isearch. Switch isearch to M-s in case I need to use it. #+begin_src emacs-lisp (use-package avy :after evil :general (nmmap "C-s" #'avy-goto-char-timer "M-s" #'isearch-forward) (search-leader "l" #'avy-goto-line)) #+end_src ** Ace window Though evil provides a great many features in terms of window management, ace window can provide some nicer chords for higher management of windows (closing, switching, etc). #+begin_src emacs-lisp (use-package ace-window :after evil :custom (aw-keys '(?a ?s ?d ?f ?g ?h ?j ?k ?l)) :general (nmmap [remap evil-window-next] #'ace-window)) #+end_src ** Helpful Helpful provides a modernised interface for some common help commands. I replace ~describe-function~, ~describe-variable~ and ~describe-key~ by their helpful counterparts. #+begin_src emacs-lisp (use-package helpful :after ivy :commands (helpful-callable helpful-variable) :general (general-def [remap describe-function] #'helpful-callable [remap describe-variable] #'helpful-variable [remap describe-key] #'helpful-key) :display ("\\*helpful.*" (display-buffer-at-bottom) (inhibit-duplicate-buffer . t) (window-height . 0.25)) :config (evil-define-key 'normal helpful-mode-map "q" #'quit-window)) #+end_src ** Which-key Which key uses the minibuffer when performing a keybind to provide possible options for the next key. #+begin_src emacs-lisp (use-package which-key :config (which-key-mode)) #+end_src ** Keychord Keychord is only really here for this one chord I wish to define: "jk" for exiting insert state. #+begin_src emacs-lisp (use-package key-chord :after evil :config (key-chord-define evil-insert-state-map "jk" #'evil-normal-state) (key-chord-mode)) #+end_src ** (Rip)grep Grep is a great piece of software, a necessary tool in any Linux user's inventory. By default Emacs has a family of functions to use grep, presenting results in a ~compilation~ style. ~grep~ searches files, ~rgrep~ searches in a directory using the ~find~ program and ~zgrep~ searches archives. This is a great solution for a general computer environment; essentially all Linux installs will have ~grep~ and ~find~ installed. Ripgrep is a Rust program that attempts to perform better than grep, and it actually does. This is because of a set of optimisations, such as checking the =.gitignore= to exclude certain files from being searched. The ripgrep package provides utilities to ripgrep projects and files for strings. Though [[file:core.org::*Ivy][ivy]] comes with ~counsel-rg~, it uses Ivy's completion framework rather than the ~compilation~ style buffers, which sometimes proves very useful. Of course, this requires installing the rg binary which is available in most repositories nowadays. *** Grep I have no use for standard 'grep'; ~counsel-swiper~ does the same thing faster and within Emacs lisp. ~rgrep~ is useful though. #+begin_src emacs-lisp (use-package grep :straight nil :display ("^\\*grep.*" (display-buffer-at-bottom display-buffer-reuse-window) (window-height . 0.25) (reusable-frames . t)) :general (search-leader "d" #'rgrep)) #+end_src *** rg #+begin_src emacs-lisp (use-package rg :after grep :general (search-leader "R" #'rg) (:keymaps 'rg-mode-map "]]" #'rg-next-file "[[" #'rg-prev-file "q" #'quit-window) :init (setq rg-group-result t rg-hide-command t rg-show-columns nil rg-show-header t rg-custom-type-aliases nil rg-default-alias-fallback "all" rg-buffer-name "*ripgrep*")) #+end_src ** Olivetti Olivetti provides a focus mode for Emacs, which makes it look a bit nicer with fringes. I also define ~+olivetti-mode~ which will remember and clear up any window configurations on the frame, then when turned off will reinsert them - provides a nice way to quickly focus on a buffer. #+begin_src emacs-lisp (use-package olivetti :commands (+olivetti-mode) :general (mode-leader "o" #'+olivetti-mode) :init (setq-default olivetti-body-width 0.7) (setq olivetti-style nil) (add-hook 'olivetti-mode-on-hook (proc (interactive) (text-scale-increase 1))) (add-hook 'olivetti-mode-off-hook (proc (interactive) (text-scale-decrease 1))) :config (defun +olivetti-mode () (interactive) (if (not olivetti-mode) (progn (window-configuration-to-register 1) (delete-other-windows) (olivetti-mode t)) (jump-to-register 1) (olivetti-mode 0)))) #+end_src ** All the Icons Nice set of icons with a great user interface to manage them. #+begin_src emacs-lisp (use-package all-the-icons :straight t :defer t :commands (all-the-icons-insert) :general (insert-leader "e" #'all-the-icons-insert)) #+end_src ** Hide mode line Custom minor mode to toggle the mode line. Check it out at [[file:elisp/hide-mode-line.el][elisp/hide-mode-line.el]]. #+begin_src emacs-lisp (use-package hide-mode-line :straight nil :load-path "elisp/" :defer t :general (mode-leader "m" #'hide-mode-line-mode)) #+end_src ** Save place Saves current place in a buffer permanently, so on revisiting the file (even in a different Emacs instance) you go back to the place you were at last. #+begin_src emacs-lisp (use-package saveplace :straight nil :config (save-place-mode)) #+end_src ** Rot13 ROT13 encoding is a pretty simple cipher; fun to make decoders and encoders for. Emacs has default support for it, to the point where it can display files with the encoding without changing the underlying text. That's what this is mainly for. #+begin_src emacs-lisp (use-package rot13 :straight nil :general (mode-leader "r" #'toggle-rot13-mode)) #+end_src ** Licensing Loads [[file:elisp/license.el][license.el]] for inserting licenses. Licenses are important for distribution and attribution to be defined clearly. #+begin_src emacs-lisp (use-package license :straight nil :load-path "elisp/" :demand t :general (insert-leader "l" #'+license/insert-copyright-notice "L" #'+license/insert-complete-license)) #+end_src * Applications (loading) Emacs is basically an operating system whose primary datatype is text. Applications are interfaces/environments which serve a variety of purposes, but provide a lot of capability. I have a [[file:app.org][separate file]] for such configuration (2023-09-29: mainly because it was so goddamn huge). #+begin_src emacs-lisp (load-file (concat user-emacs-directory "app.el")) #+end_src * Text modes Standard packages and configurations for text-mode and its derived modes. ** Flyspell Flyspell allows me to quickly spell check text documents. I use flyspell primarily in org mode, as that is my preferred prose writing software, but I also need it in commit messages and so on. So flyspell-mode should be hooked to text-mode. #+begin_src emacs-lisp (use-package flyspell :hook (text-mode-hook . flyspell-mode) :general (nmmap :keymaps 'text-mode-map (kbd "M-C") #'flyspell-correct-word-before-point (kbd "M-c") #'flyspell-auto-correct-word) (mode-leader "s" #'flyspell-mode)) #+end_src ** Undo tree Undo tree sits on top of the incredible Emacs undo capabilities. Provides a nice visual for edits and a great way to produce branches of edits. Also allows saving of undo trees, which makes Emacs a quasi version control system in and of itself! The only extra necessary would be describing changes... #+begin_src emacs-lisp (use-package undo-tree :straight t :hook (after-init-hook . global-undo-tree-mode) :init (setq undo-tree-auto-save-history t undo-tree-history-directory-alist backup-directory-alist) :general (leader "u" #'undo-tree-visualize)) #+end_src ** Whitespace Deleting whitespace, highlighting when going beyond the 80th character limit, all good stuff. I don't want to highlight whitespace for general mode categories (Lisp shouldn't really have an 80 character limit), so set it for specific modes need the help. #+begin_src emacs-lisp (use-package whitespace :straight nil :general (nmmap "M--" #'whitespace-cleanup) (mode-leader "w" #'whitespace-mode) :hook (before-save-hook . whitespace-cleanup) (c-mode-hook . whitespace-mode) (c++-mode-hook . whitespace-mode) (haskell-mode-hook . whitespace-mode) (python-mode-hook . whitespace-mode) (org-mode-hook . whitespace-mode) (text-mode-hook . whitespace-mode) :init (setq whitespace-style '(face lines-tail spaces tabs tab-mark trailing newline) whitespace-line-column 80)) #+end_src ** Set auto-fill-mode for all text-modes Auto fill mode automatically newlines text on 80 characters, which looks nice and integrates well with Evil's sentence and paragraph text objects. #+begin_src emacs-lisp (add-hook 'text-mode-hook #'auto-fill-mode) #+end_src ** Show-paren-mode Show parenthesis for Emacs #+begin_src emacs-lisp (add-hook 'prog-mode-hook #'show-paren-mode) #+end_src ** Smartparens Smartparens is a smarter electric-parens, it's much more aware of context and easier to use. #+begin_src emacs-lisp (use-package smartparens :hook (prog-mode-hook . smartparens-mode) (text-mode-hook . smartparens-mode) :after evil :config (setq sp-highlight-pair-overlay nil sp-highlight-wrap-overlay t sp-highlight-wrap-tag-overlay t) (let ((unless-list '(sp-point-before-word-p sp-point-after-word-p sp-point-before-same-p))) (sp-pair "'" nil :unless unless-list) (sp-pair "\"" nil :unless unless-list)) (sp-local-pair sp-lisp-modes "(" ")" :unless '(:rem sp-point-before-same-p)) (require 'smartparens-config)) #+end_src ** Thesaurus =le-thesaurus= is a great extension for quickly searching up words for synonyms or antonyms. I may need it anywhere so I bind it to all keymaps. Same with dictionary searching. #+begin_src emacs-lisp (use-package le-thesaurus :straight t :display ("\\*Dictionary\\*" (display-buffer-reuse-window display-buffer-same-window) (reusable-frames . t)) :general (local-leader :keymaps 'override "[" #'le-thesaurus-get-synonyms "]" #'le-thesaurus-get-antonyms "#" #'dictionary-search)) #+end_src * Programming packages Packages that help with programming in general, providing IDE like capabilities. ** Eldoc Eldoc presents documentation to the user upon placing ones cursor upon any symbol. This is very useful when programming as it: - presents the arguments of functions while writing calls for them - presents typing and documentation of variables Eldoc box makes the help buffer a hovering box instead of printing it in the minibuffer. A lot cleaner. #+begin_src emacs-lisp (use-package eldoc :straight nil :hook (prog-mode-hook . eldoc-mode) :init (global-eldoc-mode 1)) (use-package eldoc-box :hook (eldoc-mode-hook . eldoc-box-hover-mode) :init (setq eldoc-box-position-function #'eldoc-box--default-upper-corner-position-function eldoc-box-clear-with-C-g t)) #+end_src ** Eglot Eglot is package to communicate with LSP servers for better programming capabilities. Interactions with a server provide results to the client, done through JSON. NOTE: Emacs 28.1 comes with better JSON parsing, which makes Eglot much faster. 2023-03-26: I've found Eglot to be useful sometimes, but many of the projects I work on don't require a heavy server setup to efficiently edit and check for errors; Emacs provides a lot of functionality. So by default I've disabled it, using =M-x eglot= to startup the LSP server when I need it. #+begin_src emacs-lisp (use-package eglot :after project :defer t :general (code-leader :keymaps 'eglot-mode-map "f" #'eglot-format "a" #'eglot-code-actions "r" #'eglot-rename "R" #'eglot-reconnect) ;; :init ;; (setq eglot-stay-out-of '(flymake)) :config (add-to-list 'eglot-server-programs '((c++-mode c-mode) "clangd"))) #+end_src ** Flycheck Flycheck is the checking system for Emacs. I don't necessarily like having all my code checked all the time, so I haven't added a hook to prog-mode as it would be better for me to decide when I want checking and when I don't. #+begin_src emacs-lisp (use-package flycheck :commands (flycheck-mode flycheck-list-errors) :hook (c-mode-hook . flycheck-mode) (c++-mode-hook . flycheck-mode) :general (mode-leader "f" #'flycheck-mode) (code-leader "x" #'flycheck-list-errors "J" #'flycheck-next-error "K" #'flycheck-previous-error) :display ("\\*Flycheck.*" (display-buffer-at-bottom) (window-height . 0.25)) :config (with-eval-after-load "evil-collection" (evil-collection-flycheck-setup))) #+end_src ** Tabs and spaces By default, turn off tabs and set the tab width to two. #+begin_src emacs-lisp (setq-default indent-tabs-mode nil tab-width 2) #+end_src However, if necessary later, define a function that may activate tabs locally. #+begin_src emacs-lisp (defun +oreo/activate-tabs () (interactive) (setq-local indent-tabs-mode t)) #+end_src ** Highlight todo items TODO items are highlighted in org-mode, but not necessarily in every mode. This minor mode highlights all TODO like items via a list of strings to match. It also configures faces to use when highlighting. I hook it to prog-mode. #+begin_src emacs-lisp (use-package hl-todo :after prog-mode :hook (prog-mode-hook . hl-todo-mode) :init (setq hl-todo-keyword-faces '(("TODO" . "#E50000") ("WIP" . "#ffa500") ("NOTE" . "#00CC00") ("FIXME" . "#d02090")))) #+end_src ** Hide-show mode Turn on ~hs-minor-mode~ for all prog-mode. This provides folds for free. #+begin_src emacs-lisp (use-package hideshow :straight nil :hook (prog-mode-hook . hs-minor-mode)) #+end_src ** Aggressive indenting Essentially my dream editing experience: when I type stuff in, try and indent it for me on the fly. Just checkout the [[https://github.com/Malabarba/aggressive-indent-mode][page]], any description I give won't do it justice. #+begin_src emacs-lisp (use-package aggressive-indent :straight t :demand t :config (add-to-list 'aggressive-indent-excluded-modes 'c-mode) (add-to-list 'aggressive-indent-excluded-modes 'c++-mode) (add-to-list 'aggressive-indent-excluded-modes 'cc-mode) (global-aggressive-indent-mode)) #+end_src ** Compilation Colourising the compilation buffer so ANSI colour codes get computed. #+begin_src emacs-lisp (use-package compile :straight nil :general (code-leader "j" #'next-error "k" #'previous-error "c" #'compile "C" #'recompile) (nmmap :keymaps 'compilation-mode-map "g" #'recompile) :display ("\\*compilation\\*" (display-buffer-reuse-window display-buffer-at-bottom) (reusable-frames . t) (window-height . 0.25)) :config (defun +compile/colourise () "Colourise the emacs compilation buffer." (interactive) (let ((inhibit-read-only t)) (ansi-color-apply-on-region (point-min) (point-max)))) (add-hook 'compilation-filter-hook #'+compile/colourise)) #+end_src ** Makefile Defines an auto-insert for Makefiles. Assumes C but it's very easy to change it for C++. #+begin_src emacs-lisp (use-package emacs :auto-insert (("[mM]akefile\\'" . "Makefile skeleton") "" "CC=gcc CFLAGS=-Wall -Wextra -Werror -Wswitch-enum -ggdb -fsanitize=address -std=c11 LIBS= ARGS= OUT=main.out SRC=src DIST=build CODE=$(addprefix $(SRC)/, main.c) OBJECTS=$(CODE:$(SRC)/%.c=$(DIST)/%.o) DEPS=$(OBJECTS:%.o=%.d) .PHONY: all all: $(OUT) $(OUT): $(DIST)/$(OUT) $(DIST)/$(OUT): $(OBJECTS) mkdir -p $(DIST) $(CC) $(CFLAGS) $^ -o $@ $(LIBS) -include $(DEPS) $(DIST)/%.o: $(SRC)/%.c mkdir -p $(DIST) $(CC) $(CFLAGS) -MMD -c $< -o $@ $(LIBS) .PHONY: run run: $(DIST)/$(OUT) ./$^ $(ARGS) .PHONY: clean: rm -rfv $(DIST)/* " _)) #+end_src * Org mode 2023-03-30: finally decided to give org mode its own section. Org is, at its most basic, a markup language. Files use the ".org" extension and use =org-mode= to write text, with the ability to export to a few formats, all within Emacs. Some other features include: + A complete spreadsheet system, with formulas (including [[file:app.org::*Calculator][calc-mode]] integration) + Evaluation of code blocks, even using the results of them in exports (to, say, a $\LaTeX$ or HTML document) + This includes exporting code blocks to a code file. All the emacs-lisp code blocks in this file are compiled to =config.el= ([[file:elisp/literate.el][literate]]) + Complete calendar/todo system with deadlines, scheduling and repeaters + Export to a variety of formats or make your own export engine using the org AST! + Writing $\LaTeX$ inline, with the ability to render the fragments on demand ** Org Essentials Org has a ton of settings to tweak, which change your experience quite a bit. My setup should be as portable as possible and (/sometimes/) I need to access org mode files in other editors, so org files should be as close to clear text as possible. This is the guiding philosophy that essentially makes most of my options pretty immediate. Some arbitrary notes: + By default =~/Text= is my directory for text files. I actually have a repository that manages this directory for agenda files and other documents + Indentation in file should not be allowed, i.e. text indentation, as that forces other editors to read it a certain way as well. It obtrusive hence it's off. + Org startup indented is on by default as most documents do benefit from the indentation, but I do turn it off for some files via ~#+startup:noindent~ + When opening an org document there can be a lot of headings, so I set folding to just content + Org documents can also have a lot of latex previews, which make opening some after a while a massive hassle. If I want to see the preview, I'll do it myself, so turn it off. + Org manages windowing itself, to some extent, so I set those options to be as unobtrusive as possible #+begin_src emacs-lisp (use-package org :defer t :straight t :init (setq org-directory "~/Text" org-adapt-indentation nil org-indent-mode nil org-startup-indented t org-startup-folded 'content org-startup-with-latex-preview nil org-imenu-depth 10 org-src-window-setup 'current-window org-indirect-buffer-display 'current-window org-link-frame-setup '((vm . vm-visit-folder-other-frame) (vm-imap . vm-visit-imap-folder-other-frame) (file . find-file)))) #+end_src ** Org Latex Org mode has deep integration with latex, can export to PDF and even display latex fragments in the document directly. I setup the pdf-process, code listing options via minted and the format options for latex fragments. #+begin_src emacs-lisp (use-package org :defer t :init (setq org-format-latex-options '(:foreground default :background default :scale 2 :html-foreground "Black" :html-background "Transparent" :html-scale 1.0 :matchers ("begin" "$1" "$" "$$" "\\(" "\\[")) org-latex-src-block-backend 'minted org-latex-minted-langs '((emacs-lisp "common-lisp") (ledger "text") (cc "c++") (cperl "perl") (shell-script "bash") (caml "ocaml")) org-latex-packages-alist '(("" "minted")) org-latex-pdf-process '("latexmk -f -bibtex -pdf -shell-escape -%latex -interaction=nonstopmode -output-directory=%o %f") org-latex-minted-options '(("style" "colorful") ("linenos") ("frame" "single") ("mathescape") ("fontfamily" "courier") ("samepage" "false") ("breaklines" "true") ("breakanywhere" "true")))) #+end_src ** Org Core Variables Tons of variables for org-mode, including a ton of latex ones. Can't really explain because it sets up quite a lot of local stuff. Also I copy pasted the majority of this, tweaking it till it felt good. Doom Emacs was very helpful here. #+begin_src emacs-lisp (use-package org :init (setq org-edit-src-content-indentation 0 org-goto-interface 'outline org-imenu-depth 10 org-export-backends '(ascii html latex odt icalendar) org-eldoc-breadcrumb-separator " → " org-enforce-todo-dependencies t org-fontify-quote-and-verse-blocks t org-fontify-whole-heading-line t org-footnote-auto-label t org-hide-leading-stars t org-hide-emphasis-markers nil org-image-actual-width nil org-priority-faces '((?A . error) (?B . warning) (?C . success)) org-link-descriptive nil org-tags-column 0 org-todo-keywords '((sequence "TODO" "WIP" "DONE") (sequence "PROJ" "WAIT" "COMPLETE")) org-use-sub-superscripts '{} org-babel-load-languages '((emacs-lisp . t) (lisp . t) (shell . t)))) #+end_src ** Org Core Functionality Hooks, prettify-symbols and records for auto insertion. #+begin_src emacs-lisp (use-package org :hook (org-mode-hook . prettify-symbols-mode) :display ("\\*Org Src.*" (display-buffer-same-window)) :pretty (org-mode-hook ("#+begin_src" . "≫") ("#+end_src" . "≪")) :init (with-eval-after-load "autoinsert" (define-auto-insert '("\\.org\\'" . "Org skeleton") '("Enter title: " "#+title: " str | (buffer-file-name) "\n" "#+author: " (read-string "Enter author: ") | user-full-name "\n" "#+description: " (read-string "Enter description: ") | "Description" "\n" "#+date: " (format-time-string "%Y-%m-%d" (current-time)) "\n" "* " _)))) #+end_src ** Org Core Bindings Some bindings for org mode. #+begin_src emacs-lisp (use-package org :after counsel :config (defun +org/swiper-goto () (interactive) (swiper "^\\* ")) (defun +org/search-headings () "Searches directory (of buffer) for org headings via counsel-rg" (interactive) (counsel-rg "^\\* " (file-name-directory (buffer-file-name)))) :general (file-leader "l" #'org-store-link "i" #'org-insert-last-stored-link) (code-leader "D" #'org-babel-detangle) (search-leader :keymaps 'org-mode-map "I" #'+org/search-headings) (nmmap :keymaps 'org-mode-map [remap imenu] #'+org/swiper-goto) (local-leader :keymaps 'org-mode-map "l" '(nil :which-key "Links") "'" '(nil :which-key "Tables") "c" '(nil :which-key "Clocks") "r" #'org-refile "d" #'org-date-from-calendar "t" #'org-todo "," #'org-priority "T" #'org-babel-tangle "i" #'org-insert-structure-template "p" #'org-latex-preview "s" #'org-property-action "e" #'org-export-dispatch "o" #'org-edit-special) (local-leader :keymaps 'org-mode-map :infix "l" "i" #'org-insert-link "l" #'org-open-at-point "f" #'org-footnote-action) (local-leader :keymaps 'org-mode-map :infix "'" "a" #'org-table-align "f" #'org-table-edit-formulas "t" #'org-table-toggle-coordinate-overlays "s" #'org-table-sum "e" #'org-table-calc-current-TBLFM "E" #'org-table-eval-formula) (local-leader :keymaps 'org-mode-map :infix "c" "i" #'org-clock-clock-in "o" #'org-clock-clock-out "c" #'org-clock-in-last "d" #'org-clock-display)) #+end_src ** Org Agenda Org agenda provides a nice viewing for schedules. With org mode it's a very tidy way to manage your time. #+begin_src emacs-lisp (use-package org-agenda :after org :straight nil :init (defconst +org/agenda-root "~/Text" "Root directory for all agenda files") (setq org-agenda-files (list (expand-file-name +org/agenda-root)) org-agenda-window-setup 'current-window org-agenda-skip-deadline-prewarning-if-scheduled t org-agenda-skip-scheduled-if-done t org-agenda-skip-deadline-if-done t org-agenda-start-with-entry-text-mode nil) :config (evil-set-initial-state 'org-agenda-mode 'normal) :general (file-leader "a" `(,(proc (interactive) (find-file (completing-read "Enter directory: " org-agenda-files nil t))) :which-key "Open agenda directory")) (app-leader "a" #'org-agenda) (nmmap :keymaps 'org-agenda-mode-map "zd" #'org-agenda-day-view "zw" #'org-agenda-week-view "zm" #'org-agenda-month-view "gd" #'org-agenda-goto-date "RET" #'org-agenda-switch-to "J" #'org-agenda-later "K" #'org-agenda-earlier "t" #'org-agenda-todo "." #'org-agenda-goto-today "," #'org-agenda-goto-date "q" #'org-agenda-quit "r" #'org-agenda-redo)) #+end_src ** Org capture #+begin_src emacs-lisp (use-package org-capture :straight nil :init (setq org-capture-templates '(("t" "A todo" entry (file "") "* TODO %? %T %a")) org-default-notes-file (concat org-directory "/todo.org")) :general (file-leader "w" #'org-capture)) #+end_src ** Org clock-in Org provides a nice timekeeping system that allows for managing how much time is taken per task. It even has an extensive reporting system to see how much time you spend on specific tasks or overall. #+begin_src emacs-lisp (use-package org-clock :after org :straight nil :init (defvar +org/clock-out-toggle-report nil "Non-nil means update the first clock report in the file every time a clock out occurs.") :config (advice-add #'org-clock-out :after (proc (interactive) (if +org/clock-out-toggle-report (org-clock-report t)))) :general (local-leader :keymaps 'org-mode-map :infix "c" "c" #'org-clock-in "o" #'org-clock-out "r" #'org-clock-report "t" (proc (interactive) (setq-local +org/clock-out-toggle-report (not +org/clock-out-toggle-report))))) #+end_src ** Org on save If ~+org/compile-to-pdf-on-save-p~ is non-nil, then compile to \(\LaTeX\) and run an async process to compile it to a PDF. Doesn't make Emacs hang (like ~org-latex-export-to-pdf~) and doesn't randomly crash (like the async handler for org-export). Works really well with ~pdf-view-mode~. #+begin_src emacs-lisp (use-package org :defer t :init (defvar +org/compile-to-pdf-on-save-p nil "Non-nil to activate compile functionality.") :general (local-leader :keymaps 'org-mode-map "C" (proc (interactive) (if (+org/compile-to-pdf-on-save-f) (setq-local +org/compile-to-pdf-on-save-p nil) (setq-local +org/compile-to-pdf-on-save-p t)))) :config (+oreo/create-auto-save (and (eq major-mode 'org-mode) +org/compile-to-pdf-on-save-p) (start-process-shell-command "" "*pdflatex*" (concat "pdflatex -shell-escape " (org-latex-export-to-latex))))) #+end_src ** Org ref For bibliographic stuff in $\LaTeX$ export. #+begin_src emacs-lisp (use-package org-ref :straight t :defer t :init (setq bibtex-files '("~/Text/bibliography.bib") bibtex-completion-bibliography '("~/Text/bibliography.bib") bibtex-completion-additional-search-fields '(keywords))) #+end_src *** Org ref ivy integration Org ref requires ivy-bibtex to work properly with ivy, so we need to set that up as well #+begin_src emacs-lisp (use-package ivy-bibtex :straight t :after org-ref :config (require 'org-ref-ivy)) #+end_src ** Org message Org message allows for the use of org mode when composing mails, generating HTML multipart emails. This integrates the WYSIWYG experience with mail in Emacs while also providing powerful text features with basically no learning curve (as long as you've already learnt the basics of org). #+begin_src emacs-lisp (use-package org-msg :hook (message-mode-hook . org-msg-mode) :config (setq org-msg-options "html-postamble:nil H:5 num:nil ^:{} toc:nil author:nil email:nil \\n:t tex:dvipng" org-msg-greeting-name-limit 3) (add-to-list 'org-msg-enforce-css '(img latex-fragment-inline ((transform . ,(format "translateY(-1px) scale(%.3f)" (/ 1.0 (if (boundp 'preview-scale) preview-scale 1.4)))) (margin . "0 -0.35em"))))) #+end_src ** Org for evil Evil org for some nice bindings. #+begin_src emacs-lisp (use-package evil-org :hook (org-mode-hook . evil-org-mode)) #+end_src ** Org reveal Org reveal allows one to export org files as HTML presentations via reveal.js. Pretty nifty and it's easy to use. #+begin_src emacs-lisp (use-package ox-reveal :defer t :init (setq org-reveal-root "https://cdn.jsdelivr.net/npm/reveal.js" org-reveal-theme "sky")) #+end_src ** WIP Org fragtog :PROPERTIES: :header-args:emacs-lisp: :tangle no :END: Toggle latex fragments in org mode so you get fancy maths symbols. I use latex a bit in org mode as it is the premier way of getting mathematical symbols rendered, but org mode > latex. Delimited environments are aplenty, escaped brackets and dollar signs are my favourite. Here's a snippet: $\int_{-\infty}^{\infty}e^{-x^2}dx = \sqrt{\pi}$. [2023-09-10 Sun] Emacs 29 complains constantly about this, probably because this isn't implemented that well. Regardless it wasn't that necessary anyway, just a nice feature to have. #+begin_src emacs-lisp (use-package org-fragtog :hook (org-mode-hook . org-fragtog-mode)) #+end_src ** Org superstar Org superstar adds unicode symbols for headers, much better than the default asterisks. #+begin_src emacs-lisp (use-package org-superstar :hook (org-mode-hook . org-superstar-mode)) #+end_src * Languages Configuration for specific languages or file formats. ** PDF I use PDFs mostly for reading reports or papers. Though Emacs isn't my preferred application for viewing PDFs (I highly recommend [[https://pwmt.org/projects/zathura/][Zathura]]), similar to most things with Emacs, having a PDF viewer builtin can be a very useful asset. For example if I were editing an org document which I was eventually compiling into a PDF, my workflow would be much smoother with a PDF viewer within Emacs that I can open on another pane. *** PDF tools ~pdf-tools~ provides the necessary functionality for viewing PDFs. There is no proper PDF viewing without this package. ~evil-collection~ provides a setup for this mode, so use that. #+begin_src emacs-lisp (use-package pdf-tools :mode ("\\.[pP][dD][fF]\\'" . pdf-view-mode) :straight t :display ("^.*pdf$" (display-buffer-same-window) (inhibit-duplicate-buffer . t)) :config (pdf-tools-install-noverify) (with-eval-after-load "evil-collection" (evil-collection-pdf-setup))) #+end_src *** PDF grep PDF grep is a Linux tool that allows for searches against the text inside of PDFs similar to standard grep. This cannot be performed by standard grep due to how PDFs are encoded; they are not a clear text format. #+begin_src emacs-lisp (use-package pdfgrep :after pdf-tools :hook (pdf-view-mode-hook . pdfgrep-mode) :general (nmap :keymaps 'pdf-view-mode-map "M-g" #'pdfgrep)) #+end_src ** SQL The default SQL package provides support for connecting to common database types (sqlite, mysql, etc) for auto completion and query execution. I don't use SQL currently but whenever I need it it's there. #+begin_src emacs-lisp (use-package sql :straight nil :init (setq sql-display-sqli-buffer-function nil)) #+end_src ** WIP Ada :PROPERTIES: :header-args:emacs-lisp: :tangle no :END: Check out [[file:elisp/ada-mode.el][ada-mode]], my custom ~ada-mode~ that replaces the default one. This mode just colourises stuff, and uses eglot and a language server to do the hard work. #+begin_src emacs-lisp (use-package ada-mode :straight nil :load-path "elisp/" :defer t :config (with-eval-after-load "eglot" (add-hook 'ada-mode-hook #'eglot))) #+end_src ** NHexl Hexl-mode is the inbuilt package within Emacs to edit hex and binary format buffers. There are a few problems with hexl-mode though, including an annoying prompt on /revert-buffer/. Thus, nhexl-mode! It comes with a few other improvements. Check out the [[https://elpa.gnu.org/packages/nhexl-mode.html][page]] yourself. #+begin_src emacs-lisp (use-package nhexl-mode :straight t :mode "\\.bin") #+end_src ** C/C++ Setup for C and C++ modes via the cc-mode package. C and C++ are great languages for general purpose programming. My preferred choice when I want greater control over memory management. *** cc-mode Tons of stuff, namely: + ~auto-fill-mode~ for 80 char limit + Some keybindings to make evil statement movement is easy + Lots of pretty symbols + Indenting options and a nice (for me) code style for C (though aggressive indent screws with this a bit) + Auto inserts to get a C file going #+begin_src emacs-lisp (use-package cc-mode :defer t :hook (c-mode-hook . auto-fill-mode) (c++-mode-hook . auto-fill-mode) :general (:keymaps '(c-mode-map c++-mode-map) :states '(normal motion visual) "(" #'c-beginning-of-statement ")" #'c-end-of-statement) :pretty (c-mode-hook ("puts" . "φ") ("fputs" . "ϕ") ("printf" . "ω") ("fprintf" . "Ω") ("NULL" . "Ø") ("true" . "⊨") ("false" . "⊭") ("!" . "¬") ("&&" . "∧") ("||" . "∨") ("for" . "∀") ("return" . "⟼")) (c++-mode-hook ("nullptr" . "Ø") ("string" . "𝕊") ("vector" . "ℓ") ("puts" . "φ") ("fputs" . "ϕ") ("printf" . "ω") ("fprintf" . "Ω") ("NULL" . "Ø") ("true" . "⊨") ("false" . "⊭") ("!" . "¬") ("&&" . "∧") ("||" . "∨") ("for" . "∀") ("return" . "⟼")) :init (setq-default c-basic-offset 2) (setq-default c-auto-newline nil) (setq-default c-default-style '((other . "user"))) (defun +cc/copyright-notice () (let* ((lines (split-string (+license/copyright-notice) "\n")) (copyright-line (car lines)) (rest (cdr lines))) (concat "* " copyright-line "\n" (mapconcat #'(lambda (x) (if (string= x "") "" (concat " * " x))) rest "\n")))) :auto-insert (("\\.c\\'" . "C skeleton") "" "/" (+cc/copyright-notice) "\n\n" " * Created: " (format-time-string "%Y-%m-%d") "\n" " * Author: " user-full-name "\n" " * Description: " _ "\n" " */\n" "\n") (("\\.cpp\\'" "C++ skeleton") "" "/" (+cc/copyright-notice) "\n\n" " * Created: " (format-time-string "%Y-%m-%d") "\n" " * Author: " user-full-name "\n" " * Description: " _ "\n" " */\n" "\n") (("\\.\\([Hh]\\|hh\\|hpp\\|hxx\\|h\\+\\+\\)\\'" . "C / C++ header") (replace-regexp-in-string "[^A-Z0-9]" "_" (string-replace "+" "P" (upcase (file-name-nondirectory buffer-file-name)))) "/" (+cc/copyright-notice) "\n\n" " * Created: " (format-time-string "%Y-%m-%d") "\n" " * Author: " user-full-name "\n" " * Description: " _ "\n" " */\n\n" "#ifndef " str n "#define " str "\n\n" "\n\n#endif") :config (c-add-style "user" '((c-basic-offset . 2) (c-comment-only-line-offset . 0) (c-hanging-braces-alist (brace-list-open) (brace-entry-open) (substatement-open after) (block-close . c-snug-do-while) (arglist-cont-nonempty)) (c-cleanup-list brace-else-brace) (c-offsets-alist (statement-block-intro . +) (substatement-open . 0) (access-label . -) (inline-open . 0) (label . 0) (statement-cont . +))))) #+end_src *** Clang format Clang format comes inbuilt with clang, so download that before using this. Formats C/C++ files depending on a format (checkout the Clang format [[file:~/Dotfiles/ClangFormat/.clang-format][config file]] in my dotfiles). #+begin_src emacs-lisp (use-package clang-format :straight nil :load-path "/usr/share/clang/" :after cc-mode :commands (+code/clang-format-region-or-buffer clang-format-mode) :hook (c-mode-hook . clang-format-mode) (c++-mode-hook . clang-format-mode) :general (code-leader :keymaps '(c-mode-map c++-mode-map) "f" #'+code/clang-format-region-or-buffer) :config (define-minor-mode clang-format-mode "On save formats the current buffer via clang-format." :lighter nil (let ((save-func (proc (interactive) (clang-format-buffer)))) (if clang-format-mode (add-hook 'after-save-hook save-func nil t) (remove-hook 'after-save-hook save-func t)))) (defun +code/clang-format-region-or-buffer () (interactive) (if (mark) (clang-format-region (region-beginning) (region-end)) (clang-format-buffer)))) #+end_src *** cc org babel To ensure org-babel executes language blocks of C/C++, I need to load it as an option in ~org-babel-load-languages~. #+begin_src emacs-lisp (use-package org :after cc-mode :init (org-babel-do-load-languages 'org-babel-load-languages '((C . t)))) #+end_src ** D D is a systems level programming language with C-style syntax. I think it has some interesting ideas such as a toggleable garbage collector. Here I just install the D-mode package, enable ~org-babel~ execution of d-mode blocks and alias ~D-mode~ with ~d-mode~. #+begin_src emacs-lisp (use-package d-mode :straight t :config (fset 'D-mode 'd-mode) (with-eval-after-load "org-mode" (setf (alist-get 'd org-babel-load-languages) t))) #+end_src ** Rust #+begin_src emacs-lisp (use-package rust-mode :straight t :general (code-leader :keymaps 'rust-mode-hook "f" #'rust-format-buffer) :init (setq rust-format-on-save t)) #+end_src ** Racket A scheme with lots of stuff inside it. Using it for a language design book so it's useful to have some Emacs binds for it. #+begin_src emacs-lisp (use-package racket-mode :straight t :hook (racket-mode-hook . racket-xp-mode) :display ("\\*Racket.*" (display-buffer-at-bottom) (window-height . 0.25)) :init (setq racket-documentation-search-location 'local) :general (nmap :keymaps 'racket-describe-mode-map "q" #'quit-window) (nmap :keymaps 'racket-mode-map "gr" #'racket-eval-last-sexp) (local-leader :keymaps '(racket-mode-map racket-repl-mode-map) "d" #'racket-repl-describe) (local-leader :keymaps 'racket-mode-map "r" #'racket-run "i" #'racket-repl "e" #'racket-send-definition "sr" #'racket-send-region "sd" #'racket-send-definition)) #+end_src ** WIP CSharp :PROPERTIES: :header-args:emacs-lisp: :tangle no :END: Haven't used C# in a while, but Emacs is alright for it with omnisharp. #+begin_src emacs-lisp (use-package csharp-mode :defer t :pretty (csharp-mode-hook ("null" . "∅") ("string" . "𝕊") ("List" . "ℓ") ("WriteLine" . "φ") ("Write" . "ω") ("true" . "⊨") ("false" . "⊭") ("!" . "¬") ("&&" . "∧") ("||" . "∨") ("for" . "∀") ("return" . "⟼"))) #+end_src ** Java I kinda dislike Java, but if necessary I will code in it. Just setup a style and some pretty symbols. You can use LSP to get cooler features to be fair. #+begin_src emacs-lisp (use-package ob-java :straight nil :defer t :pretty (java-mode-hook ("println" . "φ") ("printf" . "ω") ("null" . "Ø") ("true" . "⊨") ("false" . "⊭") ("!" . "¬") ("&&" . "∧") ("||" . "∨") ("for" . "∀") ("return" . "⟼")) :config (with-eval-after-load "cc-mode" (c-add-style "java" '((c-basic-offset . 4) (c-comment-only-line-offset 0 . 0) (c-offsets-alist (inline-open . 0) (topmost-intro-cont . +) (statement-block-intro . +) (knr-argdecl-intro . 5) (substatement-open . 0) (substatement-label . +) (label . +) (statement-case-open . +) (statement-cont . +) (arglist-intro . c-lineup-arglist-intro-after-paren) (arglist-close . c-lineup-arglist) (brace-list-intro first c-lineup-2nd-brace-entry-in-arglist c-lineup-class-decl-init-+ +) (access-label . 0) (inher-cont . c-lineup-java-inher) (func-decl-cont . c-lineup-java-throws)))) (add-to-list 'c-default-style '(java-mode . "java"))) (with-eval-after-load "abbrev" (define-abbrev-table 'java-mode-abbrev-table nil) (add-hook 'java-mode-hook (proc (setq-local local-abbrev-table java-mode-abbrev-table))))) #+end_src ** Haskell Haskell is a static lazy functional programming language (what a mouthful). It's quite a beautiful language and really learning it will change the way you think about programming. However, my preferred functional language is still unfortunately Lisp so no extra brownie points there. Here I configure the REPL for Haskell via the ~haskell-interactive-mode~. I also load my custom package [[file:elisp/haskell-multiedit.el][haskell-multiedit]] which allows a user to create temporary ~haskell-mode~ buffers that, upon completion, will run in the REPL. Even easier than making your own buffer. #+begin_src emacs-lisp (use-package haskell-mode :hook (haskell-mode-hook . haskell-indentation-mode) (haskell-mode-hook . interactive-haskell-mode) :custom (haskell-interactive-prompt "[λ] ") (haskell-interactive-prompt-cont "{λ} ") (haskell-interactive-popup-errors nil) (haskell-stylish-on-save nil) (haskell-process-type 'stack-ghci) :general (shell-leader "h" #'+shell/toggle-haskell-repl) :display ("\\*haskell.**\\*" (display-buffer-at-bottom) (window-height . 0.25)) :config (load (concat user-emacs-directory "elisp/haskell-multiedit.el")) (+oreo/create-toggle-function +shell/toggle-haskell-repl "*haskell*" haskell-interactive-bring nil)) #+end_src ** Python Works well for python. If you have ~pyls~ it should be on your path, so just run eglot if you need. But an LSP server is not necessary for a lot of my time in python. Here I also setup org-babel for python source code blocks. #+begin_src emacs-lisp (use-package python :defer t :straight nil :pretty (python-mode-hook ("None" . "Ø") ("list" . "ℓ") ("List" . "ℓ") ("str" . "𝕊") ("True" . "⊨") ("False" . "⊭") ("!" . "¬") ("&&" . "∧") ("||" . "∨") ("for" . "∀") ("print" . "φ") ("lambda" . "λ") ("return" . "⟼") ("yield" . "⟻")) :init (setq python-indent-offset 4) :config (with-eval-after-load "org-mode" (setf (alist-get 'python org-babel-load-languages) t))) #+end_src *** Python shell Setup for python shell, including a toggle option #+begin_src emacs-lisp (use-package python :straight nil :commands +python/toggle-repl :general (shell-leader "p" #'+shell/python-toggle-repl) :display ("\\*Python\\*" (display-buffer-at-bottom) (window-height . 0.25)) :config (+oreo/create-toggle-function +shell/python-toggle-repl "*Python*" run-python nil)) #+end_src ** YAML YAML is a data language which is useful for config files. #+begin_src emacs-lisp (use-package yaml-mode :straight t) #+end_src ** HTML/CSS/JS Firstly, web mode for consistent colouring of syntax. #+begin_src emacs-lisp (use-package web-mode :mode ("\\.html" . web-mode) :mode ("\\.js" . web-mode) :mode ("\\.css" . web-mode) :custom ((web-mode-code-indent-offset 2) (web-mode-markup-indent-offset 2) (web-mode-css-indent-offset 2))) #+end_src *** Emmet Emmet for super speed code writing. #+begin_src emacs-lisp (use-package emmet-mode :hook (web-mode-hook . emmet-mode) :general (imap :keymaps 'emmet-mode-keymap "TAB" #'emmet-expand-line "M-j" #'emmet-next-edit-point "M-k" #'emmet-prev-edit-point)) #+end_src *** HTML Auto insert #+begin_src emacs-lisp (use-package web-mode :auto-insert (("\\.html\\'" . "HTML Skeleton") "" " "(read-string "Enter title: ") | """ " _ " ")) #+end_src ** Typescript Kinda expressive, interesting. #+begin_src emacs-lisp (use-package typescript-mode :defer t :init (setq typescript-indent-level 2)) #+end_src ** Common Lisp Common Lisp is a dialect of Lisp, the most /common/ one around. Emacs comes with builtin Lisp support of course, but a REPL would be nice. Enter /SLY/. Sly is a fork of /SLIME/ and is *mandatory* for lisp development on Emacs. #+begin_src emacs-lisp (use-package sly :straight t :init (setq inferior-lisp-program "sbcl") :display ("\\*sly-db" (display-buffer-at-bottom) (window-height . 0.5)) ("\\*sly-" (display-buffer-at-bottom) (window-height . 0.25)) :config (evil-set-initial-state 'sly-db-mode 'emacs) (with-eval-after-load "org" (setq-default org-babel-lisp-eval-fn #'sly-eval)) (with-eval-after-load "company" (add-hook 'sly-mrepl-hook #'company-mode)) (+oreo/create-toggle-function +shell/toggle-sly "*sly-mrepl for sbcl*" sly-mrepl nil) :general (shell-leader "s" #'+shell/toggle-sly) (nmap :keymaps '(lisp-mode-map sly-mrepl-mode-map) "gr" #'sly-eval-buffer "gd" #'sly-edit-definition "gR" #'sly-who-calls) (local-leader :keymaps '(lisp-mode-map sly-mrepl-mode-map) "s" #'+shell/toggle-sly "c" #'sly-compile-file "a" #'sly-apropos "d" #'sly-describe-symbol "D" #'sly-mrepl-sync "E" #'sly-eval-defun) (local-leader :keymaps 'lisp-mode-map :infix "e" "b" #'sly-eval-buffer "e" #'sly-eval-last-expression "f" #'sly-eval-defun "r" #'sly-eval-region) (nmap :keymaps 'sly-inspector-mode-map "q" #'sly-inspector-quit)) #+end_src *** Lisp indent function Add a new lisp indent function which indents newline lists more appropriately. #+begin_src emacs-lisp (use-package lisp-mode :straight nil :pretty (lisp-mode-hook ("lambda" . "λ") ("t" . "⊨") ("nil" . "Ø") ("and" . "∧") ("or" . "∨") ("defun" . "ƒ") ("for" . "∀") ("mapc" . "∀") ("mapcar" . "∀")) :general (:states '(normal motion visual) :keymaps '(emacs-lisp-mode-map lisp-mode-map) ")" #'sp-next-sexp "(" #'sp-previous-sexp) :config (defun +oreo/lisp-indent-function (indent-point state) (let ((normal-indent (current-column)) (orig-point (point))) (goto-char (1+ (elt state 1))) (parse-partial-sexp (point) calculate-lisp-indent-last-sexp 0 t) (cond ;; car of form doesn't seem to be a symbol, or is a keyword ((and (elt state 2) (or (not (looking-at "\\sw\\|\\s_")) (looking-at ":"))) (if (not (> (save-excursion (forward-line 1) (point)) calculate-lisp-indent-last-sexp)) (progn (goto-char calculate-lisp-indent-last-sexp) (beginning-of-line) (parse-partial-sexp (point) calculate-lisp-indent-last-sexp 0 t))) ;; Indent under the list or under the first sexp on the same ;; line as calculate-lisp-indent-last-sexp. Note that first ;; thing on that line has to be complete sexp since we are ;; inside the innermost containing sexp. (backward-prefix-chars) (current-column)) ((and (save-excursion (goto-char indent-point) (skip-syntax-forward " ") (not (looking-at ":"))) (save-excursion (goto-char orig-point) (looking-at ":"))) (save-excursion (goto-char (+ 2 (elt state 1))) (current-column))) (t (let ((function (buffer-substring (point) (progn (forward-sexp 1) (point)))) method) (setq method (or (function-get (intern-soft function) 'lisp-indent-function) (get (intern-soft function) 'lisp-indent-hook))) (cond ((or (eq method 'defun) (and (null method) (> (length function) 3) (string-match "\\`def" function))) (lisp-indent-defform state indent-point)) ((integerp method) (lisp-indent-specform method state indent-point normal-indent)) (method (funcall method indent-point state)))))))) (setq-default lisp-indent-function #'+oreo/lisp-indent-function)) #+end_src *** Emacs lisp #+begin_src emacs-lisp (use-package elisp-mode :straight nil :general (vmap :keymaps '(emacs-lisp-mode-map lisp-interaction-mode-map) "gr" #'eval-region)) #+end_src