General Programming Configuration
Table of Contents
A literate programming file for helping me program.
Introduction
Configuration for programming interfaces and workflows that behave similarly.
General
The following work for all programming languages.
direnv
Farm off commands into virtual environments:
(use-package direnv :init (setq direnv-always-show-summary t direnv-show-paths-in-summary t) (if (file-exists-p "/opt/homebrew") (setq direnv--executable "/opt/homebrew/bin/direnv") (setq direnv--executable "/usr/local/bin/direnv")) :config (direnv-mode))
Spell Checking Comments
The flyspell-prog-mode checks for misspellings in comments.
(use-package flyspell :hook (prog-mode . flyspell-prog-mode))
Flycheck
Why use flycheck over the built-in flymake? Speed used to be the advantage, but I’m now pushing much of this to LSP, so speed is less of an issue. What about when I am not using LSP? Also, since I’ve hooked grammar checkers, I need this with global keybindings.
(use-package flycheck :init (setq next-error-message-highlight t) :bind (:map flycheck-error-list-mode-map ("C-n" . 'flycheck-error-list-next-error) ("C-p" . 'flycheck-error-list-previous-error) ("j" . 'flycheck-error-list-next-error) ("k" . 'flycheck-error-list-previous-error)) :config (defun flycheck-enable-checker () "Not sure why flycheck disables working checkers." (interactive) (let (( current-prefix-arg '(4))) ; C-u (call-interactively 'flycheck-disable-checker))) (flymake-mode -1) (global-flycheck-mode) (ha-leader "t c" 'flycheck-mode) (ha-leader ">" '("next problem" . flycheck-next-error) "<" '("previous problem" . flycheck-previous-error) "e" '(:ignore t :which-key "errors") "e n" '(flycheck-next-error :repeat t :wk "next") "e N" '(flycheck-next-error :repeat t :wk "next") "e p" '(flycheck-previous-error :repeat t :wk "previous") "e P" '(flycheck-previous-error :repeat t :wk "previous") "e b" '("error buffer" . flycheck-buffer) "e c" '("clear" . flycheck-clear) "e l" '("list all" . flycheck-list-errors) "e g" '("goto error" . counsel-flycheck) "e y" '("copy errors" . flycheck-copy-errors-as-kill) "e s" '("select checker" . flycheck-select-checker) "e ?" '("describe checker" . flycheck-describe-checker) "e h" '("display error" . flycheck-display-error-at-point) "e e" '("explain error" . flycheck-explain-error-at-point) "e H" '("help" . flycheck-info) "e i" '("manual" . flycheck-manual) "e V" '("verify-setup" . flycheck-verify-setup) "e v" '("version" . flycheck-verify-checker) "e E" '("enable checker" . flycheck-enable-checker) "e x" '("disable checker" . flycheck-disable-checker) "e t" '("toggle flycheck" . flycheck-mode)))
Documentation
I’m interested in using devdocs instead, which is similar, but keeps it all inside Emacs (and works on my Linux system). Two Emacs projects compete for this position. The Emacs devdocs project is active, and seems to work well. Its advantage is a special mode for moving around the documentation.
(use-package devdocs :general (:states 'normal "gD" '("devdocs" . devdocs-lookup)) :config (ha-local-leader :keymaps 'prog-mode-map "d" '(:ignore t :which-key "docs") "d e" '("eldoc" . eldoc) "d d" '("open" . devdocs-lookup) "d p" '("peruse" . devdocs-peruse) "d i" '("install" . devdocs-install) "d u" '("update" . devdocs-update-all) "d x" '("uninstall" . devdocs-delete) "d s" '("search" . devdocs-search)))
The devdocs-browser project acts similar, but with slightly different command names. Its advantage is that it allows for downloading docs and having it available offline, in fact, you can’t search for a function, until you download its pack. This is slightly faster because of this.
(use-package devdocs-browser :general (:states 'normal "gD" 'devdocs-browser-open) :config (ha-local-leader :keymaps 'prog-mode-map "d" '(:ignore t :which-key "docs") "d d" '("open" . devdocs-browser-open) "d D" '("open in" . devdocs-browser-open-in) "d l" '("list" . devdocs-browser-list-docs) "d u" '("update" . devdocs-browser-update-docs) "d i" '("install" . devdocs-browser-install-doc) "d x" '("uninstall" . devdocs-browser-uninstall-doc) "d U" '("upgrade" . devdocs-browser-upgrade-doc) "d o" '("download" . devdocs-browser-download-offline-data) "d O" '("remove download" . devdocs-browser-remove-offline-data)))
Code Folding
While Emacs has options for viewing and moving around code, sometimes, we could collapse all functions, and then start to expand them one at a time. For this, we could enable the built-in hide-show feature:
(use-package hide-show :straight (:type built-in) :init (setq hs-hide-comments t hs-hide-initial-comment-block t hs-isearch-open t) :hook (prog-mode . hs-minor-mode))
Note that hide-show doesn’t work with complex YAML files. The origami mode works better out-of-the-box, as it works with Python and Lisp, but falls back to indents as the format, which works well.
(use-package origami :init (setq origami-fold-replacement "⤵") :hook (prog-mode . origami-mode))
To take advantage of this, type:
z m- To collapse everything
z r- To open everything
z o- To open a particular section
z c- To collapse a section (like a function)
z a- Toggles open to close
Note: Yes, we could use vimish-fold (and its cousin, evil-vimish-fold) and we’ll see if I need those.
Smart Parenthesis
We need to make sure we keep the smartparens project always in strict mode, because who wants to worry about paren-matching:
(use-package smartparens :custom (smartparens-global-strict-mode t) :config (sp-with-modes sp-lisp-modes ;; disable ', as it's the quote character: (sp-local-pair "'" nil :actions nil)) (sp-with-modes (-difference sp-lisp-modes sp-clojure-modes) ;; use the pseudo-quote inside strings where it serve as hyperlink. (sp-local-pair "`" "'" :when '(sp-in-string-p sp-in-comment-p) :skip-match (lambda (ms _mb _me) (cond ((equal ms "'") (not (sp-point-in-string-or-comment))) (t (not (sp-point-in-string-or-comment))))))) :hook (prog-mode . smartparens-strict-mode))
Navigation
Move by Functions
The mark-paragraph and downcase-word isn’t very useful in a programming context, and makes more sense to use them to jump around function-by-function:
(global-set-key (kbd "M-h") 'beginning-of-defun) (global-set-key (kbd "M-l") 'beginning-of-next-defun) (when (fboundp 'evil-define-key) (evil-define-key '(normal insert emacs) prog-mode-map (kbd "M-h") 'beginning-of-defun (kbd "M-l") 'beginning-of-next-defun))
But one of those functions doesn’t exist:
(defun beginning-of-next-defun (count) "Move to the beginning of the following function." (interactive "P") (end-of-defun count) (end-of-defun) (beginning-of-defun))
Tree Sitter
I’m curious about the new Tree Sitter feature now built into Emacs 29. After following along with Mickey Petersen’s Getting Started with Tree Sitter guide, I’ve concluded I currently don’t need this feature. I’m leaving the code here, but adding a :tangle no to all the blocks until I’m ready to re-investigate.
- Operating System Part
Install the binary for the tree-sitter project. For instance:
brew install tree-sitter npm # Since most support packages need that too.
The tree-sitter project does not install any language grammars by default—after all, it would have no idea which particular languages to parse and analyze!
Next, using the
tree-sittercommand line tool, create the config.json file:tree-sitter init-config
Normally, you would need to add all the projects to directory clones in
~/src, e.g.while read REPO do LOCATION=~/src/$(basename ${REPO}) if [ ! -d ${LOCATION} ] then git clone ${REPO} ${LOCATION} fi cd ${LOCATION} git pull origin npm install done <<EOL https://github.com/tree-sitter/tree-sitter-css https://github.com/tree-sitter/tree-sitter-json https://github.com/tree-sitter/tree-sitter-python https://github.com/tree-sitter/tree-sitter-bash https://github.com/tree-sitter/tree-sitter-ruby https://github.com/camdencheek/tree-sitter-dockerfile https://github.com/alemuller/tree-sitter-make https://github.com/ikatyang/tree-sitter-yaml https://github.com/Wilfred/tree-sitter-elisp EOL
Seems that Docker is a bit of an odd-ball:
mkdir -p ~/src git -C ~/src clone https://github.com/camdencheek/tree-sitter-dockerfile make -C ~/src/tree-sitter-dockerfile && \ make -C ~/src/tree-sitter-dockerfile install if [[ $(uname -n) = "Darwin" ]] then cp ~/src/tree-sitter-dockerfile/libtree-sitter-dockerfile.dylib \ ~/.emacs.d/tree-sitter else cp ~/src/tree-sitter-dockerfile/libtree-sitter-dockerfile.so \ ~/.emacs.d/tree-sitter fi
In most cases,the
npm installusually works, but I may work on some sort of various process, for instance:for TSS in ~/src/tree-sitter-* do cd $TSS NAME=$(pwd | sed 's/.*-//') git pull origin npm install || cargo build || make install # Various build processes!? echo "Do we need to copy the library into ~/.emacs.d/tree-sitter/$NAME ?" # if [ "$(uname -o)" = "Darwin" ] # then # cp libtree-sitter-$NAME.dylib ~/.emacs.d/tree-sitter # else # cp libtree-sitter-$NAME.so ~/.emacs.d/tree-sitter # fi done
At this point, we can now parse stuff using:
tree-sitter parse <source-code-file> - Emacs Part
However, Emacs already has the ability to download and install grammars, so following instructions from Mickey Petersen’s essay on using Tree-sitter with Combobulate:
(when (string-search "TREE_SITTER" system-configuration-features) (use-package treesit :straight (:type built-in) :preface (setq treesit-language-source-alist '((bash "https://github.com/tree-sitter/tree-sitter-bash") ;; (c "https://github.com/tree-sitter/tree-sitter-c/" "master" "src") (clojure "https://github.com/sogaiu/tree-sitter-clojure" "master" "src") ;; (cpp "https://github.com/tree-sitter/tree-sitter-cpp/" "master" "src") ;; (cmake "https://github.com/uyha/tree-sitter-cmake") (css "https://github.com/tree-sitter/tree-sitter-css") (dockerfile "https://github.com/camdencheek/tree-sitter-dockerfile" "main" "src") ;; From my private cloned repository: ;; (dockerfile "file:///opt/src/github/tree-sitter-dockerfile" "main" "src") ;; The Emacs Lisp Tree Sitter doesn't work with Emacs (go figure): ;; (elisp "https://github.com/Wilfred/tree-sitter-elisp") ;; (elixir "https://github.com/elixir-lang/tree-sitter-elixir" "main" "src") ;; (erlang "https://github.com/WhatsApp/tree-sitter-erlang" "main" "src") (go "https://github.com/tree-sitter/tree-sitter-go") ;; (haskell "https://github.com/tree-sitter/tree-sitter-haskell" "master" "src") (html "https://github.com/tree-sitter/tree-sitter-html") ;; (java "https://github.com/tree-sitter/tree-sitter-java" "master" "src") ;; (javascript "https://github.com/tree-sitter/tree-sitter-javascript" "master" "src") (json "https://github.com/tree-sitter/tree-sitter-json") ;; (julia "https://github.com/tree-sitter/tree-sitter-julia" "master" "src") ;; (lua "https://github.com/MunifTanjim/tree-sitter-lua" "main" "src") (make "https://github.com/alemuller/tree-sitter-make") (markdown "https://github.com/ikatyang/tree-sitter-markdown") ;; (meson "https://github.com/Decodetalkers/tree-sitter-meson" "master" "src") (python "https://github.com/tree-sitter/tree-sitter-python") (ruby "https://github.com/tree-sitter/tree-sitter-ruby" "master" "src") (rust "https://github.com/tree-sitter/tree-sitter-rust" "master" "src") (toml "https://github.com/tree-sitter/tree-sitter-toml") ;; (tsx "https://github.com/tree-sitter/tree-sitter-typescript" "master" "tsx/src") ;; (typescript "https://github.com/tree-sitter/tree-sitter-typescript" "master" "typescript/src") (yaml "https://github.com/ikatyang/tree-sitter-yaml"))) (defun mp-setup-install-grammars () "Install Tree-sitter grammars if they are absent." (interactive) (sit-for 30) (mapc #'treesit-install-language-grammar (mapcar #'car treesit-language-source-alist))) ;; Optional, but Mickey recommends. Tree-sitter enabled major ;; modes are distinct from their ordinary counterparts, however, ;; the `tree-sitter-mode' can't be enabled if we use this ;; feature. ;; ;; You can remap major modes with `major-mode-remap-alist'. Note ;; this does *not* extend to hooks! Make sure you migrate them also ;; (dolist (mapping '((bash-mode . bash-ts-mode) ;; (sh-mode . bash-ts-mode) ;; (css-mode . css-ts-mode) ;; (dockerfile-mode . dockerfile-ts-mode) ;; (json-mode . json-ts-mode) ;; (makefile-mode . makefile-ts-mode) ;; (python-mode . python-ts-mode) ;; (ruby-mode . ruby-ts-mode) ;; (yaml-mode . yaml-ts-mode))) ;; (add-to-list 'major-mode-remap-alist mapping)) ;; Can we (do we need to) update this list? ;; (add-to-list 'tree-sitter-major-mode-language-alist mapping)) :config (mp-setup-install-grammars)))
And enable the languages:
(when (treesit-available-p) (use-package tree-sitter-langs :after treesit :config (global-tree-sitter-mode)))
Combobulate
I like , but can we extend that to other languages generally? After reading Mickey Petersen’s essay, Combobulate project, I decided to try out his combobulate package. Of course, this can only work with the underlying tooling supplied by the Tree Sitter →
(when (treesit-available-p) (use-package combobulate :straight (:host github :repo "mickeynp/combobulate") :after treesit ;; :hook ((css-ts-mode . combobulate-mode) ;; (json-ts-mode . combobulate-mode) ;; (python-ts-mode . combobulate-mode) ;; (yaml-ts-mode . combobulate-mode)) ))
I can create a helper function to allow me to jump to various types of—well, types:
(when (treesit-available-p) (use-package combobulate :config (defun ha-comb-jump (&rest tree-sitter-types) "Use `avy' to jump to a particular type of element.6 " (lexical-let ((types tree-sitter-types)) (lambda () (interactive) (with-navigation-nodes (:nodes types) (combobulate-avy-jump)))))))
Now, I can create an interface of keystrokes to jump around like a boss:
(when (treesit-available-p) (use-package combobulate :general (:states 'visual :keymaps 'combobulate-key-map "o" '("mark node" . combobulate-mark-node-dwim)) ; Mark symbol since "o" doesn't do anything (:states 'normal :keymaps 'combobulate-key-map "g J" '("avy jump" . combobulate-avy) "[ [" '("prev node" . combobulate-navigate-logical-previous) "] ]" '("next node" . combobulate-navigate-logical-next) "[ f" '("prev defun" . combobulate-navigate-beginning-of-defun) "] f" '("next defun" . combobulate-navigate-end-of-defun) "[ m" '("drag back" . combobulate-drag-up) "] m" '("drag forward" . combobulate-drag-down) "[ r" '("raise" . combobulate-vanish-node) "g j" '(:ignore t :which-key "combobulate jump") "g j j" '("all" . combobulate-avy-jump) "g j s" `("strings" . ,(ha-comb-jump "string")) "g j c" `("comments" . ,(ha-comb-jump "comment")) "g j i" `("conditionals" . ,(ha-comb-jump "conditional_expression" "if_statement" "if_clause" "else_clause" "elif_clause" )) "g j l" `("loops" . ,(ha-comb-jump "for_statement" "for_in_clause" "while_statement" "list_comprehension" "dictionary_comprehension" "set_comprehension")) "g j f" '("functions" . combobulate-avy-jump-defun))))
Mickey’s interface is the combobulate function (or C-c o o), but mine is more evil.
Evil Text Object from Tree Sitter
With Emacs version 29, we get a better approach to parsing languages, and this means that our text objects can be better too with the evil-textobj-tree-sitter project:
(when (and (treesit-available-p) (fboundp 'evil-define-text-object)) (use-package evil-textobj-tree-sitter :config ;; We need to bind keys to the text objects found at: ;; https://github.com/nvim-treesitter/nvim-treesitter-textobjects#built-in-textobjects ;; bind `function.outer`(entire function block) to `f` for use in things like `vaf`, `yaf` (define-key evil-outer-text-objects-map "f" (evil-textobj-tree-sitter-get-textobj "function.outer")) ;; bind `function.inner`(function block without name and args) to `f` for use in things like `vif`, `yif` (define-key evil-inner-text-objects-map "f" (evil-textobj-tree-sitter-get-textobj "function.inner")) (define-key evil-outer-text-objects-map "c" (evil-textobj-tree-sitter-get-textobj "comment.outer")) (define-key evil-inner-text-objects-map "c" (evil-textobj-tree-sitter-get-textobj "comment.inner")) (define-key evil-outer-text-objects-map "u" (evil-textobj-tree-sitter-get-textobj "conditional.outer")) (define-key evil-inner-text-objects-map "u" (evil-textobj-tree-sitter-get-textobj "conditional.inner")) (define-key evil-outer-text-objects-map "b" (evil-textobj-tree-sitter-get-textobj "loop.outer")) (define-key evil-inner-text-objects-map "b" (evil-textobj-tree-sitter-get-textobj "loop.inner"))))
Seems the macro, evil-textobj-tree-sitter-get-textobj has a bug, so the following—which would have been easier to write—doesn’t work:
(dolist (combo '(("f" "function.outer" "function.inner") ("b" "loop.outer" "loop.inner") ;; ... ("c" "comment.outer" "comment.inner"))) (destructuring-bind (key outer inner) combo ;; bind an outer (e.g. entire function block) for use in things like `vaf`, `yaf` combo (define-key evil-outer-text-objects-map key (evil-textobj-tree-sitter-get-textobj outer)) ;; bind an inner (e.g. function block without name and args) for use in things like `vif`, `yif` (define-key evil-inner-text-objects-map key (evil-textobj-tree-sitter-get-textobj inner))))
dumb-jump
Once upon a time, we use to create a TAGS file that contained the database for navigating code bases, but with new faster versions of grep, e.g. ack, ag (aka, the Silver Searcher), ugrep and ripgrep, we should be able to use them. but I want to:
- Be in a function, and see its callers. For this, the rg-dwim function is my bread-and-butter.
- Be on a function, and jump to the definition. For this, I use dumb-jump, which uses the above utilities.
(use-package dumb-jump :config (setq dumb-jump-prefer-searcher 'rg xref-history-storage #'xref-window-local-history xref-show-definitions-function #'xref-show-definitions-completing-read) (add-hook 'xref-backend-functions #'dumb-jump-xref-activate) ;; Remove this now that https://github.com/jacktasia/dumb-jump/issues/338 ;; (defun evil-set-jump-args (&rest ns) (evil-set-jump)) ;; (advice-add 'dumb-jump-goto-file-line :before #'evil-set-jump-args) (ha-local-leader :keymaps 'prog-mode-map "s" '(:ignore t :which-key "search") "s s" '("search" . xref-find-apropos) "s d" '("definitions" . xref-find-definitions) "s o" '("other window" . xref-find-definitions-other-window) "s r" '("references" . xref-find-references) "s b" '("back" . xref-go-back) "s f" '("forward" . xref-go-forward)) :general (:states 'normal "g ." '("find def" . xref-find-definitions) "g >" '("find def o/win" . xref-find-definitions-other-window) "g ," '("def go back" . xref-go-back) "g <" '("def go forward" . xref-go-forward) "g /" '("find refs" . xref-find-references) "g ?" '("find/rep refs" . xref-find-references-and-replace) "g h" '("find apropos" . xref-find-apropos) "g b" '("def go back" . xref-go-back)))
I have two different jumping systems, the Xref interface and Evil’s. While comparable goals, they are behave different. Let’s compare evil keybindings:
M-. |
g . |
xref-find-definitions (also g d for evil-goto-definition)† |
g > |
xref-find-definitions-other-window |
|
M-, |
g , |
xref-go-back (see xref-pop-marker-stack) |
C-M-, |
g < |
xref-go-forward (kinda like xref-find-definitions) |
M-? |
g / |
xref-find-references to go from definition to code calls‡ |
g ? |
xref-find-references-and-replace could be more accurate than iEdit. | |
C-M-. |
g h |
xref-find-apropos … doesn’t work well without LSP |
C-TAB |
perform completion around point (also M-TAB), see Auto Completion. |
† Prefix to prompt for the term \ ‡ If it finds more than one definition, Emacs displays the xref buffer, allowing you to select the definition.
Language Server Protocol (LSP) Integration
The LSP is a way to connect editors (like Emacs) to languages (like Lisp)… wait, no. While originally designed for VS Code and probably Python, we can abstract away Jedi and the Emacs integration to Jedi (and duplicate everything for Ruby, and Clojure, and…).
Emacs has two LSP projects, and while I have used , but since I don’t have heavy IDE requirements, I am finding that to be simpler.
LSP
(use-package lsp-mode :commands (lsp lsp-deferred) :init ;; Let's make lsp-doctor happy with these settings: (setq gc-cons-threshold (* 100 1024 1024) read-process-output-max (* 1024 1024) company-idle-delay 0.0 ; Are thing fast enough to do this? lsp-keymap-prefix "s-m") :config (global-set-key (kbd "s-m") 'lsp) (ha-local-leader :keymaps 'prog-mode-map "w" '(:ignore t :which-key "lsp") "l" '(:ignore t :which-key "lsp") "ws" '("start" . lsp)) ;; The following leader-like keys, are only available when I have ;; started LSP, and is an alternate to Command-m: :general (:states 'normal :keymaps 'lsp-mode-map ", w r" '("restart" . lsp-reconnect) ", w b" '("events" . lsp-events-buffer) ", w e" '("errors" . lsp-stderr-buffer) ", w q" '("quit" . lsp-shutdown) ", w Q" '("quit all" . lsp-shutdown-all) ", l r" '("rename" . lsp-rename) ", l f" '("format" . lsp-format) ", l a" '("actions" . lsp-code-actions) ", l i" '("imports" . lsp-code-action-organize-imports) ", l d" '("doc" . lsp-lookup-documentation)) :hook ((lsp-mode . lsp-enable-which-key-integration)))
I will want to start adding commands under my , mode-specific key sequence leader, but in the meantime, all LSP-related keybindings are available under ⌘-m. See this page for the default keybindings.
UI
The lsp-ui project offers much of the display and interface to LSP. Seems to make the screen cluttered.
(use-package lsp-ui :commands lsp-ui-mode :config (setq lsp-ui-sideline-ignore-duplicate t lsp-ui-sideline-show-hover t lsp-ui-sideline-show-diagnostics t) :hook (lsp-mode . lsp-ui-mode))
Treemacs
(use-package lsp-treemacs :commands lsp-treemacs-errors-list :bind (:map prog-mode-map ("s-)" . treemacs)) (:map treemacs-mode-map ("s-)" . treemacs)) :config (lsp-treemacs-sync-mode 1))
Company Completion
The company-lsp offers a company completion backend for lsp-mode:
(use-package company-lsp :config (push 'company-lsp company-backends))
To options that might be interesting:
company-lsp-async: When set to non-nil, fetch completion candidates asynchronously.company-lsp-enable-snippet: Set it to non-nil if you want to enable snippet expansion on completion. Set it to nil to disable this feature.
iMenu
The lsp-imenu project offers a lsp-ui-imenu function for jumping to functions:
(use-package lsp-ui-imenu :straight nil :after lsp-ui :config (ha-local-leader :keymaps 'prog-mode-map "g" '(:ignore t :which-key "goto") "g m" '("imenu" . lsp-ui-imenu)) (add-hook 'lsp-after-open-hook 'lsp-enable-imenu))
Display Configuration
Using the Doom Modeline to add notifications:
(use-package doom-modeline :config (setq doom-modeline-lsp t doom-modeline-env-version t))
Function Call Notifications
As I've mentioned on my website, I've created a beep function that notifies when long running processes complete.
(use-package alert :init (setq alert-default-style (if (ha-running-on-macos?) 'osx-notifier 'libnotify))) (use-package beep :straight nil ; Already in the load-path :hook (after-init . (lambda () (beep-when-finished "Emacs has started." "Eemacs has started"))) :config (dolist (func '(org-publish org-publish-all org-publish-project compile shell-command)) (advice-add func :around #'beep-when-runs-too-long)))
While that code advices the publishing and compile commands, I may want to add more.
iEdit
While there are language-specific ways to rename variables and functions, iedit is often sufficient.
(use-package iedit :config (ha-leader "s e" '("iedit" . iedit-mode)))
While iedit acts a little odd with Evil, the evil-iedit-state project attempts to makes the interface more intuitive.
This creates both an iedit and iedit-insert states. Calling Escape from iedit-insert goes to iedit, and hitting it again, will go back to normal state.
To use, highlight a region with v, and continue to hit v until you’ve selected the variable/symbol, and then type e. Or, highlight normally, e.g. v i o, and hit E:
(when (fboundp 'evil-mode) (use-package evil-iedit-state :after iedit :general (:states 'visual "E" '("iedit" . evil-iedit-state/iedit-mode))))
The iedit-insert state is pretty much regular insert state, so the interesting keys are in iedit state:
0/$- jump to beginning/end of the “occurrence”
n/N- jump to next / previous occurrence
I/A- jump to beginning/end of occurrence and go into
iedit-insertmode (obviouslyaandido too) #- highlights all the matching occurrences
F- restricts to the current function
Case Conversion
The string-inflection project (see this overview) converts symbol variables to appropriate format for the mode. This replaces my home-brewed functions.
(use-package string-inflection :general (:states '(normal visual motion operator) "z s" '("to snake case" . string-inflection-underscore) "z S" '("to Snake Case" . string-inflection-upcase) "z c" '("to camelCase" . string-inflection-lower-camelcase) "z C" '("to CamelCase" . string-inflection-camelcase) "z -" '("to kebab case" . string-inflection-kebab-case) "z z" '("toggle snake/camel" . string-inflection-all-cycle)))
I would like to have this bound on the g sequence, but that is crowded.
Note that g u (for lower-casing stuff), and g U (for up-casing) requires something, for instance g U i o upper-cases the symbol at point. These functions, however, only work with a symbol (which is the typical case).
Commenting
I like comment-dwim (M-;), and I like comment-box, but I have an odd personal style that I like to codify:
(defun ha-comment-line (&optional start end) "Comment a line or region with a block-level format. Calls `comment-region' with START and END set to the region or the start and end of the line." (interactive) (when (or (null start) (not (region-active-p))) (setq start (line-beginning-position)) (setq end (line-end-position))) (save-excursion (narrow-to-region start end) (upcase-region start end) (goto-char (point-min)) (insert "------------------------------------------------------------------------\n") (goto-char (point-max)) (insert "\n------------------------------------------------------------------------") (comment-region (point-min) (point-max)) (widen)))
And a keybinding:
(ha-local-leader :keymaps 'prog-mode-map "c" '(:ignore t :which-key "comment") "c l" '("comment line" . ha-comment-line))
Evaluation
While I like eval-print-last-sexp, I would like a bit of formatting in order to keep the results in the file.
(defun ha-eval-print-last-sexp (&optional internal-arg) "Evaluate the expression located before the point. Insert results back into the buffer at the end of the line after a comment." (interactive) (save-excursion (eval-print-last-sexp internal-arg)) (end-of-line) (insert " ") (insert comment-start) (insert "⟹ ") (dotimes (i 2) (next-line) (join-line)))
Typical keybindings for all programming modes:
(ha-local-leader :keymaps 'prog-mode-map "e" '(:ignore t :which-key "eval") "e ;" '("expression" . eval-expression) "e b" '("buffer" . eval-buffer) "e f" '("function" . eval-defun) "e r" '("region" . eval-region) "e e" '("eval exp" . eval-last-sexp) "e p" '("print s-exp" . ha-eval-print-last-sexp))
Ligatures
The idea of using math symbols for a programming languages keywords is cute, but can be confusing, so I use it sparingly:
(defun ha-prettify-prog () "Extends the `prettify-symbols-alist' for programming." (mapc (lambda (pair) (push pair prettify-symbols-alist)) '(("lambda" . "𝝀") (">=" . "≥") ("<=" . "≤") ("!=" . "≠"))) (prettify-symbols-mode)) (add-hook 'prog-mode-hook 'ha-prettify-prog)
Hopefully I can follow Mickey Petersen's essay on getting full ligatures working, but right now, they don’t work on the Mac, and that is my current workhorse.
(use-package ligature :config ;; Enable the "www" ligature in every possible major mode (ligature-set-ligatures 't '("www")) ;; Enable traditional ligature support in eww-mode, if the ;; `variable-pitch' face supports it (ligature-set-ligatures '(org-mode eww-mode) '("ff" "fi" "ffi")) (ligature-set-ligatures '(html-mode nxml-mode web-mode) '("<!--" "-->" "</>" "</" "/>" "://")) ;; Create a new ligature: (ligature-set-ligatures 'markdown-mode '(("=" (rx (+ "=") (? (| ">" "<")))) ("-" (rx (+ "-"))))) ;; Enable all Cascadia Code ligatures in programming modes (ligature-set-ligatures 'prog-mode '("|||>" "<|||" "<==>" "<!--" "####" "~~>" "***" "||=" "||>" ":::" "::=" "=:=" "===" "==>" "=!=" "=>>" "=<<" "=/=" "!==" "!!." ">=>" ">>=" ">>>" ">>-" ">->" "->>" "-->" "---" "-<<" "<~~" "<~>" "<*>" "<||" "<|>" "<$>" "<==" "<=>" "<=<" "<->" "<--" "<-<" "<<=" "<<-" "<<<" "<+>" "</>" "###" "#_(" "..<" "..." "+++" "/==" "///" "_|_" "www" "&&" "^=" "~~" "~@" "~=" "~>" "~-" "**" "*>" "*/" "||" "|}" "|]" "|=" "|>" "|-" "{|" "[|" "]#" "::" ":=" ":>" ":<" "$>" "==" "=>" "!=" "!!" ">:" ">=" ">>" ">-" "-~" "-|" "->" "--" "-<" "<~" "<*" "<|" "<:" "<$" "<=" "<>" "<-" "<<" "<+" "</" "#{" "#[" "#:" "#=" "#!" "##" "#(" "#?" "#_" "%%" ".=" ".-" ".." ".?" "+>" "++" "?:" "?=" "?." "??" ";;" "/*" "/=" "/>" "//" "__" "~~" "(*" "*)" "\\\\" "://")) ;; Enables ligature checks globally in all buffers. You can also do it ;; per mode with `ligature-mode'. (global-ligature-mode t))
Until I can get Harfbuzz support on my Emacs-Plus build of Mac, the following work-around seems to mostly work:
(defun ha-mac-litagure-workaround () "Implement an old work-around for ligature support. This kludge seems to only need to be set for my Mac version of Emacs, since I can't build it with Harfuzz support." (let ((alist '((33 . ".\\(?:\\(?:==\\|!!\\)\\|[!=]\\)") (35 . ".\\(?:###\\|##\\|_(\\|[#(?[_{]\\)") (36 . ".\\(?:>\\)") (37 . ".\\(?:\\(?:%%\\)\\|%\\)") (38 . ".\\(?:\\(?:&&\\)\\|&\\)") (42 . ".\\(?:\\(?:\\*\\*/\\)\\|\\(?:\\*[*/]\\)\\|[*/>]\\)") (43 . ".\\(?:\\(?:\\+\\+\\)\\|[+>]\\)") (45 . ".\\(?:\\(?:-[>-]\\|<<\\|>>\\)\\|[<>}~-]\\)") (46 . ".\\(?:\\(?:\\.[.<]\\)\\|[.=-]\\)") (47 . ".\\(?:\\(?:\\*\\*\\|//\\|==\\)\\|[*/=>]\\)") (48 . ".\\(?:x[a-zA-Z]\\)") (58 . ".\\(?:::\\|[:=]\\)") (59 . ".\\(?:;;\\|;\\)") (60 . ".\\(?:\\(?:!--\\)\\|\\(?:~~\\|->\\|\\$>\\|\\*>\\|\\+>\\|--\\|<[<=-]\\|=[<=>]\\||>\\)\\|[*$+~/<=>|-]\\)") (61 . ".\\(?:\\(?:/=\\|:=\\|<<\\|=[=>]\\|>>\\)\\|[<=>~]\\)") (62 . ".\\(?:\\(?:=>\\|>[=>-]\\)\\|[=>-]\\)") (63 . ".\\(?:\\(\\?\\?\\)\\|[:=?]\\)") (91 . ".\\(?:]\\)") (92 . ".\\(?:\\(?:\\\\\\\\\\)\\|\\\\\\)") (94 . ".\\(?:=\\)") (119 . ".\\(?:ww\\)") (123 . ".\\(?:-\\)") (124 . ".\\(?:\\(?:|[=|]\\)\\|[=>|]\\)") (126 . ".\\(?:~>\\|~~\\|[>=@~-]\\)")))) (dolist (char-regexp alist) (set-char-table-range composition-function-table (car char-regexp) `([,(cdr char-regexp) 0 font-shape-gstring]))))) (unless (s-contains? "HARFBUZZ" system-configuration-features) (add-hook 'prog-mode-hook #'ha-mac-litagure-workaround))
The unicode-fonts package rejigs the internal tables Emacs uses to pick better fonts for unicode codepoint ranges.
(use-package unicode-fonts :config (ignore-errors (unicode-fonts-setup)))
Compiling
The compile function lets me enter a command to run, or I can search the history for a previous run. What it doesn’t give me, is a project-specific list of commands. Perhaps, for each project, I define in .dir-locals.el a variable, compile-command-list, like:
((nil . ((compile-command . "make -k ") (compile-command-list . ("ansible-playbook playbooks/confluence_test.yml" "ansible-playbook playbooks/refresh_inventory.yml")))))
To make the compile-command-list variable less risky, we need to declare it:
(defvar compile-command-list nil "A list of potential commands to give to `ha-project-compile'.") (defun ha-make-compile-command-list-safe () "Add the current value of `compile-command-list' safe." (interactive) (add-to-list 'safe-local-variable-values `(compile-command-list . ,compile-command-list)))
What compile commands should I have on offer? Along with the values in compile-command-list (if set), I could look at files in the project’s root and get targets from a Makefile, etc. We’ll use helper functions I define later:
(defun ha--compile-command-list () "Return list of potential commands for a project." (let ((default-directory (project-root (project-current)))) ;; Make a list of ALL the things. ;; Note that `concat' returns an empty string if you give it null, ;; so we use `-concat' the dash library: (-concat compile-history (ha--makefile-completions) (ha--toxfile-completions) (when (and (boundp 'compile-command-list) (listp compile-command-list)) compile-command-list))))
My replacement to compile uses my new completing-read function:
(defun ha-project-compile (command) "Run `compile' from a list of directory-specific commands." (interactive (list (completing-read "Compile command: " (ha--compile-command-list) nil nil "" 'compile-history))) (let ((default-directory (project-root (project-current)))) (cond ((string-match rx-compile-to-vterm command) (ha-compile-vterm command)) ((string-match rx-compile-to-eshell command) (ha-compile-eshell command)) (t (compile command)))))
If I end a command with a |v, it sends the compile command to a vterm session for the project, allowing me to continue the commands:
(defvar rx-compile-to-vterm (rx "|" (0+ space) "v" (0+ space) line-end)) (defun ha-compile-vterm (full-command &optional project-dir) (unless project-dir (setq project-dir (project-name (project-current)))) ;; (add-to-list 'compile-history full-command) (let ((command (replace-regexp-in-string rx-compile-to-vterm "" full-command))) (ha-ssh-send command project-dir)))
And what about sending the command to Eshell as well?
(defvar rx-compile-to-eshell (rx "|" (0+ space) "s" (0+ space) line-end)) (defun ha-compile-eshell (full-command &optional project-dir) "Send a command to the currently running Eshell terminal. If a terminal isn't running, it will be started, allowing follow-up commands." (unless project-dir (setq project-dir (project-name (project-current)))) (let ((command (replace-regexp-in-string rx-compile-to-eshell "" full-command))) (ha-eshell-send command project-dir)))
And let’s add it to the Project leader:
(ha-leader "p C" 'ha-project-compile)
Note that p c (to call recompile) should still work.
Other people’s projects:
- makefile-executor.el
- works only with Makefiles
- imake
- works only with Makefiles that are formatted with a
help:target - Taskrunner project
- requires ivy or helm, but perhaps I could use the underlying infrastructure to good ol’ completing-read
Note: Someday I may want to convert my Makefile projects to Taskfile.
Makefile Completion
This magic script is what Bash uses for completion when you type make and hit the TAB:
make -qRrp : 2> /dev/null | awk -F':' '/^[a-zA-Z0-9][^$#\\/\\t=]*:([^=]|$)/ {split($1,A,/ /);for(i in A)print A[i]}'
Which makes it easy to get a list of completions for my compile function:
(defun ha--makefile-completions () "Returns a list of targets from the Makefile in the current directory." (when (file-exists-p "Makefile") (--map (format "make -k %s" it) (shell-command-to-list "make -qRrp : 2> /dev/null | awk -F':' '/^[a-zA-Z0-9][^$#\\/\\t=]*:([^=]|$)/ {split($1,A,/ /);for(i in A)print A[i]}'"))))
Python Tox Completion
Let’s just grab the environments to run:
(defun ha--toxfile-completions () "Returns a list of targets from the tox.ini in the current directory." (when (file-exists-p "tox.ini") (--map (format "tox -e %s" it) (shell-command-to-list "tox -a"))))
Languages
Simple to configure languages go here. More advanced languages go into their own files… eventually.
Configuration Files
So many configuration files to track:
(use-package conf-mode :mode (("\\.conf\\'" . conf-space-mode) ("\\.repo\\'" . conf-unix-mode) ("\\.setup.*\\'" . conf-space-mode)))
JSON
While interested in the tree-sitter extensions for JSON, e.g. json-ts-mode, that comes with Emacs 29, I’ll deal with what is bundled now.
However, what about taking a buffer of JSON data, and whittling it down with jq?
(defun ha-json-buffer-to-jq (query) "Runs JSON buffer with QUERY through an external `jq' program. Attempts to find the first JSON object in the buffer, and limits the data to that region. The `jq' program is the first found in the standard path." (interactive "sjq Query: ") (let (s e) (save-excursion (if (region-active-p) (setq s (region-beginning) e (region-end)) (goto-char (point-min)) (unless (looking-at "{") (re-search-forward "{") (goto-char (match-beginning 0))) (setq s (point)) ;; Jump forward using the evil-jump-item ... change this to one ;; of the functions in thing-at-point? (when (fboundp 'evil-jump-item) (evil-jump-item)) (setq e (1+ (point)))) ;; (narrow-to-region s e) (shell-command-on-region s e (concat "jq " query) nil t "*jq errors*")))) (ha-local-leader :keymaps '(js-json-mode-map json-ts-mode-map) "j" 'ha-json-buffer-to-jq)
This means, that some data like:
{
"common_id": "GMC|F2BADC23|64D52BF7|awardlateengine",
"data": {
"name": "Create And Wait for Service Image",
"description": "Creates a new Service Image using IMaaS",
"long_description": "This job creates a new yawxway service image with name yawxway-howard.abrams-test and docker-dev-artifactory.workday.com/dev/yawxway-service:latest docker url in development folder",
"job_id": "5e077245-0f4a-4dc9-b473-ce3ec0b811ba",
"state": "success",
"progress": "100",
"timeout": {
"seconds": 300,
"strategy": "real_time",
"elapsed": 1291.8504
},
"started_at": "2023-08-10T16:20:49Z",
"finished_at": "2023-08-10T16:42:20Z",
"links": [
{
"rel": "child-4aa5978c-4537-4aa9-9568-041ad97c2374",
"href": "https://eng501.garmet.howardism.org/api/jobs/4aa5978c-4537-4aa9-9568-041ad97c2374"
},
{
"rel": "project",
"href": "https://eng501.garmet.howardism.org/api/projects/8abe0f6e-161e-4423-ab27-d4fb0d5cfd0c"
},
{
"rel": "details",
"href": "https://eng501.garmet.howardism.org/api/jobs/5e077245-0f4a-4dc9-b473-ce3ec0b811ba/details"
}
],
"tags": [
"foobar", "birdie"
],
"progress_comment": null,
"children": [
{
"id": "4aa5978c-4537-4aa9-9568-041ad97c2374"
}
]
},
"status": "SUCCESS"
}
I can type, , j and then type .data.timeout.seconds and end up with:
300
Markdown
Most project README files and other documentation use markdown-mode. Note that the preview is based on multimarkdown, when needs to be pre-installed, for instance:
brew install multimarkdown
Also, I like Markdown is look like a word processor, similarly to my org files:
(use-package markdown-mode :straight (:host github :repo "jrblevin/markdown-mode") :mode ((rx ".md" string-end) . gfm-mode) :init (setq markdown-command "multimarkdown" markdown-header-scaling t) :hook (markdown-mode . variable-pitch-mode) :general (:states 'normal :no-autoload t :keymaps 'markdown-mode-map ", l" '("insert link" . markdown-insert-link) ; Also C-c C-l ", i" '("insert image" . markdown-insert-image) ; Also C-c C-i ;; SPC u 3 , h for a third-level header: ", h" '("insert header" . markdown-insert-header-dwim) ", t" '(:ignore t :which-key "toggles") ", t t" '("toggle markup" . markdown-toggle-markup-hiding) ", t u" '("toggle urls" . markdown-toggle-markup-url-hiding) ", t i" '("toggle images" . markdown-toggle-markup-inline-images) ", t m" '("toggle math" . markdown-toggle-markup-math-hiding) ", d" '("do" . markdown-do) ", e" '("export" . markdown-export) ", p" '("preview" . markdown-preview)))
Note that the markdown-specific commands use the C-c C-c and C-c C-s prefixes.
With the markdown-header-scaling set, we no longer need to color the headers in Markdown.
(use-package markdown-mode :config (when window-system (let ((default-color (face-attribute 'default :foreground))) (set-face-attribute 'markdown-header-face nil :font ha-variable-header-font :foreground default-color))))
Using polymode, let’s add syntax coloring to Markdown code blocks similar to what we do with Org:
(use-package polymode :config (define-hostmode poly-markdown-hostmode :mode 'markdown-mode) (define-auto-innermode poly-markdown-fenced-code-innermode :head-matcher (cons "^[ \t]*\\(```{?[[:alpha:]].*\n\\)" 1) :tail-matcher (cons "^[ \t]*\\(```\\)[ \t]*$" 1) :mode-matcher (cons "```[ \t]*{?\\(?:lang *= *\\)?\\([^ \t\n;=,}]+\\)" 1) :head-mode 'host :tail-mode 'host) (define-polymode poly-markdown-mode :hostmode 'poly-markdown-hostmode :innermodes '(poly-markdown-fenced-code-innermode)) :mode ((rx ".md" string-end) . poly-markdown-mode))
ReStructured Text
Support for reStructuredText is well supported in Emacs.
(use-package rst :hook (rst-mode . variable-pitch-mode) :config (set-face-attribute 'rst-literal nil :font ha-fixed-font))
YAML
Doing a lot of YAML work, but this yaml-mode project needs a new maintainer, so I’ve switch to yaml-pro that is now based on Tree Sitter. Let’s make sure the Tree-Sitter version works:
(when (treesit-available-p) (use-package yaml-ts-mode :mode ((rx ".y" (optional "a") "ml" string-end) (rx (optional ".") "yamllint")) :hook (yaml-ts-mode . display-line-numbers-mode)))
Get the latest version of yaml-mode:
(use-package yaml-mode :mode (rx ".y" (optional "a") "ml" string-end) (rx (optional ".") "yamllint") :hook (yaml-mode . display-line-numbers-mode))
And we hook
(use-package yaml-pro :straight (:host github :repo "zkry/yaml-pro") :after yaml-mode :hook (yaml-mode . yaml-pro-mode))
This comes with a list of nice refactoring features that we can attach to the local leader:
(when (treesit-available-p) (use-package yaml-pro :config (ha-local-leader :keymaps 'yaml-pro-ts-mode-map "u" '("up" . yaml-pro-ts-up-level) ; C-c C-u "j" '("next" . yaml-pro-ts-next-subtree) ; C-c C-n "k" '("previous" . yaml-pro-ts-prev-subtree) ; C-c C-p "m" '("mark tree" . yaml-pro-ts-mark-subtree) ; C-c C-@ "d" '("kill subtree" . yaml-pro-kill-subtree) ; C-c C-x C-w "y" '("paste tree" . yaml-pro-ts-paste-subtree) ; C-c C-x C-y "'" '("edit" . yaml-pro-edit-ts-scalar) ; C-c ' "r" '(:ignore t :which-key "refactor") "r k" '("move up" . yaml-pro-ts-move-subtree-up) ; s-↑ "r j" '("move down" . yaml-pro-ts-move-subtree-down) ; s-↓ ;; "r " '("" . yaml-pro-ts-meta-return) ; M-<return> "r c" '("convolute" . yaml-pro-ts-convolute-tree) ; M-? "r i" '("indent" . yaml-pro-ts-indent-subtree) ; C-c > "r o" '("outdent" . yaml-pro-ts-unindent-subtree)))) ; C-c <
Seems like I need a predicate to check for the existence of Tree Sitter support?
Note that these packages need the following to run properly:
pip install yamllint
Jinja2
A lot of projects (like Ansible and Zuul) uses Jinja2 with YAML, so we install the jinja2-mode:
(use-package jinja2-mode :mode (rx ".j2" string-end))
Jinja is a templating system that integrates inside formats like JSON, HTML or YAML. The polymode project glues modes like jinja2-mode to yaml-mode.
I adapted this code from the poly-ansible project:
(use-package polymode :config (define-hostmode poly-yaml-hostmode :mode 'yaml-mode) (defcustom pm-inner/jinja2 (pm-inner-chunkmode :mode #'jinja2-mode :head-matcher "{[%{#][+-]?" :tail-matcher "[+-]?[%}#]}" :head-mode 'body :tail-mode 'body :head-adjust-face t) "Jinja2 chunk." :group 'innermodes :type 'object) (define-polymode poly-yaml-jinja2-mode :hostmode 'poly-yaml-hostmode :innermodes '(pm-inner/jinja2)) :mode ((rx ".y" (optional "a") "ml" string-end) . poly-yaml-jinja2-mode))
Ansible
Do I consider all YAML files an Ansible file needing ansible-mode? Maybe we just have a toggle for when we want the Ansible feature.
(use-package ansible :straight (:host github :repo "k1LoW/emacs-ansible") :defer t :mode ((rx (or "playbooks" "roles") (one-or-more any) ".y" (optional "a") "ml") . ansible-mode) :config (setq ansible-vault-password-file "~/.ansible-vault-passfile") (ha-leader "t y" 'ansible))
The ansible-vault-password-file variable needs to change per project, so let’s use the .dir-locals.el file, for instance:
((nil . ((ansible-vault-password-file . "playbooks/.vault-password"))))
The YAML files get access Ansible’s documentation using the ansible-doc project:
(use-package ansible-doc :hook (ansible-mode . ansible-doc-mode) :after ansible :config (ha-local-leader :keymaps 'ansible-key-map "d" '(:ignore t :which-key "docs") "d d" 'ansible-doc))
Can we integrate Ansible with LSP using ansible-language-server project (see this documentation)?
Using npm to install the program:
npm install -g @ansible/ansible-language-server
But … will I get some use out of this? I’ll come back to it later.
Docker
Edit Dockerfiles with the dockerfile-mode project:
(use-package dockerfile-mode :mode (rx string-start "Dockerfile") :config (make-local-variable 'docker-image-name) (defvaralias 'docker-image-name 'dockerfile-image-name nil) (ha-local-leader :keymaps 'dockerfile-mode-map "b" '("build" . dockerfile-build-buffer) "B" '("build no cache" . dockerfile-build-no-cache-buffer) "t" '("insert build tag" . ha-dockerfile-build-insert-header)) (defun ha-dockerfile-build-insert-header (image-name) "Prepends the default Dockerfile image name at the top of a file." (interactive "sDefault image name: ") (save-excursion (goto-char (point-min)) (insert (format "## -*- dockerfile-image-name: \"%s\" -*-" image-name)) (newline))))
Control Docker from Emacs using the docker.el project:
(use-package docker :commands docker :config (ha-leader "a d" 'docker))
Unclear whether I want to Tramp into a running container:
(use-package docker-tramp :defer t :after docker)
Shell Scripts
While I don't like writing them, I can't get away from them. Check out the goodies in this video.
While filename extensions work fine most of the time, I don't like to pre-pend .sh to the shell scripts I write, and instead, would like to associate shell-mode with all files in a bin directory:
(use-package sh-mode :straight (:type built-in) :mode (rx (or (seq ".sh" eol) "/bin/")) :init (setq sh-basic-offset 2 sh-indentation 2) :config (ha-auto-insert-file (rx (or (seq ".sh" eol) "/bin/")) "sh-mode.sh") :hook (after-save . executable-make-buffer-file-executable-if-script-p))
Note: we make the script executable by default. See this essay for details, but it turns on the executable bit if the script has a shebang at the top of the file.
The shellcheck project integrates with Flycheck. First, install the executable into the system, for instance, on a Mac:
brew install shellcheck
And we can enable it:
(flycheck-may-enable-checker 'sh-shellcheck)
Place the following on a line before a shell script warning to ignore it:
# shellcheck disable=SC2116,SC2086
See this page for details.
Integration with the Bash LSP implementation. First, install that too:
brew install bash-language-server
Fish Shell
I think the fish shell is an interesting experiment (and I appreciate the basics that come with fish-mode).
(use-package fish-mode :mode (rx ".fish" eol) :config (ha-auto-insert-file (rx ".fish") "fish-mode.sh") :hook (fish-mode . (lambda () (add-hook 'before-save-hook 'fish_indent-before-save))))