;;; evil-collection-lispy.el --- Evil Bindings for Lispy -*- lexical-binding: t; -*- ;; Copyright (C) 2019 James Nguyen ;; Author: James Nguyen ;; Maintainer: James Nguyen ;; Pierre Neidhardt ;; URL: https://github.com/emacs-evil/evil-collection ;; Version: 0.0.1 ;; Package-Requires: ((emacs "25.1")) ;; Keywords: evil, lispy, tools ;; This program is free software; you can redistribute it and/or modify ;; it under the terms of the GNU General Public License as published by ;; the Free Software Foundation, either version 3 of the License, or ;; (at your option) any later version. ;; This program is distributed in the hope that it will be useful, ;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;; GNU General Public License for more details. ;; You should have received a copy of the GNU General Public License ;; along with this program. If not, see . ;;; Commentary: ;; Evil bindings for `lispy-mode'. ;;; Code: (require 'lispy nil t) (require 'evil-collection) (defconst evil-collection-lispy-maps '(lispy-mode-map evil-collection-lispy-mode-map)) (defvar lispy-mode-map-base) (defvar lispy-mode-map-special) (defvar lispy-mode-map-lispy) (defvar lispy-mode-map-paredit) (defvar lispy-mode-map-parinfer) (defvar lispy-mode-map-evilcp) (defvar lispy-mode-map-c-digits) (defvar lispy-mode-map-oleh) (defvar lispy-mode-map) (defvar lispy-outline) (defvar lispy-outline-header) (defvar hydra-curr-body-fn) (declare-function lispy--out-backward "lispy") (declare-function lispy--out-forward "lispy") (declare-function hydra-default-pre "lispy") (declare-function hydra-keyboard-quit "lispy") (declare-function hydra--call-interactively-remap-maybe "lispy") (declare-function lispy-knight-down "lispy") (declare-function lispy-knight-up "lispy") (declare-function lispy-beginning-of-defun "lispy") (declare-function lispy-goto "lispy") (declare-function lispy-goto-local "lispy") (declare-function hydra-idle-message "lispy") (declare-function hydra-set-transient-map "lispy") (declare-function lispy-tab "lispy") (declare-function lispy-shifttab "lispy") (declare-function lispy-left-p "lispy") (declare-function lispy-right-p "lispy") (declare-function lispy-bolp "lispy") (declare-function lispy-down "lispy") (declare-function lispy-new-copy "lispy") (declare-function lispy-delete "lispy") (declare-function lispy-delete-backward "lispy") (declare-function lispy-define-key "lispy") (declare-function lispy-set-key-theme "lispy") ;; ------------------------------- LISPYVILLE ---------------------------------- ;; Copied from `lispyville'. ;; -> `lispyville-preferred-lispy-state' (defcustom evil-collection-lispy-preferred-lispy-state 'insert "The preferred evil state for insertion and using lispy. This is used by any command that should enter special to determine the correct state." :type '(choice (const :tag "Use insert state to get into special." insert) (const :tag "Use emacs state to get into special." emacs)) :group 'evil-collection) ;; -> `lispyville-insert-at-beginning-of-list' (evil-define-command evil-collection-lispy-insert-at-beginning-of-list (count) "Enter `evil-collection-lispy-preferred-lispy-state' at the beginning of the current list. With COUNT, move backward/out COUNT lists first. This is the lispyville equivalent of `evil-cp-insert-at-beginning-of-form' except for lists only." (interactive "") (when (lispy--out-backward (or count 1)) (forward-char) (evil-change-state evil-collection-lispy-preferred-lispy-state))) ;; -> `lispyville-insert-at-end-of-list' (evil-define-command evil-collection-lispy-insert-at-end-of-list (count) "Enter `lispyville-preferred-state' at the end of the current list. With COUNT, move forward/out COUNT lists first. This is the lispyville equivalent of `evil-cp-insert-at-end-of-form' except for lists only." (interactive "") (when (evil-collection-lispy--out-forward (or count 1)) (backward-char) (evil-change-state evil-collection-lispy-preferred-lispy-state))) ;; -> `lispyville--out-forward' (defun evil-collection-lispy--out-forward (count) "Like `lispyville--out-forward' but don't return nil if move at least once. COUNT is passed to `lispy--out-forward'." (let ((orig-pos (point))) (lispy--out-forward count) (not (= (point) orig-pos)))) ;; ------------------------------- LISPYVILLE ---------------------------------- ;; ------------------------------- HYDRA --------------------------------------- (when (featurep 'hydra) ;; (defhydra g-knight (:color blue :hint nil :idle .3 :columns 3) ;; "g knight" ;; ("j" lispy-knight-down "Down") ;; ("k" lispy-knight-up "Up") ;; ("g" lispy-beginning-of-defun "Beginning") ;; ("d" lispy-goto "Goto") ;; ("l" lispy-goto-local "Goto Local")) ;; Macroexpanded from g-knight hydra. (progn (set (defvar g-knight/params nil "Params of g-knight.") '(nil nil :columns 3 :exit t :foreign-keys nil :hint nil :idle 0.3)) (set (defvar g-knight/docstring nil "Docstring of g-knight.") "g knight") (set (defvar g-knight/heads nil "Heads for g-knight.") '(("j" lispy-knight-down "Down" :exit t) ("k" lispy-knight-up "Up" :exit t) ("g" lispy-beginning-of-defun "Beginning" :exit t) ("d" lispy-goto "Goto" :exit t) ("l" lispy-goto-local "Goto Local" :exit t))) (set (defvar g-knight/keymap nil "Keymap for g-knight.") '(keymap (108 . g-knight/lispy-goto-local-and-exit) (100 . g-knight/lispy-goto-and-exit) (103 . g-knight/lispy-beginning-of-defun-and-exit) (107 . g-knight/lispy-knight-up-and-exit) (106 . g-knight/lispy-knight-down-and-exit) (kp-subtract . hydra--negative-argument) (kp-9 . hydra--digit-argument) (kp-8 . hydra--digit-argument) (kp-7 . hydra--digit-argument) (kp-6 . hydra--digit-argument) (kp-5 . hydra--digit-argument) (kp-4 . hydra--digit-argument) (kp-3 . hydra--digit-argument) (kp-2 . hydra--digit-argument) (kp-1 . hydra--digit-argument) (kp-0 . hydra--digit-argument) (57 . hydra--digit-argument) (56 . hydra--digit-argument) (55 . hydra--digit-argument) (54 . hydra--digit-argument) (53 . hydra--digit-argument) (52 . hydra--digit-argument) (51 . hydra--digit-argument) (50 . hydra--digit-argument) (49 . hydra--digit-argument) (48 . hydra--digit-argument) (45 . hydra--negative-argument) (21 . hydra--universal-argument))) (set (defvar g-knight/hint nil "Dynamic hint for g-knight.") '(format #("g knight: j: Down k: Up g: Beginning d: Goto l: Goto Local" 10 11 (face hydra-face-blue) 24 25 (face hydra-face-blue) 38 39 (face hydra-face-blue) 51 52 (face hydra-face-blue) 65 66 (face hydra-face-blue)))) (defun g-knight/lispy-knight-down-and-exit nil "Call the head `lispy-knight-down' in the \"g-knight\" hydra. The heads for the associated hydra are: \"j\": `lispy-knight-down', \"k\": `lispy-knight-up', \"g\": `lispy-beginning-of-defun', \"d\": `lispy-goto', \"l\": `lispy-goto-local' The body can be accessed via `g-knight/body'." (interactive) (require 'hydra) (hydra-default-pre) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'g-knight/body) (progn (setq this-command 'lispy-knight-down) (hydra--call-interactively-remap-maybe (function lispy-knight-down)))) (defun g-knight/lispy-knight-up-and-exit nil "Call the head `lispy-knight-up' in the \"g-knight\" hydra. The heads for the associated hydra are: \"j\": `lispy-knight-down', \"k\": `lispy-knight-up', \"g\": `lispy-beginning-of-defun', \"d\": `lispy-goto', \"l\": `lispy-goto-local' The body can be accessed via `g-knight/body'." (interactive) (require 'hydra) (hydra-default-pre) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'g-knight/body) (progn (setq this-command 'lispy-knight-up) (hydra--call-interactively-remap-maybe (function lispy-knight-up)))) (defun g-knight/lispy-beginning-of-defun-and-exit nil "Call the head `lispy-beginning-of-defun' in the \"g-knight\" hydra. The heads for the associated hydra are: \"j\": `lispy-knight-down', \"k\": `lispy-knight-up', \"g\": `lispy-beginning-of-defun', \"d\": `lispy-goto', \"l\": `lispy-goto-local' The body can be accessed via `g-knight/body'." (interactive) (require 'hydra) (hydra-default-pre) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'g-knight/body) (progn (setq this-command 'lispy-beginning-of-defun) (hydra--call-interactively-remap-maybe (function lispy-beginning-of-defun)))) (defun g-knight/lispy-goto-and-exit nil "Call the head `lispy-goto' in the \"g-knight\" hydra. The heads for the associated hydra are: \"j\": `lispy-knight-down', \"k\": `lispy-knight-up', \"g\": `lispy-beginning-of-defun', \"d\": `lispy-goto', \"l\": `lispy-goto-local' The body can be accessed via `g-knight/body'." (interactive) (require 'hydra) (hydra-default-pre) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'g-knight/body) (progn (setq this-command 'lispy-goto) (hydra--call-interactively-remap-maybe (function lispy-goto)))) (defun g-knight/lispy-goto-local-and-exit nil "Call the head `lispy-goto-local' in the \"g-knight\" hydra. The heads for the associated hydra are: \"j\": `lispy-knight-down', \"k\": `lispy-knight-up', \"g\": `lispy-beginning-of-defun', \"d\": `lispy-goto', \"l\": `lispy-goto-local' The body can be accessed via `g-knight/body'." (interactive) (require 'hydra) (hydra-default-pre) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'g-knight/body) (progn (setq this-command 'lispy-goto-local) (hydra--call-interactively-remap-maybe (function lispy-goto-local)))) (defun g-knight/body nil "Call the body in the \"g-knight\" hydra. The heads for the associated hydra are: \"j\": `lispy-knight-down', \"k\": `lispy-knight-up', \"g\": `lispy-beginning-of-defun', \"d\": `lispy-goto', \"l\": `lispy-goto-local' The body can be accessed via `g-knight/body'." (interactive) (require 'hydra) (hydra-default-pre) (let ((hydra--ignore nil)) ;; Unfortunate, but this ignore has to be manually placed here ;; after macroexpanding. (ignore hydra--ignore) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'g-knight/body)) (hydra-idle-message 0.3 g-knight/hint 'g-knight) (hydra-set-transient-map g-knight/keymap (lambda nil (hydra-keyboard-quit) nil) nil) (setq prefix-arg current-prefix-arg))) ;; (defhydra lispy-tab-hydra (:color blue :hint nil :idle .3) ;; "Tab" ;; ("i" lispy-tab "Tab") ;; ("s" lispy-shifttab "Shifttab")) ;; Macroexpanded from lispy-tab-hydra. (progn (set (defvar lispy-tab-hydra/params nil "Params of lispy-tab-hydra.") '(nil nil :exit t :foreign-keys nil :hint nil :idle 0.3)) (set (defvar lispy-tab-hydra/docstring nil "Docstring of lispy-tab-hydra.") "Tab") (set (defvar lispy-tab-hydra/heads nil "Heads for lispy-tab-hydra.") '(("i" lispy-tab "Tab" :exit t) ("s" lispy-shifttab "Shifttab" :exit t))) (set (defvar lispy-tab-hydra/keymap nil "Keymap for lispy-tab-hydra.") '(keymap (115 . lispy-tab-hydra/lispy-shifttab-and-exit) (105 . lispy-tab-hydra/lispy-tab-and-exit) (kp-subtract . hydra--negative-argument) (kp-9 . hydra--digit-argument) (kp-8 . hydra--digit-argument) (kp-7 . hydra--digit-argument) (kp-6 . hydra--digit-argument) (kp-5 . hydra--digit-argument) (kp-4 . hydra--digit-argument) (kp-3 . hydra--digit-argument) (kp-2 . hydra--digit-argument) (kp-1 . hydra--digit-argument) (kp-0 . hydra--digit-argument) (57 . hydra--digit-argument) (56 . hydra--digit-argument) (55 . hydra--digit-argument) (54 . hydra--digit-argument) (53 . hydra--digit-argument) (52 . hydra--digit-argument) (51 . hydra--digit-argument) (50 . hydra--digit-argument) (49 . hydra--digit-argument) (48 . hydra--digit-argument) (45 . hydra--negative-argument) (21 . hydra--universal-argument))) (set (defvar lispy-tab-hydra/hint nil "Dynamic hint for lispy-tab-hydra.") '(format #("Tab: [i]: Tab, [s]: Shifttab." 6 7 (face hydra-face-blue) 16 17 (face hydra-face-blue)))) (defun lispy-tab-hydra/lispy-tab-and-exit nil "Call the head `lispy-tab' in the \"lispy-tab-hydra\" hydra. The heads for the associated hydra are: \"i\": `lispy-tab', \"s\": `lispy-shifttab' The body can be accessed via `lispy-tab-hydra/body'." (interactive) (require 'hydra) (hydra-default-pre) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'lispy-tab-hydra/body) (progn (setq this-command 'lispy-tab) (hydra--call-interactively-remap-maybe (function lispy-tab)))) (defun lispy-tab-hydra/lispy-shifttab-and-exit nil "Call the head `lispy-shifttab' in the \"lispy-tab-hydra\" hydra. The heads for the associated hydra are: \"i\": `lispy-tab', \"s\": `lispy-shifttab' The body can be accessed via `lispy-tab-hydra/body'." (interactive) (require 'hydra) (hydra-default-pre) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'lispy-tab-hydra/body) (progn (setq this-command 'lispy-shifttab) (hydra--call-interactively-remap-maybe (function lispy-shifttab)))) (defun lispy-tab-hydra/body nil "Call the body in the \"lispy-tab-hydra\" hydra. The heads for the associated hydra are: \"i\": `lispy-tab', \"s\": `lispy-shifttab' The body can be accessed via `lispy-tab-hydra/body'." (interactive) (require 'hydra) (hydra-default-pre) (let ((hydra--ignore nil)) ;; Unfortunate, but this ignore has to be manually placed here ;; after macroexpanding. (ignore hydra--ignore) (hydra-keyboard-quit) (setq hydra-curr-body-fn 'lispy-tab-hydra/body)) (hydra-idle-message 0.3 lispy-tab-hydra/hint 'lispy-tab-hydra) (hydra-set-transient-map lispy-tab-hydra/keymap (lambda nil (hydra-keyboard-quit) nil) nil) (setq prefix-arg current-prefix-arg)))) ;; ------------------------------- HYDRA --------------------------------------- (defun evil-collection-lispy-action-then-next-sexp (lispy-action) "Return function that triggers LISPY-ACTION and then moves to next sexp." (defalias (intern (format "%S-then-next-sexp" lispy-action)) (lambda () (interactive) (call-interactively lispy-action) (unless (or (lispy-left-p) (lispy-right-p) (and (lispy-bolp) (or (looking-at lispy-outline-header) (looking-at lispy-outline)))) (call-interactively #'lispy-down))))) (defun evil-collection-lispy-delete (arg) "Copy and delete current sexp. Passes ARG to `lispy-delete' or `lispy-delete-back'. Copy of `noc:lispy-delete'." (interactive "p") (cond ((or (lispy-left-p) (region-active-p)) (lispy-new-copy) (lispy-delete arg)) ((lispy-right-p) (lispy-new-copy) (lispy-delete-backward arg)))) (defvar evil-collection-lispy-mode-map-special (let ((map (make-sparse-keymap))) ;; navigation (lispy-define-key map "l" 'lispy-right) (lispy-define-key map "h" 'lispy-left) (lispy-define-key map "f" 'lispy-ace-paren :override '(cond ((bound-and-true-p view-mode) (View-quit)))) ;; `lispy-flow' -> w (lispy-define-key map "j" 'lispy-down) (lispy-define-key map "k" 'lispy-up) (lispy-define-key map "d" (evil-collection-lispy-action-then-next-sexp 'evil-collection-lispy-delete)) ;; `lispy-different' -> o (lispy-define-key map "o" 'lispy-different) ;; `lispy-other-mode' -> Q (lispy-define-key map "p" 'lispy-paste) ;; `lispy-eval-other-window' -> P (lispy-define-key map "P" 'lispy-eval-other-window) ;; `lispy-paste' -> p (lispy-define-key map "y" 'lispy-new-copy) ;; `lispy-occur' -> / (lispy-define-key map "z" 'lispy-view) ;; `lispy-mark-list' -> v ;; outline (lispy-define-key map "J" 'lispy-join) ;; `lispy-outline-next' (lispy-define-key map "K" 'lispy-describe) ;; `lispy-outline-prev' (lispy-define-key map "L" 'lispy-outline-goto-child) ;; Paredit transformations (lispy-define-key map ">" 'lispy-slurp-or-barf-right) ;; `lispy-slurp' (lispy-define-key map "<" 'lispy-slurp-or-barf-left) ;; `lispy-barf' ;; FIXME: This doesn't work for me for some reason... (lispy-define-key map "/" 'lispy-occur) ;; `lispy-x' -> q (lispy-define-key map "r" 'lispy-raise) (lispy-define-key map "R" 'lispy-raise-some) (lispy-define-key map "+" 'lispy-join) ;; Hmnn this can be something else. ;; more transformations (lispy-define-key map "C" 'lispy-convolute) (lispy-define-key map "X" 'lispy-convolute-left) (lispy-define-key map "w" 'lispy-move-up) (lispy-define-key map "s" 'lispy-move-down) (lispy-define-key map "O" 'lispy-oneline) (lispy-define-key map "M" 'lispy-alt-multiline) (lispy-define-key map "S" 'lispy-stringify) ;; marking (lispy-define-key map "a" 'lispy-ace-symbol :override '(cond ((looking-at lispy-outline) (lispy-meta-return)))) (lispy-define-key map "H" 'lispy-ace-symbol-replace) ;; dialect-specific (lispy-define-key map "e" 'lispy-eval) (lispy-define-key map "E" 'lispy-eval-and-insert) ;; Hmnn, not sure why there's no `lispy-end-of-defun'. ;; `end-of-defun' doesn't work quite right yet. It exits the list ;; which would exit lispy state. (lispy-define-key map "G" 'end-of-defun) ;; `lispy-goto-local' -> gl (lispy-define-key map "g" 'g-knight/body) ;; `lispy-goto' -> gd (lispy-define-key map "A" 'evil-collection-lispy-insert-at-end-of-list) ;; `lispy-beginning-of-defun' -> gg (lispy-define-key map "I" 'evil-collection-lispy-insert-at-beginning-of-list) ;; `lispy-shifttab' -> zs (lispy-define-key map "F" 'lispy-follow t) (lispy-define-key map "D" 'pop-tag-mark) (lispy-define-key map "_" 'lispy-underscore) ;; miscellanea (define-key map (kbd "SPC") 'lispy-space) (lispy-define-key map "TAB" 'lispy-tab-hydra/body) ;; `lh-knight/body' -> g (lispy-define-key map "N" 'lispy-narrow) (lispy-define-key map "W" 'lispy-widen) (lispy-define-key map "c" 'lispy-clone) (lispy-define-key map "u" 'lispy-undo) (lispy-define-key map "q" 'lispy-x) ;; `lispy-ace-paren' -> f (lispy-define-key map "Q" 'lispy-other-mode) ;; `lispy-ace-char' -> t (lispy-define-key map "v" 'lispy-mark-list) ;; `lispy-view' -> z (lispy-define-key map "t" 'lispy-ace-char) ;; `lispy-teleport' -> T (lispy-define-key map "n" 'lispy-flow) ;; `lispy-new-copy' -> y (lispy-define-key map "b" 'lispy-back) (lispy-define-key map "B" 'lispy-ediff-regions) (lispy-define-key map "x" 'lispy-splice) ;; `lispy-x' -> q (lispy-define-key map "Z" 'lispy-edebug-stop) (lispy-define-key map "V" 'lispy-visit) (lispy-define-key map "-" 'lispy-ace-subword) (lispy-define-key map "." 'lispy-repeat) (lispy-define-key map "~" 'lispy-tilde) ;; digit argument (mapc (lambda (x) (lispy-define-key map (format "%d" x) 'digit-argument)) (number-sequence 0 9)) ;; additional (lispy-define-key map "T" 'lispy-teleport :override '(cond ((looking-at lispy-outline) (end-of-line)))) (lispy-define-key map "]" 'lispy-forward) (lispy-define-key map "[" 'lispy-backward) (lispy-define-key map "{" 'lispy-brackets) ;; Experimental (lispy-define-key map "C-J" 'lispy-outline-next) (lispy-define-key map "C-K" 'lispy-outline-prev) (lispy-define-key map "^" 'lispy-splice-sexp-killing-backward) (lispy-define-key map "$" 'lispy-splice-sexp-killing-forward) (lispy-define-key map "M-j" 'lispy-move-down) ;; `lispy-split' (lispy-define-key map "M-k" 'lispy-move-up) ;; `lispy-kill-sentence' map) "`evil' flavored `lispy' bindings when in special state.") (defvar evil-collection-lispy-mode-map (make-sparse-keymap) "`evil' flavored `lispy-mode' bindings.") (defun evil-collection-lispy-set-key-theme (theme) "Set `lispy-mode-map' for according to THEME. THEME is a list of choices: 'special, 'lispy, 'paredit, 'evilcp, 'c-digits', 'special-evil', 'evil'. This is an exact copy of `lispy-set-key-theme' except with the additions of 'special-evil' and 'evil' themes." (setq lispy-mode-map (make-composed-keymap (delq nil (list (when (memq 'special-evil theme) evil-collection-lispy-mode-map-special) (when (memq 'evil theme) evil-collection-lispy-mode-map) (when (memq 'special theme) lispy-mode-map-special) (when (memq 'lispy theme) lispy-mode-map-lispy) (when (memq 'paredit theme) lispy-mode-map-paredit) (when (memq 'parinfer theme) lispy-mode-map-parinfer) (when (memq 'evilcp theme) lispy-mode-map-evilcp) (when (memq 'c-digits theme) lispy-mode-map-c-digits) (when (memq 'oleh theme) lispy-mode-map-oleh))))) (setcdr (assq 'lispy-mode minor-mode-map-alist) lispy-mode-map)) ;;;###autoload (defun evil-collection-lispy-setup () "Set up `evil' bindings for `lispy'." (advice-add 'lispy-set-key-theme :override 'evil-collection-lispy-set-key-theme) (lispy-set-key-theme '(special-evil evil)) (evil-collection-define-key 'normal 'evil-collection-lispy-mode-map ;; Instead of inheriting, explicitly define keys from `lispy-mode-map-base'. ;; navigation. ;; Commented out define-keys are from the original map that we're not using. ;; -- Begin Inheritance ;; (define-key map (kbd "C-a") 'lispy-move-beginning-of-line) ;; (define-key map (kbd "C-e") 'lispy-move-end-of-line) (kbd "M-n") 'lispy-left ;; killing ;; (define-key map (kbd "C-k") 'lispy-kill) (kbd "M-d") 'lispy-kill-word (kbd "M-DEL") 'lispy-backward-kill-word ;; misc "(" 'lispy-parens ";" 'lispy-comment ;; (kbd "M-q") 'lispy-fill ;; (define-key map (kbd "C-j") 'lispy-newline-and-indent) ;; (define-key map (kbd "RET") 'lispy-newline-and-indent-plain) ;; tags "gd" 'lispy-goto-symbol (kbd "C-t") 'pop-tag-mark ;; -- End Inheritance. (kbd "M-)") 'lispy-wrap-round (kbd "M-s") 'lispy-splice (kbd "M-") 'lispy-splice-sexp-killing-backward (kbd "M-") 'lispy-splice-sexp-killing-forward (kbd "M-r") 'lispy-raise-sexp (kbd "M-R") 'lispy-raise-some (kbd "M-C") 'lispy-convolute-sexp (kbd "M-S") 'lispy-split (kbd "M-J") 'lispy-join "]" 'lispy-forward "[" 'lispy-backward (kbd "M-(") 'lispy-wrap-round (kbd "M-{") 'lispy-wrap-braces (kbd "M-}") 'lispy-wrap-braces "<" 'lispy-slurp-or-barf-left ">" 'lispy-slurp-or-barf-right (kbd "M-y") 'lispy-new-copy (kbd "") 'lispy-open-line (kbd "") 'lispy-meta-return (kbd "M-k") 'lispy-move-up (kbd "M-j") 'lispy-move-down (kbd "M-o") 'lispy-string-oneline (kbd "M-p") 'lispy-clone (kbd "M-d") 'evil-collection-lispy-delete)) (provide 'evil-collection-lispy) ;;; evil-collection-lispy.el ends here