diff --git a/elpa/smartparens-20161009.858/smartparens-autoloads.el b/elpa/smartparens-20161009.858/smartparens-autoloads.el new file mode 100644 index 0000000..020c252 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-autoloads.el @@ -0,0 +1,198 @@ +;;; smartparens-autoloads.el --- automatically extracted autoloads +;; +;;; Code: +(add-to-list 'load-path (directory-file-name (or (file-name-directory #$) (car load-path)))) + +;;;### (autoloads nil "smartparens" "smartparens.el" (22523 34125 +;;;;;; 532790 226000)) +;;; Generated autoloads from smartparens.el + +(autoload 'sp-cheat-sheet "smartparens" "\ +Generate a cheat sheet of all the smartparens interactive functions. + +Without a prefix argument, print only the short documentation and examples. + +With non-nil prefix argument, show the full documentation for each function. + +You can follow the links to the function or variable help page. +To get back to the full list, use \\[help-go-back]. + +You can use `beginning-of-defun' and `end-of-defun' to jump to +the previous/next entry. + +Examples are fontified using the `font-lock-string-face' for +better orientation. + +\(fn &optional ARG)" t nil) + +(defvar smartparens-mode-map (make-sparse-keymap) "\ +Keymap used for `smartparens-mode'.") + +(autoload 'sp-use-paredit-bindings "smartparens" "\ +Initiate `smartparens-mode-map' with paredit-compatible bindings for +corresponding functions provided by smartparens. See variable +`sp-paredit-bindings'. + +\(fn)" t nil) + +(autoload 'sp-use-smartparens-bindings "smartparens" "\ +Initiate `smartparens-mode-map' with smartparens bindings for navigation functions. +See variable `sp-smartparens-bindings'. + +\(fn)" t nil) + +(autoload 'smartparens-mode "smartparens" "\ +Toggle smartparens mode. + +You can enable pre-set bindings by customizing +`sp-base-key-bindings' variable. The current content of +`smartparens-mode-map' is: + + \\{smartparens-mode-map} + +\(fn &optional ARG)" t nil) + +(autoload 'smartparens-strict-mode "smartparens" "\ +Toggle the strict smartparens mode. + +When strict mode is active, `delete-char', `kill-word' and their +backward variants will skip over the pair delimiters in order to +keep the structure always valid (the same way as `paredit-mode' +does). This is accomplished by remapping them to +`sp-delete-char' and `sp-kill-word'. There is also function +`sp-kill-symbol' that deletes symbols instead of words, otherwise +working exactly the same (it is not bound to any key by default). + +When strict mode is active, this is indicated with \"/s\" +after the smartparens indicator in the mode list. + +\(fn &optional ARG)" t nil) + +(defvar smartparens-global-strict-mode nil "\ +Non-nil if Smartparens-Global-Strict mode is enabled. +See the `smartparens-global-strict-mode' command +for a description of this minor mode. +Setting this variable directly does not take effect; +either customize it (see the info node `Easy Customization') +or call the function `smartparens-global-strict-mode'.") + +(custom-autoload 'smartparens-global-strict-mode "smartparens" nil) + +(autoload 'smartparens-global-strict-mode "smartparens" "\ +Toggle Smartparens-Strict mode in all buffers. +With prefix ARG, enable Smartparens-Global-Strict mode if ARG is positive; +otherwise, disable it. If called from Lisp, enable the mode if +ARG is omitted or nil. + +Smartparens-Strict mode is enabled in all buffers where +`turn-on-smartparens-strict-mode' would do it. +See `smartparens-strict-mode' for more information on Smartparens-Strict mode. + +\(fn &optional ARG)" t nil) + +(autoload 'turn-on-smartparens-strict-mode "smartparens" "\ +Turn on `smartparens-strict-mode'. + +\(fn)" t nil) + +(defvar smartparens-global-mode nil "\ +Non-nil if Smartparens-Global mode is enabled. +See the `smartparens-global-mode' command +for a description of this minor mode. +Setting this variable directly does not take effect; +either customize it (see the info node `Easy Customization') +or call the function `smartparens-global-mode'.") + +(custom-autoload 'smartparens-global-mode "smartparens" nil) + +(autoload 'smartparens-global-mode "smartparens" "\ +Toggle Smartparens mode in all buffers. +With prefix ARG, enable Smartparens-Global mode if ARG is positive; +otherwise, disable it. If called from Lisp, enable the mode if +ARG is omitted or nil. + +Smartparens mode is enabled in all buffers where +`turn-on-smartparens-mode' would do it. +See `smartparens-mode' for more information on Smartparens mode. + +\(fn &optional ARG)" t nil) + +(autoload 'turn-on-smartparens-mode "smartparens" "\ +Turn on `smartparens-mode'. + +This function is used to turn on `smartparens-global-mode'. + +By default `smartparens-global-mode' ignores buffers with +`mode-class' set to special, but only if they are also not comint +buffers. + +Additionally, buffers on `sp-ignore-modes-list' are ignored. + +You can still turn on smartparens in these mode manually (or +in mode's startup-hook etc.) by calling `smartparens-mode'. + +\(fn)" t nil) + +(autoload 'turn-off-smartparens-mode "smartparens" "\ +Turn off `smartparens-mode'. + +\(fn)" t nil) + +(autoload 'show-smartparens-mode "smartparens" "\ +Toggle visualization of matching pairs. When enabled, any +matching pair is highlighted after `sp-show-pair-delay' seconds +of Emacs idle time if the point is immediately in front or after +a pair. This mode works similarly to `show-paren-mode', but +support custom pairs. + +\(fn &optional ARG)" t nil) + +(defvar show-smartparens-global-mode nil "\ +Non-nil if Show-Smartparens-Global mode is enabled. +See the `show-smartparens-global-mode' command +for a description of this minor mode. +Setting this variable directly does not take effect; +either customize it (see the info node `Easy Customization') +or call the function `show-smartparens-global-mode'.") + +(custom-autoload 'show-smartparens-global-mode "smartparens" nil) + +(autoload 'show-smartparens-global-mode "smartparens" "\ +Toggle Show-Smartparens mode in all buffers. +With prefix ARG, enable Show-Smartparens-Global mode if ARG is positive; +otherwise, disable it. If called from Lisp, enable the mode if +ARG is omitted or nil. + +Show-Smartparens mode is enabled in all buffers where +`turn-on-show-smartparens-mode' would do it. +See `show-smartparens-mode' for more information on Show-Smartparens mode. + +\(fn &optional ARG)" t nil) + +(autoload 'turn-on-show-smartparens-mode "smartparens" "\ +Turn on `show-smartparens-mode'. + +\(fn)" t nil) + +(autoload 'turn-off-show-smartparens-mode "smartparens" "\ +Turn off `show-smartparens-mode'. + +\(fn)" t nil) + +;;;*** + +;;;### (autoloads nil nil ("smartparens-clojure.el" "smartparens-config.el" +;;;;;; "smartparens-ess.el" "smartparens-haskell.el" "smartparens-html.el" +;;;;;; "smartparens-latex.el" "smartparens-lua.el" "smartparens-pkg.el" +;;;;;; "smartparens-python.el" "smartparens-racket.el" "smartparens-ruby.el" +;;;;;; "smartparens-rust.el" "smartparens-scala.el") (22523 34125 +;;;;;; 564790 380000)) + +;;;*** + +;; Local Variables: +;; version-control: never +;; no-byte-compile: t +;; no-update-autoloads: t +;; End: +;;; smartparens-autoloads.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-clojure.el b/elpa/smartparens-20161009.858/smartparens-clojure.el new file mode 100644 index 0000000..a4d6ced --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-clojure.el @@ -0,0 +1,49 @@ +;;; smartparens-clojure.el --- Additional configuration for Clojure mode. +;; +;; Author: Vitalie Spinu +;; Maintainer: Matus Goljer +;; Created: 14 July 2016 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens +;; +;; This file is not part of GNU Emacs. +;; +;;; License: +;; +;; This file is part of Smartparens. +;; +;; Smartparens 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. +;; +;; Smartparens 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 Smartparens. If not, see . +;; +;;; Commentary: +;; +;; This file provides some additional configuration for Clojure mode. To use +;; it, simply add: +;; +;; (require 'smartparens-clojure) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. +;; +;;; Code: + +(require 'smartparens) + +(defvar sp-clojure-prefix "\\(?:[@`'#~,_?^]+\\)" + "Prefix used in `sp-sepx-prefix' for clojure modes.") + +(dolist (mode '(clojure-mode clojurescript-mode clojurec-mode cider-repl-mode)) + (add-to-list 'sp-sexp-prefix `(,mode regexp ,sp-clojure-prefix))) + +(provide 'smartparens-clojure) +;;; smartparens-clojure.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-config.el b/elpa/smartparens-20161009.858/smartparens-config.el new file mode 100644 index 0000000..e27460e --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-config.el @@ -0,0 +1,117 @@ +;;; smartparens-config.el --- Default configuration for smartparens package + +;; Copyright (C) 2013-2016 Matus Goljer + +;; Author: Matus Goljer +;; Maintainer: Matus Goljer +;; Created: 30 Jan 2013 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This is a default configuration for smartparens package. If you +;; wish to set up everything by yourself, you can instead require +;; smartparens directly. + +;; However, some configuration is always loaded by default, most +;; notably the built-in list of supported pairs. If you want to erase +;; this list, simply use (setq sp-pairs nil) and then add your own +;; pairs. + +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: + +(require 'smartparens) + +(defun sp-lisp-invalid-hyperlink-p (_1 action _2) + (when (eq action 'navigate) + ;; Ignore errors due to us being at the start or end of the + ;; buffer. + (ignore-errors + (or (and (looking-at "\\sw\\|\\s_") + (save-excursion + (backward-char 2) + (looking-at "\\sw\\|\\s_"))) + (and (save-excursion + (backward-char 1) + (looking-at "\\sw\\|\\s_")) + (save-excursion + (forward-char 1) + (looking-at "\\sw\\|\\s_"))))))) + +;; emacs is lisp hacking enviroment, so we set up some most common +;; lisp modes too +(sp-with-modes sp-lisp-modes + ;; disable ', it's the quote character! + (sp-local-pair "'" nil :actions nil) + ;; also only use the pseudo-quote inside strings where it serve as + ;; hyperlink. + (sp-local-pair "`" "'" + :when '(sp-in-string-p + sp-in-comment-p) + :unless '(sp-lisp-invalid-hyperlink-p) + :skip-match (lambda (ms mb me) + (cond + ((equal ms "'") + (or (sp-lisp-invalid-hyperlink-p "`" 'navigate '_) + (not (sp-point-in-string-or-comment)))) + (t (not (sp-point-in-string-or-comment))))))) + +;; Unfortunately emacs devs in their glorious wisdom decided to +;; make @ no longer have prefix syntax, it is now a symbol... because +;; apparently its use in symbols is so frequent. Anyway, since we +;; can't really change that, let's use a regexp based solution +(add-to-list 'sp-sexp-prefix (list 'emacs-lisp-mode 'regexp "\\(?:['`]*,@?\\|[',`]\\)")) + +;; TODO: this should only be active in docstring, otherwise we want +;; the regexp completion \\{\\}. To handle this feature, we must +;; allow multiple pairs on same opening (therefore, the unique ID must +;; become the opening and closing pair) +(sp-local-pair 'emacs-lisp-mode "\\\\{" "}" :when '(sp-in-docstring-p)) + +;; NOTE: Normally, `sp-local-pair' accepts list of modes (or a single +;; mode) as a first argument. The macro `sp-with-modes' adds this +;; automatically. If you want to call sp-local-pair outside this +;; macro, you MUST supply the major mode argument. + +(--each sp--html-modes + (eval-after-load (symbol-name it) '(require 'smartparens-html))) +(eval-after-load "latex" '(require 'smartparens-latex)) +(eval-after-load "tex-mode" '(require 'smartparens-latex)) +(eval-after-load "lua-mode" '(require 'smartparens-lua)) +(eval-after-load "ruby-mode" '(require 'smartparens-ruby)) +(eval-after-load "enh-ruby-mode" '(require 'smartparens-ruby)) +(eval-after-load "rust-mode" '(require 'smartparens-rust)) +(eval-after-load "haskell-mode" '(require 'smartparens-haskell)) +(eval-after-load "haskell-interactive-mode" '(require 'smartparens-haskell)) +(--each '("python-mode" "python") + (eval-after-load it '(require 'smartparens-python))) +(eval-after-load "scala-mode" '(require 'smartparens-scala)) +(eval-after-load "racket-mode" '(require 'smartparens-racket)) +(eval-after-load "ess" '(require 'smartparens-ess)) + +(provide 'smartparens-config) + +;;; smartparens-config.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-ess.el b/elpa/smartparens-20161009.858/smartparens-ess.el new file mode 100644 index 0000000..49b6345 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-ess.el @@ -0,0 +1,207 @@ +;;; smartparens-ess.el --- Smartparens Extension for Emacs Speaks Statistics + +;; Copyright (c) 2015-2016 Bernhard Pröll + +;; Author: Bernhard Pröll +;; Maintainer: Bernhard Pröll +;; URL: https://github.com/Fuco1/smartparens +;; Created: 2015-02-26 +;; Version: 0.2 +;; Keywords: abbrev convenience editing + +;; This file is NOT part of GNU Emacs. + +;; 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 . + +;;; Code: + +(require 'smartparens) +(require 'rx) + + +;; avoid traveling commas when slurping +;; (|a, b), c ---> (|a, b, c) +(dolist (mode '(ess-mode inferior-ess-mode)) + (add-to-list 'sp-sexp-suffix (list mode 'regexp ""))) + +;; `sp-sexp-prefix' for ESS +(add-to-list 'sp-sexp-prefix + (list 'ess-mode 'regexp + (rx (zero-or-more (or word (syntax symbol)))))) + +;; slurping follows Google's R style guide +;; see https://google.github.io/styleguide/Rguide.xml +(defun sp-ess-pre-handler (id action context) + "Remove spaces before opening parenthesis in a function call. +Remove redundant space around commas." + (when (equal action 'slurp-forward) + (let ((sxp (sp-get-thing 'back))) + (save-excursion + (goto-char (sp-get sxp :beg-prf)) + ;; (|) x ---> (x) + (when (looking-back (rx (syntax open-parenthesis) + (one-or-more space))) + (cycle-spacing 0 nil 'single-shot)) + (cond + ;; (|)if(cond) ---> (|if (cond)) + ((member (sp-get sxp :prefix) '("if" "for" "while")) + (goto-char (sp-get sxp :beg)) + (cycle-spacing 1 nil 'single-shot)) + ;; (|)v [,2] <- if(x > 1) ---> (v[,2] <- if (x > 1)) + ((and + (member (sp-get sxp :op) '("[" "(")) + (equal (sp-get sxp :prefix) "") + (looking-back + (rx (and (not-char "%" ",") + (not (syntax close-parenthesis))) + (one-or-more space))) + (not (member + (save-excursion + (sp-backward-sexp) + (thing-at-point 'word 'noprop)) + '("if" "for" "while")))) + (cycle-spacing 0 nil 'single-shot)) + ;; (|)a , b, c ---> (|a, b, c) + ((looking-back + (rx (zero-or-more space) "," (zero-or-more space)) + (line-beginning-position) 'greedy) + (replace-match ", ")))))) + (when (equal action 'slurp-backward) + (let ((sxp (sp-get-thing))) + (save-excursion + (goto-char (sp-get sxp :end)) + ;; x (|) ---> (x) + (when (looking-at (rx (one-or-more space) + (syntax close-parenthesis))) + (cycle-spacing 0 nil 'single-shot)) + ;; if(cond){} (|) ---> (if (cond) {}|) + (cond ((member (sp-get sxp :prefix) '("if" "for" "while")) + (goto-char (sp-get sxp :beg)) + (cycle-spacing 1 nil 'single-shot)) + ;; for style reasons there should be a space before curly + ;; brackets and binary operators + ((and (member (sp-get sxp :op) '("{" "%")) + (not (looking-at (rx (syntax close-parenthesis))))) + (cycle-spacing 1 nil 'single-shot)) + ;; v[2](|) ---> (v[2]|) + ((and + (not (member (thing-at-point 'word 'noprop) + '("if" "for" "while"))) + (looking-at + (rx (and (zero-or-more space) + (not-char "{") + (or (syntax close-parenthesis) + (char "(") + (char "[")))))) + (cycle-spacing 0 nil 'single-shot)) + ;; 1 , 2 (|) ---> (1, 2) + ((looking-at + (rx (zero-or-more space) "," (zero-or-more space))) + (replace-match ", "))))))) + +;; function(x) {|} ---> function(x) {\n|\n} +;; ##' \tabular{rrr}{|} ---> +;; ##' \tabular{rrr}{ +;; ##' | +;; ##' } +(defun sp-ess-open-sexp-indent (&rest _ignored) + "Open new brace or bracket with indentation." + (if (and (fboundp 'ess-roxy-entry-p) (ess-roxy-entry-p)) + (progn + (save-excursion (ess-roxy-indent-on-newline)) + (when (looking-back ess-roxy-str nil) + (cycle-spacing 3 nil t))) + (newline) + (indent-according-to-mode) + (forward-line -1) + (indent-according-to-mode))) + +(defun sp-ess-roxy-str-p (id action context) + (when (and (boundp 'ess-roxy-re) (eq action 'insert)) + (sp--looking-back-p ess-roxy-re))) + +(sp-with-modes 'ess-mode + (sp-local-pair "{" nil + :pre-handlers '(sp-ess-pre-handler) + ;; the more reasonable C-j interferes with default binding for + ;; `ess-eval-line' + :post-handlers '((sp-ess-open-sexp-indent "M-j"))) + (sp-local-pair "(" nil + :pre-handlers '(sp-ess-pre-handler) + :post-handlers '((sp-ess-open-sexp-indent "M-j"))) + (sp-local-pair "[" nil + :pre-handlers '(sp-ess-pre-handler) + :post-handlers '((sp-ess-open-sexp-indent "M-j"))) + (sp-local-pair "'" nil + :unless '(sp-ess-roxy-str-p))) + +;;; roxygen2 markup +;; see https://cran.r-project.org/web/packages/roxygen2/vignettes/formatting.html +(sp-with-modes 'ess-mode + (sp-local-pair "\\strong{" "}" + :when '(sp-in-comment-p) + :trigger "\\strong") + (sp-local-pair "\\emph{" "}" + :when '(sp-in-comment-p) + :trigger "\\emph") + (sp-local-pair "\\code{" "}" + :when '(sp-in-comment-p) + :trigger "\\code") + (sp-local-pair "\\url{" "}" + :when '(sp-in-comment-p) + :trigger "\\url") + (sp-local-pair "\\link{" "}" + :when '(sp-in-comment-p) + :trigger "\\link") + (sp-local-pair "\\href{" "}" + :when '(sp-in-comment-p) + :trigger "\\href" + :suffix "{[^}]*}") + (sp-local-pair "\\email{" "}" + :when '(sp-in-comment-p) + :trigger "\\email") + (sp-local-pair "\\pkg{" "}" + :when '(sp-in-comment-p) + :trigger "\\pkg") + (sp-local-pair "\\item{" "}" + :when '(sp-in-comment-p) + :post-handlers '((sp-ess-open-sexp-indent "M-j")) + :trigger "\\item{") + (sp-local-pair "\\enumerate{" "}" + :when '(sp-in-comment-p) + :post-handlers '((sp-ess-open-sexp-indent "M-j")) + :trigger "\\enumerate") + (sp-local-pair "\\itemize{" "}" + :when '(sp-in-comment-p) + :post-handlers '((sp-ess-open-sexp-indent "M-j")) + :trigger "\\itemize") + (sp-local-pair "\\describe{" "}" + :when '(sp-in-comment-p) + :post-handlers '((sp-ess-open-sexp-indent "M-j")) + :trigger "\\describe") + (sp-local-pair "\\eqn{" "}" + :when '(sp-in-comment-p) + :trigger "\\eqn") + (sp-local-pair "\\deqn{" "}" + :when '(sp-in-comment-p) + :trigger "\\deqn") + (sp-local-pair "\\tabular{" "}" + :when '(sp-in-comment-p) + :trigger "\\tabular" + :post-handlers '((sp-ess-open-sexp-indent "M-j")) + :suffix "{[^}]*}")) + + +(provide 'smartparens-ess) +;;; smartparens-ess ends here diff --git a/elpa/smartparens-20161009.858/smartparens-haskell.el b/elpa/smartparens-20161009.858/smartparens-haskell.el new file mode 100644 index 0000000..4219979 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-haskell.el @@ -0,0 +1,86 @@ +;;; smartparens-haskell.el --- Additional configuration for Haskell based modes. + +;; Copyright (C) 2015 Michael Xavier + +;; Author: Michael Xavier +;; Maintainer: Michael Xavier +;; Created: 29 Apr 2016 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for Haskell based +;; modes. To use it, simply add: +;; +;; (require 'smartparens-haskell) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. + +;; If you have good ideas about what should be added please file an +;; issue on the github tracker. + +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: +(require 'smartparens) + +(sp-with-modes '(haskell-mode haskell-interactive-mode) + (sp-local-pair "{-#" "#-}") + (sp-local-pair "'" nil :unless '(sp-point-after-word-p)) + (sp-local-pair "\\(" nil :actions nil)) + +(defun sp--inferior-haskell-mode-backward-bound-fn () + "Limit the backward search to the prompt if point is on prompt." + (-when-let (limit (cond ((bound-and-true-p comint-last-prompt) + (marker-position (cdr comint-last-prompt))) + ((bound-and-true-p comint-last-prompt-overlay) + (overlay-end comint-last-prompt-overlay)) + (t nil))) + (and (> (point) limit) limit))) + +(defun sp--inferior-haskell-mode-forward-bound-fn () + "Limit the forward search to exclude the prompt if point is before prompt." + (-when-let (limit (cond ((bound-and-true-p comint-last-prompt) + (marker-position (car comint-last-prompt))) + ((bound-and-true-p comint-last-prompt-overlay) + (overlay-start comint-last-prompt-overlay)) + (t nil))) + (and (< (point) limit) limit))) + +(defun sp--setup-inferior-haskell-mode-search-bounds () + "Setup the search bound. + +If the point is after the last prompt, limit the backward search +only for the propmt. + +If the point is before the last prompt, limit the forward search up until the prompt start." + (setq sp-forward-bound-fn 'sp--inferior-haskell-mode-forward-bound-fn) + (setq sp-backward-bound-fn 'sp--inferior-haskell-mode-backward-bound-fn)) + +(add-hook 'inferior-haskell-mode-hook 'sp--setup-inferior-haskell-mode-search-bounds) + +(provide 'smartparens-haskell) + +;;; smartparens-haskell.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-html.el b/elpa/smartparens-20161009.858/smartparens-html.el new file mode 100644 index 0000000..db88ca0 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-html.el @@ -0,0 +1,172 @@ +;;; smartparens-html.el --- Additional configuration for HTML based modes. + +;; Copyright (C) 2013-2014 Matus Goljer + +;; Author: Matus Goljer +;; Maintainer: Matus Goljer +;; Created: 14 Sep 2013 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for HTML based +;; modes. To use it, simply add: +;; +;; (require 'smartparens-html) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. + +;; It is advised that you add `html-mode' to the list +;; `sp-navigate-consider-stringlike-sexp'. This will tell smartparens +;; to treat the "" delimited strings as sexps, and enable you to use +;; all the sexp-based commands on them (such as `sp-down-sexp', +;; `sp-up-sexp' etc.) + +;; This file provides these interactive functions: + +;; `sp-html-next-tag' - Recommended binding: C-c C-f +;; `sp-html-previous-tag' - Recommended binding: C-c C-b +;; +;; (These two bindings are used for navigation by tags forward or +;; backward, but `sp-forward-sexp' already does that.) + +;; If you have good ideas about what should be added please file an +;; issue on the github tracker. + +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: + +(require 'smartparens) + +(defun sp-html-next-tag (arg) + "Move point to the beginning of next SGML tag. + +With ARG positive N > 1, move N tags forward. + +With ARG raw prefix argument \\[universal-argument] move out of +the current tag and to the beginning of enclosing tag. + +Note: this function is based on `sp-beginning-of-sexp' but +specialized to only work with SGML tags and to always move +forward." + (interactive "P") + (let ((sp-prefix-tag-object t)) + (if (sp--raw-argument-p arg) + (sp-beginning-of-sexp arg) + (sp-beginning-of-sexp (1+ (prefix-numeric-value arg)))))) + +(defun sp-html-previous-tag (arg) + "Move point to the beginning of previous SGML tag. + +With ARG positive N > 1, move N tags backward. + +With ARG raw prefix argument \\[universal-argument] move out of +the current tag and to the beginning of enclosing tag. + +Note: this function is based on `sp-beginning-of-sexp' but +specialized to only work with SGML tags and to always move +backward." + (interactive "P") + (let ((sp-prefix-tag-object t)) + (if (sp--raw-argument-p arg) + (sp-beginning-of-sexp arg) + (sp-beginning-of-sexp (1- (- (prefix-numeric-value arg))))))) + +(defun sp-html-post-handler (&optional id action context) + (cl-case action + (slurp-forward + (save-excursion + (let ((sp-prefix-pair-object t)) + (sp-backward-sexp)) + (-when-let (enc (sp-get-enclosing-sexp)) + (sp-get enc + (goto-char :beg-in) + (when (looking-at-p "[ \t]*$") + (goto-char :end-in) + (save-excursion + (sp-backward-sexp) + (forward-line -1) + (when (sp-point-in-blank-line) + (delete-region (line-beginning-position) (1+ (line-end-position))))) + (newline-and-indent)))))) + (slurp-backward + (save-excursion + (-when-let (enc (sp-get-enclosing-sexp)) + (sp-get enc + (goto-char :end-in) + (when (sp--looking-back-p "^[ \t]*") + (save-excursion + (goto-char :beg-in) + (newline-and-indent) + (sp-forward-sexp) + (forward-line) + (when (sp-point-in-blank-line) + (delete-region (line-beginning-position) (1+ (line-end-position)))))))))) + (barf-forward + (save-excursion + (let ((sp-prefix-pair-object t)) + (sp-backward-sexp)) + (-when-let (enc (sp-get-enclosing-sexp)) + (sp-get enc + (goto-char :beg-in) + (when (looking-at-p "[ \t]*$") + (goto-char :end-in) + (newline-and-indent))))) + (save-excursion + (sp-forward-sexp) + (forward-line) + (when (sp-point-in-blank-line) + (delete-region (line-beginning-position) (1+ (line-end-position)))))) + (barf-backward + (save-excursion + (-when-let (enc (sp-get-enclosing-sexp)) + (sp-get enc + (goto-char :end-in) + (when (sp--looking-back-p "^[ \t]*") + (goto-char :beg-in) + (newline-and-indent) + (sp-backward-up-sexp) + (sp-backward-sexp) + (forward-line -1) + (when (sp-point-in-blank-line) + (delete-region (line-beginning-position) (1+ (line-end-position))))))))) + (beginning-of-sexp + (when (looking-at-p "[ \t]*$") + (sp-next-sexp))) + (end-of-sexp + (when (sp--looking-back-p "^[ \t]*" nil t) + (sp-previous-sexp))))) + +(sp-with-modes sp--html-modes + (sp-local-pair "<" ">") + (sp-local-tag "<" "<_>" "" :transform 'sp-match-sgml-tags :post-handlers '(sp-html-post-handler))) + +(--each sp--html-modes + (add-to-list 'sp-navigate-consider-sgml-tags it)) + +(provide 'smartparens-html) + +;;; smartparens-html.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-latex.el b/elpa/smartparens-20161009.858/smartparens-latex.el new file mode 100644 index 0000000..ca9d25f --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-latex.el @@ -0,0 +1,170 @@ +;;; smartparens-latex.el --- Additional configuration for (La)TeX based modes. + +;; Copyright (C) 2013-2016 Matus Goljer + +;; Author: Matus Goljer +;; Maintainer: Matus Goljer +;; Created: 14 Feb 2013 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for (La)TeX based +;; modes. To use it, simply add: +;; +;; (require 'smartparens-latex) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. + +;; It is advised that you add `latex-mode' to the list +;; `sp-navigate-consider-stringlike-sexp'. This will tell +;; smartparens to treat the $$ math blocks as sexps, and enable you +;; to use all the sexp-based commands on them (such as +;; `sp-down-sexp', `sp-up-sexp' etc.) + +;; If you have good ideas about what should be added please file an +;; issue on the github tracker. + +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: + +(require 'smartparens) + +(defun sp-latex-insert-spaces-inside-pair (id action context) + (when (eq action 'insert) + (insert " ") + (backward-char 1)) + (when (and (eq action 'wrap) + (save-excursion + (goto-char (sp-get sp-last-wrapped-region :beg-in)) + (not (sp--looking-back-p "[[{(]")))) + (save-excursion + (goto-char (sp-get sp-last-wrapped-region :end-in)) + (insert " ") + (goto-char (sp-get sp-last-wrapped-region :beg-in)) + (insert " ")))) + +(defun sp-latex-skip-match-apostrophe (ms mb me) + (when (equal ms "'") + (save-excursion + (goto-char me) + (looking-at-p "\\sw")))) + +(defun sp-latex-skip-double-quote (_1 action _2) + (when (eq action 'insert) + (when (looking-at-p "''''") + (delete-char -2) + (delete-char 2) + (forward-char 2)))) + +(defun sp-latex-point-after-backslash (id action context) + "Return t if point follows a backslash, nil otherwise. +This predicate is only tested on \"insert\" action." + (when (eq action 'insert) + (let ((trigger (sp-get-pair id :trigger))) + (looking-back (concat "\\\\" (regexp-quote (if trigger trigger id))))))) + +(defun sp-latex-point-before-word-p (id action context) + "Return t if point is before a word while in navigate action." + (when (eq action 'navigate) + (looking-at-p "\\sw"))) + +(add-to-list 'sp-navigate-skip-match + '((tex-mode plain-tex-mode latex-mode) . sp--backslash-skip-match)) + +(sp-with-modes '( + tex-mode + plain-tex-mode + latex-mode + ) + (sp-local-pair "`" "'" + :actions '(:rem autoskip) + :skip-match 'sp-latex-skip-match-apostrophe + :unless '(sp-latex-point-after-backslash + sp-latex-point-before-word-p)) + ;; math modes, yay. The :actions are provided automatically if + ;; these pairs do not have global definitions. + (sp-local-pair "$" "$") + (sp-local-pair "\\[" "\\]" :unless '(sp-latex-point-after-backslash)) + ;; disable useless pairs. Maybe also remove " ' and \"? + (sp-local-pair "/*" nil :actions nil) + (sp-local-pair "\\\\(" nil :actions nil) + (sp-local-pair "'" nil :actions nil) + (sp-local-pair "\\\"" nil :actions nil) + + ;; quote should insert ``'' instead of double quotes. If we ever + ;; need to insert ", C-q is our friend. + (sp-local-pair "``" "''" + :trigger "\"" + :unless '(sp-latex-point-after-backslash) + :post-handlers '(sp-latex-skip-double-quote)) + + ;; add the prefix function sticking to {} pair + (sp-local-pair "{" nil :prefix "\\\\\\(\\sw\\|\\s_\\)*") + + ;; pairs for big brackets. Needs more research on what pairs are + ;; useful to add here. Post suggestions if you know some. + (sp-local-pair "\\left(" "\\right)" + :trigger "\\l(" + :when '(sp-in-math-p) + :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\left[" "\\right]" + :trigger "\\l[" + :when '(sp-in-math-p) + :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\left\\{" "\\right\\}" + :trigger "\\l{" + :when '(sp-in-math-p) + :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\left|" "\\right|" + :trigger "\\l|" + :when '(sp-in-math-p) + :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\bigl(" "\\bigr)" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\biggl(" "\\biggr)" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\Bigl(" "\\Bigr)" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\Biggl(" "\\Biggr)" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\bigl[" "\\bigr]" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\biggl[" "\\biggr]" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\Bigl[" "\\Bigr]" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\Biggl[" "\\Biggr]" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\bigl\\{" "\\bigr\\}" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\biggl\\{" "\\biggr\\}" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\Bigl\\{" "\\Bigr\\}" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\Biggl\\{" "\\Biggr\\}" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\lfloor" "\\rfloor" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\lceil" "\\rceil" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + (sp-local-pair "\\langle" "\\rangle" :post-handlers '(sp-latex-insert-spaces-inside-pair)) + + ;; some common wrappings + (sp-local-tag "\"" "``" "''" :actions '(wrap)) + (sp-local-tag "\\b" "\\begin{_}" "\\end{_}") + (sp-local-tag "bi" "\\begin{itemize}" "\\end{itemize}") + (sp-local-tag "be" "\\begin{enumerate}" "\\end{enumerate}")) + +(provide 'smartparens-latex) + +;;; smartparens-latex.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-lua.el b/elpa/smartparens-20161009.858/smartparens-lua.el new file mode 100644 index 0000000..7190601 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-lua.el @@ -0,0 +1,89 @@ +;;; smartparens-lua.el --- Additional configuration for Lua based modes. + +;; Copyright (C) 2013-2014 Matus Goljer + +;; Author: Matus Goljer +;; Maintainer: Matus Goljer +;; Created: 3 August 2013 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for Lua based +;; modes. To use it, simply add: +;; +;; (require 'smartparens-lua) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. +;; +;; If you have good ideas about what should be added please file an +;; issue on the github tracker. +;; +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: + +(require 'smartparens) + +(defun sp-lua-post-keyword-insert (id action _context) + (cond + ((eq action 'insert) + (cond + ((member id '("while" "for")) + (insert " do") + (save-excursion (newline-and-indent)) + (backward-char 3)) + ((equal id "if") + (insert " then") + (save-excursion (newline-and-indent)) + (backward-char 5)) + ((equal id "function") + (save-excursion (newline-and-indent)) + (insert " ")))))) + +;; all the pairs are expanded only if followed by "SPC" event. This +;; will reduce false positives like 'dIFficult' to trigger. +(sp-with-modes '(lua-mode) + (sp-local-pair "if" "end" + :when '(("SPC")) + :unless '(sp-in-comment-p) + :post-handlers '(sp-lua-post-keyword-insert)) + (sp-local-pair "function" "end" + :when '(("SPC")) + :unless '(sp-in-comment-p) + :post-handlers '(sp-lua-post-keyword-insert)) + (sp-local-pair "for" "end" + :when '(("SPC")) + :unless '(sp-in-comment-p) + :post-handlers '(sp-lua-post-keyword-insert)) + (sp-local-pair "while" "end" + :when '(("SPC")) + :unless '(sp-in-comment-p) + :post-handlers '(sp-lua-post-keyword-insert)) + ) + +(provide 'smartparens-lua) + +;;; smartparens-lua.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-pkg.el b/elpa/smartparens-20161009.858/smartparens-pkg.el new file mode 100644 index 0000000..b3045ca --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-pkg.el @@ -0,0 +1,6 @@ +(define-package "smartparens" "20161009.858" "Automatic insertion, wrapping and paredit-like navigation with user defined pairs." + '((dash "2.12.1") + (cl-lib "0.3"))) +;; Local Variables: +;; no-byte-compile: t +;; End: diff --git a/elpa/smartparens-20161009.858/smartparens-python.el b/elpa/smartparens-20161009.858/smartparens-python.el new file mode 100644 index 0000000..5ceb506 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-python.el @@ -0,0 +1,84 @@ +;;; smartparens-python.el --- Additional configuration for Python based modes. + +;; Copyright (C) 2015-2016 Matus Goljer + +;; Author: Matus Goljer +;; Maintainer: Matus Goljer +;; Created: 8 February 2015 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for Python based +;; modes. To use it, simply add: +;; +;; (require 'smartparens-python) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. +;; +;; If you have good ideas about what should be added please file an +;; issue on the github tracker. +;; +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: + +(require 'smartparens) + +;; Python has no sexp suffices. This fixes slurping +;; (|sys).path.append---the dot should not travel with the closing +;; paren +(--each '(python-mode inferior-python-mode) + (add-to-list 'sp-sexp-suffix (list it 'regexp ""))) + +(sp-with-modes 'python-mode + (sp-local-pair "'" "'" :unless '(sp-in-comment-p sp-in-string-quotes-p)) + (sp-local-pair "\"\"\"" "\"\"\"") + (sp-local-pair "(" nil :pre-handlers '(sp-python-pre-slurp-handler)) + (sp-local-pair "[" nil :pre-handlers '(sp-python-pre-slurp-handler))) + +(defun sp-python-pre-slurp-handler (id action context) + (when (eq action 'slurp-forward) + ;; If there was no space before, we shouldn't add on. + ;; ok = enclosing, next-thing one being slurped into + ;; (variables let-bound in `sp-forward-slurp-sexp'). + (save-excursion + (when (and (= (sp-get ok :end) (sp-get next-thing :beg)) + (equal (sp-get ok :op) (sp-get next-thing :op))) + (goto-char (sp-get ok :end)) + (when (looking-back " ") + (delete-char -1)))))) + +(defadvice python-indent-dedent-line-backspace + (around sp-backward-delete-char-advice activate) + (if smartparens-strict-mode + (cl-letf (((symbol-function 'delete-backward-char) + (lambda (arg &optional killp) + (sp-backward-delete-char arg)))) + ad-do-it) + ad-do-it)) + +(provide 'smartparens-python) +;;; smartparens-python.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-racket.el b/elpa/smartparens-20161009.858/smartparens-racket.el new file mode 100644 index 0000000..06a6551 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-racket.el @@ -0,0 +1,55 @@ +;;; smartparens-racket.el --- Additional configuration for Racket based modes. + +;; Copyright (C) 2015 Vikraman Choudhury + +;; Author: Vikraman Choudhury +;; Maintainer: Vikraman Choudhury +;; Created: 26 Oct 2015 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for Racket based +;; modes. To use it, simply add: +;; +;; (require 'smartparens-racket) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. +;; +;; If you have good ideas about what should be added please file an +;; issue on the github tracker. +;; +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: + +(require 'smartparens) + +(sp-with-modes '(racket-mode racket-repl-mode) + (sp-local-pair "`" nil :actions nil) + (sp-local-pair "#|" "|#")) + +(provide 'smartparens-racket) +;;; smartparens-racket.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-ruby.el b/elpa/smartparens-20161009.858/smartparens-ruby.el new file mode 100644 index 0000000..09e5d98 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-ruby.el @@ -0,0 +1,374 @@ +;;; smartparens-ruby.el --- Additional configuration for Ruby based modes. + +;; Copyright (C) 2013-2014 Jean-Louis Giordano + +;; Author: Jean-Louis Giordano +;; Maintainer: Matus Goljer +;; Created: 16 June 2013 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for Ruby based +;; modes. To use it, simply add: +;; +;; (require 'smartparens-ruby) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. +;; + +;; If you have good ideas about what should be added please file an +;; issue on the github tracker. + +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: + +(require 'smartparens) + +(defun sp-ruby-forward-sexp () + (interactive) + (if (boundp 'enh-ruby-forward-sexp) + (enh-ruby-forward-sexp) + (ruby-forward-sexp))) + +(defun sp-ruby-backward-sexp () + (interactive) + (if (boundp 'enh-ruby-backward-sexp) + (enh-ruby-backward-sexp) + (ruby-backward-sexp))) + +(defun sp-ruby-maybe-one-space () + (while (looking-back " ") (backward-char)) + (when (or (looking-at-p " ") + (looking-at-p "}") + (looking-back "{")) + (save-excursion (just-one-space))) + (when (and (not (looking-back "^.?")) + (save-excursion + (backward-char 2) + (or (looking-at-p ".[^:] [.([,;]") + (looking-at-p ".. ::") + (looking-at-p ".[.@$] ") + (looking-at-p ":: ")))) + (delete-char 1))) + +(defun sp-ruby-delete-indentation (&optional arg) + "Better way of joining ruby lines" + (delete-indentation arg) + (sp-ruby-maybe-one-space)) + +(defun sp-ruby-block-post-handler (id action context) + "Handler for ruby block-like inserts" + (when (equal action 'insert) + (save-excursion + (newline) + (indent-according-to-mode)) + (indent-according-to-mode)) + (sp-ruby-post-handler id action context)) + +(defun sp-ruby-def-post-handler (id action context) + "Handler for ruby def-like inserts" + (when (equal action 'insert) + (save-excursion + (insert "x") + (newline) + (indent-according-to-mode)) + (delete-char 1)) + (sp-ruby-post-handler id action context)) + +(defun sp-ruby-post-handler (id action context) + (when (equal action 'barf-backward) + (sp-ruby-delete-indentation 1) + (indent-according-to-mode) + (save-excursion + (sp-backward-sexp) ; move to begining of current sexp + (sp-backward-sexp arg) + (sp-ruby-maybe-one-space))) + + (when (equal action 'barf-forward) + (sp-get enc + (let ((beg-line (line-number-at-pos :beg-in)) + (end-line (line-number-at-pos :end-in))) + (sp-forward-sexp arg) + (sp-ruby-maybe-one-space) + (when (not (= (line-number-at-pos) beg-line)) + (sp-ruby-delete-indentation -1)) + (indent-according-to-mode))))) + +(defun sp-ruby-pre-handler (id action context) + "Handler for ruby slurp and barf" + (sp-get enc + (let ((beg-line (line-number-at-pos :beg-in)) + (end-line (line-number-at-pos :end-in))) + + (when (equal action 'slurp-backward) + (save-excursion + (sp-forward-sexp) + (when (looking-at-p ";") (forward-char)) + (sp-ruby-maybe-one-space) + (when (not (= (line-number-at-pos) end-line)) + (sp-ruby-delete-indentation -1))) + (while (thing-at-point-looking-at "\\.[ \n]*") + (sp-backward-sexp)) + (when (looking-back "[@$:&?!]") + (backward-char) + (when (looking-back "[@&:]") + (backward-char))) + (just-one-space) + (save-excursion + (if (= (line-number-at-pos) end-line) + (insert " ") + (newline)))) + + (when (equal action 'barf-backward) + ;; Barf whole method chains + (while (thing-at-point-looking-at "[.([:][ \n]*") + (sp-forward-sexp)) + (if (looking-at-p " *$") + (newline) + (save-excursion (newline)))) + + (when (equal action 'slurp-forward) + (save-excursion + (sp-backward-sexp) + (when (looking-back "\.") (backward-char)) + (sp-ruby-maybe-one-space) + (when (not (= (line-number-at-pos) beg-line)) + (if (thing-at-point-looking-at "\\.[ \n]*") + (progn + (forward-symbol -1) + (sp-ruby-delete-indentation -1)) + (sp-ruby-delete-indentation)))) + (while (looking-at-p "::") (sp-forward-symbol)) + (when (looking-at-p "[?!;]") (forward-char)) + (if (= (line-number-at-pos) beg-line) + (insert " ") + (newline))) + + (when (equal action 'barf-forward) + (when (looking-back "\\.") (backward-char)) + (while (looking-back "::") (sp-backward-symbol)) + (if (= (line-number-at-pos) end-line) + (insert " ") + (if (looking-back "^ *") + (save-excursion (newline)) + (newline))))))) + +(defun sp-ruby-inline-p (id) + (save-excursion + (when (looking-back id) + (backward-word)) + (when (not (or (looking-back "^ *") + (looking-back "= *"))) + (or (save-excursion + (forward-symbol -1) + (forward-symbol 1) + (looking-at-p (concat " *" id))) + (save-excursion + ;; This does not seem to make emacs snapshot happy + (ignore-errors + (sp-ruby-backward-sexp) + (sp-ruby-forward-sexp) + (looking-at-p (concat "[^ ]* *" id)))))))) + +(defun sp-ruby-method-p (id) + (save-excursion + (when (looking-back id) + (backward-word)) + (and (looking-at-p id) + (or + ;; fix for def_foo + (looking-at-p (concat id "[_?!:]")) + ;; fix for foo_def + (looking-back "[_:@$.]") + ;; fix for def for; end + (looking-back "def \\|class \\|module ") + ;; Check if multiline method call + ;; But beware of comments! + (and (looking-back "\\.[ \n]*") + (not (save-excursion + (search-backward ".") + (sp-point-in-comment)))))))) + +(defun sp-ruby-skip-inline-match-p (ms mb me) + (or (sp-ruby-method-p ms) + (sp-ruby-inline-p ms))) + +(defun sp-ruby-skip-method-p (ms mb me) + (sp-ruby-method-p ms)) + +(defun sp-ruby-in-string-or-word-p (id action context) + (or (sp-in-string-p id action context) + (and (looking-back id) + (not (looking-back (sp--strict-regexp-quote id)))) + (sp-ruby-method-p id))) + +(defun sp-ruby-in-string-word-or-inline-p (id action context) + (or (sp-ruby-in-string-or-word-p id action context) + (and (looking-back id) + (sp-ruby-inline-p id)))) + +(defun sp-ruby-pre-pipe-handler (id action context) + (when (equal action 'insert) + (save-excursion + (just-one-space)) + (save-excursion + (search-backward id) + (just-one-space)))) + +(defun sp-ruby-should-insert-pipe-close (id action _ctx) + "Test whether to insert the closing pipe for a lambda-binding pipe pair." + (if (eq action 'insert) + (thing-at-point-looking-at + (rx-to-string `(and (or "do" "{") (* space) ,id))) + t)) + +(defun sp--ruby-skip-match (ms me mb) + (when (string= ms "end") + (or (sp-in-string-p ms me mb) + (sp-ruby-method-p "end")))) + +(add-to-list 'sp-navigate-skip-match + '((ruby-mode enh-ruby-mode motion-mode) . sp--ruby-skip-match)) + +(dolist (mode '(ruby-mode motion-mode)) + (add-to-list 'sp-sexp-suffix `(,mode syntax ""))) + +(sp-with-modes '(ruby-mode enh-ruby-mode motion-mode) + (sp-local-pair "do" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-or-word-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-block-post-handler) + :skip-match 'sp-ruby-skip-method-p + :suffix "") + + (sp-local-pair "{" "}" + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-post-handler) + :suffix "") + + (sp-local-pair "begin" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-or-word-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-block-post-handler) + :skip-match 'sp-ruby-skip-method-p + :suffix "") + + (sp-local-pair "def" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-or-word-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-method-p + :suffix "") + + (sp-local-pair "class" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-or-word-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-method-p + :suffix "") + + (sp-local-pair "module" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-or-word-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-method-p + :suffix "") + + (sp-local-pair "case" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-or-word-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-method-p + :suffix "") + + (sp-local-pair "for" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-or-word-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-inline-match-p) + + (sp-local-pair "if" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-word-or-inline-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-inline-match-p + :suffix "") + + (sp-local-pair "unless" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-word-or-inline-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-inline-match-p + :suffix "") + + (sp-local-pair "while" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-word-or-inline-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-inline-match-p + :suffix "") + + (sp-local-pair "until" "end" + :when '(("SPC" "RET" "")) + :unless '(sp-ruby-in-string-word-or-inline-p sp-in-comment-p) + :actions '(insert navigate) + :pre-handlers '(sp-ruby-pre-handler) + :post-handlers '(sp-ruby-def-post-handler) + :skip-match 'sp-ruby-skip-inline-match-p + :suffix "") + + (sp-local-pair "|" "|" + :when '(sp-ruby-should-insert-pipe-close) + :pre-handlers '(sp-ruby-pre-pipe-handler) + :suffix "")) + +(dolist (mode '(ruby-mode motion-mode)) + (add-to-list 'sp-navigate-consider-stringlike-sexp mode)) + +(provide 'smartparens-ruby) + +;;; smartparens-ruby.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-rust.el b/elpa/smartparens-20161009.858/smartparens-rust.el new file mode 100644 index 0000000..fa613b5 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-rust.el @@ -0,0 +1,96 @@ +;;; smartparens-rust.el --- Additional configuration for Haskell based modes. + +;; Copyright (C) 2015 Wilfred Hughes + +;; Created: 3 November 2015 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for Rust. To use +;; it, simply add: +;; +;; (require 'smartparens-config) +;; +;; alternatively, you can explicitly load these preferences: +;; +;; (require 'smartparens-rust) +;; +;; in your configuration. + +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: +(require 'smartparens) + +(defun sp-in-rust-lifetime-context (&rest args) + "Return t if point is in a Rust context where ' represents a lifetime. +If we return nil, ' should be used for character literals." + (or + (condition-case nil + ;; If point is just after a &', it's probably a &'foo. + (save-excursion + (backward-char 2) + (looking-at "&")) + ;; If we're at the beginning of the buffer, just carry on. + (beginning-of-buffer)) + ;; If point is inside < > it's probably a parameterised function. + (let ((paren-pos (nth 1 (syntax-ppss)))) + (and paren-pos + (save-excursion + (goto-char paren-pos) + (looking-at "<")))))) + +(defun sp-rust-filter-angle-brackets (id action context) + "Return t if we should allow the ACTION in the current CONTEXT + for angle brackets." + (cond + ;; Disallow in format string after any character, since < is used to specify + ;; alignment + ((and (eq context 'string) + (looking-back (rx (seq alphanumeric "<")))) nil) + + ;; Disallow when inserting in code in two situations: 1) when '<' is used for + ;; the comparison operators '<' and '<=', and 2) when writing a left shift + ;; '<<'. In both cases, we assume the user will use a space before the + ;; opening bracket '<'. + ((and (eq context 'code) + (eq action 'insert) + (looking-back (rx (or (seq space "<") + (seq space "<<"))))) nil) + + ;; Otherwise, allow all actions + (t))) + +(sp-with-modes '(rust-mode) + (sp-local-pair "'" "'" :unless '(sp-in-comment-p sp-in-string-quotes-p sp-in-rust-lifetime-context) :post-handlers'(:rem sp-escape-quotes-after-insert)) + (sp-local-pair "<" ">" :when '(sp-rust-filter-angle-brackets))) + +;; Rust has no sexp suffices. This fixes slurping +;; (|foo).bar -> (foo.bar) +(add-to-list 'sp-sexp-suffix (list #'rust-mode 'regexp "")) + +(provide 'smartparens-rust) + +;;; smartparens-rust.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens-scala.el b/elpa/smartparens-20161009.858/smartparens-scala.el new file mode 100644 index 0000000..29e9df0 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens-scala.el @@ -0,0 +1,57 @@ +;;; smartparens-scala.el --- Additional configuration for Scala based modes. + +;; Copyright (C) 2015 Greg Nwosu + +;; Author: Greg Nwosu +;; Maintainer: Greg Nwosu +;; Created: 8 July 2015 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; This file provides some additional configuration for Scala based +;; modes. To use it, simply add: +;; +;; (require 'smartparens-scala) +;; +;; into your configuration. You can use this in conjunction with the +;; default config or your own configuration. +;; +;; If you have good ideas about what should be added please file an +;; issue on the github tracker. +;; +;; For more info, see github readme at +;; https://github.com/Fuco1/smartparens + +;;; Code: + +(require 'smartparens) + +;; Scala has no sexp suffices. This fixes slurping +;; import scala.mutable{|} ListBuffer, Set ---the comma should not travel with the closing +;; paren +(--each '(scala-mode inferior-scala-mode) + (add-to-list 'sp-sexp-suffix (list it 'regexp ""))) + +(provide 'smartparens-scala) +;;; smartparens-scala.el ends here diff --git a/elpa/smartparens-20161009.858/smartparens.el b/elpa/smartparens-20161009.858/smartparens.el new file mode 100644 index 0000000..fe5c072 --- /dev/null +++ b/elpa/smartparens-20161009.858/smartparens.el @@ -0,0 +1,8425 @@ +;;; smartparens.el --- Automatic insertion, wrapping and paredit-like navigation with user defined pairs. + +;; Copyright (C) 2012-2016 Matus Goljer + +;; Author: Matus Goljer +;; Maintainer: Matus Goljer +;; Created: 17 Nov 2012 +;; Keywords: abbrev convenience editing +;; URL: https://github.com/Fuco1/smartparens + +;; This file is not part of GNU Emacs. + +;;; License: + +;; This file is part of Smartparens. + +;; Smartparens 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. + +;; Smartparens 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 Smartparens. If not, see . + +;;; Commentary: + +;; Smartparens is minor mode for Emacs that deals with parens pairs +;; and tries to be smart about it. It started as a unification effort +;; to combine functionality of several existing packages in a single, +;; compatible and extensible way to deal with parentheses, delimiters, +;; tags and the like. Some of these packages include autopair, +;; textmate, wrap-region, electric-pair-mode, paredit and others. With +;; the basic features found in other packages it also brings many +;; improvements as well as completely new features. + +;; For a basic overview, see github readme at +;; https://github.com/Fuco1/smartparens + +;; For the complete documentation visit the documentation wiki located +;; at https://github.com/Fuco1/smartparens/wiki + +;; If you like this project, you can donate here: +;; https://www.paypal.com/cgi-bin/webscr?cmd=_s-xclick&hosted_button_id=CEYP5YVHDRX8C + +;;; Code: + +(eval-when-compile (require 'cl)) ; for `lexical-let' +(require 'cl-lib) +(require 'dash) +(require 'thingatpt) + +(eval-when-compile (defvar cua--region-keymap)) +(declare-function cua-replace-region "cua-base") +(declare-function cua--pre-command-handler "cua-base") +(declare-function delete-selection-pre-hook "delsel") + +;;; backport for older emacsen + +;; introduced in 24.3 +(unless (fboundp 'defvar-local) + (defmacro defvar-local (var val &optional docstring) + "Define VAR as a buffer-local variable with default value VAL. +Like `defvar' but additionally marks the variable as being automatically +buffer-local wherever it is set." + (declare (debug defvar) (doc-string 3)) + ;; Can't use backquote here, it's too early in the bootstrap. + (list 'progn (list 'defvar var val docstring) + (list 'make-variable-buffer-local (list 'quote var))))) + +;;;###autoload +(defun sp-cheat-sheet (&optional arg) + "Generate a cheat sheet of all the smartparens interactive functions. + +Without a prefix argument, print only the short documentation and examples. + +With non-nil prefix argument, show the full documentation for each function. + +You can follow the links to the function or variable help page. +To get back to the full list, use \\[help-go-back]. + +You can use `beginning-of-defun' and `end-of-defun' to jump to +the previous/next entry. + +Examples are fontified using the `font-lock-string-face' for +better orientation." + (interactive "P") + (setq arg (not arg)) + (require 'help-mode) ;; for help-xref-following #85 + (let ((do-not-display '( + smartparens-mode + smartparens-global-mode + turn-on-smartparens-mode + turn-off-smartparens-mode + sp--cua-replace-region + sp-wrap-cancel + sp-remove-active-pair-overlay + sp-splice-sexp-killing-around ;; is aliased to `sp-raise-sexp' + show-smartparens-mode + show-smartparens-global-mode + turn-on-show-smartparens-mode + turn-off-show-smartparens-mode + )) + (do-not-display-with-arg '( + sp-use-paredit-bindings + sp-use-smartparens-bindings + )) + (commands (cl-loop for i in (cdr (assoc-string (file-truename (locate-library "smartparens")) load-history)) + if (and (consp i) (eq (car i) 'defun) (commandp (cdr i))) + collect (cdr i)))) + (with-current-buffer (get-buffer-create "*Smartparens cheat sheet*") + (let ((standard-output (current-buffer)) + (help-xref-following t)) + (read-only-mode -1) + (erase-buffer) + (help-mode) + (smartparens-mode 1) + (help-setup-xref (list #'sp-cheat-sheet) + (called-interactively-p 'interactive)) + (read-only-mode -1) + (--each (--remove (or (memq it do-not-display) + (and arg (memq it do-not-display-with-arg))) + commands) + (unless (equal (symbol-name it) "advice-compilation") + (let ((start (point)) kill-from) + (insert (propertize (symbol-name it) 'face 'font-lock-function-name-face)) + (insert " is ") + (describe-function-1 it) + (save-excursion + (when arg + (goto-char start) + (forward-paragraph 1) + (forward-line 1) + (if (looking-at "^It is bound") + (forward-paragraph 2) + (forward-paragraph 1)) + (setq kill-from (point)) + (when (re-search-forward "^Examples:" nil t) + (delete-region kill-from + (save-excursion + (forward-line 1) + (point)))))) + (insert (propertize (concat + "\n\n" + (make-string 72 ?―) + "\n\n") 'face 'font-lock-function-name-face))))) + (goto-char (point-min)) + (while (re-search-forward "\\(->\\|​\\)" nil t) + (let ((thing (bounds-of-thing-at-point 'line))) + (put-text-property (car thing) (cdr thing) 'face 'font-lock-string-face))) + (goto-char (point-min)) + (while (re-search-forward "|" nil t) + (put-text-property (1- (point)) (point) 'face 'font-lock-warning-face)) + (goto-char (point-min)) + (while (re-search-forward "^It is bound to \\(.*?\\)\\." nil t) + (put-text-property (match-beginning 1) (match-end 1) 'face 'font-lock-keyword-face)) + (goto-char (point-min)) + (while (re-search-forward ";;.*?$" nil t) + (put-text-property (match-beginning 0) (match-end 0) 'face 'font-lock-comment-face)) + (help-make-xrefs) + (goto-char (point-min)))) + (pop-to-buffer "*Smartparens cheat sheet*"))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Variables + +(defvar-local sp-forward-bound-fn nil + "Function to restrict the forward search") + +(defvar-local sp-backward-bound-fn nil + "Function to restrict the backward search") + +(defun sp--get-forward-bound () + "Get the bound to limit the forward search for looking for pairs. + +If it returns nil, the original bound passed to the search +function will be considered." + (and sp-forward-bound-fn (funcall sp-forward-bound-fn))) + +(defun sp--get-backward-bound () + "Get the bound to limit the backward search for looking for pairs. + +If it returns nil, the original bound passed to the search +function will be considered." + (and sp-backward-bound-fn (funcall sp-backward-bound-fn))) + + +;;;###autoload +(defvar smartparens-mode-map (make-sparse-keymap) + "Keymap used for `smartparens-mode'.") +(defvaralias 'sp-keymap 'smartparens-mode-map) +(make-obsolete-variable 'sp-keymap 'smartparens-mode-map "2015-01-01") + +(defvar sp-paredit-bindings '( + ("C-M-f" . sp-forward-sexp) ;; navigation + ("C-M-b" . sp-backward-sexp) + ("C-M-u" . sp-backward-up-sexp) + ("C-M-d" . sp-down-sexp) + ("C-M-p" . sp-backward-down-sexp) + ("C-M-n" . sp-up-sexp) + ("M-s" . sp-splice-sexp) ;; depth-changing commands + ("M-" . sp-splice-sexp-killing-backward) + ("M-" . sp-splice-sexp-killing-forward) + ("M-r" . sp-splice-sexp-killing-around) + ("C-)" . sp-forward-slurp-sexp) ;; barf/slurp + ("C-" . sp-forward-slurp-sexp) + ("C-}" . sp-forward-barf-sexp) + ("C-" . sp-forward-barf-sexp) + ("C-(" . sp-backward-slurp-sexp) + ("C-M-" . sp-backward-slurp-sexp) + ("C-{" . sp-backward-barf-sexp) + ("C-M-" . sp-backward-barf-sexp) + ("M-S" . sp-split-sexp) ;; misc + ) + "Alist containing the default paredit bindings to corresponding +smartparens functions.") + +(defun sp--populate-keymap (bindings) + "Populates the `smartparens-mode-map' from the BINDINGS alist." + (--each bindings + (define-key smartparens-mode-map (read-kbd-macro (car it)) (cdr it)))) + +;;;###autoload +(defun sp-use-paredit-bindings () + "Initiate `smartparens-mode-map' with paredit-compatible bindings for +corresponding functions provided by smartparens. See variable +`sp-paredit-bindings'." + (interactive) + (sp--populate-keymap sp-paredit-bindings)) + +(defvar sp-smartparens-bindings '( + ("C-M-f" . sp-forward-sexp) + ("C-M-b" . sp-backward-sexp) + ("C-M-d" . sp-down-sexp) + ("C-M-a" . sp-backward-down-sexp) + ("C-S-d" . sp-beginning-of-sexp) + ("C-S-a" . sp-end-of-sexp) + ("C-M-e" . sp-up-sexp) + ("C-M-u" . sp-backward-up-sexp) + ("C-M-n" . sp-next-sexp) + ("C-M-p" . sp-previous-sexp) + ("C-M-k" . sp-kill-sexp) + ("C-M-w" . sp-copy-sexp) + ("M-" . sp-unwrap-sexp) + ("M-" . sp-backward-unwrap-sexp) + ("C-" . sp-forward-slurp-sexp) + ("C-" . sp-forward-barf-sexp) + ("C-M-" . sp-backward-slurp-sexp) + ("C-M-" . sp-backward-barf-sexp) + ("M-D" . sp-splice-sexp) + ("C-M-" . sp-splice-sexp-killing-forward) + ("C-M-" . sp-splice-sexp-killing-backward) + ("C-S-" . sp-splice-sexp-killing-around) + ("C-]" . sp-select-next-thing-exchange) + ("C-M-]" . sp-select-next-thing) + ("M-F" . sp-forward-symbol) + ("M-B" . sp-backward-symbol) + ) + "Alist containing the default smartparens bindings.") + +;;;###autoload +(defun sp-use-smartparens-bindings () + "Initiate `smartparens-mode-map' with smartparens bindings for navigation functions. +See variable `sp-smartparens-bindings'." + (interactive) + (sp--populate-keymap sp-smartparens-bindings)) + +(defun sp--set-base-key-bindings (&optional symbol value) + "Set up the default keymap based on `sp-base-key-bindings'. + +This function is also used as a setter for this customize value." + (when symbol (set-default symbol value)) + (cond + ((eq sp-base-key-bindings 'sp) + (sp-use-smartparens-bindings)) + ((eq sp-base-key-bindings 'paredit) + (sp-use-paredit-bindings)))) + +(defun sp--update-override-key-bindings (&optional symbol value) + "Override the key bindings with values from `sp-override-key-bindings'. + +This function is also used as a setter for this customize value." + (when symbol (set-default symbol value)) + ;; this also needs to reload the base set, if any is present. + (sp--set-base-key-bindings) + (sp--populate-keymap sp-override-key-bindings)) + +(defcustom sp-base-key-bindings nil + "A default set of key bindings for commands provided by smartparens. + +Paredit binding adds the bindings in `sp-paredit-bindings' to the +corresponding smartparens commands. It does not add bindings to +any other commands, or commands that do not have a paredit +counterpart. + +Smartparens binding adds the bindings in +`sp-smartparens-bindings' to most common smartparens commands. +These are somewhat inspired by paredit, but in many cases differ. + +Note that neither \"paredit\" nor \"smartparens\" bindings add a +binding for all the provided commands." + :type '(radio + (const :tag "Don't use any default set of bindings" nil) + (const :tag "Use smartparens set of bindings" sp) + (const :tag "Use paredit set of bindings" paredit)) + :set 'sp--set-base-key-bindings + :group 'smartparens) + +(defcustom sp-override-key-bindings nil + "An alist of bindings and commands that should override the base key set. + +If you wish to override a binding from the base set, set the +value for the binding to the `kbd' recognizable string constant +and command to the command symbol you wish to bind there. + +If you wish to disable a binding from the base set, set the value +for the command to nil. + +Examples: + (\"C-M-f\" . sp-forward-sexp) + (\"C-\" . nil) + +See `sp-base-key-bindings'." + :type '(alist + :key-type string + :value-type symbol) + :set 'sp--update-override-key-bindings + :group 'smartparens) + +(defvar sp-escape-char nil + "Character used to escape quotes inside strings.") +(make-variable-buffer-local 'sp-escape-char) + +(defvar sp-comment-char nil + "Character used to start comments.") +(make-variable-buffer-local 'sp-comment-char) + +(defvar sp-pair-list nil + "List of pairs for autoinsertion or wrapping. + +Maximum length of opening or closing pair is +`sp-max-pair-length' characters.") +(make-variable-buffer-local 'sp-pair-list) + +(defvar sp-local-pairs nil + "List of pair definitions used for current buffer.") +(make-variable-buffer-local 'sp-local-pairs) + +(defvar sp-last-operation nil + "Symbol holding the last successful operation.") +(make-variable-buffer-local 'sp-last-operation) + +(cl-defstruct sp-state + "Smartparens state for the current buffer." + ;; A "counter" to track delayed hook. When a pair is inserted, a + ;; cons of the form (:next . pair) is stored. On the next + ;; (immediately after insertion) invocation of post-command-hook, it + ;; is changed to (:this . pair). When the `car' is :this, the + ;; post-command-hook checks the delayed hooks for `pair' and + ;; executes them, then reset the "counter". + delayed-hook + ;; TODO + delayed-insertion + ;; The last point checked by sp--syntax-ppss and its result, used for + ;; memoization + last-syntax-ppss-point + last-syntax-ppss-result) + +(defvar sp-state nil + "Smartparens state for the current buffer.") +(make-variable-buffer-local 'sp-state) + +;; TODO: get rid of this +(defvar sp-previous-point -1 + "Location of point before last command. + +This is only updated when some pair-overlay is active. Do not +rely on the value of this variable anywhere else!") +(make-variable-buffer-local 'sp-previous-point) + +;; TODO: get rid of this +(defvar sp-wrap-point nil + "Save the value of point before attemt to wrap a region. + +Used for restoring the original state if the wrapping is +cancelled.") +(make-variable-buffer-local 'sp-wrap-point) + +;; TODO: get rid of this +(defvar sp-wrap-mark nil + "Save the value of mark before attemt to wrap a region. + +Used for restoring the original state if the wrapping is +cancelled.") +(make-variable-buffer-local 'sp-wrap-mark) + +(defvar sp-last-inserted-characters "" + "Characters typed during the wrapping selection. + +If wrapping is cancelled, these characters are re-inserted to the +location of point before the wrapping.") +(make-variable-buffer-local 'sp-last-inserted-characters) + +(defvar sp-last-inserted-pair nil + "Last inserted pair.") +(make-variable-buffer-local 'sp-last-inserted-pair) + +(defvar sp-delayed-pair nil + "A pair whose insertion is delayed to be carried out in +`sp--post-command-hook-handler'. The format is (opening delim +. beg of the opening delim)") +(make-variable-buffer-local 'sp-delayed-pair) + +(defvar sp-last-wrapped-region nil + "Information about the last wrapped region. +The format is the same as returned by `sp-get-sexp'.") +(make-variable-buffer-local 'sp-last-wrapped-region) + +(defvar sp-point-inside-string nil + "Non-nil if point is inside a string. + +Used to remember the state from before `self-insert-command' is +run.") + +(defvar sp-buffer-modified-p nil + "Non-nil if buffer was modified before the advice on +`self-insert-command' executed.") + +(defvar sp-pre-command-point nil + "Position of `point' before `this-command' gets executed.") + +(defconst sp-max-pair-length 10 + "Maximum length of an opening or closing delimiter. + +Only the pairs defined by `sp-pair' are considered. Tag pairs +can be of any length.") + +(defconst sp-max-prefix-length 100 + "Maximum length of a pair prefix. + +Because prefixes for pairs can be specified using regular +expressions, they can potentially be of arbitrary length. This +settings solves the problem where the parser would decide to +backtrack the entire buffer which would lock up Emacs.") + +(defvar sp-pairs + '((t + . + ((:open "\\\\(" :close "\\\\)" :actions (insert wrap autoskip navigate)) + (:open "\\{" :close "\\}" :actions (insert wrap autoskip navigate)) + (:open "\\(" :close "\\)" :actions (insert wrap autoskip navigate)) + (:open "\\\"" :close "\\\"" :actions (insert wrap autoskip navigate)) + (:open "\"" :close "\"" + :actions (insert wrap autoskip navigate escape) + :unless (sp-in-string-quotes-p) + :post-handlers (sp-escape-wrapped-region sp-escape-quotes-after-insert)) + (:open "'" :close "'" + :actions (insert wrap autoskip navigate escape) + :unless (sp-in-string-quotes-p sp-point-after-word-p) + :post-handlers (sp-escape-wrapped-region sp-escape-quotes-after-insert)) + (:open "(" :close ")" :actions (insert wrap autoskip navigate)) + (:open "[" :close "]" :actions (insert wrap autoskip navigate)) + (:open "{" :close "}" :actions (insert wrap autoskip navigate)) + (:open "`" :close "`" :actions (insert wrap autoskip navigate))))) + "List of pair definitions. + +Maximum length of opening or closing pair is +`sp-max-pair-length' characters.") + +(defvar sp-tags nil + "List of tag definitions. See `sp-local-tag' for more information.") + +(defvar sp-prefix-tag-object nil + "If non-nil, only consider tags while searching for next thing.") + +(defvar sp-prefix-pair-object nil + "If non-nil, only consider pairs while searching for next thing. + +Pairs are defined as expressions delimited by pairs from +`sp-pair-list'.") + +(defvar sp-prefix-symbol-object nil + "If non-nil, only consider symbols while searching for next thing. + +Symbol is defined as a chunk of text recognized by +`sp-forward-symbol'.") + +(define-obsolete-variable-alias 'sp--lisp-modes 'sp-lisp-modes "2015-11-08") + +(defcustom sp-lisp-modes '( + cider-repl-mode + clojure-mode + clojurec-mode + clojurescript-mode + clojurex-mode + common-lisp-mode + emacs-lisp-mode + eshell-mode + geiser-repl-mode + inf-clojure-mode + inferior-emacs-lisp-mode + inferior-lisp-mode + inferior-scheme-mode + lisp-interaction-mode + lisp-mode + monroe-mode + racket-mode + racket-repl-mode + scheme-interaction-mode + scheme-mode + slime-repl-mode + stumpwm-mode + ) + "List of Lisp modes." + :type '(repeat symbol) + :group 'smartparens) + +(defcustom sp-no-reindent-after-kill-modes '( + python-mode + coffee-mode + js2-mode + asm-mode + makefile-gmake-mode + ) + "List of modes that should not reindent after kill." + :type '(repeat symbol) + :group 'smartparens) + +(defvar sp--html-modes '( + sgml-mode + html-mode + rhtml-mode + nxhtml-mode + nxml-mode + web-mode + jinja2-mode + html-erb-mode + ) + "List of HTML modes.") + +(defvar sp-message-alist + '((:unmatched-expression + "Search failed. This means there is unmatched expression somewhere or we are at the beginning/end of file." + "Unmatched expression.") + (:delimiter-in-string + "Opening or closing pair is inside a string or comment and matching pair is outside (or vice versa). Ignored.") + (:no-matching-tag + "Search failed. No matching tag found." + "No matching tag.") + (:invalid-context-prev + "Invalid context: previous h-sexp ends after the next one." + "Invalid context.") + (:invalid-context-cur + "Invalid context: current h-sexp starts after the next one." + "Invalid context.") + (:no-structure-found + "Previous sexp starts after current h-sexp or no structure was found." + "No valid structure found.") + (:invalid-structure + "This operation would result in invalid structure. Ignored." + "Ignored because of invalid structure.") + (:cant-slurp + "We can't slurp without breaking strictly balanced expression. Ignored." + "Can't slurp without breaking balance.") + (:cant-slurp-context + "We can't slurp into different context (comment -> code). Ignored." + "Can't slurp into different context.") + (:blank-sexp + "Point is in blank sexp, nothing to barf." + "Point is in blank sexp.") + (:point-not-deep-enough + "Point has to be at least two levels deep to swap the enclosing delimiters." + "Point has to be at least two levels deep." + "Point not deep enough.") + (:different-type + "The expressions to be joined are of different type." + "Expressions are of different type.")) + "List of predefined messages to be displayed by `sp-message'. + +Each element is a list consisting of a keyword and one or more +strings, which are chosen based on the `sp-message-width' +variable. If the latter is `t', the first string is chosen as +default, which should be the most verbose option available.") + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Customize & Mode definitions + +(defgroup smartparens () + "Smartparens minor mode." + :group 'editing + :prefix "sp-") + +;;;###autoload +(define-minor-mode smartparens-mode + "Toggle smartparens mode. + +You can enable pre-set bindings by customizing +`sp-base-key-bindings' variable. The current content of +`smartparens-mode-map' is: + + \\{smartparens-mode-map}" + :init-value nil + :lighter (" SP" (:eval (if smartparens-strict-mode "/s" ""))) + :group 'smartparens + :keymap smartparens-mode-map + (if smartparens-mode + (progn + (sp--init) + (run-hooks 'smartparens-enabled-hook)) + (run-hooks 'smartparens-disabled-hook))) + +(defvar smartparens-strict-mode-map + (let ((map (make-sparse-keymap))) + (define-key map [remap delete-char] 'sp-delete-char) + (define-key map [remap delete-forward-char] 'sp-delete-char) + (define-key map [remap backward-delete-char-untabify] 'sp-backward-delete-char) + (define-key map [remap backward-delete-char] 'sp-backward-delete-char) + (define-key map [remap delete-backward-char] 'sp-backward-delete-char) + (define-key map [remap kill-word] 'sp-kill-word) + (define-key map [remap kill-line] 'sp-kill-hybrid-sexp) + (define-key map [remap backward-kill-word] 'sp-backward-kill-word) + map) + "Keymap used for `smartparens-strict-mode'.") + +;;;###autoload +(define-minor-mode smartparens-strict-mode + "Toggle the strict smartparens mode. + +When strict mode is active, `delete-char', `kill-word' and their +backward variants will skip over the pair delimiters in order to +keep the structure always valid (the same way as `paredit-mode' +does). This is accomplished by remapping them to +`sp-delete-char' and `sp-kill-word'. There is also function +`sp-kill-symbol' that deletes symbols instead of words, otherwise +working exactly the same (it is not bound to any key by default). + +When strict mode is active, this is indicated with \"/s\" +after the smartparens indicator in the mode list." + :init-value nil + :group 'smartparens + (if smartparens-strict-mode + (progn + (unless smartparens-mode + (smartparens-mode 1)) + (unless (-find-indices (lambda (it) (eq (car it) 'smartparens-strict-mode)) minor-mode-overriding-map-alist) + (setq minor-mode-overriding-map-alist + (cons `(smartparens-strict-mode . ,smartparens-strict-mode-map) minor-mode-overriding-map-alist))) + (setq sp-autoskip-closing-pair 'always)) + (setq minor-mode-overriding-map-alist + (-remove (lambda (it) (eq (car it) 'smartparens-strict-mode)) minor-mode-overriding-map-alist)) + (let ((std-val (car (plist-get (symbol-plist 'sp-autoskip-closing-pair) 'standard-value))) + (saved-val (car (plist-get (symbol-plist 'sp-autoskip-closing-pair) 'saved-value)))) + (setq sp-autoskip-closing-pair (eval (or saved-val std-val)))))) + +;;;###autoload +(define-globalized-minor-mode smartparens-global-strict-mode + smartparens-strict-mode + turn-on-smartparens-strict-mode + :group 'smartparens) + +;;;###autoload +(defun turn-on-smartparens-strict-mode () + "Turn on `smartparens-strict-mode'." + (interactive) + (unless (or (member major-mode sp-ignore-modes-list) + (and (not (derived-mode-p 'comint-mode)) + (eq (get major-mode 'mode-class) 'special))) + (smartparens-strict-mode 1))) + +(defun sp--init () + "Initialize the buffer local pair bindings and other buffer +local variables that depend on the active `major-mode'." + ;; setup local state + (setq sp-state (make-sp-state)) + ;; setup local pair replacements + (sp--update-local-pairs) + ;; set the escape char + (dotimes (char 256) + (unless sp-escape-char + (when (= ?\\ (char-syntax char)) + (setq sp-escape-char (string char)))) + (unless sp-comment-char + (when (= ?< (char-syntax char)) + (setq sp-comment-char (string char)))))) + +(defun sp--maybe-init () + "Initialize the buffer if it is not already initialized. See `sp--init'." + (unless sp-pair-list + (sp--init))) + +(defun sp--update-local-pairs () + "Update local pairs after removal or at mode initialization." + (setq sp-local-pairs + (->> (sp--merge-with-local major-mode) + (--filter (plist-get it :actions)))) + ;; update the `sp-pair-list'. This is a list only containing + ;; (open.close) cons pairs for easier querying. We also must order + ;; it by length of opening delimiter in descending order (first + ;; value is the longest) + (setq sp-pair-list + (->> sp-local-pairs + (--map (cons (plist-get it :open) (plist-get it :close))) + (-sort (lambda (x y) (> (length (car x)) (length (car y)))))))) + +(defun sp--update-local-pairs-everywhere (&rest modes) + "Run `sp--update-local-pairs' in all buffers. + +This is necessary to update all the buffer-local definitions. If +MODES is non-nil, only update buffers with `major-mode' equal to +MODES." + (setq modes (-flatten modes)) + (--each (buffer-list) + (with-current-buffer it + (when (and smartparens-mode + (or (not modes) + (memq major-mode modes))) + (sp--update-local-pairs))))) + +(defcustom smartparens-enabled-hook nil + "Called after `smartparens-mode' is turned on." + :type 'hook + :group 'smartparens) + +(defcustom smartparens-disabled-hook nil + "Called after `smartparens-mode' is turned off." + :type 'hook + :group 'smartparens) + +;; global custom +(defcustom sp-ignore-modes-list '( + minibuffer-inactive-mode + ) + "Modes where smartparens mode is inactive if allowed globally." + :type '(repeat symbol) + :group 'smartparens) + +;;;###autoload +(define-globalized-minor-mode smartparens-global-mode + smartparens-mode + turn-on-smartparens-mode) + +;;;###autoload +(defun turn-on-smartparens-mode () + "Turn on `smartparens-mode'. + +This function is used to turn on `smartparens-global-mode'. + +By default `smartparens-global-mode' ignores buffers with +`mode-class' set to special, but only if they are also not comint +buffers. + +Additionally, buffers on `sp-ignore-modes-list' are ignored. + +You can still turn on smartparens in these mode manually (or +in mode's startup-hook etc.) by calling `smartparens-mode'." + (interactive) + (unless (or (member major-mode sp-ignore-modes-list) + (and (not (derived-mode-p 'comint-mode)) + (eq (get major-mode 'mode-class) 'special))) + (smartparens-mode t))) + +;;;###autoload +(defun turn-off-smartparens-mode () + "Turn off `smartparens-mode'." + (interactive) + (smartparens-mode -1)) + +;; insert custom +(defcustom sp-autoinsert-pair t + "If non-nil, autoinsert pairs. See `sp-insert-pair'." + :type 'boolean + :group 'smartparens) + +(defcustom sp-autoinsert-quote-if-followed-by-closing-pair nil + "If non-nil, autoinsert string quote pair even if the point is followed by closing pair. + +This option only changes behaviour of the insertion process if +point is inside a string. In other words, if string is not +closed and next character is a closing pair. + +For example, in a situation like this: + + [\"some text|] + +after pressing \", one would probably want to insert the closing +quote, not a nested pair (\\\"\\\"), to close the string literal +in the array. To enable such behaviour, set this variable to +nil. + +Note: the values of this varible seem to be backward, i.e. it is +\"enabled\" when the value is nil. This was an unfortunate +choice of wording. It is kept this way to preserve backward +compatibility. The intended meaning is \"insert the pair if +followed by closing pair?\", t = yes." + :type 'boolean + :group 'smartparens) + +(defcustom sp-autoskip-closing-pair 'always-end + "If t, skip the following closing pair if the expression is +active (that is right after insertion). This is controlled by +`sp-cancel-autoskip-on-backward-movement'. + +If set to \"always-end\", skip the closing pair even if the +expression is not active and point is at the end of the +expression. This only works for expressions with +single-character delimiters. + +If set to \"always\", `sp-up-sexp' is called whenever the closing +delimiter is typed inside a sexp of the same type. This is the +paredit-like behaviour. This setting only works for +single-character delimiters and does not work for string-like +delimiters. + +See `sp-autoskip-opening-pair' for similar setting for +string-like delimiters. + +See also `sp-skip-closing-pair'." + :type '(radio + (const :tag "Never skip closing delimiter" nil) + (const :tag "Skip closing delimiter in active expressions" t) + (const :tag "Always skip closing delimiter if at the end of sexp" always-end) + (const :tag "Always skip closing delimiter" always)) + :group 'smartparens) +(make-variable-buffer-local 'sp-autoskip-closing-pair) + +(defcustom sp-autoskip-opening-pair nil + "If non-nil, skip into the following string-like expression +instead of inserting a new pair." + :type 'boolean + :group 'smartparens) +(make-variable-buffer-local 'sp-autoskip-opening-pair) + +(defcustom sp-cancel-autoskip-on-backward-movement t + "If non-nil, autoskip of closing pair is cancelled not only +when point is moved outside of the pair, but also if the point +moved backwards. See `sp-skip-closing-pair' for more info." + :type 'boolean + :group 'smartparens) + +;; delete custom +(defcustom sp-autodelete-pair t + "If non-nil, auto delete pairs. See `sp-delete-pair'." + :type 'boolean + :group 'smartparens) + +(defcustom sp-autodelete-closing-pair t + "If non-nil, auto delete the whole closing-pair. See `sp-delete-pair'." + :type 'boolean + :group 'smartparens) + +(defcustom sp-autodelete-opening-pair t + "If non-nil, auto delete the whole opening-pair. See `sp-delete-pair'." + :type 'boolean + :group 'smartparens) + +(defcustom sp-undo-pairs-separately nil + "If non-nil, put an `undo-boundary' before each inserted pair. + +Calling undo after smartparens complete a pair will remove only +the pair before undoing any previous insertion. + +WARNING: This option is implemented by hacking the +`buffer-undo-list'. Turning this option on might have +irreversible consequences on the buffer's undo information and in +some cases might remove important information. Usage of package +`undo-tree' is recommended if you ever need to revert to a state +unreachable by undo." + :type 'boolean + :group 'smartparens) + +(defcustom sp-successive-kill-preserve-whitespace 1 + "Control the behaviour of `sp-kill-sexp' on successive kills. + +In the description, we consider more than one space +\"superfluous\", however, newlines are preserved." + :type '(radio + (const :tag "Always preserve the whitespace" 0) + (const :tag "Remove superfluous whitespace after last kill" 1) + (const :tag "Remove superfluous whitespace after all kills" 2)) + :group 'smartparens) + +;; wrap custom +(defcustom sp-autowrap-region t + "If non-nil, wrap the active region with pair." + :type 'boolean + :group 'smartparens) + +(defcustom sp-wrap-show-possible-pairs t + "If non-nil, show possible pairs which can complete the wrapping." + :type 'boolean + :group 'smartparens) + +(defcustom sp-autodelete-wrap t + "If non-nil, auto delete both opening and closing pair of most recent wrapping. + +Deletion command must be the very first command after the +insertion, otherwise normal behaviour is applied." + :type 'boolean + :group 'smartparens) + +(defcustom sp-wrap-repeat-last 1 + "Context in which smartparens repeats the last wrap. + +If the last operation was a wrap and we insert another pair at +the beginning or end of the last wrapped region, repeat the +wrap on this region with current pair." + :type '(radio + (const :tag "Do not repeat wrapping" 0) + (const :tag "Only repeat if current tag is the same as the last one" 1) + (const :tag "Always repeat if the point is after the opening/closing delimiter of last wrapped region" 2)) + :group 'smartparens) + +(defcustom sp-wrap-entire-symbol nil + "If non-nil, do NOT wrap the entire symbol, only the part after point. + +If set to \"Enable globally\", smart symbol wrapping is active +everywhere. This is the default option. + +If set to \"Disable globally\", smart symbol wrapping is disabled +everywhere. + +Otherwise, a list of major modes where smart symbol wrapping is +*disabled* can be supplied. + +Examples: + + foo-ba|r-baz -> (|foo-bar-baz) ;; if enabled + + foo-ba|r-baz -> foo-ba(|r-baz) ;; if disabled" + :type '(choice + (const :tag "Enable globally" nil) + (const :tag "Disable globally" globally) + (repeat :tag "Disable in these major modes" symbol)) + :group 'smartparens) + +(defcustom sp-wrap-from-point nil + "If non-nil, do not wrap from the beginning of next expression but from point. + +However, if the point is inside a symbol/word, the entire +symbol/word is wrapped. To customize this behaviour, see +variable `sp-wrap-entire-symbol'." + :type 'boolean + :group 'smartparens) + +(defcustom sp-wrap-respect-direction nil + "When non-nil respect the wrap direction. + +When non-nil, wrapping with opening pair always jumps to the +beginning of the region and wrapping with closing pair always +jumps to the end of the region. + +When nil, closing pair places the point at the end of the region +and the opening pair leaves the point at its original +position (before or after the region)." + :type 'boolean + :group 'smartparens) + +;; escaping custom +(defcustom sp-escape-wrapped-region t + "If non-nil, escape special chars inside the just wrapped region." + :type 'boolean + :group 'smartparens) + +(defcustom sp-escape-quotes-after-insert t + "If non-nil, escape string quotes if typed inside string." + :type 'boolean + :group 'smartparens) + +;; navigation & manip custom +(defcustom sp-navigate-consider-sgml-tags '( + html-mode + ) + "List of modes where sgml tags are considered to be sexps." + :type '(repeat symbol) + :group 'smartparens) + +(defcustom sp-navigate-consider-stringlike-sexp '( + latex-mode + ) + "List of modes where string-like sexps are considered to be sexps. + +A string-like sexp is an expression where opening and closing +delimeter is the same sequence of characters. For example: *...*, +$...$. + +Warning: these are problematic in modes where the symbol might +have multiple functions, such as * in markdown, where it denotes +start of list item (unary) OR emphatic text (binary)." + :type '(repeat symbol) + :group 'smartparens) +(make-obsolete-variable 'sp-navigate-consider-stringlike-sexp + "It no longer has any effect, strings are now enabled globally." + "1.8") + +(defcustom sp-navigate-use-textmode-stringlike-parser '((derived . text-mode)) + "List of modes where textmode stringlike parser is used. + +See `sp-get-textmode-stringlike-expression'. + +Each element of the list can either be a symbol which is then +checked against `major-mode', or a cons (derived . PARENT-MODE), +where PARENT-MODE is checked using `derived-mode-p'." + :type '(repeat (choice + (symbol :tag "Major mode") + (cons :tag "Derived mode" + (const derived) + (symbol :tag "Parent major mode name")))) + :group 'smartparens) + +(defvaralias 'sp-nagivate-use-textmode-stringlike-parser 'sp-navigate-use-textmode-stringlike-parser) +;; For backward compatibility? + +(defcustom sp-navigate-consider-symbols t + "If non-nil, consider symbols outside balanced expressions as such. + +Symbols are recognized by function `sp-forward-symbol'. This +setting affect all the navigation and manipulation functions +where it make sense. + +Also, special handling of strings is enabled, where the whole +string delimited with \"\" is considered as one token. + +WARNING: This is a legacy setting and changing its value to NIL +may break many things. It is kept only for backward +compatibility and will be removed in the next major release." + :type 'boolean + :group 'smartparens) + +(defcustom sp-navigate-comments-as-sexps t + "If non-nil, consider comments as sexps in `sp-get-enclosing-sexp'. + +If this option is enabled, unbalanced expressions in comments are +never automatically closed (see `sp-navigate-close-if-unbalanced')." + :type 'boolean + :group 'smartparens) + +(defcustom sp-navigate-skip-match `( + (,sp-lisp-modes . sp--elisp-skip-match) + ) + "Alist of list of major-modes and a function used to skip over matches in +`sp-get-paired-expression'. This function takes three arguments: +the currently matched delimiter, beginning of match and end of +match. If this function returns true, the current match will be +skipped. + +You can use this to skip over expressions that serve multiple +functions, such as if/end pair or unary if in Ruby or * in +markdown when it signifies list item instead of emphasis. If the +exception is only relevant to one pair, you should rather +use :skip-match option in `sp-local-pair'." + :type '(alist + :key-type (repeat symbol) + :value-type symbol) + :group 'smartparens) + +(defcustom sp-navigate-reindent-after-up `( + (interactive + ,@sp-lisp-modes + ) + ) + "Modes where sexps should be reindented after jumping out of them with `sp-up-sexp'. + +The whitespace between the closing delimiter and last \"thing\" +inside the expression is removed. It works analogically for the +`sp-backward-up-sexp'. + +If the mode is in the list \"interactive\", only reindent the sexp +if the command was called interactively. This is recommended for +general use. + +If the mode is in the list \"always\", reindend the sexp even if the +command was called programatically." + :type '(alist + :options (interactive always) + :value-type (repeat symbol)) + :group 'smartparens) + +(defcustom sp-navigate-reindent-after-up-in-string t + "If non-nil, `sp-up-sexp' will reindent inside strings. + +If `sp-navigate-reindent-after-up' is enabled and the point is +inside a string, this setting determines if smartparens should +reindent the current (string) sexp or not." + :type 'boolean + :group 'smartparens) + +(defcustom sp-navigate-close-if-unbalanced nil + "If non-nil, insert the closing pair of the un-matched pair on `sp-up-sexp'. + +The closing delimiter is inserted after the symbol at +point (using `sp-previous-sexp')." + :type 'boolean + :group 'smartparens) + +(defcustom sp-sexp-prefix nil + "Alist of major-mode specific prefix specification. + +Each item is a list with three properties: +- major mode +- a constant symbol 'regexp or 'syntax +- a regexp or a string containing syntax class codes. + +If the second argument is 'regexp, the third argument is +interpreted as a regexp to search backward from the start of an +expression. + +If the second argument is 'syntax, the third argument is +interpreted as string containing syntax codes that will be +skipped. + +You can also override this property locally for a specific pair +by specifying its :prefix property." + :type '(repeat + (list symbol + (choice + (const :tag "Regexp" regexp) + (const :tag "Syntax class codes" syntax)) + string)) + :group 'smartparens) + +(defcustom sp-sexp-suffix nil + "Alist of major-mode specific suffix specification. + +Each item is a list with three properties: +- major mode +- a constant symbol 'regexp or 'syntax +- a regexp or a string containing syntax class codes. + +If the second argument is 'regexp, the third argument is +interpreted as a regexp to search forward from the end of an +expression. + +If the second argument is 'syntax, the third argument is +interpreted as string containing syntax codes that will be +skipped. + +You can also override this property locally for a specific pair +by specifying its :suffix property." + :type '(repeat + (list symbol + (choice + (const :tag "Regexp" regexp) + (const :tag "Syntax class codes" syntax)) + string)) + :group 'smartparens) + +(defcustom sp-split-sexp-always-split-as-string t + "Determine if sexp inside string is split. + +If the point is inside a sexp inside a string, the default +behaviour is now to split the string, such that: + + \"foo (|) bar\" + +becomes + + \"foo (\"|\") bar\" + +instead of + + \"foo ()|() bar\". + +Note: the old default behaviour was the reverse, it would split +the sexp, but this is hardly ever what you want. + +You can add a post-handler on string pair and check for +'split-string action to add concatenation operators of the +language you work in (in each major-mode you can have a separate +hook). + +For example, in PHP the string concatenation operator is a +dot (.), so you would add: + + (defun my-php-post-split-handler (_ action _) + (when (eq action 'split-sexp) + (just-one-space) + (insert \". . \") + (backward-char 3))) + + (sp-local-pair 'php-mode \"'\" nil + :post-handlers '(my-php-post-split-handler)) + +Then + + echo 'foo |baz'; + +results in + + echo 'foo' . | . 'baz';" + :type 'boolean + :group 'smartparens) + +;; hybrid lines +(defcustom sp-hybrid-kill-excessive-whitespace nil + "If non-nil, `sp-kill-hybrid-sexp' will kill all whitespace up +until next hybrid sexp if the point is at the end of line or on a +blank line." + :type 'boolean + :group 'smartparens) + +(defcustom sp-hybrid-kill-entire-symbol nil + "Governs how symbols under point are treated by `sp-kill-hybrid-sexp'. + +If t, always kill the symbol under point. + +If nil, never kill the entire symbol and only kill the part after point. + +If a function, this should be a zero-arg predicate. When it +returns non-nil value, we should kill from point." + :type '(radio + (const :tag "Always kill entire symbol" t) + (const :tag "Always kill from point" nil) + (const :tag "Kill from point only inside strings" sp-point-in-string) + (function :tag "Custom predicate")) + :group 'smartparens) + +(defcustom sp-comment-string nil + "String that is inserted after calling `sp-comment'. + +It is an alist of list of major modes to a string. + +The value of `comment-start' is used if the major mode is not found." + :type '(alist + :key-type (repeat symbol) + :value-type string) + :group 'smartparens) + +;; ui custom +(defcustom sp-highlight-pair-overlay t + "If non-nil, autoinserted pairs are highlighted while point is inside the pair." + :type 'boolean + :group 'smartparens) + +(defcustom sp-highlight-wrap-overlay t + "If non-nil, wrap overlays are highlighted during editing of the wrapping pair." + :type 'boolean + :group 'smartparens) + +(defcustom sp-highlight-wrap-tag-overlay t + "If non-nil, wrap tag overlays are highlighted during editing of the wrapping tag pair." + :type 'boolean + :group 'smartparens) + +(defcustom sp-message-width 'frame + "Length of information and error messages to display. If set to +'frame (the default), messages are chosen based of the frame +width. `t' means chose the default (verbose) message, `nil' means +mute. Integers specify the maximum width." + :type '(choice (const :tag "Fit to frame" frame) + (const :tag "Verbose" t) + (const :tag "Mute" nil) + (integer :tag "Max width")) + :group 'smartparens) + +(defcustom sp-use-subword nil + "If non-nill, `sp-kill-word' and `sp-backward-kill-word' only + kill \"subwords\" when `subword-mode' is active." + :type 'boolean + :group 'smartparens) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Selection mode handling + +(defun sp--delete-selection-p () + "Return t if `delete-selection-mode' or `cua-delete-selection' is enabled." + (or (and (boundp 'delete-selection-mode) delete-selection-mode) + (and (boundp 'cua-delete-selection) cua-delete-selection cua-mode))) + +(defadvice cua-replace-region (around fix-sp-wrap activate) + (if (sp-wrap--can-wrap-p) + (cua--fallback) + ad-do-it)) + +(defadvice delete-selection-pre-hook (around fix-sp-wrap activate) + (unless (sp-wrap--can-wrap-p) + ad-do-it)) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Misc/Utility functions + +(defun sp--indent-region (start end &optional column) + "Call `indent-region' unless `aggressive-indent-mode' is enabled." + (unless (bound-and-true-p aggressive-indent-mode) + ;; Don't issue "Indenting region..." message. + (cl-letf (((symbol-function 'message) #'ignore)) + (indent-region start end column)))) + +(defmacro sp-with-modes (arg &rest forms) + "Add ARG as first argument to each form in FORMS. + +This can be used with `sp-local-pair' calls to automatically +insert the modes." + (declare (indent 1) + (debug (form body))) + `(progn + ,@(mapcar (lambda (form) (append (list (car form) arg) (cdr form))) forms))) + +(font-lock-add-keywords 'emacs-lisp-mode `((,(concat "(" + (regexp-opt '("sp-with-modes" + "sp-get" + "sp-compare-sexps") t) + "\\_>") + (1 font-lock-keyword-face)))) + +(defmacro sp--with-case-sensitive (&rest body) + "Ensure that all searches done within BODY are case-sensitive. + +Bind case-fold-search to nil if it is not already and avoid the bind if it is +already. Any function that needs to use any of the sp--looking-* functions more +than once should wrap them all in sp--with-case-sensitive." + (declare (indent 0) + (debug (body))) + `(if case-fold-search + (let ((case-fold-search nil)) + ,@body) + ,@body)) + +(defun sp--evil-normal-state-p () + "Checks to see if the current `evil-state' is in normal mode." + (and (fboundp 'evil-normal-state-p) (evil-normal-state-p))) + +(defun sp--evil-motion-state-p () + "Checks to see if the current `evil-state' is in motion mode." + (and (fboundp 'evil-motion-state-p) (evil-motion-state-p))) + +(defun sp--evil-visual-state-p () + "Checks to see if the current `evil-state' is in visual mode." + (and (fboundp 'evil-visual-state-p) (evil-visual-state-p))) + +(defun sp--reverse-string (str) + "Reverse the string STR." + (concat (reverse (append str nil)))) + +(defun sp-point-in-blank-line (&optional p) + "Return non-nil if line at point is blank (whitespace only). + +If optional argument P is present test this instead of point." + (save-excursion + (when p (goto-char p)) + (beginning-of-line) + (looking-at "[ \t]*$"))) + +(defun sp-point-in-blank-sexp (&optional p) + "Return non-nil if point is inside blank (whitespace only) sexp. + +If optional argument P is present test this instead of point. + +Warning: it is only safe to call this when point is inside a +sexp, otherwise the call may be very slow." + (save-excursion + (when p (goto-char p)) + (-when-let (enc (sp-get-enclosing-sexp)) + (sp-get enc (string-match-p + "\\`[ \t\n]*\\'" + (buffer-substring-no-properties :beg-in :end-in)))))) + +(defun sp--syntax-ppss (&optional p) + "Memoize the last result of syntax-ppss." + (let ((p (or p (point)))) + (if (eq p (sp-state-last-syntax-ppss-point sp-state)) + (sp-state-last-syntax-ppss-result sp-state) + ;; Add hook to reset memoization if necessary + (unless (sp-state-last-syntax-ppss-point sp-state) + (add-hook 'before-change-functions 'sp--reset-memoization t t)) + (setf (sp-state-last-syntax-ppss-point sp-state) p + (sp-state-last-syntax-ppss-result sp-state) (syntax-ppss p))))) + +(defun sp-point-in-string (&optional p) + "Return non-nil if point is inside string or documentation string. + +If optional argument P is present test this instead of point." + (ignore-errors + (save-excursion + (nth 3 (sp--syntax-ppss p))))) + +(defun sp-point-in-comment (&optional p) + "Return non-nil if point is inside comment. + +If optional argument P is present test this instead off point." + (setq p (or p (point))) + (ignore-errors + (save-excursion + (or (nth 4 (sp--syntax-ppss p)) + ;; this also test opening and closing comment delimiters... we + ;; need to chack that it is not newline, which is in "comment + ;; ender" class in elisp-mode, but we just want it to be + ;; treated as whitespace + (and (< p (point-max)) + (memq (char-syntax (char-after p)) '(?< ?>)) + (not (eq (char-after p) ?\n))) + ;; we also need to test the special syntax flag for comment + ;; starters and enders, because `syntax-ppss' does not yet + ;; know if we are inside a comment or not (e.g. / can be a + ;; division or comment starter...). + (-when-let (s (car (syntax-after p))) + (or (and (/= 0 (logand (lsh 1 16) s)) + (nth 4 (syntax-ppss (+ p 2)))) + (and (/= 0 (logand (lsh 1 17) s)) + (nth 4 (syntax-ppss (+ p 1)))) + (and (/= 0 (logand (lsh 1 18) s)) + (nth 4 (syntax-ppss (- p 1)))) + (and (/= 0 (logand (lsh 1 19) s)) + (nth 4 (syntax-ppss (- p 2)))))))))) + +(defun sp-point-in-string-or-comment (&optional p) + "Return non-nil if point is inside string, documentation string or a comment. + +If optional argument P is present, test this instead of point." + (or (sp-point-in-string p) + (sp-point-in-comment p))) + +(defun sp-point-in-symbol (&optional p) + "Return non-nil if point is inside symbol. + +Point is inside symbol if characters on both sides of the point +are in either word or symbol class." + (setq p (or p (point))) + (save-excursion + (goto-char p) + (and (/= 0 (following-char)) + (memq (char-syntax (following-char)) '(?w ?_)) + (memq (char-syntax (preceding-char)) '(?w ?_))))) + +(defun sp--single-key-description (event) + "Return a description of the last event. Replace all the function +key symbols with garbage character (ň). + +TODO: fix this!" + (let ((original (single-key-description event))) + (cond + ((string-match-p "<.*?>" original) "ň") + ((string-match-p "SPC" original) " ") + (t original)))) + +(defun sp--split-string (string by) + "Split STRING on BY. This simply calls `split-string' and if it +returns a list of length one, empty string is inserted to the +beginning." + (let ((sp (split-string string by))) + (if (not (cdr sp)) (cons "" sp) sp))) + +;; see https://github.com/Fuco1/smartparens/issues/125#issuecomment-20356176 +(defun sp--current-indentation () + "Get the indentation offset of the current line." + (save-excursion + (back-to-indentation) + (current-column))) + +(defun sp--calculate-indentation-offset (old-column old-indentation) + "Calculate correct indentation after re-indent." + (let ((indentation (sp--current-indentation))) + (cond + ;; Point was in code, so move it along with the re-indented code + ((>= old-column old-indentation) + (+ old-column (- indentation old-indentation))) + ;; Point was indentation, but would be in code now, so move to + ;; the beginning of indentation + ((<= indentation old-column) indentation) + ;; Point was in indentation, and still is, so leave it there + (:else old-column)))) + +(defun sp--back-to-indentation (old-column old-indentation) + (let ((offset (sp--calculate-indentation-offset old-column old-indentation))) + (move-to-column offset))) + +(defmacro sp--keep-indentation (&rest body) + "Execute BODY and restore the indentation." + (declare (indent 0) + (debug (body))) + (let ((c (make-symbol "c")) + (i (make-symbol "i"))) + `(let ((,c (current-column)) + (,i (sp--current-indentation))) + ,@body + (sp--back-to-indentation ,c ,i)))) + +;; Please contribute these if you come across some! +(defvar sp--self-insert-commands + '(self-insert-command + org-self-insert-command + LaTeX-insert-left-brace) + "List of commands that are some sort of `self-insert-command'. + +Many modes rebind \"self-inserting\" keys to \"smart\" versions +which do some additional processing before delegating the +insertion to `self-insert-command'. Smartparens needs to be able +to distinguish these to properly handle insertion and reinsertion +of pairs and wraps.") + +;; Please contribute these if you come across some! +(defvar sp--special-self-insert-commands + '( + TeX-insert-dollar + TeX-insert-quote + quack-insert-opening-paren + quack-insert-closing-paren + quack-insert-opening-bracket + quack-insert-closing-bracket + racket-insert-closing-paren + racket-insert-closing-bracket + racket-insert-closing-brace + ) + "List of commands which are handled as if they were `self-insert-command's. + +Some modes redefine \"self-inserting\" keys to \"smart\" versions +which do some additional processing but do _not_ delegate the +insertion to `self-insert-command', instead inserting via +`insert'. Smartparens needs to be able to distinguish these to +properly handle insertion and reinsertion of pairs and wraps. + +The `sp--post-self-insert-hook-handler' is called in the +`post-command-hook' for these commands.") + +(defun sp--self-insert-command-p () + "Return non-nil if `this-command' is some sort of `self-insert-command'." + (memq this-command sp--self-insert-commands)) + +(defun sp--special-self-insert-command-p () + "Return non-nil if `this-command' is \"special\" self insert command. + +A special self insert command is one that inserts a character but +does not trigger `post-self-insert-hook'." + (memq this-command sp--special-self-insert-commands)) + +(defun sp--signum (x) + "Return 1 if X is positive, -1 if negative, 0 if zero." + (cond ((> x 0) 1) ((< x 0) -1) (t 0))) + +(cl-eval-when (compile eval load) + (defun sp--get-substitute (struct list) + "Only ever call this from sp-get! This function does the +replacement of all the keywords with actual calls to sp-get." + (if (listp list) + (if (eq (car list) 'sp-get) + list + (mapcar (lambda (x) (sp--get-substitute struct x)) + (let ((command (car list))) + (cond + ((eq command 'sp-do-move-op) + (let ((argument (make-symbol "--sp-argument--"))) + `(let ((,argument ,(cadr list))) + (if (< ,argument :beg-prf) + (progn + (goto-char :beg-prf) + (delete-char (+ :op-l :prefix-l)) + (goto-char ,argument) + (insert :prefix :op)) + (goto-char ,argument) + (insert :prefix :op) + (goto-char :beg-prf) + (delete-char (+ :op-l :prefix-l)))))) + ((eq command 'sp-do-move-cl) + (let ((argument (make-symbol "--sp-argument--"))) + `(let ((,argument ,(cadr list))) + (if (> ,argument :end-in) + (progn + (goto-char ,argument) + (insert :cl :suffix) + (goto-char :end-in) + (delete-char (+ :cl-l :suffix-l))) + (goto-char :end-in) + (delete-char (+ :cl-l :suffix-l)) + (goto-char ,argument) + (insert :cl :suffix))))) + ((eq command 'sp-do-del-op) + `(progn + (goto-char :beg-prf) + (delete-char (+ :op-l :prefix-l)))) + ((eq command 'sp-do-del-cl) + `(progn + (goto-char :end-in) + (delete-char (+ :cl-l :suffix-l)))) + ((eq command 'sp-do-put-op) + `(progn + (goto-char ,(cadr list)) + (insert :prefix :op))) + ((eq command 'sp-do-put-cl) + `(progn + (goto-char ,(cadr list)) + (insert :cl :suffix))) + (t list))))) + (if (keywordp list) + (sp--get-replace-keyword struct list) + list))) + + (defun sp--get-replace-keyword (struct keyword) + (cl-case keyword + ;; point in buffer before the opening delimiter + (:beg `(plist-get ,struct :beg)) + ;; point in the buffer after the closing delimiter + (:end `(plist-get ,struct :end)) + ;; point in buffer after the opening delimiter + (:beg-in `(+ (plist-get ,struct :beg) (length (plist-get ,struct :op)))) + ;; point in buffer before the closing delimiter + (:end-in `(- (plist-get ,struct :end) (length (plist-get ,struct :cl)))) + ;; point in buffer before the prefix of this expression + (:beg-prf `(- (plist-get ,struct :beg) (length (plist-get ,struct :prefix)))) + ;; point in the buffer after the suffix of this expression + (:end-suf `(+ (plist-get ,struct :end) (length (plist-get ,struct :suffix)))) + ;; opening delimiter + (:op `(plist-get ,struct :op)) + ;; closing delimiter + (:cl `(plist-get ,struct :cl)) + ;; length of the opening pair + (:op-l `(length (plist-get ,struct :op))) + ;; length of the closing pair + (:cl-l `(length (plist-get ,struct :cl))) + ;; length of the entire expression, including enclosing + ;; delimiters and the prefix and suffix + (:len `(- (plist-get ,struct :end) + (plist-get ,struct :beg) + (- (length (plist-get ,struct :prefix))) + (- (length (plist-get ,struct :suffix))))) + ;; length of the the pair ignoring the prefix, including delimiters + (:len-out `(- (plist-get ,struct :end) (plist-get ,struct :beg))) + ;; length of the pair inside the delimiters + (:len-in `(- (plist-get ,struct :end) + (plist-get ,struct :beg) + (length (plist-get ,struct :op)) + (length (plist-get ,struct :cl)))) + ;; expression prefix + (:prefix `(plist-get ,struct :prefix)) + ;; expression prefix length + (:prefix-l `(length (plist-get ,struct :prefix))) + (:suffix `(plist-get ,struct :suffix)) + (:suffix-l `(length (plist-get ,struct :suffix))) + ;; combined op/cl and suffix/prefix + (:opp `(concat (plist-get ,struct :prefix) + (plist-get ,struct :op))) + (:opp-l `(+ (length (plist-get ,struct :prefix)) + (length (plist-get ,struct :op)))) + (:cls `(concat (plist-get ,struct :cl) + (plist-get ,struct :suffix))) + (:cls-l `(+ (length (plist-get ,struct :cl)) + (length (plist-get ,struct :suffix)))) + (t keyword)))) + +;; The structure returned by sp-get-sexp is a plist with following properties: +;; +;; :beg - point in the buffer before the opening delimiter (ignoring prefix) +;; :end - point in the buffer after the closing delimiter +;; :op - opening delimiter +;; :cl - closing delimiter +;; :prefix - expression prefix +;; +;; This structure should never be accessed directly and should only be +;; exposed by the sp-get macro. This way, we can later change the +;; internal representation without much trouble. + +;; TODO: rewrite this in terms of `symbol-macrolet' ?? +(defmacro sp-get (struct &rest forms) + "Get a property from a structure. + +STRUCT is a plist with the format as returned by `sp-get-sexp'. +Which means this macro also works with `sp-get-symbol', +`sp-get-string' and `sp-get-thing'. + +FORMS is an attribute we want to query. Currently supported +attributes are: + +:beg - point in buffer before the opening delimiter +:end - point in the buffer after the closing delimiter +:beg-in - point in buffer after the opening delimiter +:end-in - point in buffer before the closing delimiter +:beg-prf - point in buffer before the prefix of this expression +:end-suf - point in buffer after the suffix of this expression +:op - opening delimiter +:cl - closing delimiter +:op-l - length of the opening pair +:cl-l - length of the closing pair +:len - length of the entire expression, including enclosing + delimiters, the prefix and the suffix +:len-out - length of the the pair ignoring the prefix and suffix, + including delimiters +:len-in - length of the pair inside the delimiters +:prefix - expression prefix +:prefix-l - expression prefix length +:suffix - expression suffix +:suffix-l - expression suffix length + +These special \"functions\" are expanded to do the selected +action in the context of currently queried pair: + +Nullary: +\(sp-do-del-op) - remove prefix and opening delimiter +\(sp-do-del-cl) - remove closing delimiter and suffix + +Unary: +\(sp-do-move-op p) - move prefix and opening delimiter to point p +\(sp-do-move-cl p) - move closing delimiter and suffix to point p +\(sp-do-put-op p) - put prefix and opening delimiter at point p +\(sp-do-put-cl p) - put closing delimiter and suffix at point p + +In addition to these simple queries and commands, this macro +understands arbitrary forms where any of the aforementioned +attributes are used. Therefore, you can for example query for +\"(+ :op-l :cl-l)\". This query would return the sum of lengths +of opening and closing delimiter. A query +\"(concat :prefix :op)\" would return the string containing +expression prefix and the opening delimiter. + +Special care is taken to only evaluate the STRUCT argument once." + (declare (indent 1) + (debug (form body))) + (let ((st (make-symbol "struct"))) + (sp--get-substitute st `(let ((,st ,struct)) ,@forms)))) + +(defmacro sp-compare-sexps (a b &optional fun what-a what-b) + "Return non-nil if the expressions A and B are equal. + +Two expressions are equal if their :beg property is the same. + +If optional argument WHAT is non-nil, use it as a keyword on +which to do the comparsion." + (declare (debug (form form &optional functionp keywordp keywordp))) + (setq fun (or fun 'equal)) + (setq what-a (or what-a :beg)) + (setq what-b (or what-b what-a)) + `(,fun (sp-get ,a ,what-a) (sp-get ,b ,what-b))) + +(defun sp-message (key) + "Display a message. The argument is either a string or list of +strings, or a keyword, in which case the string list is looked up +in `sp-message-alist'. The string to be displayed is chosen based +on the `sp-message-width' variable." + (let ((msgs (cond ((listp key) key) + ((stringp key) (list key)) + (t (cdr (assq key sp-message-alist)))))) + (when (and msgs sp-message-width) + (if (eq sp-message-width t) + (message (car msgs)) + (let ((maxlen (if (eq sp-message-width 'frame) + (frame-width) + sp-message-width)) + (s nil)) + (dolist (msg msgs) + (if (and (<= (length msg) maxlen) + (> (length msg) (length s))) + (setf s msg))) + (when s + (message s))))))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Adding/removing of pairs/bans/allows etc. + +(defun sp--merge-prop (old-pair new-pair prop) + "Merge a property PROP from NEW-PAIR into OLD-PAIR. +The list OLD-PAIR must not be nil." + (let ((new-val (plist-get new-pair prop))) + (cl-case prop + (:close (plist-put old-pair :close new-val)) + (:prefix (plist-put old-pair :prefix new-val)) + (:suffix (plist-put old-pair :suffix new-val)) + (:skip-match (plist-put old-pair :skip-match new-val)) + (:trigger (plist-put old-pair :trigger new-val)) + ((:actions :when :unless :pre-handlers :post-handlers) + (cl-case (car new-val) + (:add (plist-put old-pair prop (-union (plist-get old-pair prop) (cdr new-val)))) + (:rem (plist-put old-pair prop (-difference (plist-get old-pair prop) (cdr new-val)))) + (t + (cond + ;; this means we have ((:add ...) (:rem ...)) argument + ((and new-val + (listp (car new-val)) + (memq (caar new-val) '(:add :rem))) + (let ((a (assq :add new-val)) + (r (assq :rem new-val))) + (plist-put old-pair prop (-union (plist-get old-pair prop) (cdr a))) + (plist-put old-pair prop (-difference (plist-get old-pair prop) (cdr r))))) + (t + (plist-put old-pair prop (plist-get new-pair prop)))))))))) + +(defun sp--merge-pairs (old-pair new-pair) + "Merge OLD-PAIR and NEW-PAIR. +This modifies the OLD-PAIR by side effect." + (let ((ind 0)) + (--each new-pair + (when (= 0 (% ind 2)) + (sp--merge-prop old-pair new-pair it)) + (setq ind (1+ ind)))) + old-pair) + +(defun sp--update-pair (old-pair new-pair) + "Copy properties from NEW-PAIR to OLD-PAIR. +The list OLD-PAIR must not be nil." + (let ((ind 0)) + (--each new-pair + (when (= 0 (% ind 2)) + (when (or (not (plist-get old-pair it)) + ;; HACK: we don't want to overwrite list properties + ;; that aren't just :add with :add because this + ;; would break the "idempotency". + (not (equal '(:add) (plist-get new-pair it)))) + (plist-put old-pair it (plist-get new-pair it)))) + (setq ind (1+ ind)))) + old-pair) + +(defun sp--update-pair-list (pair mode) + "Update the PAIR for major mode MODE. If this pair is not +defined yet for this major mode, add it. If this pair is already +defined, replace all the properties in the old definition with +values from PAIR." + ;; get the structure relevant to mode. t means global setting + (let ((struct (--first (eq mode (car it)) sp-pairs))) + (if (not struct) + (!cons (cons mode (list pair)) sp-pairs) + ;; this does NOT merge changes, only replace the values at + ;; properties. Open delimiter works as ID as usual. + (let ((old-pair (--first (equal (plist-get pair :open) + (plist-get it :open)) + (cdr struct)))) + (if (not old-pair) + (setcdr struct (cons pair (cdr struct))) + (sp--update-pair old-pair pair))))) + sp-pairs) + +(defun sp--get-pair (open list) + "Get the pair with id OPEN from list LIST." + (--first (equal open (plist-get it :open)) list)) + +(defun sp--get-pair-definition (open list &optional prop) + "Get the definition of a pair identified by OPEN from list LIST. + +If PROP is non-nil, return the value of that property instead." + (let ((pair (sp--get-pair open list))) + (if prop + (cond + ((eq prop :op-l) + (length (plist-get pair :open))) + ((eq prop :cl-l) + (length (plist-get pair :close))) + ((eq prop :len) + (+ (length (plist-get pair :open)) (length (plist-get pair :close)))) + ((eq prop :post-handlers) + (--filter (not (listp it)) (plist-get pair prop))) + ((eq prop :post-handlers-cond) + (--filter (listp it) (plist-get pair :post-handlers))) + ((eq prop :when) + (--filter (not (listp it)) (plist-get pair :when))) + ((eq prop :when-cond) + (-flatten (-concat (--filter (listp it) (plist-get pair :when))))) + (t (plist-get pair prop))) + pair))) + +(defun sp-get-pair-definition (open mode &optional prop) + "Get the definition of pair identified by OPEN (opening +delimiter) for major mode MODE (or global definition if MODE is +t). + +If PROP is non-nil, return the value of that property instead." + (sp--get-pair-definition open (cdr (assq mode sp-pairs)) prop)) + +(defun sp-get-pair (open &optional prop) + "Return the current value of pair defined by OPEN in the +current buffer, querying the variable `sp-local-pairs'. + +If PROP is non-nil, return the value of that property instead." + (sp--get-pair-definition open sp-local-pairs prop)) + +(defun sp--merge-with-local (mode) + "Merge the global pairs definitions with definitions for major mode MODE." + (let* ((global (cdr (assq t sp-pairs))) + (local (cdr (assq mode sp-pairs))) + (result nil)) + ;; copy the pairs on global list first. This creates new plists + ;; so we can modify them without changing the global "template" + ;; values. + (dolist (old-pair global) + (!cons (list :open (plist-get old-pair :open)) result)) + + ;; merge the global list with result. This basically "deep copy" + ;; global list. We use `sp--merge-pairs' because it also clones + ;; the list properties (actions, filters etc.) + (dolist (new-pair global) + (let ((old-pair (sp--get-pair (plist-get new-pair :open) result))) + (sp--merge-pairs old-pair new-pair))) + + ;; for each local pair, merge it into the global definition + (dolist (new-pair local) + (let ((old-pair (sp--get-pair (plist-get new-pair :open) result))) + (if old-pair + (sp--merge-pairs old-pair new-pair) + ;; pair does not have global definition, simply copy it over + (!cons + ;; this "deep copy" the new-pair + (sp--merge-pairs (list :open (plist-get new-pair :open)) new-pair) + ;; TODO: remove the nil lists from the definitions + result)))) + result)) + +(defun sp-wrap-with-pair (pair) + "Wrap the following expression with PAIR. + +This function is a non-interactive helper. To use this function +interactively, bind the following lambda to a key: + + (lambda (&optional arg) (interactive \"P\") (sp-wrap-with-pair \"(\")) + +This lambda accepts the same prefix arguments as +`sp-select-next-thing'. + +If region is active and `use-region-p' returns true, the region +is wrapped instead. This is useful with selection functions in +`evil-mode' to wrap regions with pairs." + (let* ((arg (or current-prefix-arg 1)) + (sel (and (not (use-region-p)) + (sp-select-next-thing-exchange + arg + (cond + ;; point is inside symbol and smart symbol wrapping is disabled + ((and (sp-point-in-symbol) + (or (eq sp-wrap-entire-symbol 'globally) + (memq major-mode sp-wrap-entire-symbol))) + (point)) + ;; wrap from point, not the start of the next expression + ((and sp-wrap-from-point + (not (sp-point-in-symbol))) + (point)))))) + (active-pair (--first (equal (car it) pair) sp-pair-list)) + (rb (region-beginning)) + (re (region-end))) + (goto-char re) + (insert (cdr active-pair)) + (goto-char rb) + (insert (car active-pair)) + (if (use-region-p) + (sp--indent-region rb re) + (sp-get sel (sp--indent-region :beg :end))))) + +(cl-defun sp-pair (open + close + &key + trigger + (actions '(wrap insert autoskip navigate)) + when + unless + pre-handlers + post-handlers + wrap + bind + insert) + "Add a pair definition. + +OPEN is the opening delimiter. Every pair is uniquely determined +by this string. + +CLOSE is the closing delimiter. You can use nil for this +argument if you are updating an existing definition. In this +case, the old value is retained. + +TRIGGER is an optional trigger for the pair. The pair will be +inserted if either OPEN or TRIGGER is typed. This is usually +used as a shortcut for longer pairs or for pairs that can't be +typed easily. + +ACTIONS is a list of actions that smartparens will perform with +this pair. Possible values are: + +- insert - autoinsert the closing pair when opening pair is + typed. +- wrap - wrap an active region with the pair defined by opening + delimiter if this is typed while region is active. +- autoskip - if the sexp is active or `sp-autoskip-closing-pair' is + set to 'always, skip over the closing delimiter if user types its + characters in order. +- navigate - enable this pair for navigation/highlight and strictness + checks +- escape - allow autoescaping of this delimiter in string contexts + +If the ACTIONS argument has value :rem, the pair is removed. +This can be used to remove default pairs you don't want to use. +For example: (sp-pair \"[\" nil :actions :rem) + +WHEN is a list of predicates that test whether the action +should be performed in current context. The values in the list +should be names of the predicates (that is symbols, not +lambdas!). They should accept three arguments: opening +delimiter (which uniquely determines the pair), action and +context. The context argument can have values: + +- string - if point is inside string. +- comment - if point is inside comment. +- code - if point is inside code. This context is only + recognized in programming modes that define string semantics. + +If *any* filter returns t, the action WILL be performed. A number +of filters are predefined: `sp-point-after-word-p', +`sp-point-before-word-p', `sp-in-string-p', +`sp-point-before-eol-p' etc. + +When clause also supports a special format for delayed insertion. +The condition is a list with commands, predicates (with three +arguments as regular when form) or strings specifying the last +event. All three types can be combined in one list. The pair +will be inserted *after* the next command if it matches the any +command on the list, if the last event matches any string on the +list or if any predicate returns true. If the pair's :when +clause contains this special form, it will never be immediately +inserted and will always test for delayed insertion. + +UNLESS is a list of predicates. The conventions are the same as +for the WHEN list. If *any* filter on this list returns t, the +action WILL NOT be performed. The predicates in the WHEN list +are checked first, and if any of them succeeds, the UNLESS list +is not checked. + +Note: the functions on the WHEN/UNLESS lists are also called +\"filters\" in the documentation. + +All the filters are run *after* the trigger character is +inserted. + +PRE-HANDLERS is a list of functions that are called before there +has been some action caused by this pair. The arguments are the +same as for filters. Context is relative to the point *before* +the last inserted character. Because of the nature of the +wrapping operation, this hook is not called if the action is +wrapping. + +POST-HANDLERS is a list of functions that are called after there +has been some action caused by this pair. The arguments are the +same as for filters. Context is relative to current position of +point *after* the closing pair was inserted. + +After a wrapping action, the point might end on either side of +the wrapped region, depending on the original direction. You can +use the variable `sp-last-wrapped-region' to retrieve information +about the wrapped region and position the point to suit your +needs. + +A special syntax for conditional execution of hooks is also +supported. If the added item is a list (function command1 +command2...), where function is a 3 argument function described +above and command(s) can be either name of a command or a string +representing an event. If the last command or event as described +by `single-key-description' matches any on the list, the hook +will be executed. This means these hooks are run not after the +insertion, but after the *next* command is executed. + +Example: + ((lambda (id act con) + (save-excursion + (newline))) \"RET\" newline) + +This function will move the closing pair on its own line only if +the next command is `newline' or is triggered by RET. Otherwise +the pairs stay on the same line. + +WRAP is a key binding to which a \"wrapping\" action is bound. +The key should be in format that is accepted by `kbd'. This +option binds a lambda form: + + `(lambda (&optional arg) + (interactive \"P\") + (sp-wrap-with-pair ,OPEN)) + +to the specified key sequence. The binding is added to global +keymap. When executed, it wraps ARG (default 1) expressions with +this pair (like `paredit-wrap-round' and friends). Additionally, +it accepts the same prefix arguments as `sp-select-next-thing'. + +BIND is equivalent to WRAP. It is a legacy setting and will be +removed soon. + +INSERT is a key binding to which an \"insert\" action is bound. +The key should be in format that is accepted by `kbd'. This is +achieved by binding a lambda form: + + (lambda () (interactive) (sp-insert-pair \"pair-id\")) + +to the supplied key, where pair-id is the open delimiter of the +pair. The binding is added to the global map. You can also bind +a similar lambda manually. To only bind this in specific major +modes, use this property on `sp-local-pair' instead." + (if (eq actions :rem) + (let ((remove (concat + (sp-get-pair-definition open t :open) + (sp-get-pair-definition open t :close))) + (global-list (assq t sp-pairs))) + (setcdr global-list (--remove (equal (plist-get it :open) open) (cdr global-list)))) + (let ((pair nil)) + (setq pair (plist-put pair :open open)) + (when close (plist-put pair :close close)) + (when trigger (plist-put pair :trigger trigger)) + (dolist (arg '((:actions . actions) + (:when . when) + (:unless . unless) + (:pre-handlers . pre-handlers) + (:post-handlers . post-handlers))) + ;; We only consider "nil" as a proper value if the property + ;; already exists in the pair. In that case, we will set it to + ;; nil. This allows for removing properties in global + ;; definitions. + (when (or (eval (cdr arg)) + (sp-get-pair-definition open t (car arg))) + (plist-put pair (car arg) (eval (cdr arg))))) + (sp--update-pair-list pair t)) + (when (or wrap bind) (global-set-key (read-kbd-macro (or wrap bind)) + `(lambda (&optional arg) + (interactive "P") + (sp-wrap-with-pair ,open)))) + (when insert (global-set-key (kbd insert) `(lambda () (interactive) (sp-insert-pair ,open))))) + (sp--update-local-pairs-everywhere) + sp-pairs) + +(cl-defun sp-local-pair (modes + open + close + &key + trigger + (actions '(:add)) + (when '(:add)) + (unless '(:add)) + (pre-handlers '(:add)) + (post-handlers '(:add)) + wrap + bind + insert + prefix + suffix + skip-match) + "Add a local pair definition or override a global definition. + +MODES can be a single mode or a list of modes where these settings +should be applied. + +PREFIX is a regular expression matching an optional prefix for +this pair in the specified major modes. If not specified, the +characters of expression prefix syntax class are automatically +considered instead. This can be used to attach custom prefixes +to pairs, such as prefix \"\\function\" in \\function{arg} in +`LaTeX-mode'. + +SUFFIX is a regular expression matching an optional suffix for +this pair in the specified major modes. If not specified, the +characters of punctuation syntax class are automatically +considered instead. + +The rest of the arguments have same semantics as in `sp-pair'. + +If the pair is not defined globally, ACTIONS defaults to (wrap +insert) instead of (:add) (which inherits global settings) + +The pairs are uniquely identified by the opening delimiter. If you +replace the closing one with a different string in the local +definition, this will override the global closing delimiter. + +The list arguments can optionally be of form starting with +\":add\" or \":rem\" when these mean \"add to the global list\" +and \"remove from the global list\" respectivelly. Otherwise, +the global list is replaced. If you wish to both add and remove +things with single call, use \"((:add ...) (:rem ...))\" as an +argument. Therefore, + + :when '(:add my-test) + +would mean \"use the global settings for this pair, but also this +additional test\". If no value is provided for list arguments, +they default to \"(:add)\" which means they inherit the list from +the global definition. + +To disable a pair in a major mode, simply set its actions set to +nil. This will ensure the pair is not even loaded when the mode is +activated. + +If WRAP is non-nil, the binding is added into major mode keymap +called \"foo-mode-map\". If the mode does not follow this +convention, you will need to bind the function manually (see +`sp-pair' to how the function is named for each particular pair). +The bindings are not added into `smartparens-mode-map' to prevent +clashes between different modes. + +BIND is equivalent to WRAP. It is a legacy setting and will be +removed soon. + +The binding for INSERT follows the same convention as BIND. See +`sp-pair' for more info. + +You can provide a function SKIP-MATCH, that will take three +arguments: the currently matched delimiter, beginning of match +and end of match. If this function returns true, the +`sp-get-paired-expression' matcher will ignore this match. You +can use this to skip over expressions that serve multiple +functions, such as if/end pair or unary if in Ruby or * in +markdown when it signifies list item instead of emphasis. In +addition, there is a global per major-mode option, see +`sp-navigate-skip-match'." + (if (eq actions :rem) + (let ((remove "")) + (dolist (m (-flatten (list modes))) + (setq remove (concat remove + (sp-get-pair-definition open m :open) + (sp-get-pair-definition open m :close))) + (let ((mode-pairs (assq m sp-pairs))) + (setcdr mode-pairs + (--remove (equal (plist-get it :open) open) + (cdr mode-pairs)))))) + (dolist (m (-flatten (list modes))) + (let* ((pair nil)) + (setq pair (plist-put pair :open open)) + (when close (plist-put pair :close close)) + (when trigger (plist-put pair :trigger trigger)) + (when prefix (plist-put pair :prefix prefix)) + (when suffix (plist-put pair :suffix suffix)) + (when skip-match (plist-put pair :skip-match skip-match)) + (when (and (not (sp-get-pair-definition open t)) + (equal actions '(:add))) + (setq actions '(wrap insert autoskip navigate))) + (plist-put pair :actions actions) + (plist-put pair :when when) + (plist-put pair :unless unless) + (plist-put pair :pre-handlers pre-handlers) + (plist-put pair :post-handlers post-handlers) + (sp--update-pair-list pair m) + (-when-let* ((symbol (intern (concat (symbol-name m) "-map"))) + (map (and (boundp symbol) (symbol-value symbol)))) + (when (or wrap bind) (define-key map + (read-kbd-macro (or wrap bind)) + `(lambda (&optional arg) + (interactive "P") + (sp-wrap-with-pair ,open)))) + (when insert (define-key map + (kbd insert) + `(lambda () (interactive) (sp-insert-pair ,open)))))))) + (sp--update-local-pairs-everywhere (-flatten (list modes))) + sp-pairs) + +(cl-defun sp-local-tag (modes trig open close &key + (transform 'identity) + (actions '(wrap insert)) + post-handlers) + "Add a tag definition. + +MODES is a mode or a list of modes where this tag should +activate. It is impossible to define global tags. + +TRIG is the trigger sequence. It can be a string of any length. +If more triggers share a common prefix, the shortest trigger is +executed. + +OPEN is the format of the opening tag. This is inserted before +the active region. + +CLOSE is the format of the closing tag. This is inserted after +the active region. + +Opening and closing tags can optionally contain the _ character. + +If the opening tag contains the _ character, after you type the +trigger, the region is wrapped with \"skeleton\" tags and a +special tag editing mode is entered. The text you now type is +substituted for the _ character in the opening tag. + +If the closing tag contains the _ character, the text from the +opening pair is mirrored to the closing pair and substituted for +the _ character. + +TRANSFORM is a function name (symbol) that is called to perform a +transformation of the opening tag text before this is inserted to +the closing tag. For example, in html tag it might simply select +the name of the tag and cut off the tag attributes (like +class/style etc.). Defaults to identity. + +ACTIONS is a list of actions this tag should support. Currently, +only \"wrap\" action is supported. Usually, you don't need to +specify this argument. + +POST-HANDLERS is a list of functions that are called after the +tag is inserted. If the tag does contain the _ character, these +functions are called after the tag editing mode is exited. Each +function on this list should accept two arguments: the trigger +string and the action." + (dolist (mode (-flatten (list modes))) + (let* ((tag-list (assq mode sp-tags)) + (tag (--first (equal trig (plist-get it :trigger)) (cdr tag-list))) + (new-tag nil)) + (setq new-tag (plist-put new-tag :trigger trig)) + (plist-put new-tag :open open) + (plist-put new-tag :close close) + (when transform (plist-put new-tag :transform transform)) + (when actions (plist-put new-tag :actions actions)) + (when post-handlers (plist-put new-tag :post-handlers post-handlers)) + (if tag-list + (if (not actions) + (setcdr tag-list (--remove (equal trig (plist-get it :trigger)) (cdr tag-list))) + (if (not tag) + (setcdr tag-list (cons new-tag (cdr tag-list))) + (sp--update-pair tag new-tag))) + ;; mode doesn't exist + (when actions + (!cons (cons mode (list new-tag)) sp-tags)))))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Overlay management + +;; burlywood4 +(defface sp-pair-overlay-face + '((t (:inherit highlight))) + "The face used to highlight pair overlays." + :group 'smartparens) + +(defface sp-wrap-overlay-face + '((t (:inherit sp-pair-overlay-face))) + "The face used to highlight wrap overlays." + :group 'smartparens) + +(defface sp-wrap-overlay-opening-pair + '((t (:inherit sp-wrap-overlay-face + :foreground "green"))) + "The face used to highlight wrap overlays." + :group 'smartparens) + +(defface sp-wrap-overlay-closing-pair + '((t (:inherit sp-wrap-overlay-face + :foreground "red"))) + "The face used to highlight wrap overlays." + :group 'smartparens) + +(defface sp-wrap-tag-overlay-face + '((t (:inherit sp-pair-overlay-face))) + "The face used to highlight wrap tag overlays." + :group 'smartparens) + +(defvar sp-pair-overlay-list '() + "List of overlays used for tracking inserted pairs. + +When a pair is inserted, an overlay is created over it. When the +user starts typing the closing pair we will not insert it again. +If user leaves the overlay, it is canceled and the insertion +works again as usual.") +(make-variable-buffer-local 'sp-pair-overlay-list) + +(defvar sp-wrap-overlays nil + "Cons pair of wrap overlays.") +(make-variable-buffer-local 'sp-wrap-overlays) + +(defvar sp-wrap-tag-overlays nil + "Cons pair of tag wrap overlays.") +(make-variable-buffer-local 'sp-wrap-tag-overlays) + +(defvar sp-pair-overlay-keymap (make-sparse-keymap) + "Keymap for the pair overlays.") +(define-key sp-pair-overlay-keymap (kbd "C-g") 'sp-remove-active-pair-overlay) + +(defvar sp-wrap-overlay-keymap (make-sparse-keymap) + "Keymap for the wrap overlays.") +(define-key sp-wrap-overlay-keymap (kbd "C-g") 'sp-wrap-cancel) + +(defun sp--overlays-at (&optional pos) + "Simple wrapper of `overlays-at' to get only overlays from +smartparens. Smartparens functions must use this function +instead of `overlays-at' directly." + (--filter (overlay-get it 'type) (overlays-at (or pos (point))))) + +(defun sp--point-in-overlay-p (overlay) + "Return t if point is in OVERLAY." + (and (< (point) (overlay-end overlay)) + (> (point) (overlay-start overlay)))) + +(defun sp--get-overlay-length (overlay) + "Compute the length of OVERLAY." + (- (overlay-end overlay) (overlay-start overlay))) + +(defun sp--get-active-overlay (&optional type) + "Get active overlay. Active overlay is the shortest overlay at +point. Optional argument TYPE restrict overlays to only those +with given type." + (let ((overlays (sp--overlays-at))) + (when type + (setq overlays (--filter (eq (overlay-get it 'type) type) overlays))) + (cond + ((not overlays) nil) + ((not (cdr overlays)) (car overlays)) + (t + (--reduce (if (< (sp--get-overlay-length it) (sp--get-overlay-length acc)) it acc) overlays))))) + +(defun sp--pair-overlay-create (start end id) + "Create an overlay over the currently inserted pair for +tracking the position of the point. START and END are the +boundaries of the overlay, ID is the id of the pair." + (let ((overlay (make-overlay start end))) + ;; set priority to 99 so that yasnippet with 100 overloads the + ;; keymap #625 + (overlay-put overlay 'priority 99) + (overlay-put overlay 'keymap sp-pair-overlay-keymap) + (overlay-put overlay 'pair-id id) + (overlay-put overlay 'type 'pair) + (!cons overlay sp-pair-overlay-list) + (sp--pair-overlay-fix-highlight) + (add-hook 'post-command-hook 'sp--pair-overlay-post-command-handler nil t))) + +(defun sp-wrap-cancel () + "Cancel the active wrapping." + (interactive) + (unwind-protect + (-let (((obeg . oend) sp-wrap-overlays)) + (when (and (not (called-interactively-p 'any)) + (sp--delete-selection-p)) + (kill-region (overlay-end obeg) (overlay-start oend))) + (delete-region (overlay-start oend) (overlay-end oend)) + (when (> sp-wrap-point sp-wrap-mark) + (let ((beg (delete-and-extract-region (overlay-start obeg) (overlay-end obeg)))) + (goto-char (overlay-start oend)) + (insert beg)))) + (sp-wrap--clean-overlays))) + +(defun sp-wrap--clean-overlays () + "Delete wrap overlays." + (-let [(obeg . oend) sp-wrap-overlays] + (delete-overlay obeg) + (delete-overlay oend) + (setq sp-wrap-overlays nil))) + +(defun sp--pair-overlay-fix-highlight () + "Fix highlighting of the pair overlays. Only the active overlay +should be highlighted." + (--each (sp--overlays-at) (overlay-put it 'face nil)) + (let* ((active (sp--get-active-overlay)) + (type (and active (overlay-get active 'type)))) + (if active + (cond + ((eq 'wrap-tag type) + (when sp-highlight-wrap-tag-overlay + (overlay-put active 'face 'sp-wrap-tag-overlay-face))) + ((eq 'pair type) + (when sp-highlight-pair-overlay + (overlay-put active 'face 'sp-pair-overlay-face)))) + ;; edge case where we're at the end of active overlay. If + ;; there is a wrap-tag overlay, restore it's face + (when sp-wrap-tag-overlays + (overlay-put (car sp-wrap-tag-overlays) 'face 'sp-wrap-tag-overlay-face))))) + +(defun sp--pair-overlay-post-command-handler () + "Remove all pair overlays that doesn't have point inside them, +are of zero length, or if point moved backwards." + ;; if the point moved backwards, remove all overlays + (if (and sp-cancel-autoskip-on-backward-movement + (< (point) sp-previous-point)) + (dolist (o sp-pair-overlay-list) (sp--remove-overlay o)) + ;; else only remove the overlays where point is outside them or + ;; their length is zero + (dolist (o (--remove (and (sp--point-in-overlay-p it) + (> (sp--get-overlay-length it) 0)) + sp-pair-overlay-list)) + (sp--remove-overlay o))) + (when sp-pair-overlay-list + (setq sp-previous-point (point)))) + +(defun sp--reset-memoization (&rest ignored) + "Reset memoization as a safety precaution." + (setf (sp-state-last-syntax-ppss-point sp-state) nil + (sp-state-last-syntax-ppss-result sp-state) nil)) + +(defun sp-remove-active-pair-overlay () + "Deactivate the active overlay. See `sp--get-active-overlay'." + (interactive) + (-when-let (active-overlay (sp--get-active-overlay 'pair)) + (sp--remove-overlay active-overlay))) + +(defun sp--remove-overlay (overlay) + "Remove OVERLAY." + ;; if it's not a pair overlay, nothing happens here anyway + (setq sp-pair-overlay-list (--remove (equal it overlay) sp-pair-overlay-list)) + ;; if we have zero pair overlays, remove the post-command hook + (when (not sp-pair-overlay-list) + (remove-hook 'post-command-hook 'sp--pair-overlay-post-command-handler t) + ;; this is only updated when sp--pair-overlay-post-command-handler + ;; is active. Therefore, we need to reset this to 1. If not, newly + ;; created overlay could be removed right after creation - if + ;; sp-previous-point was greater than actual point + (setq sp-previous-point -1)) + (delete-overlay overlay) + (sp--pair-overlay-fix-highlight)) + +(defun sp--replace-overlay-text (o string) + "Replace text inside overlay O with STRING." + (save-excursion + (goto-char (overlay-start o)) + (insert string) + (delete-region (point) (overlay-end o)))) + +(defun sp--get-overlay-text (o) + "Get text inside overlay O." + (buffer-substring (overlay-start o) (overlay-end o))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Action predicates + +(defun sp-in-string-p (id action context) + "Return t if point is inside string or comment, nil otherwise." + (eq context 'string)) + +(defun sp-in-string-quotes-p (id action context) + "Special string test for quotes. + +On insert action, test the string context one character back from +point. Return nil at `bobp'. + +On escape action use the value of CONTEXT." + (cond + ((eq action 'insert) + (if (bobp) nil + (save-excursion (backward-char 1) (sp-point-in-string)))) + ((eq action 'escape) + (eq context 'string)))) + +(defun sp-in-docstring-p (id action context) + "Return t if point is inside elisp docstring, nil otherwise." + (and (eq context 'string) + (save-excursion + (goto-char (car (sp-get-quoted-string-bounds))) + (ignore-errors (backward-sexp 3)) + (looking-at-p (regexp-opt '("defun" "defmacro" + "cl-defun" "cl-defmacro" + "defun*" "defmacro*" + "lambda" "-lambda")))))) + +(defun sp-in-code-p (id action context) + "Return t if point is inside code, nil otherwise." + (eq context 'code)) + +(defun sp-in-comment-p (id action context) + "Return t if point is inside comment, nil otherwise." + (eq context 'comment)) + +(defun sp-in-math-p (id action context) + "Return t if point is inside code, nil otherwise." + (when (functionp 'texmathp) + (texmathp))) + +(defun sp-point-before-eol-p (id action context) + "Return t if point is followed by optional white spaces and end of line, nil otherwise. +This predicate is only tested on \"insert\" action." + (when (eq action 'insert) + (sp--looking-at-p "\\s-*$"))) + +(defun sp-point-after-bol-p (id action context) + "Return t if point follows beginning of line and possibly white spaces, nil otherwise. +This predicate is only tested on \"insert\" action." + (when (eq action 'insert) + (sp--looking-back-p (concat "^\\s-*" (regexp-quote id))))) + +(defun sp-point-at-bol-p (id action context) + "Return t if point is at the beginning of line, nil otherwise. +This predicate is only tested on \"insert\" action." + (when (eq action 'insert) + (sp--looking-back-p (concat "^" (regexp-quote id))))) + +(defun sp-point-before-symbol-p (id action context) + "Return t if point is followed by a symbol, nil otherwise. +This predicate is only tested on \"insert\" action." + (when (eq action 'insert) + (sp--looking-at-p "\\s_"))) + +(defun sp-point-before-word-p (id action context) + "Return t if point is followed by a word, nil otherwise. +This predicate is only tested on \"insert\" action." + (when (eq action 'insert) + (sp--looking-at-p "\\sw\\|\\s_"))) + +(defun sp-point-after-word-p (id action context) + "Return t if point is after a word, nil otherwise. +This predicate is only tested on \"insert\" action." + ;; TODO: remove condition with sp-defpair + (when (memq action '(insert escape)) + (sp--looking-back-p (concat "\\(\\sw\\|\\s_\\)" (regexp-quote id))))) + +(defun sp-point-before-same-p (id action context) + "Return t if point is followed by ID, nil otherwise. +This predicate is only tested on \"insert\" action." + (when (eq action 'insert) + (sp--looking-at-p (regexp-quote id)))) + +(defun sp-point-in-empty-line-p (id action context) + "Return t if point is on an empty line, nil otherwise" + (and (sp--looking-at-p "\\s-*$") + (sp--looking-back-p (concat "^\\s-*" (regexp-quote id))))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Pair insertion/deletion/skipping + +(defun sp--do-action-p (id action &optional use-inside-string) + "Return t if action ACTION can be performed with pair ID. + +If ACTION is a list, return t if at least one action from the +list can be performed. + +If USE-INSIDE-STRING is non-nil, use value of +`sp-point-inside-string' instead of testing with +`sp-point-in-string-or-comment'." + (setq action (-flatten (list action))) + (let* ((actions (sp-get-pair id :actions)) + (when-l (sp-get-pair id :when)) + (unless-l (sp-get-pair id :unless)) + (in-string (if use-inside-string + sp-point-inside-string + (sp-point-in-string))) + (context (cond + (in-string 'string) + ((sp-point-in-comment) 'comment) + (t 'code))) + a r) + (while (and action (not r)) + (setq a (car action)) + (setq r (when (memq a actions) + ;;(and (when-clause) (not (unless-clause))) + (and (or (not when-l) + (run-hook-with-args-until-success 'when-l id a context)) + (or (not unless-l) + (not (run-hook-with-args-until-success 'unless-l id a context)))))) + (!cdr action)) + r)) + +(defun sp--get-handler-context (type) + "Return the context constant. TYPE is type of the handler." + (let ((in-string (cl-case type + (:pre-handlers + (save-excursion + (unless (bobp) (backward-char 1)) + (sp-point-in-string-or-comment))) + (:post-handlers + (sp-point-in-string-or-comment))))) + (if in-string 'string 'code))) + +(defun sp--get-context (&optional point in-string in-comment) + "Return the context of POINT. + +If the optional arguments IN-STRING or IN-COMMENT non-nil, their +value is used instead of a test." + (save-excursion + (goto-char (or point (point))) + (cond + ((or in-string (sp-point-in-string)) 'string) + ((or in-comment (sp-point-in-comment)) 'comment) + (t 'code)))) + +(defun sp--parse-insertion-spec (fun) + "Parse the insertion specification FUN and return a form to evaluate." + (let ((spec nil) + (after nil) + (last 1)) + (cl-labels ((push-non-empty + (what) + (unless (equal (cadr what) "") + ;; relies on dynamic binding + (push what spec)))) + (with-temp-buffer + (insert fun) + (goto-char (point-min)) + (while (re-search-forward "\\(|\\|\\[\\)" nil t) + (cond + ((equal (match-string 0) "[") + (if (save-excursion (backward-char 1) (eq (preceding-char) 92)) + (push-non-empty `(insert ,(concat (buffer-substring-no-properties last (- (point) 2)) "["))) + (push-non-empty `(insert ,(buffer-substring-no-properties last (1- (point))))) + (let* ((p (point)) + (fun-end (progn + (re-search-forward "]" nil t) + (1- (point)))) + (fun-spec (buffer-substring-no-properties p fun-end)) + (instruction (cond + ((equal fun-spec "i") + '(indent-according-to-mode)) + ((equal (aref fun-spec 0) ?d) + `(delete-char ,(string-to-number (substring fun-spec 1))))))) + (when instruction (push instruction spec))))) + ((equal (match-string 0) "|") + (cond + ((save-excursion (backward-char 1) (eq (preceding-char) 92)) + (push-non-empty `(insert ,(concat (buffer-substring-no-properties last (- (point) 2)) "|")))) + (t + (push-non-empty `(insert ,(buffer-substring-no-properties last (1- (point))))) + (push 'save-excursion spec) + (when (eq (following-char) 124) + (forward-char 1) + (setq after '(indent-according-to-mode))))))) + (setq last (point))) + (push-non-empty `(insert ,(buffer-substring-no-properties last (point-max))))) + (let* ((specr (nreverse spec)) + (specsplit (--split-with (not (eq it 'save-excursion)) specr)) + (re (-concat (car specsplit) (if (cadr specsplit) (cdr specsplit) nil)))) + (cons 'progn (if after (-snoc re after) re)))))) + +(defun sp--run-function-or-insertion (fun id action context) + "Run a function or insertion. + +If FUN is a function, call it with `funcall' with ID, ACTION and +CONTEXT as arguments. + +If FUN is a string, interpret it as \"insertion specification\", +see `sp-pair' for description." + (cond + ((functionp fun) + (funcall fun id action context)) + ((stringp fun) + (eval (sp--parse-insertion-spec fun))))) + +(defun sp--run-hook-with-args (id type action) + "Run all the hooks for pair ID of type TYPE on action ACTION." + (ignore-errors + (let ((hook (sp-get-pair id type)) + (context (sp--get-handler-context type))) + (if hook + (--each hook (sp--run-function-or-insertion it id action context)) + ;; TODO: WHAT THE FUCK IS THIS ???11? + (let ((tag-hook (plist-get + (--first (string-match-p + (replace-regexp-in-string "_" ".*?" (plist-get it :open)) + id) + (cdr (assq 'html-mode sp-tags))) ;; REALLY? + type))) + (run-hook-with-args 'tag-hook id action context)))))) + +;; TODO: add a test for a symbol property that would tell this handler +;; not to re=set `sp-last-operation'. Useful for example in "macro +;; functions" like `my-wrap-with-paren'. +(defun sp--post-command-hook-handler () + "Handle the situation after some command has executed." + (sp--with-case-sensitive + (when (sp--special-self-insert-command-p) + (sp--post-self-insert-hook-handler)) + (ignore-errors + (when smartparens-mode + ;; handle the wrap overlays + (when sp-wrap-overlays + (let* ((overlay (car sp-wrap-overlays)) + (start (overlay-start overlay)) + (end (overlay-end overlay)) + (p (point))) + (when (or (< p sp-previous-point) + (> p end) + (< p start)) + (sp-wrap-cancel)))) + (when sp-wrap-overlays + (setq sp-previous-point (point))) + + ;; Here we run the delayed hooks. See issue #80 + (cond + ((eq (car-safe (sp-state-delayed-hook sp-state)) :next) + (setf (car (sp-state-delayed-hook sp-state)) :this)) + ((eq (car-safe (sp-state-delayed-hook sp-state)) :this) + (let* ((pair (cdr (sp-state-delayed-hook sp-state))) + (hooks (sp-get-pair pair :post-handlers-cond))) + (--each hooks + (let ((fun (car it)) + (conds (cdr it))) + (when (or (--any? (eq this-command it) conds) + (--any? (equal (single-key-description last-command-event) it) conds)) + (sp--run-function-or-insertion + fun pair 'insert + (sp--get-handler-context :post-handlers))))) + (setf (sp-state-delayed-hook sp-state) nil) + (setq sp-last-inserted-pair nil)))) + + ;; Here we run the delayed insertion. Some details in issue #113 + (when (and (not (eq sp-last-operation 'sp-insert-pair-delayed)) + sp-delayed-pair) + (let* ((pair (car sp-delayed-pair)) + (beg (cdr sp-delayed-pair)) + (conds (sp-get-pair pair :when-cond)) + (open-pair pair) + (close-pair (sp-get-pair pair :close))) + (when (and conds + (--any? (cond + ((and (commandp it) + (not (stringp it))) + (eq this-command it)) + ((stringp it) + (equal (single-key-description last-command-event) it)) + ((ignore-errors (funcall it pair 'insert (sp--get-handler-context :post-handlers))))) conds)) + ;; TODO: refactor this and the same code in + ;; `sp-insert-pair' to a separate function + (sp--run-hook-with-args open-pair :pre-handlers 'insert) + (insert close-pair) + (backward-char (length close-pair)) + (sp--pair-overlay-create beg + (+ (point) (length close-pair)) + open-pair) + ;; no auto-escape here? Should be fairly safe + (sp--run-hook-with-args open-pair :post-handlers 'insert) + (setq sp-last-inserted-pair open-pair) + ;; TODO: this is probably useless + (setq sp-last-operation 'sp-insert-pair))) + (setq sp-delayed-pair nil)) + + (when (eq sp-last-operation 'sp-insert-pair-delayed) + (setq sp-last-operation nil)) + + (unless (or (sp--self-insert-command-p) + (sp--special-self-insert-command-p)) + ;; unless the last command was a self-insert, remove the + ;; information about the last wrapped region. It is only used + ;; for: 1. deleting the wrapping immediately after the wrap, + ;; 2. re-wrapping region immediatelly after a sucessful wrap. + ;; Therefore, the deletion should have no ill-effect. If the + ;; necessity will arise, we can add a different flag. + (setq sp-last-wrapped-region nil) + (setq sp-last-operation nil)) + + (when show-smartparens-mode + (if (member this-command sp-show-enclosing-pair-commands) + (sp-show--pair-enc-function) + (when (not (eq this-command 'sp-highlight-current-sexp)) + (sp-show--pair-delete-enc-overlays)))))))) + +(defmacro sp--setaction (action &rest forms) + (declare (debug (form body))) + `(unless action + (setq action (progn ,@forms)))) + +;; TODO: this introduces a regression, where doing C-4 [ inserts [[[[] +;; figure out how to detect the argument to self-insert-command that +;; resulted to this insertion +(defun sp--post-self-insert-hook-handler () + (with-demoted-errors "sp--post-self-insert-hook-handler: %S" + (when smartparens-mode + (sp--with-case-sensitive + (catch 'done + (let (op action) + (setq op sp-last-operation) + (when (region-active-p) + (condition-case err + (sp-wrap--initialize) + (user-error + (delete-char -1) + (message (error-message-string err)) + (throw 'done nil)))) + (cond + (sp-wrap-overlays + (sp-wrap)) + (t + ;; TODO: this does not pick correct pair!! it uses insert and not wrapping code + (sp--setaction + action + (-when-let ((_ . open-pairs) (sp--all-pairs-to-insert nil 'wrap)) + (catch 'done + (-each open-pairs + (-lambda ((&keys :open open :close close)) + (--when-let (sp--wrap-repeat-last (cons open close)) + (throw 'done it))))))) + (sp--setaction action (sp-insert-pair)) + (sp--setaction action (sp-skip-closing-pair)) + (unless action (sp-escape-open-delimiter)) + ;; if nothing happened, we just inserted a character, so + ;; set the apropriate operation. We also need to check + ;; for `sp--self-insert-no-escape' not to overwrite + ;; it. See `sp-autoinsert-quote-if-followed-by-closing-pair'. + (when (and (not action) + (not (eq sp-last-operation 'sp-self-insert-no-escape))) + (setq sp-last-operation 'sp-self-insert)))))))))) + +;; Unfortunately, some modes rebind "inserting" keys to their own +;; handlers but do not hand over the insertion back to +;; `self-insert-command', rather, they insert via `insert'. +;; Therefore, we need to call this handler in `post-command-hook' too. +;; The list `sp--special-self-insert-commands' specifies which +;; commands to handle specially. +(add-hook 'post-self-insert-hook 'sp--post-self-insert-hook-handler) + +;; TODO: make a proper data structure for state tracking and describe +;; why we need each of these. +(defun sp--save-pre-command-state () + (setq sp-point-inside-string (sp-point-in-string)) + (setq sp-pre-command-point (point)) + (setq sp-buffer-modified-p (buffer-modified-p))) + +(add-hook 'pre-command-hook 'sp--save-pre-command-state) + +(defun sp--pre-command-hook-handler () + "Main handler of pre-command-hook. + +Handle the `delete-selection-mode' or `cua-delete-selection' +stuff here.") + +(defun sp--get-pair-list () + "Return all pairs that are recognized in this +`major-mode' and do not have same opening and closing delimiter. +This is used for navigation functions." + (--filter (not (string= (car it) (cdr it))) sp-pair-list)) + +(defun sp--get-stringlike-list () + "Return all pairs that are recognized in this `major-mode' that +have same opening and closing delimiter." + (--filter (string= (car it) (cdr it)) sp-pair-list)) + +(defun sp--get-allowed-pair-list () + "Return all pairs that are recognized in this +`major-mode', do not have same opening and closing delimiter and +are allowed in the current context. See also +`sp--get-pair-list'." + (--filter (and (sp--do-action-p (car it) 'navigate) + (not (equal (car it) (cdr it)))) sp-pair-list)) + +(defun sp--get-allowed-stringlike-list () + "Return all pairs that are recognized in this `major-mode', +have the same opening and closing delimiter and are allowed in +the current context." + (--filter (and (sp--do-action-p (car it) 'navigate) + (equal (car it) (cdr it))) sp-pair-list)) + +(defun sp--get-pair-list-context (&optional action) + "Return all pairs that are recognized in this `major-mode' and +are allowed in the current context." + (setq action (or action 'insert)) + (--filter (sp--do-action-p (car it) action) sp-pair-list)) + +(defun sp--get-pair-list-wrap () + "Return the list of all pairs that can be used for wrapping." + (--filter (sp--do-action-p (car it) 'wrap) sp-pair-list)) + +(defun sp--wrap-regexp (string start end) + "Wraps regexp with start and end boundary conditions to avoid +matching symbols in symbols." + (concat "\\(?:" (when start "\\<") string (when end "\\>") "\\)")) + +(defun sp--regexp-for-group (parens &rest strings) + "Generates an optimized regexp matching all string, but with +extra boundary conditions depending on parens." + (let* ((start (car parens)) + (end (cadr parens))) + (sp--wrap-regexp (regexp-opt strings) start end))) + +(defun sp--strict-regexp-opt (strings &optional ignored) + "Like regexp-opt, but with extra boundary conditions to ensure +that the strings are not matched in-symbol." + (with-syntax-table + ;; HACK: this is a terrible hack to make ' be treated as a + ;; punctuation. Many text modes set it as word character which + ;; messes up the regexps + (let ((table (make-syntax-table (syntax-table)))) + (modify-syntax-entry ?' "." table) + table) + (--> strings + (-group-by (lambda (string) + (list (and (string-match-p "\\`\\<" string) t) + (and (string-match-p "\\>\\'" string) t))) + it) + (mapconcat (lambda (g) (apply 'sp--regexp-for-group g)) it "\\|") + (concat "\\(?:" it "\\)")))) + +(defun sp--strict-regexp-quote (string) + "Like regexp-quote, but make sure that the string is not +matched in-symbol." + (sp--wrap-regexp (regexp-quote string) + (string-match-p "\\`\\<" string) + (string-match-p "\\>\\'" string))) + +(cl-defun sp--get-opening-regexp (&optional (pair-list (sp--get-pair-list))) + "Return regexp matching any opening pair." + (sp--strict-regexp-opt (--map (car it) pair-list))) + +(cl-defun sp--get-closing-regexp (&optional (pair-list (sp--get-pair-list))) + "Return regexp matching any closing pair." + (sp--strict-regexp-opt (--map (cdr it) pair-list))) + +(cl-defun sp--get-allowed-regexp (&optional (pair-list (sp--get-allowed-pair-list))) + "Return regexp matching any opening or closing +delimiter for any pair allowed in current context." + (sp--strict-regexp-opt (--mapcat (list (car it) (cdr it)) pair-list))) + +(cl-defun sp--get-stringlike-regexp (&optional (pair-list (sp--get-allowed-stringlike-list))) + (regexp-opt (--map (car it) pair-list))) + +(defun sp-pair-is-stringlike-p (delim) + (--first (equal delim (car it)) (sp--get-allowed-stringlike-list))) + +(defun sp--get-last-wraped-region (beg end open close) + "Return `sp-get-sexp' style plist about the last wrapped region. + +Note: this function does not retrieve the actual value of +`sp-last-wrapped-region', it merely construct the plist from the +provided values." + (let ((b (make-marker)) + (e (make-marker))) + (set-marker b beg) + (set-marker e end) + (set-marker-insertion-type e t) + `(:beg ,b :end ,e :op ,open :cl ,close :prefix ""))) + +;; Wrapping is basically the same thing as insertion, only the closing +;; pair is placed at a distance. + +;; However, we want to be able to insert the *closing* delimiter and +;; go to the end of block. This will only work with delimiters which +;; are unique wrt their opening one. For more complex wrapping, there +;; will probably be an IDO/minibuffer interface. Openings are checked +;; first. + +;; Inserting the opening delimiter should put the point wherever it +;; was when we started insertion. + +(defun sp-wrap--can-wrap-p () + "Return non-nil if we can wrap a region. + +This is used in advices on various pre-command-hooks from +\"selection deleting\" modes to intercept their actions." + (--any? (or (string-prefix-p (sp--single-key-description last-command-event) (car it)) + (string-prefix-p (sp--single-key-description last-command-event) (cdr it))) + (sp--get-pair-list-wrap))) + +(defun sp--pair-to-wrap-comparator (prop a b) + "Comparator for wrapping pair selection. + +PROP specifies wrapping-end. A and B are pairs to be compared." + (let ((rprop (if (eq prop :open) :close :open))) + (if (< (length (plist-get it prop)) (length (plist-get other prop))) + (string-prefix-p (plist-get it rprop) (plist-get other rprop)) + (not (string-prefix-p (plist-get other rprop) (plist-get it rprop)))))) + +(defun sp--pair-to-wrap (&optional prefix) + "Return information about possible wrapping pairs. + +If optional PREFIX is non-nil, this is used to determine the +possible wrapping pairs instead of the text in the wrapping +overlay." + (let* ((working-pairs + ;; TODO: abstract this into a new "sp--get-..." hierarchy + (--filter (sp--do-action-p (plist-get it :open) 'wrap) sp-local-pairs)) + (obeg (car sp-wrap-overlays)) + (prefix (or prefix (sp--get-overlay-text obeg))) + (opening-pairs (--filter (string-prefix-p prefix (plist-get it :open)) working-pairs)) + (closing-pairs (--filter (string-prefix-p prefix (plist-get it :close)) working-pairs)) + (open (car (--sort (sp--pair-to-wrap-comparator :open it other) opening-pairs))) + ;; TODO: do we need the special sorting here? + (close (car (--sort (sp--pair-to-wrap-comparator :close it other) closing-pairs)))) + (list :open open + :close close + :opening opening-pairs + :closing closing-pairs))) + +(defun sp-wrap--initialize () + "Initialize wrapping." + (when (and sp-autowrap-region + (sp-wrap--can-wrap-p)) + ;; This is the length of string which was inserted by the last + ;; "self-insert" action. Typically this is 1, but sometimes a + ;; single key inserts two or more characters, such as " in latex + ;; where it translates into `` or ''. + (let ((inserted-string-length (- (point) sp-pre-command-point))) + ;; TODO: get rid of the following variables + (setq sp-wrap-point (- (point) inserted-string-length)) + (setq sp-wrap-mark (mark)) + (unless (or (sp-point-in-string (point)) + (sp-point-in-string (mark))) + (unless (sp-region-ok-p + (if (> (point) (mark)) sp-wrap-point (point)) + (mark)) + (user-error "Wrapping active region would break structure"))) + ;; if point > mark, we need to move point to mark and reinsert the + ;; just inserted character. + (when (> (point) (mark)) + (let ((char (delete-and-extract-region (- (point) inserted-string-length) (point)))) + (exchange-point-and-mark) + (insert char))) + (let* ((oleft (make-overlay (- (region-beginning) inserted-string-length) + (region-beginning) nil nil t)) + (oright (make-overlay (region-end) (region-end) nil nil t))) + (setq sp-wrap-overlays (cons oleft oright)) + (when sp-highlight-wrap-overlay + (overlay-put oleft 'face 'sp-wrap-overlay-face) + (overlay-put oright 'face 'sp-wrap-overlay-face)) + (overlay-put oleft 'priority 100) + (overlay-put oright 'priority 100) + (overlay-put oleft 'keymap sp-wrap-overlay-keymap) + (overlay-put oleft 'type 'wrap) + (setq sp-previous-point (point)) + (goto-char (1+ (overlay-start oleft))))))) + +(defun sp-wrap--finalize (wrapping-end open close) + "Finalize a successful wrapping. + +WRAPPING-END specifies the wrapping end. If we wrapped using +opening delimiter it is :open. If we wrapped using closing +delimiter it is :close. Position of point after wrapping depends +on this value---if :open, go where the wrapping was initalized, +if :close, go after the newly-formed sexp. + +OPEN and CLOSE are the delimiters." + (-let (((obeg . oend) sp-wrap-overlays)) + (sp--replace-overlay-text obeg open) + (sp--replace-overlay-text oend close) + (setq sp-last-operation 'sp-wrap-region) + (setq sp-last-wrapped-region + (sp--get-last-wraped-region + (overlay-start obeg) (overlay-end oend) + open close)) + (cond + ((eq wrapping-end :open) + (if sp-wrap-respect-direction + (goto-char (overlay-start obeg)) + (when (> sp-wrap-point sp-wrap-mark) + (goto-char (overlay-end oend))))) + ((eq wrapping-end :close) + (goto-char (overlay-end oend)))) + (sp-wrap--clean-overlays) + (sp--run-hook-with-args open :post-handlers 'wrap))) + +(defun sp-wrap () + "Try to wrap the active region with some pair. + +This function is not ment to be used to wrap sexps with pairs +programatically. Use `sp-wrap-with-pair' instead." + (-let* (((&plist :open open :close close + :opening opening-pairs + :closing closing-pairs) (sp--pair-to-wrap)) + ((obeg . oend) sp-wrap-overlays)) + (cond + (open + (-let (((&plist :open open :close close) open)) + (when sp-wrap-show-possible-pairs + (overlay-put + oend 'after-string + (mapconcat (lambda (x) + (if sp-highlight-wrap-overlay + (concat + (propertize + (plist-get x :open) 'face + 'sp-wrap-overlay-opening-pair) + (propertize + (plist-get x :close) + 'face 'sp-wrap-overlay-closing-pair)) + (concat (plist-get x :open) (plist-get x :close)))) + opening-pairs " "))) + (when (equal (sp--get-overlay-text obeg) open) + (sp-wrap--finalize :open open close)))) + ((and close (= 1 (length closing-pairs))) + (-let (((&plist :open open :close close) close)) + (when (equal (sp--get-overlay-text obeg) close) + (sp-wrap--finalize :close open close)))) + (t + (sp-wrap-cancel))))) + +(defun sp--escape-region (chars-to-escape beg end) + "Escape instances of CHARS-TO-ESCAPE between BEG and END. + +Return non-nil if at least one escaping was performed." + (save-excursion + (goto-char beg) + (let ((pattern (regexp-opt chars-to-escape)) + (end-marker (set-marker (make-marker) end)) + (re nil)) + (while (re-search-forward pattern end-marker t) + (setq re t) + (save-excursion + (goto-char (match-beginning 0)) + (insert sp-escape-char))) + re))) + +(defun sp-escape-wrapped-region (id action context) + "Escape quotes and special chars when a region is wrapped." + (when (and sp-escape-wrapped-region + (eq action 'wrap)) + (sp-get sp-last-wrapped-region + (let* ((parent-delim (save-excursion + (goto-char :beg) + (sp-get (sp-get-string) + (when (and (< :beg (point)) + (< (point) :end)) + :op))))) + (cond + ((equal parent-delim id) + (sp--escape-region (list id sp-escape-char) :beg :end)) + (parent-delim + (sp--escape-region (list id) :beg-in :end-in)) + (t + (sp--escape-region (list id sp-escape-char) :beg-in :end-in))))))) + +(defun sp-escape-quotes-after-insert (id action context) + "Escape quotes inserted via `sp-insert-pair'." + (when (and sp-escape-quotes-after-insert + (eq action 'insert) + ;; we test not being inside string because if we were + ;; before inserting the "" pair it is now split into two + ;; -> which moves us outside the pair + (not (eq context 'string)) + ;; the inserted character must have string syntax, otherwise no "context" flip happens + (eq (char-syntax (aref id 0)) ?\")) + (let ((open id) + (close (sp-get-pair id :close))) + (sp--escape-region (list open close) + (- (point) (length open)) + (+ (point) (length close)))))) + +(defun sp-escape-open-delimiter () + "Escape just inserted opening pair if `sp-insert-pair' was skipped. + +This is useful for escaping of \" inside strings when its pairing +is disabled. This way, we can control autoescape and closing +delimiter insertion separately." + (-when-let (open (plist-get (sp--pair-to-insert 'escape) :open)) + (when (sp--do-action-p open 'escape) + (sp--escape-region (list open) (- (point) (length open)) (point))))) + +;; kept to not break people's config... remove later +(defun sp-match-sgml-tags (tag) + "Split the html tag TAG at the first space and return its name." + (let* ((split (split-string tag " ")) + (close (car split))) + close)) +(make-obsolete 'sp-match-sgml-tags "do not use this function as the tag system has been removed." "2015-02-07") + +(defun sp--is-number-cons (c) + (and (consp c) (numberp (car c)) (numberp (cdr c)))) + +;; TODO: more research is needed +(defun sp--undo-pop-to-last-insertion-node () + "Pop all undo info until an insertion node (beg . end) is found. + +This can potentially remove some undo important information." + (while (and buffer-undo-list + (or (null (car buffer-undo-list)) ;; is nil + ;; is not undo action we're interested in + (not (sp--is-number-cons (car buffer-undo-list))))) + (pop buffer-undo-list))) + +;; modified from: https://github.com/Fuco1/smartparens/issues/90#issuecomment-18800369 +(defun sp--split-last-insertion-undo (len) + "Split the last insertion node in the `buffer-undo-list' to +include separate pair node." + (sp--undo-pop-to-last-insertion-node) + (when buffer-undo-list + (let* ((previous-undo-actions (cdr buffer-undo-list)) + (beg (caar buffer-undo-list)) + (end (cdar buffer-undo-list)) + first-action second-action) + (unless (< beg (- end len)) + ;; We need to go back more than one action. Given the pairs + ;; are limited to 10 chars now and the chunks seem to be 20 + ;; chars, we probably wouldn't need more. + (pop buffer-undo-list) + (sp--undo-pop-to-last-insertion-node) + (when buffer-undo-list + (setq beg (caar buffer-undo-list)) + (setq previous-undo-actions (cdr buffer-undo-list)))) + (setq first-action (cons beg (- end len))) + (setq second-action (cons (- end len) end)) + (setq buffer-undo-list + (append (list nil second-action nil first-action) + previous-undo-actions))))) + +(defun sp--string-empty-p (delimeter) + "Return t if point is inside an empty string." + (and (equal (char-after (1+ (point))) delimeter) + (equal (char-after (- (point) 2)) delimeter))) + +;; TODO: remove ACTION argument and make the selection process more +;; unified (see also sp--pair-to-wrap which depends on buffer state +;; among other things) +(defun sp--all-pairs-to-insert (&optional looking-fn action) + "Return all pairs that can be inserted at point. + +Return nil if such pair does not exist. + +Pairs inserted using a trigger have higher priority over pairs +without a trigger and only one or the other list is returned. + +In other words, if any pair can be inserted using a trigger, only +pairs insertable by trigger are returned. + +ACTION is an implementation detail. Usually it has the value +'insert when we determine pairs to insert. On repeated wrapping +however we pass the value 'wrap. This will be refactored away in +the upcoming version." + (setq looking-fn (or looking-fn 'sp--looking-back-p)) + (setq action (or action 'insert)) + (let ((working-pairs + ;; TODO: abstract this into a new "sp--get-..." hierarchy + (--filter (sp--do-action-p (plist-get it :open) action) sp-local-pairs))) + (-if-let (trigs (--filter (and (plist-get it :trigger) + (funcall looking-fn (sp--strict-regexp-quote (plist-get it :trigger)))) + working-pairs)) + (cons :trigger trigs) + (-when-let (pairs (--filter (funcall looking-fn (sp--strict-regexp-quote (plist-get it :open))) working-pairs)) + (cons :open pairs))))) + +(defun sp--pair-to-insert-comparator (prop a b) + (cond + ;; in case of triggers shorter always wins + ((eq prop :trigger) + (< (length (plist-get a :trigger)) (length (plist-get b :trigger)))) + ;; Shorter wins only if the shorter's closing is a prefix of the + ;; longer's closing. In other words, if we are looking at + ;; shorter's closing and we are trying to nest it. + (t + (if (< (length (plist-get a :open)) (length (plist-get b :open))) + (and (string-prefix-p (plist-get a :close) (plist-get b :close)) + (sp--looking-at-p (plist-get a :close))) + (not (and (string-prefix-p (plist-get b :close) (plist-get a :close)) + (sp--looking-at-p (plist-get b :close)))))))) + +(defun sp--pair-to-insert (&optional action) + "Return pair that can be inserted at point. + +Return nil if such pair does not exist. + +If more triggers or opening pairs are possible select the +shortest one." + (-when-let ((property . pairs) (sp--all-pairs-to-insert nil action)) + (car (--sort (sp--pair-to-insert-comparator property it other) pairs)))) + +(defun sp--longest-prefix-to-insert () + "Return pair with the longest :open which can be inserted at point." + (-when-let (pairs (--filter (sp--looking-back-p (sp--strict-regexp-quote (plist-get it :open))) sp-local-pairs)) + (car (--sort (> (length (plist-get it :open)) (length (plist-get other :open))) pairs)))) + +(defun sp--pair-to-uninsert () + "Return pair to uninsert. + +If the current to-be-inserted pair shares a prefix with +another (shorter) pair, we must first remove the effect of +inserting its closing pair before inserting the current one. + +The previously inserted pair must be the one with the longest +common prefix excluding the current pair." + (-when-let (lp (sp--longest-prefix-to-insert)) + (save-excursion + (backward-char (length (plist-get lp :open))) + (-when-let ((property . pairs) (sp--all-pairs-to-insert 'sp--looking-at-p)) + (car (--sort (> (length (plist-get it property)) (length (plist-get other property))) + ;; remove pairs whose open is longer than the + ;; current longest possible prefix---otherwise + ;; they would overflow to the closing pair + ;; TODO: this ignores the possibility when lp is + ;; inserted by trigger. We assume triggers are + ;; shorter than the openings and this situation, + ;; if ever, should be very rare + (--remove (>= (length (plist-get it :open)) + (length (plist-get lp :open))) pairs))))))) + +(defun sp--insert-pair-get-pair-info (active-pair) + "Get basic info about the to-be-inserted pair." + (let ((open-pair (plist-get active-pair :open))) + (list + open-pair + (plist-get active-pair :close) + (-if-let (tr (plist-get active-pair :trigger)) + (if (sp--looking-back-p (sp--strict-regexp-quote tr)) tr open-pair) + open-pair)))) + +(defun sp-insert-pair (&optional pair) + "Automatically insert the closing pair if it is allowed in current context. + +If PAIR is provided, use this as pair ID instead of looking +through the recent history of pressed keys. + +You can disable this feature completely for all modes and all pairs by +setting `sp-autoinsert-pair' to nil. + +You can globally disable insertion of closing pair if point is +followed by the matching opening pair. It is disabled by +default." + (sp--with-case-sensitive + (-let* ((active-pair (unwind-protect + ;; This fake insertion manufactures proper + ;; context for the tests below... in effect + ;; we must make it look as if the user + ;; typed in the opening part themselves + ;; TODO: it is duplicated in the test + ;; below, maybe it wouldn't hurt to + ;; restructure this function a bit + (progn + (when pair (insert pair)) + (sp--pair-to-insert)) + (when pair (delete-char (- (length pair)))))) + ((open-pair close-pair trig) (sp--insert-pair-get-pair-info active-pair))) + (if (not (unwind-protect + (progn + (when pair (insert pair)) + ;; TODO: all these tests must go into `sp--pair-to-insert' + (and sp-autoinsert-pair + active-pair + (if (memq sp-autoskip-closing-pair '(always always-end)) + (or (not (equal open-pair close-pair)) + (not (sp-skip-closing-pair nil t))) + t) + (sp--do-action-p open-pair 'insert t) + (if sp-autoinsert-quote-if-followed-by-closing-pair t + (if (and (eq (char-syntax (preceding-char)) ?\") + ;; this is called *after* the character is + ;; inserted. Therefore, if we are not in string, it + ;; must have been closed just now + (not (sp-point-in-string))) + (let ((pattern (sp--get-closing-regexp))) + ;; If we simply insert closing ", we also + ;; don't want to escape it. Therefore, we + ;; need to set `sp-last-operation' + ;; accordingly to be checked in + ;; `self-insert-command' advice. + (if (sp--looking-at pattern) + (progn (setq sp-last-operation 'sp-self-insert-no-escape) nil) + t)) + t)) + ;; was sp-autoinsert-if-followed-by-same + (or (not (sp--get-active-overlay 'pair)) + (not (sp--looking-at (sp--strict-regexp-quote open-pair))) + (and (equal open-pair close-pair) + (eq sp-last-operation 'sp-insert-pair) + (save-excursion + (backward-char (length trig)) + (sp--looking-back (sp--strict-regexp-quote open-pair)))) + (not (equal open-pair close-pair))))) + (when pair (delete-char (- (length pair)))))) + ;; if this pair could not be inserted, we try the procedure + ;; again with this pair removed from sp-pair-list to give + ;; chance to other pairs sharing a common suffix (for + ;; example \[ and [) + (let ((new-sp-pair-list (--remove (equal (car it) open-pair) sp-pair-list)) + (new-sp-local-pairs (--remove (equal (plist-get it :open) open-pair) sp-local-pairs))) + (when (> (length sp-pair-list) (length new-sp-pair-list)) + (let ((sp-pair-list new-sp-pair-list) + (sp-local-pairs new-sp-local-pairs)) + (sp-insert-pair)))) + ;; setup the delayed insertion here. + (if (sp-get-pair open-pair :when-cond) + (progn + (setq sp-delayed-pair (cons open-pair (- (point) (length open-pair)))) + (setq sp-last-operation 'sp-insert-pair-delayed)) + (unless pair (delete-char (- (length trig)))) + (insert open-pair) + (sp--run-hook-with-args open-pair :pre-handlers 'insert) + (--when-let (sp--pair-to-uninsert) + (let ((cl (plist-get it :close))) + (when (and (sp--looking-at-p (sp--strict-regexp-quote cl)) + (not (string-prefix-p cl close-pair))) + (delete-char (length cl))))) + (insert close-pair) + (backward-char (length close-pair)) + (sp--pair-overlay-create (- (point) (length open-pair)) + (+ (point) (length close-pair)) + open-pair) + (when sp-undo-pairs-separately + (sp--split-last-insertion-undo (+ (length open-pair) (length close-pair))) + ;; TODO: abc\{abc\} undo undo \{asd\} . next undo removes the + ;; entire \{asd\} if we do not insert two nils here. + ;; Normally, repeated nils are ignored so it shouldn't + ;; matter. It would still be useful to inspect further. + (push nil buffer-undo-list) + (push nil buffer-undo-list)) + (sp--run-hook-with-args open-pair :post-handlers 'insert) + (setq sp-last-inserted-pair open-pair) + (setf (sp-state-delayed-hook sp-state) (cons :next open-pair)) + (setq sp-last-operation 'sp-insert-pair)))))) + +(defun sp--wrap-repeat-last (active-pair) + "If the last operation was a wrap and `sp-wrap-repeat-last' is +non-nil, repeat the wrapping with this pair around the last +active region." + (unless (= 0 sp-wrap-repeat-last) + (when sp-last-wrapped-region + (let* ((b (sp-get sp-last-wrapped-region :beg)) + (e (sp-get sp-last-wrapped-region :end)) + (op (sp-get sp-last-wrapped-region :op)) + (oplen (length op)) + (cllen (sp-get sp-last-wrapped-region :cl-l)) + (acolen (length (car active-pair)))) + (when (and + (cond + ((= 1 sp-wrap-repeat-last) + (equal (car active-pair) op)) + ((= 2 sp-wrap-repeat-last))) + (memq sp-last-operation '(sp-self-insert sp-wrap-region)) + (or (= (point) (+ b oplen acolen)) + (= (point) e))) + (delete-char (- acolen)) + (if (< (point) e) + (progn (goto-char (+ b oplen)) + (insert (car active-pair)) + (goto-char (- e cllen)) + (insert (cdr active-pair)) + (setq sp-last-wrapped-region + (sp--get-last-wraped-region + (+ b oplen) (point) + (car active-pair) (cdr active-pair))) + (goto-char (+ b oplen acolen))) + (goto-char b) + (insert (car active-pair)) + (goto-char e) + (insert (cdr active-pair)) + (setq sp-last-wrapped-region + (sp--get-last-wraped-region + b e (car active-pair) (cdr active-pair)))) + (setq sp-last-operation 'sp-wrap-region) + (sp--run-hook-with-args (car active-pair) :post-handlers 'wrap) + sp-last-operation))))) + +(defun sp--char-is-part-of-stringlike (char) + "Return non-nil if CHAR is part of a string-like delimiter of length 1." + (->> (sp--get-stringlike-list) + (--filter (= 1 (length (cdr it)))) + (-map 'car) + (--any? (string-match-p (regexp-quote char) it)))) + +(defun sp--char-is-part-of-closing (char) + "Return non-nil if CHAR is part of a pair delimiter of length 1." + (->> (sp--get-pair-list) + (--filter (= 1 (length (cdr it)))) + (-map 'cdr) + (--any? (string-match-p (regexp-quote char) it)))) + +;; TODO: this only supports single-char delimiters. Maybe it should +;; that that way. +(defun sp-skip-closing-pair (&optional last test-only) + "Automatically skip the closing delimiters of pairs. + +If point is inside an inserted pair, and the user only moved +forward with point (that is, only inserted text), if the closing +pair is typed, we shouldn't insert it again but skip forward. We +call this state \"active sexp\". The setting +`sp-cancel-autoskip-on-backward-movement' controls when an active +expression become inactive. + +For example, pressing ( is followed by inserting the pair (|). If +we then type 'word' and follow by ), the result should be (word)| +instead of (word)|). + +This behaviour can be customized by various settings of +`sp-autoskip-closing-pair' and `sp-autoskip-opening-pair'. + +Additionally, this behaviour can be selectively disabled for +specific pairs by removing their \"autoskip\" action. You can +achieve this by using `sp-pair' or `sp-local-pair' with +\":actions '(:rem autoskip)\"." + (sp--with-case-sensitive + (when (or (and (eq sp-autoskip-closing-pair t) + sp-pair-overlay-list + (sp--get-active-overlay 'pair)) + (memq sp-autoskip-closing-pair '(always always-end))) + ;; TODO: ugly hack to override 'navigate with 'autoskip. Each of + ;; these submodules should set-up their own environment somehow + ;; and thread it through the entire computation + (cl-letf (((symbol-function 'sp--get-allowed-stringlike-list) + (lambda () + (--filter (and (sp--do-action-p (car it) 'autoskip) + (equal (car it) (cdr it))) sp-pair-list)))) + ;; these two are pretty hackish ~_~ + (cl-labels ((get-sexp + () + (delete-char -1) + (insert " ") + (prog1 (sp-get-sexp) + (delete-char -1) + (insert last))) + (get-enclosing-sexp + () + (delete-char -1) + (insert " ") + (prog1 (sp-get-enclosing-sexp) + (delete-char -1) + (insert last)))) + (let ((last (or last (sp--single-key-description last-command-event)))) + (-when-let (active-sexp + (cond + ((-when-let* ((ov (sp--get-active-overlay 'pair)) + (op (overlay-get ov 'pair-id)) + (cl (cdr (assoc op sp-pair-list)))) + ;; if the sexp is active, we are inside it. + (when (and (= 1 (length op)) + (equal last cl)) + (list :beg (overlay-start ov) + :end (overlay-end ov) + :op op + :cl cl + :prefix "" + :suffix "")))) + ((sp--char-is-part-of-stringlike last) + ;; a part of closing delimiter is typed. There are four + ;; options now: + ;; - we are inside the sexp, at its end + ;; - we are inside the sexp, somewhere in the middle + ;; - we are outside, in front of a sexp + ;; - we are outside, somewhere between sexps + (cond + ((and (sp--looking-at (sp--get-stringlike-regexp)) + (not (sp--skip-match-p (match-string-no-properties 0) + (match-beginning 0) + (match-end 0)))) + ;; if we're looking at the delimiter, and it is valid in + ;; current context, get the sexp. + (get-sexp)) + ;; here comes the feature when we're somewhere in the + ;; middle of the sexp (or outside), if ever supported. + )) + ((sp--char-is-part-of-closing last) + (cond + ((and (sp--looking-at (sp--get-closing-regexp)) + (not (sp--skip-match-p (match-string-no-properties 0) + (match-beginning 0) + (match-end 0)))) + (get-sexp)) + ((eq sp-autoskip-closing-pair 'always) + (get-enclosing-sexp)))))) + (when (and active-sexp + (equal (sp-get active-sexp :cl) last) + (sp--do-action-p (sp-get active-sexp :op) 'autoskip) + ;; if the point is inside string and preceded + ;; by an odd number of `sp-escape-char's, we + ;; should not skip as that would leave the + ;; string broken. + (or (not (sp-point-in-string)) + (if (save-excursion + (backward-char 1) + (sp--search-backward-regexp + (concat sp-escape-char sp-escape-char "+") nil t)) + (eq (logand (length (match-string 0)) 1) 0) ;; even? = we can skip + t))) + (-when-let (re (cond + ((= (point) (sp-get active-sexp :beg)) + ;; we are in front of a string-like sexp + (when sp-autoskip-opening-pair + (if test-only t + (delete-char -1) + (forward-char) + (setq sp-last-operation 'sp-skip-closing-pair)))) + ((= (point) (sp-get active-sexp :end-in)) + (if test-only t + (delete-char 1) + (setq sp-last-operation 'sp-skip-closing-pair))) + ((sp-get active-sexp + (and (> (point) :beg-in) + (< (point) :end-in))) + (if test-only t + (delete-char -1) + (sp-up-sexp))))) + (unless (or test-only + sp-buffer-modified-p) + (set-buffer-modified-p nil)) + (unless test-only + (sp--run-hook-with-args (sp-get active-sexp :op) :post-handlers 'skip-closing-pair)) + re))))))))) + +(defun sp-delete-pair (&optional arg) + "Automatically delete opening or closing pair, or both, depending on +position of point. + +If the point is inside an empty pair, automatically delete both. That +is, [(|) turns to [|, [\{|\} turns to [|. Can be disabled by setting +`sp-autodelete-pair' to nil. + +If the point is behind a closing pair or behind an opening pair delete +it as a whole. That is, \{\}| turns to \{|, \{| turns to |. Can be +disabled by setting `sp-autodelete-closing-pair' and +`sp-autodelete-opening-pair' to nil. + +If the last operation was a wrap and `sp-autodelete-wrap' is +enabled, invoking this function will unwrap the expression, that +is remove the just added wrapping." + ;; NOTE: Only use delete-char inside this function, so we + ;; don't activate the advice recursively! + + ;; only activate if argument is 1 (this is 0-th argument of the + ;; delete-backward-char), otherwise the user wants to delete + ;; multiple character, so let him do that + (sp--with-case-sensitive + (when (and (= arg 1) + smartparens-mode) + (if (and sp-autodelete-wrap + (eq sp-last-operation 'sp-wrap-region)) + (let ((p (point)) + (b (sp-get sp-last-wrapped-region :beg)) + (e (sp-get sp-last-wrapped-region :end)) + (o (sp-get sp-last-wrapped-region :op-l)) + (c (sp-get sp-last-wrapped-region :cl-l))) + ;; if the last operation was `sp-wrap-region', and we are at + ;; the position of either opening or closing pair, delete the + ;; just-inserted pair + (when (or (= p (+ b o)) + (= p e)) + (insert "x") ;dummy char to account for the regularly deleted one + (save-excursion + (goto-char e) + (delete-char (- c)) + (goto-char b) + (delete-char o)) + (setq sp-last-operation 'sp-delete-pair-wrap))) + (let ((p (point)) + (inside-pair (--first (and (sp--looking-back (sp--strict-regexp-quote (car it))) + (sp--looking-at (concat "[ \n\t]*" (sp--strict-regexp-quote (cdr it))))) + sp-pair-list)) + (behind-pair (--first (sp--looking-back (sp--strict-regexp-quote (cdr it))) sp-pair-list)) + (opening-pair (--first (sp--looking-back (sp--strict-regexp-quote (car it))) sp-pair-list))) + + (cond + ;; we're just before the closing quote of a string. If there + ;; is an opening or closing pair behind the point, remove + ;; it. This is only really relevant if the pair ends in the + ;; same character as string quote. We almost never want to + ;; delete it as an autopair (it would "open up the string"). + ;; So, word\"|" and should produce word\|" or + ;; word|" (if \" is autopair) instead of word\|. + ((and (sp-point-in-string) + (not (sp-point-in-string (1+ p))) + (sp-point-in-string (1- p))) ;; the string isn't empty + (cond ;; oh, you ugly duplication :/ + ((and behind-pair sp-autodelete-closing-pair) + (delete-char (- (1- (length (car behind-pair))))) + (setq sp-last-operation 'sp-delete-pair-closing)) + ((and opening-pair sp-autodelete-opening-pair) + (delete-char (- (1- (length (car opening-pair))))) + (setq sp-last-operation 'sp-delete-pair-opening)))) + ;; we're inside a pair + ((and inside-pair sp-autodelete-pair) + (let* ((end (save-excursion + (search-forward (cdr inside-pair)))) + (cs (sp--get-context p)) + (ce (sp--get-context end)) + (current-sexp (sp-get-sexp))) + (when (and (or (not (eq cs 'comment)) ;; a => b <=> ~a v b + (eq ce 'comment)) + (eq end (sp-get current-sexp :end)) + (equal (sp-get current-sexp :op) (car inside-pair)) + (equal (sp-get current-sexp :cl) (cdr inside-pair))) + (delete-char (- end p)) + (delete-char (- (1- (length (car inside-pair))))) + (setq sp-last-operation 'sp-delete-pair)))) + ;; we're behind a closing pair + ((and behind-pair sp-autodelete-closing-pair) + (delete-char (- (1- (length (cdr behind-pair))))) + (setq sp-last-operation 'sp-delete-pair-closing)) + ;; we're behind an opening pair and there's no closing pair + ((and opening-pair sp-autodelete-opening-pair) + (delete-char (- (1- (length (car opening-pair))))) + (setq sp-last-operation 'sp-delete-pair-opening)))))))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; Navigation + +(defun sp--looking-at (regexp) + "Like `looking-at', but always case sensitive." + (sp--with-case-sensitive + (looking-at regexp))) + +(defun sp--looking-at-p (regexp) + "Like `looking-at-p', but always case sensitive." + (sp--with-case-sensitive + (looking-at-p regexp))) + +(defun sp--looking-back (regexp &optional limit not-greedy) + "Return non-nil if text before point matches regular expression REGEXP. + +With optional argument LIMIT search only that many characters +backward. If LIMIT is nil, default to `sp-max-pair-length'. + +If optional argument NON-GREEDY is t search for any matching +sequence, not necessarily the longest possible." + (setq limit (or limit sp-max-pair-length)) + (sp--with-case-sensitive + (let ((from (max 1 (- (point) limit))) + (to (point)) + (greedy (not not-greedy)) + has-match) + (set-match-data '(0 0)) + (if greedy + (save-excursion + (goto-char from) + (while (and (not has-match) (< (point) to)) + (looking-at regexp) + (if (= (match-end 0) to) + (setq has-match t) + (forward-char 1))) + has-match) + (save-excursion + (not (null (search-backward-regexp (concat "\\(?:" regexp "\\)\\=") from t)))))))) + +(defun sp--looking-back-p (regexp &optional limit not-greedy) + "Same as `sp--looking-back' but do not change the match data." + (save-match-data + (sp--looking-back regexp limit not-greedy))) + +(defun sp--search-backward-regexp (regexp &optional bound noerror count) + "Works just like `search-backward-regexp', but returns the +longest possible match. That means that searching for +\"defun|fun\" backwards would return \"defun\" instead of +\"fun\", which would be matched first. + +This is an internal function. Only use this for searching for +pairs!" + (setq count (or count 1)) + (setq bound (or (sp--get-backward-bound) bound)) + (sp--with-case-sensitive + (let (r) + (while (> count 0) + (when (search-backward-regexp regexp bound noerror) + (goto-char (match-end 0)) + (sp--looking-back regexp) + (setq r (goto-char (match-beginning 0)))) + (setq count (1- count))) + r))) + +(defun sp--search-forward-regexp (regexp &optional bound noerror count) + "Just like `search-forward-regexp', but always case sensitive." + (setq bound (or (sp--get-forward-bound) bound)) + (sp--with-case-sensitive + (search-forward-regexp regexp bound noerror count))) + +(defun sp-get-quoted-string-bounds () + "Return the bounds of the string around point. + +If the point is not inside a quoted string, return nil." + (let ((parse-data (syntax-ppss))) + (when (nth 3 parse-data) + (let* ((open (nth 8 parse-data)) + (close (save-excursion + (parse-partial-sexp + (point) (point-max) + nil nil parse-data 'syntax-table) + (point)))) + (cons open close))))) + +;; TODO: the repeated conditions are ugly, refactor this! +(defun sp-get-comment-bounds () + "If the point is inside a comment, return its bounds." + (when (or (sp-point-in-comment) + (looking-at "[[:space:]]+\\s<")) + (let ((open (save-excursion + (while (and (not (bobp)) + (or (sp-point-in-comment) + (save-excursion + (backward-char 1) + (looking-at "[[:space:]]+\\s<")))) + (backward-char 1)) + (when (not (or (bobp) + (or (sp-point-in-comment) + (save-excursion + (backward-char 1) + (looking-at "[[:space:]]+\\s<"))))) + (forward-char)) + (point))) + (close (save-excursion + (while (and (not (eobp)) + (or (sp-point-in-comment) + (looking-at "[[:space:]]+\\s<"))) + (forward-char 1)) + (let ((pp (1- (point)))) + (when (not (or (eobp) + (sp-point-in-comment) + (looking-at "[[:space:]]+\\s<") + (and (eq (char-syntax + (char-after pp)) ?>) + (not (eq (char-after pp) ?\n))) + (/= (logand + (lsh 1 18) + (car (syntax-after pp))) 0) + (/= (logand + (lsh 1 19) + (car (syntax-after pp))) 0))) + (backward-char 1))) + (point)))) + (cons open close)))) + +(defun sp--get-string-or-comment-bounds () + "Get the bounds of string or comment the point is in." + (or (sp-get-quoted-string-bounds) + (sp-get-comment-bounds))) + +(defmacro sp--search-and-save-match (search-fn pattern bound res beg end str) + "Save the last match info." + `(progn + (setq ,res (funcall ,search-fn ,pattern ,bound t)) + (when ,res + (setq ,beg (match-beginning 0)) + (setq ,end (match-end 0)) + (setq ,str (match-string 0))) + ,res)) + +(cl-defun sp--skip-match-p (ms mb me + &key + (global-skip (cdr (--first (memq major-mode (car it)) sp-navigate-skip-match))) + (pair-skip (sp-get-pair ms :skip-match))) + "Return non-nil if this match should be skipped. + +This function uses two tests, one specified in +`sp-navigate-skip-match' (this is global setting for all pairs in +given major mode) and by a function specified in :skip-match +property of the pair. + +If you are calling this function in a heavy loop, you can supply +the test functions as keyword arguments to speed up the lookup." + (save-match-data + (or (when global-skip (funcall global-skip ms mb me)) + (when pair-skip (funcall pair-skip ms mb me))))) + +(defmacro sp--valid-initial-delimiter-p (form) + "Test the last match using `sp--skip-match-p'. The form should +be a function call that sets the match data." + (declare (debug (form))) + `(and ,form + (not (sp--skip-match-p + (match-string 0) + (match-beginning 0) + (match-end 0))))) + +(defun sp--elisp-skip-match (ms mb me) + "Function used to test for escapes in lisp modes. + +Non-nil return value means to skip the result." + (and ms + (> mb 1) + (save-excursion + (goto-char mb) + (save-match-data + (or (and (sp--looking-back "\\\\" 1 t) + ;; it might be a part of ?\\ token + (not (sp--looking-back "\\?\\\\\\\\" 3 t))) + (and (not (sp-point-in-string-or-comment)) + (sp--looking-back "\\?" 1 t) ;;TODO surely we can do better + (not (sp--looking-back "\\\\\\?" 2 t)) + (not (sp--looking-back "\\s_\\?" 2 t)) + (not (sp--looking-back "\\sw\\?" 2 t)))))))) + +(defun sp--backslash-skip-match (ms mb me) + (and ms + (save-excursion + (goto-char mb) + (sp--looking-back "\\\\" 1 t)))) + +;; TODO: since this function is used for all the navigation, we should +;; optimize it a lot! Get some elisp profiler! Also, we should split +;; this into smaller functions (esp. the "first expression search" +;; business) +(defun sp-get-paired-expression (&optional back) + "Find the nearest balanced pair expression after point. + +The expressions considered are those delimited by pairs on +`sp-pair-list'." + (sp--with-case-sensitive + (save-excursion + (let* ((search-fn (if (not back) 'sp--search-forward-regexp 'sp--search-backward-regexp)) + (global-skip-fn (cdr (--first (memq major-mode (car it)) sp-navigate-skip-match))) + (pair-list (sp--get-allowed-pair-list)) + ;; TODO UGLY HACK!!! When the situation is: + ;; ..)|;; comment + ;; the context the point gets is the comment. But if we + ;; are searching backward, that is incorrect, because in + ;; that case we want the context of the closing pair. + ;; Therefore, if the direction is backward, we need to move + ;; one point backward, then test the comment/string thing, + ;; then compute the correct bounds, and then restore the + ;; point so the search will pick up the ) + + ;; However, we need to distinguish the cases where we are + ;; in comment and trying to get out, and when we are in any + ;; context and we jump into string (in that case, we should + ;; report code context!). For example: + ;; "foo"|;bar + ;; or + ;; "foo"|bar + ;; should both report code context + ;; and "|(foo)" should report string context. + + ;; Beware the case when we have a string inside a comment, like + ;; (foo) ;; bar "baz"| qux + ;; In this case we want to report comment context even when + ;; backing into the "" (which however is commented) + + ;; Yet another case is when we are not in a comment but + ;; directly after one and we search backwards, consider: + ;; /* foo bar */| + ;; in C-like language. In this case, we want to report the + ;; context as comment. + + ;; In some languages, special paren syntax with a prefix + ;; serves to mark strings. This means that regular + ;; delimiters, like () are used to delimit strings. For + ;; example, in ruby the sequence %w(...) signifies a + ;; string. If the point is after such a sequence and we + ;; are searching back, we must use the string context, + ;; because the paren is now a string delimiter. This is + ;; usually implemented with "string fence" syntax, so we + ;; will simply check for that. + + ;; Thanks for being consistent at handling syntax bounds Emacs! + (in-string-or-comment (if back + (let ((in-comment (sp-point-in-comment)) + (in-string (sp-point-in-string))) + (save-excursion + (unless (= (point) (point-min)) + (backward-char) + (cond + ((eq (car (syntax-after (point))) 15) (point)) + (in-comment (when (sp-point-in-comment) (1+ (point)))) + ((and (not in-comment) (sp-point-in-comment)) (1+ (point))) + ((or in-comment in-string) (1+ (point))))))) + (when (sp-point-in-string-or-comment) (point)))) + (string-bounds (and in-string-or-comment + (progn + (goto-char in-string-or-comment) + (sp--get-string-or-comment-bounds)))) + (fw-bound (if in-string-or-comment (cdr string-bounds) (point-max))) + (bw-bound (if in-string-or-comment (car string-bounds) (point-min))) + s e active-pair forward mb me ms r done + possible-pairs possible-interfering-pairs possible-ops possible-cls) + (while (and (not done) + (sp--search-and-save-match + search-fn + ;; #556 The regexp we use here might exclude or + ;; include extra pairs in case the next match is in + ;; a different context. There's no way to know + ;; beforehand where we land, so we need to consider + ;; *all* pairs in the search and then re-check with + ;; a regexp based on the context of the found pair + (sp--get-allowed-regexp + ;; use all the pairs! + (sp--get-pair-list)) + (if back bw-bound fw-bound) + r mb me ms)) + ;; search for the first opening pair. Here, only consider tags + ;; that are allowed in the current context. + (unless (or (not (save-excursion + (if back + (progn + (goto-char me) + (sp--looking-back-p (sp--get-allowed-regexp))) + (goto-char mb) + (sp--looking-at-p (sp--get-allowed-regexp))))) + (sp--skip-match-p ms mb me :global-skip global-skip-fn)) + ;; if the point originally wasn't inside of a string or comment + ;; but now is, jump out of the string/comment and only search + ;; the code. This ensures that the comments and strings are + ;; skipped if we search inside code. + (if (and (not in-string-or-comment) + (if back + ;; When searching back, the point lands on the + ;; first character of whatever pair we've found + ;; and it is in the proper context, for example + ;; "|(foo)" + (sp-point-in-string-or-comment) + ;; However, when searching forward, the point + ;; lands after the last char of the pair so to get + ;; its context we must back up one character + (sp-point-in-string-or-comment (1- (point))))) + (-if-let (bounds (sp--get-string-or-comment-bounds)) + (let ((jump-to (if back (car bounds) (cdr bounds)))) + (goto-char jump-to) + ;; Can't move out of comment because eob, #427 + (when (eobp) + (setq done t))) + (setq done t)) + (setq done t)))) + (when r + (setq possible-pairs (--filter (or (equal ms (car it)) + (equal ms (cdr it))) + pair-list)) + (setq possible-ops (-map 'car possible-pairs)) + (setq possible-cls (-map 'cdr possible-pairs)) + (setq pair-list (-difference pair-list possible-pairs)) + (setq possible-interfering-pairs pair-list) + (while possible-interfering-pairs + (setq possible-interfering-pairs + (--filter (or (-contains? possible-ops (car it)) + (-contains? possible-cls (cdr it))) + pair-list)) + (setq pair-list (-difference pair-list possible-interfering-pairs)) + (setq possible-ops (append possible-ops (-map 'car possible-interfering-pairs))) + (setq possible-cls (append possible-cls (-map 'cdr possible-interfering-pairs)))) + (when (--any? (equal ms it) possible-ops) + (setq forward t) + (setq s mb) + (when back + (forward-char (length ms)))) + (when (--any? (equal ms it) possible-cls) + (setq forward nil) + (setq e me) + (when (not back) + (backward-char (length ms)))) + (let* ((opens (if forward possible-ops possible-cls)) + (closes (if forward possible-cls possible-ops)) + (needle (sp--strict-regexp-opt (append possible-ops possible-cls))) + (search-fn (if forward 'sp--search-forward-regexp 'sp--search-backward-regexp)) + (depth 1) + (eof (if forward 'eobp 'bobp)) + (b (if forward fw-bound bw-bound)) + (open (substring-no-properties ms)) + (close (substring-no-properties ms)) + (failure (funcall eof)) + (skip-match-pair-fns (->> possible-ops + (--mapcat (-when-let (smf (sp-get-pair it :skip-match)) + (list (cons it smf) (cons (sp-get-pair it :close) smf))))))) + (while (and (> depth 0) (not (funcall eof))) + (sp--search-and-save-match search-fn needle b r mb me ms) + (if r + (unless (or (and (not in-string-or-comment) + (if forward (save-excursion + (backward-char) + (sp-point-in-string-or-comment)) + (sp-point-in-string-or-comment))) + ;; check the individual pair skipper. We + ;; need to test all the possible-ops, + ;; which makes it a bit ugly :/ + (let ((skip-match-pair-fn + (cdr (--first (equal (car it) ms) skip-match-pair-fns)))) + (sp--skip-match-p ms mb me :global-skip global-skip-fn :pair-skip skip-match-pair-fn))) + (when (--any? (equal ms it) opens) (setq depth (1+ depth))) + (when (--any? (equal ms it) closes) (setq depth (1- depth)))) + (unless (minibufferp) + (sp-message :unmatched-expression)) + (setq depth -1) + (setq failure t))) + (if forward + (setq e me) + (setq s mb)) + (setq close (substring-no-properties ms)) + (if (or failure + (/= depth 0)) + (progn + (unless (minibufferp) + (sp-message :unmatched-expression)) + nil) + (let ((end-in-cos (sp-point-in-string-or-comment (1- e)))) ;; fix the "point on comment" issue + (cond + ((or (and (sp-point-in-string-or-comment s) (not end-in-cos)) + (and (not (sp-point-in-string-or-comment s)) end-in-cos)) + (unless (minibufferp) + (sp-message :delimiter-in-string)) + nil) + (t + (let* ((op (if forward open close))) + (list :beg s + :end e + :op op + :cl (if forward close open) + :prefix (sp--get-prefix s op) + :suffix (sp--get-suffix e op))))))))))))) + +;; TODO: this does not consider unbalanced quotes in comments!!! +(defun sp--find-next-stringlike-delimiter (needle search-fn-f &optional limit skip-fn) + "Find the next string-like delimiter, considering the escapes +and the skip-match predicate." + (let (hit match) + (while (and (not hit) + (funcall search-fn-f needle limit t)) + (save-match-data + (setq match (match-string-no-properties 0)) + (unless (or (save-match-data + (save-excursion + (goto-char (match-beginning 0)) + (or (looking-back "\\\\") ;; assumes \ is always the escape... bad? + (and (eq major-mode 'emacs-lisp-mode) + (not (sp-point-in-string)) + (looking-back "?"))))) + ;; TODO: HACK: global-skip is hack here!!! + (sp--skip-match-p match (match-beginning 0) (match-end 0) :pair-skip skip-fn :global-skip nil)) + (setq hit t)))) + hit)) + +(defun sp-get-stringlike-expression (&optional back) + "Find the nearest string-like expression after point. + +String-like expression is expression enclosed with the same +opening and closing delimiter, such as *...*, \"...\", `...` etc." + (sp--with-case-sensitive + (save-excursion + (let ((needle (sp--get-stringlike-regexp)) + (search-fn-f (if (not back) 'sp--search-forward-regexp 'sp--search-backward-regexp)) + (search-fn-b (if back 'sp--search-forward-regexp 'sp--search-backward-regexp)) + (count 0) + m b e skip-match-fn limit ok) + (when (not (equal needle "")) + (when (sp--find-next-stringlike-delimiter needle search-fn-f) + ;; assumes \ is always the escape... bad? + (setq m (match-string-no-properties 0)) + (setq needle (regexp-quote m)) + (setq skip-match-fn (sp-get-pair m :skip-match)) + (cond + ((sp-point-in-string) + (setq limit (sp-get-quoted-string-bounds))) + ((sp-point-in-comment) + (setq limit (sp-get-comment-bounds)))) + (save-excursion + (while (sp--find-next-stringlike-delimiter needle 'search-backward-regexp (car limit) skip-match-fn) + (setq count (1+ count)))) + (when (= (mod count 2) 0) + (sp--find-next-stringlike-delimiter needle search-fn-b nil)) + (save-excursion + (setq ok (sp--find-next-stringlike-delimiter needle 'sp--search-backward-regexp (car limit))) + (setq e (match-beginning 0))) + (setq ok (and ok (sp--find-next-stringlike-delimiter needle 'search-forward-regexp (cdr limit)))) + (setq b (match-end 0)) + (when ok + (let ((mb b) (me e)) + (setq b (min mb me)) + (setq e (max mb me))) + (list :beg b :end e :op m :cl m :prefix (sp--get-prefix b m) :suffix (sp--get-suffix e m))))))))) + +(defun sp--textmode-stringlike-regexp (delimiters &optional direction) + "Get a regexp matching text-mode string-like DELIMITERS. + +Capture group 1 or 2 has the delimiter itself, depending on the +direction (forward, backward). + +If DIRECTION is :open, create a regexp matching opening only. + +If DIRECTION is :close, create a regexp matching closing only. + +If DIRECTION is nil, create a regexp matching both directions." + (let* ((delims (regexp-opt delimiters)) + (re (concat + (if (or (not direction) + (eq direction :open)) + (concat "\\(?:" "\\(?:\\`\\|[ \t\n\r]\\)" "\\(" delims "\\)" "[^ \t\n\r]\\)") "") + (if (not direction) "\\|" "") + (if (or (not direction) + (eq direction :close)) + (concat "\\(?:[^ \t\n\r]" "\\(" delims "\\)" "\\(?:[ \t\n\r[:punct:]]\\|\\'\\)" "\\)") "")))) + re)) + +(defun sp--find-next-textmode-stringlike-delimiter (needle search-fn-f &optional limit) + "Find the next string-like delimiter, considering the escapes +and the skip-match predicate." + (let (hit match) + (while (and (not hit) + (funcall search-fn-f needle limit t)) + (save-match-data + (let* ((group (if (match-string 1) 1 2)) + (match (match-string-no-properties group)) + (mb (match-beginning group)) + (me (match-end group)) + (skip-fn (sp-get-pair match :skip-match))) + (unless (sp--skip-match-p match mb me :pair-skip skip-fn :global-skip nil) + (setq hit (list match (if (= group 1) :open :close))))))) + hit)) + +(defun sp-get-textmode-stringlike-expression (&optional back) + "Find the nearest text-mode string-like expression. + +Text-mode string-like expression is one where the delimiters must +be surrounded by whitespace from the outside. For example, + +foo *bar* baz + +is a valid expression enclosed in ** pair, but + +foo*bar*baz OR foo *bar*baz OR foo*bar* baz + +are not. + +This is the case in almost every markup language, and so we will +adjust the parsing to only consider such pairs as delimiters. +This makes the parsing much faster as it transforms the problem +to non-stringlike matching and we can use a simple +counting (stack) algorithm." + (save-excursion + (let ((restart-from (point)) + hit re) + (while (not hit) + (goto-char restart-from) + (save-excursion + (ignore-errors + (if back (forward-char) (backward-char))) + (let* ((delimiters (-map 'car (sp--get-allowed-stringlike-list))) + (needle (sp--textmode-stringlike-regexp delimiters)) + (search-fn-f (if (not back) 'sp--search-forward-regexp 'sp--search-backward-regexp)) + (search-fn-b (if back 'sp--search-forward-regexp 'sp--search-backward-regexp))) + (-if-let ((delim type) (sp--find-next-textmode-stringlike-delimiter needle search-fn-f)) + (let ((search-fn (if (eq type :open) 'sp--search-forward-regexp 'sp--search-backward-regexp)) + (needle (sp--textmode-stringlike-regexp (list delim) (if (eq type :open) :close :open)))) + (setq restart-from (point)) + ;; this adjustments are made because elisp regexp + ;; can't do lookahead assertions... so we match and + ;; then back up. + (ignore-errors + (when (and (not back) (eq type :open)) (backward-char (1+ (length delim)))) + (when (and (not back) (eq type :close) (not (eobp))) (backward-char 1)) + (when (and back (eq type :close)) (forward-char (1+ (length delim)))) + (when (and back (eq type :open) (not (bobp))) (forward-char 1))) + (let ((other-end (point))) + (when (sp--find-next-textmode-stringlike-delimiter needle search-fn) + ;; Beware, we also need to test the beg/end of + ;; buffer, because we have that variant in the + ;; regexp. In that case the match does not + ;; consume anything and we needn't do any + ;; correction. + (let* ((this-end (if (eq type :open) + (max (point-min) (if (eobp) (point) (1- (point)))) + (min (point-max) (if (bobp) (point) (1+ (point)))))) + (b (min this-end other-end)) + (e (max this-end other-end))) + (setq re (list :beg b + :end e + :op delim + :cl delim + :prefix (sp--get-prefix b delim) :suffix (sp--get-suffix e delim))) + (setq hit t) + ;; We ignore matches that contain two + ;; consecutive newlines, as that usually means + ;; there's a new paragraph somewhere inbetween + ;; TODO: make this customizable + (when (sp-get re + (save-excursion + (goto-char :beg) + (re-search-forward "\n\n\\|\r\r" :end t))) + (setq re nil) + (setq hit nil)))))) + (setq hit :no-more))))) + re))) + +(defun sp-use-textmode-stringlike-parser-p () + "Test if we should use textmode stringlike parser or not." + (let ((modes (-filter 'symbolp sp-navigate-use-textmode-stringlike-parser)) + (derived (-map 'cdr (-remove 'symbolp sp-navigate-use-textmode-stringlike-parser)))) + (or (--any? (eq major-mode it) modes) + (apply 'derived-mode-p derived)))) + +(defun sp-get-stringlike-or-textmode-expression (&optional back delimiter) + "Return a stringlike expression using stringlike or textmode parser. + +DELIMITER is a candidate in case we performed a search before +calling this function and we know it's the closest string +delimiter to try. This is purely a performance hack, do not rely +on it when calling directly." + (if (sp-use-textmode-stringlike-parser-p) + (sp-get-textmode-stringlike-expression back) + ;; performance hack. If the delimiter is a character in + ;; syntax class 34, grab the string-like expression using + ;; `sp-get-string' + (if (and delimiter + (= (length delimiter) 1) + (eq (char-syntax (string-to-char delimiter)) 34)) + (sp-get-string back) + (sp-get-stringlike-expression back)))) + +(defun sp-get-expression (&optional back) + "Find the nearest balanced expression of any kind. + +For markup and text modes a special, more efficient stringlike +parser is available, see `sp-get-textmode-stringlike-expression'. +By default, this is enabled in all modes derived from +`text-mode'. You can change it by customizing +`sp-nagivate-use-textmode-stringlike-parser'." + (let ((pre (sp--get-allowed-regexp)) + (sre (sp--get-stringlike-regexp)) + (search-fn (if (not back) 'sp--search-forward-regexp 'sp--search-backward-regexp)) + (ps (if back (1- (point-min)) (1+ (point-max)))) + (ss (if back (1- (point-min)) (1+ (point-max)))) + (string-delim nil)) + (setq ps (or (save-excursion (funcall search-fn pre nil t)) ps)) + (setq ss (or (--when-let (save-excursion (funcall search-fn sre nil t)) + (setq string-delim (match-string 0)) + it) ss)) + ;; TODO: simplify this logic somehow... (this really depends + ;; on a rewrite of the core parser logic: separation of "find + ;; the valid opening" and "parse it") + + ;; Here, we sacrifice readability for performance. Because we + ;; only use regexp to look forward for the closest pair, it + ;; might occasionally happen that what we picked in fact + ;; *can't* form a pair and it returns error (for example, it + ;; is an unclosed pair or a quote between words like'so, which + ;; doesn't form a pair). In such a case, or when the pair + ;; found is further than the other possible pair type (for + ;; example, we think we should parse stringlike, but we skip + ;; the first occurrence and the next one is only after a + ;; regular pair, which we should've picked instead), we must + ;; try the other parser as well. + (-let (((type . re) (if (or (and (not back) (< ps ss)) + (and back (> ps ss))) + (cons :regular (sp-get-paired-expression back)) + (cons :string (sp-get-stringlike-or-textmode-expression back string-delim))))) + (if re + (sp-get re + (cond + ;; If the returned sexp is regular, but the + ;; to-be-tried-string-expression is before it, we try + ;; to parse it as well, it might be a complete sexp in + ;; which case it should be returned. + ((and (eq type :regular) + (or (and (not back) (< ss :beg)) + (and back (> ss :end)))) + (or (sp-get-stringlike-or-textmode-expression back string-delim) re)) + ((and (eq type :string) + (or (and (not back) (< ps :beg)) + (and back (> ps :end)))) + (or (sp-get-paired-expression back) re)) + (t re))) + (if (eq type :regular) + (sp-get-stringlike-or-textmode-expression back string-delim) + (sp-get-paired-expression back)))))) + +(defun sp-get-sexp (&optional back) + "Find the nearest balanced expression that is after (before) point. + +Search backward if BACK is non-nil. This also means, if the +point is inside an expression, this expression is returned. + +If `major-mode' is member of `sp-navigate-consider-sgml-tags', +sgml tags will also be considered as sexps in current buffer. + +If the search starts outside a comment, all subsequent comments +are skipped. + +If the search starts inside a string or comment, it tries to find +the first balanced expression that is completely contained inside +the string or comment. If no such expression exist, a warning is +raised (for example, when you comment out imbalanced expression). +However, if you start a search from within a string and the next +complete sexp lies completely outside, this is returned. Note +that this only works in modes where strings and comments are +properly defined via the syntax tables. + +The return value is a plist with following keys: + + :beg - point in the buffer before the opening + delimiter (ignoring prefix) + :end - point in the buffer after the closing delimiter + :op - opening delimiter + :cl - closing delimiter + :prefix - expression prefix + +However, you should never access this structure directly as it is +subject to change. Instead, use the macro `sp-get' which also +provide shortcuts for many commonly used queries (such as length +of opening/closing delimiter or prefix)." + (sp--maybe-init) + (sp--with-case-sensitive + (cond + (sp-prefix-tag-object + (sp-get-sgml-tag back)) + (sp-prefix-pair-object + (sp-get-paired-expression back)) + ((memq major-mode sp-navigate-consider-sgml-tags) + (let ((paired (sp-get-expression back))) + (if (and paired + (equal "<" (sp-get paired :op))) + ;; if the point is inside the tag delimiter, return the pair. + (if (sp-get paired (and (<= :beg-in (point)) (>= :end-in (point)))) + paired + ;; if the tag can't be completed, we can at least return + ;; the <> pair + (or (sp-get-sgml-tag back) paired)) + ;; we can still try the tag if the first < or > is closer than + ;; the pair. This is a bit too complicated... seems like a + ;; more clever solution would be needed in the future, esp if + ;; we add the python hack. + (cond + ((and (not back) + (< (save-excursion + (or (search-forward "<" nil t) (point-max))) + (or (sp-get paired :beg) (point-max)))) + (or (sp-get-sgml-tag) paired)) + ((and back + (> (save-excursion + (or (search-backward ">" nil t) (point-min))) + (or (sp-get paired :end) (point-max)))) + (or (sp-get-sgml-tag t) paired)) + (t paired))))) + (t (sp-get-expression back))))) + +(defun sp--get-hybrid-sexp-beg () + "Get the beginning of hybrid sexp. +See `sp-get-hybrid-sexp' for definition." + (save-excursion + (cl-labels ((indent-or-beg-of-line + (lb) + (if (sp-point-in-blank-line) + lb + (back-to-indentation) + (point)))) + (let ((p (progn (when (sp-point-in-symbol) (sp-backward-sexp)) (point))) + (lb (line-beginning-position)) + (cur (--if-let (save-excursion (sp-backward-sexp)) it (list :end 0))) ;hack + last) + (if (< (sp-get cur :end) lb) + ;; if the line is not empty, we move the beg to the indent + (indent-or-beg-of-line lb) + (while (sp-get cur + (and cur + (> :end lb) + (<= :end p))) + (setq last cur) + (setq cur (sp-backward-sexp))) + (if last + (sp-get last :beg-prf) + ;; happens when there is no sexp before the opening delim of + ;; the enclosing sexp. In case it is on line above, we take + ;; the maximum wrt lb. + (sp-get cur (max :beg-in (indent-or-beg-of-line lb))))))))) + +(defun sp--narrow-to-line () + "Narrow to the current line." + (narrow-to-region (line-beginning-position) (line-end-position))) + +(defun sp--get-hybrid-sexp-end () + "Get the end of hybrid sexp. +See `sp-get-hybrid-sexp' for definition." + (save-excursion + (cl-labels ((skip-prefix-backward + (p) + (save-excursion + (goto-char p) + (save-restriction + (sp--narrow-to-line) + (skip-syntax-backward " .") + (point))))) + (let ((p (progn (when (sp-point-in-symbol) (sp-backward-sexp)) (point))) + (le (line-end-position)) + (cur (--if-let (save-excursion (sp-forward-sexp)) it (list :beg (1+ (point-max))))) ;hack + last) + (if (> (sp-get cur :beg) le) + (if (sp-point-in-blank-line) le (skip-prefix-backward le)) + (while (sp-get cur + (and cur + (< :beg le) + (>= :beg p))) + (setq last cur) + (setq cur (sp-forward-sexp))) + (let ((r (skip-prefix-backward + (if last + (sp-get last :end) + ;; happens when there is no sexp before the closing delim of + ;; the enclosing sexp. In case it is on line below, we take + ;; the minimum wrt le. + (sp-get cur (min :end-in le)))))) + (goto-char r) + ;; fix the situation when point ends in comment + (cond + ((sp-point-in-comment) + (if (= (line-number-at-pos p) + (line-number-at-pos r)) + (line-end-position) + (goto-char p) + (line-end-position))) + (t r)))))))) + +(defun sp--get-hybrid-suffix (p) + "Get the hybrid sexp suffix, which is any punctuation after +the end, possibly preceded by whitespace." + (save-excursion + (goto-char p) + (buffer-substring-no-properties + p + (save-restriction + (sp--narrow-to-line) + (skip-syntax-forward " ") + (if (not (looking-at "\\s.")) + p + (skip-syntax-forward ".") + (point)))))) + +(defun sp-get-hybrid-sexp () + "Return the hybrid sexp around point. + +A hybrid sexp is defined as the smallest balanced region containing +the point while not expanding further than the current line. That is, +any hanging sexps will be included, but the expansion stops at the +enclosing list boundaries or line boundaries." + (let ((end (sp--get-hybrid-sexp-end))) + (list :beg (sp--get-hybrid-sexp-beg) + :end end + :op "" + :cl "" + :prefix "" + :suffix (sp--get-hybrid-suffix end)))) + +(defun sp-get-enclosing-sexp (&optional arg) + "Return the balanced expression that wraps point at the same level. + +With ARG, ascend that many times. This function expects a positive +argument." + (setq arg (or arg 1)) + (save-excursion + (let ((n arg) + (ok t) + (okr)) + (while (and (> n 0) ok) + (setq ok t) + (setq okr nil) + ;; if we are inside string, get the string bounds and "string + ;; expression" + (when (sp-point-in-string) + (setq okr (sp-get-string))) + ;; get the "normal" expression defined by pairs + (let ((p (point))) + (setq ok (sp-get-sexp)) + (cond + ((and ok (= (sp-get ok :beg) p)) + (goto-char (sp-get ok :end)) + (setq n (1+ n))) + ((and ok (< (sp-get ok :beg) p)) + (goto-char (sp-get ok :end))) + (t + (while (and ok (>= (sp-get ok :beg) p)) + (setq ok (sp-get-sexp)) + (when ok (goto-char (sp-get ok :end))))))) + ;; if the pair expression is enclosed inside a string, return + ;; the pair expression, otherwise return the string expression + (when okr + (unless (and ok + (sp-compare-sexps ok okr >=) + (sp-compare-sexps ok okr <= :end)) + (setq ok okr) + (goto-char (sp-get ok :end)))) + (setq n (1- n))) + (if (not (and (not ok) + sp-navigate-comments-as-sexps)) + ok + (when (sp-point-in-comment) + (let* ((cb (sp-get-comment-bounds)) + (b (save-excursion + (goto-char (car cb)) + (sp-skip-backward-to-symbol t) + (point))) + (e (save-excursion + (goto-char (cdr cb)) + (sp-skip-forward-to-symbol t) + (point)))) + (list :beg b :end e :op "" :cl "" :prefix sp-comment-char))))))) + +(defun sp-get-list-items (&optional lst) + "Return the information about expressions inside LST. + +LST should be a data structure in format as returned by +`sp-get-sexp'. + +The return value is a list of such structures in order as they +occur inside LST describing each expression, with LST itself +prepended to the front. + +If LST is nil, the list at point is used (that is the list +following point after `sp-backward-up-sexp' is called)." + (let ((r nil)) + (save-excursion + (unless lst + (setq lst (sp-backward-up-sexp))) + (when lst + (goto-char (sp-get lst :beg-in)) + (while (< (point) (sp-get lst :end)) + (!cons (sp-forward-sexp) r)) + (cons lst (nreverse (cdr r))))))) + +(cl-defun sp--get-prefix (&optional (p (point)) op) + "Get the prefix of EXPR. + +Prefix is any continuous sequence of characters in \"expression +prefix\" syntax class. You can also specify a set of syntax code +characters or a regexp for a specific major mode. See +`sp-sexp-prefix'. + +The point is expected to be at the opening delimiter of the sexp +and the prefix is searched backwards. + +If the prefix property is defined for OP, the associated regexp +is used to retrieve the prefix instead of the global setting." + (sp--with-case-sensitive + (let ((pref (sp-get-pair op :prefix))) + (save-excursion + (goto-char p) + (if pref + (when (sp--looking-back pref sp-max-prefix-length) + (match-string-no-properties 0)) + (-if-let (mmode-prefix (cdr (assoc major-mode sp-sexp-prefix))) + (cond + ((and (eq (car mmode-prefix) 'regexp) + (sp--looking-back (cadr mmode-prefix))) + (match-string-no-properties 0)) + ((eq (car mmode-prefix) 'syntax) + (skip-syntax-backward (cadr mmode-prefix)) + (buffer-substring-no-properties (point) p)) + (t "")) + (skip-syntax-backward "'") + (buffer-substring-no-properties (point) p))))))) + +(cl-defun sp--get-suffix (&optional (p (point)) op) + "Get the suffix of EXPR. + +Suffix is any continuous sequence of characters in the +\"punctuation suffix\" syntax class. You can also specify a set +of syntax code characters or a regexp for a specific major mode. +See `sp-sexp-suffix'. + +If the suffix property is defined for OP, the associated regexp +is used to retrieve the suffix instead of the global setting." + (sp--with-case-sensitive + (let ((suff (sp-get-pair op :suffix))) + (save-excursion + (goto-char p) + (if suff + (when (sp--looking-at suff) + (match-string-no-properties 0)) + (-if-let (mmode-suffix (cdr (assoc major-mode sp-sexp-suffix))) + (cond + ((and (eq (car mmode-suffix) 'regexp) + (sp--looking-at (cadr mmode-suffix))) + (match-string-no-properties 0)) + ((eq (car mmode-suffix) 'syntax) + (skip-syntax-forward (cadr mmode-suffix)) + (buffer-substring-no-properties p (point))) + (t "")) + (skip-syntax-forward ".") + (buffer-substring-no-properties p (point)))))))) + +(defun sp-get-symbol (&optional back) + "Find the nearest symbol that is after point, or before point if BACK is non-nil. + +This also means, if the point is inside a symbol, this symbol is +returned. Symbol is defined as a chunk of text recognized by +`sp-forward-symbol'. + +The return value is a plist with the same format as the value +returned by `sp-get-sexp'." + (sp--maybe-init) + (let (b e prefix last-or-first) + (save-excursion + (if back + (progn + (sp-skip-backward-to-symbol) + (when (= (point) (point-min)) (setq last-or-first t)) + (sp-forward-symbol -1) + (setq b (point)) + (sp-forward-symbol 1) + (setq e (point))) + (sp-skip-forward-to-symbol) + (when (= (point) (point-max)) (setq last-or-first t)) + (sp-forward-symbol 1) + (setq e (point)) + (sp-forward-symbol -1) + (setq b (point)))) + (unless last-or-first + (list :beg b :end e :op "" :cl "" :prefix (sp--get-prefix b) :suffix (sp--get-suffix e))))) + +;; this +/- 1 nonsense comes from sp-get-quoted-string-bounds. That +;; should go to hell after the parser rewrite +(defun sp--get-string (bounds) + "Return the `sp-get-sexp' format info about the string. + +This function simply transforms BOUNDS, which is a cons (BEG +. END) into format compatible with `sp-get-sexp'." + (let* ((bob (= (point-min) (car bounds))) + (eob (= (point-max) (cdr bounds))) + ;; if the closing and opening isn't the same token, we should + ;; return nil + (op (char-to-string (char-after (car bounds)))) + (cl (char-to-string (char-before (cdr bounds))))) + (when (equal op cl) + (list :beg (car bounds) + :end (cdr bounds) + :op cl + :cl cl + :prefix "" + :suffix "")))) + +(defun sp-get-string (&optional back) + "Find the nearest string after point, or before if BACK is non-nil. + +This also means if the point is inside a string, this string is +returned. If there are another symbols between point and the +string, nil is returned. That means that this function only +return non-nil if the string is the very next meaningful +expression. + +The return value is a plist with the same format as the value +returned by `sp-get-sexp'." + (sp--maybe-init) + (if (sp-point-in-comment) + (sp-get-stringlike-expression back) + (if (sp-point-in-string) + (let ((r (sp-get-quoted-string-bounds))) + (sp--get-string r)) + (save-excursion + (sp-skip-into-string back) + (--when-let (sp-get-quoted-string-bounds) + (sp--get-string it)))))) + +(defun sp-get-whitespace () + "Get the whitespace around point. + +Whitespace here is defined as any of the characters: space, tab +and newline." + (list :beg (save-excursion (skip-chars-backward " \t\n") (point)) + :end (save-excursion (skip-chars-forward " \t\n") (point)) + :op "" + :cl "" + :prefix "" + :suffix "")) + +(defun sp--sgml-get-tag-name (match) + (let ((sub (if (equal "/" (substring match 1 2)) + (substring match 2) + (substring match 1)))) + (car (split-string sub "\\( \\|>\\)")))) + +(defun sp--sgml-opening-p (tag) + (not (equal "/" (substring tag 1 2)))) + +(defun sp--sgml-ignore-tag (tag) + "Return non-nil if tag should be ignored in search, nil otherwise." + (member tag '("!--" "!DOCTYPE"))) + +(defun sp-get-sgml-tag (&optional back) + (sp--maybe-init) + (sp--with-case-sensitive + (save-excursion + (let ((search-fn (if (not back) 'sp--search-forward-regexp 'search-backward-regexp)) + tag tag-name needle + open-start open-end + close-start close-end) + (when (and (funcall search-fn "" nil t) + (progn + (setq tag (substring-no-properties (match-string 0))) + (setq tag-name (sp--sgml-get-tag-name tag)) + (not (sp--sgml-ignore-tag tag-name)))) + (setq needle (concat "" nil t) + (setq open-end (point)))) + (cond + ((and (not back) (not forward)) + (goto-char (match-beginning 0))) + ((and back forward) + (goto-char (match-end 0)))) + (while (> depth 0) + (if (funcall search-fn needle nil t) + (if (sp--sgml-opening-p (match-string 0)) + (if forward (setq depth (1+ depth)) (setq depth (1- depth))) + (if forward (setq depth (1- depth)) (setq depth (1+ depth)))) + (setq depth -1))) + (if (eq depth -1) + (progn (sp-message :no-matching-tag) nil) + (save-excursion + (if forward + (progn + (setq close-start (match-beginning 0)) + (search-forward-regexp ">" nil t) + (setq close-end (point))) + (setq close-start (point)) + (search-forward-regexp ">" nil t) + (setq close-end (point)))) + (let ((op (buffer-substring-no-properties open-start open-end)) + (cl (buffer-substring-no-properties close-start close-end))) + (list :beg (if forward open-start close-start) + :end (if forward close-end open-end) + :op (if forward op cl) + :cl (if forward cl op) + :prefix "" + :suffix ""))))))))) + +(defun sp--end-delimiter-closure (pairs pair-list) + "Compute the \"end-delimiter\" closure of set PAIRS. + +PAIRS can be: +- single pair ID +- single cons with opening and closing delimiter +- list of pair IDs +- list of conses of opening and closing delimiters + +For example, if we have pairs (if . end) and (def . end), then +the closure of \"if\" pair are both of these because they share +the closing delimiter. Therefore, in the navigation functions, +both have to be considered by the parser." + (let* ((pairs (-flatten (list pairs))) + (pairs (if (consp (car pairs)) (-map 'car pairs) pairs)) + (pairs (--filter (member (car it) pairs) pair-list)) + (closure (-mapcat + (lambda (x) + (--filter (equal (cdr x) (cdr it)) pair-list)) + pairs))) + closure)) + +(defun sp-restrict-to-pairs (pairs function) + "Call the FUNCTION restricted to PAIRS. + +PAIRS is either an opening delimiter of a list of opening +delimiters. + +FUNCTION is a function symbol. + +For example, you can restrict function `sp-down-sexp' to the +pair (\"{\" . \"}\") for easier navigation of blocks in C-like +languages." + (let* ((pairs (-flatten (list pairs))) + (new-pairs (--filter (member (car it) pairs) sp-pair-list)) + (sp-pair-list (sp--end-delimiter-closure new-pairs sp-pair-list))) + (call-interactively function))) + +(defun sp-restrict-to-object (object function) + "Call the FUNCTION restricted to OBJECT. + +OBJECT is one of following symbols (you have to quote it!): +- `sp-prefix-pair-object' +- `sp-prefix-tag-object' +- `sp-prefix-symbol-object' + +This function will enable this prefix and then call FUNCTION. + +FUNCTION is a function symbol. + +This function is equivalent to doing: + + (let ((sp-prefix-object t)) + (call-interactively function)) + +For example, you can restrict function `sp-forward-sexp' to just +the pairs for easier navigation of blocks in C-like languages." + (cl-letf (((symbol-value object) t)) + (call-interactively function))) + +;; TODO: add shorter alias? +(defun sp-restrict-to-pairs-interactive (pairs function) + "Return an interactive lambda that calls FUNCTION restricted to PAIRS. + +See `sp-restrict-to-pairs'. + +This function implements a \"decorator pattern\", that is, you +can apply another scoping function to the output of this function +and the effects will added together. In particular, you can +combine it with: + +- `sp-restrict-to-object-interactive' + +You can also bind the output of this function directly to a key, like: + + (global-set-key (kbd ...) (sp-restrict-to-pairs-interactive \"{\" 'sp-down-sexp)) + +This will be a function that descends down only into { } pair, +ignoring all others." + (lexical-let ((pairs pairs) + (function function)) + (lambda (&optional arg) + (interactive "P") + (sp-restrict-to-pairs pairs function)))) + +(defun sp-restrict-to-object-interactive (object function) + "Return an interactive lambda that calls FUNCTION restricted to OBJECT. + +See `sp-restrict-to-object'. + +This function implements a \"decorator pattern\", that is, you +can apply another scoping function to the output of this function +and the effects will added together. In particular, you can +combine it with: + +- `sp-restrict-to-pairs-interactive' + +You can also bind the output of this function directly to a key, like: + + (global-set-key (kbd ...) (sp-restrict-to-object-interactive + 'sp-prefix-pair-object + 'sp-forward-sexp)) + +This will be a function that navigates only by using paired +expressions, ignoring strings and sgml tags." + (lexical-let ((object object) + (function function)) + (lambda (&optional arg) + (interactive "P") + (sp-restrict-to-object object function)))) + +(defun sp-prefix-tag-object (&optional arg) + "Read the command and invoke it on the next tag object. + +If you specify a regular emacs prefix argument this is passed to +the executed command. Therefore, executing +\"\\[universal-argument] 2 \\[sp-prefix-tag-object] \\[sp-forward-sexp]\" will move two tag +expressions forward, ignoring possible symbols or paired +expressions inbetween. + +Tag object is anything delimited by sgml tag." + (interactive "P") + (let* ((cmd (read-key-sequence "" t)) + (com (key-binding cmd)) + (sp-prefix-tag-object t)) + (if (commandp com) + (call-interactively com) + (execute-kbd-macro cmd)))) + +(defun sp-prefix-pair-object (&optional arg) + "Read the command and invoke it on the next pair object. + +If you specify a regular emacs prefix argument this is passed to +the executed command. Therefore, executing +\"\\[universal-argument] 2 \\[sp-prefix-pair-object] \\[sp-forward-sexp]\" will move two paired +expressions forward, ignoring possible symbols inbetween. + +Pair object is anything delimited by pairs from `sp-pair-list'." + (interactive "P") + (let* ((cmd (read-key-sequence "" t)) + (com (key-binding cmd)) + (sp-prefix-pair-object t)) + (if (commandp com) + (call-interactively com) + (execute-kbd-macro cmd)))) + +(defun sp-prefix-symbol-object (&optional arg) + "Read the command and invoke it on the next pair object. + +If you specify a regular emacs prefix argument this is passed to +the executed command. Therefore, executing +\"\\[universal-argument] 2 \\[sp-prefix-symbol-object] \\[sp-forward-sexp]\" will move two symbols +forward, ignoring any structure. + +Symbol is defined as a chunk of text recognized by +`sp-forward-symbol'." + (interactive "P") + (let* ((cmd (read-key-sequence "" t)) + (com (key-binding cmd)) + (sp-prefix-symbol-object t)) + (if (commandp com) + (call-interactively com) + (execute-kbd-macro cmd)))) + +(defun sp-prefix-save-excursion (&optional arg) + "Execute the command keeping the point fixed. + +If you specify a regular emacs prefix argument this is passed to +the executed command." + (interactive "P") + (let* ((cmd (read-key-sequence "" t)) + (com (key-binding cmd))) + (save-excursion + (if (commandp com) + (call-interactively com) + (execute-kbd-macro cmd))))) + +(defun sp-get-thing (&optional back) + "Find next thing after point, or before if BACK is non-nil. + +Thing is either symbol (`sp-get-symbol'), +string (`sp-get-string') or balanced expression recognized by +`sp-get-sexp'. + +If `sp-navigate-consider-symbols' is nil, only balanced +expressions are considered." + (sp--maybe-init) + (sp--with-case-sensitive + (cond + (sp-prefix-tag-object (sp-get-sgml-tag back)) + (sp-prefix-pair-object (sp-get-paired-expression back)) + (sp-prefix-symbol-object (sp-get-symbol back)) + (t + (if back + (if (not sp-navigate-consider-symbols) + (sp-get-sexp t) + (save-excursion + (cond + ((sp-point-in-empty-string) + (sp-get-string t)) + (t + (sp-skip-backward-to-symbol t nil t) + (cond + ;; this is an optimization, we do not need to look up + ;; the "pair" expression first. If this fails, follow + ;; up with regular sexps + ((and (memq major-mode sp-navigate-consider-sgml-tags) + (sp--looking-back ">") + (sp-get-sgml-tag t))) + ((sp--valid-initial-delimiter-p (sp--looking-back (sp--get-closing-regexp (sp--get-allowed-pair-list)) nil)) + (sp-get-sexp t)) + ((sp--valid-initial-delimiter-p (sp--looking-back (sp--get-opening-regexp (sp--get-allowed-pair-list)) nil)) + (sp-get-sexp t)) + ((eq (char-syntax (preceding-char)) 34) + (sp-get-string t)) + ((and (sp--valid-initial-delimiter-p (sp--looking-back (sp--get-stringlike-regexp) nil)) + (sp-get-expression t))) + (t (sp-get-symbol t))))))) + (if (not sp-navigate-consider-symbols) + (sp-get-sexp nil) + (save-excursion + (cond + ((sp-point-in-empty-string) + (sp-get-string nil)) + (t + (sp-skip-forward-to-symbol t nil t) + (cond + ((and (memq major-mode sp-navigate-consider-sgml-tags) + (looking-at "<") + (sp-get-sgml-tag))) + ((sp--valid-initial-delimiter-p (sp--looking-at (sp--get-opening-regexp (sp--get-allowed-pair-list)))) + (sp-get-sexp nil)) + ((sp--valid-initial-delimiter-p (sp--looking-at (sp--get-closing-regexp (sp--get-allowed-pair-list)))) + (sp-get-sexp nil)) + ((eq (char-syntax (following-char)) 34) + (sp-get-string nil)) + ((and (sp--valid-initial-delimiter-p (sp--looking-at (sp--get-stringlike-regexp))) + (sp-get-expression nil))) + ;; it can still be that we are looking at a /prefix/ of a + ;; sexp. We should skip a symbol forward and check if it + ;; is a sexp, and then maybe readjust the output. + (t (let* ((sym (sp-get-symbol nil)) + (sym-string (and sym (sp-get sym (buffer-substring-no-properties :beg :end)))) + (point-before-prefix (point))) + (when sym-string + (if (sp--valid-initial-delimiter-p (sp--search-forward-regexp (sp--get-opening-regexp (sp--get-allowed-pair-list)) nil t)) + (let* ((ms (match-string 0)) + (pref (progn + ;; need to move before the + ;; opening, so (point) evals + ;; there. + (backward-char (length ms)) + (sp--get-prefix (point) ms)))) + ;; We use >= because the first skip to + ;; symbol might have skipped some prefix + ;; chars which make prefix of the symbol + ;; which together make prefix of a sexp. + ;; For example \foo{} in latex, where \ is + ;; prefix of symbol foo and \foo is prefix + ;; of { + (if (and pref + (not (equal pref "")) + (>= point-before-prefix (- (point) (length pref)))) + (sp-get-sexp nil) + sym)) + sym)))))))))))))) + +(defun sp-narrow-to-sexp (arg) + "Make text outside current balanced expression invisible. +A numeric arg specifies to move up by that many enclosing expressions. + +See also `narrow-to-region' and `narrow-to-defun'." + (interactive "p") + (-when-let (enc (sp-get-enclosing-sexp arg)) + (sp-get enc (narrow-to-region :beg-prf :end)))) + +(defun sp-forward-sexp (&optional arg) + "Move forward across one balanced expression. + +With ARG, do it that many times. Negative arg -N means move +backward across N balanced expressions. If there is no forward +expression, jump out of the current one (effectively doing +`sp-up-sexp'). + +With `sp-navigate-consider-symbols' symbols and strings are also +considered balanced expressions. + +Examples: (prefix arg in comment) + + |(foo bar baz) -> (foo bar baz)| + + (|foo bar baz) -> (foo| bar baz) + + (|foo bar baz) -> (foo bar| baz) ;; 2 + + (foo (bar baz|)) -> (foo (bar baz)|)" + (interactive "^p") + (setq arg (or arg 1)) + (if (< arg 0) + (sp-backward-sexp (- arg)) + (let* ((n arg) + (ok t)) + (while (and ok (> n 0)) + (setq ok (sp-get-thing)) + (setq n (1- n)) + (when ok (goto-char (sp-get ok :end)))) + ok))) + +(put 'sp-forward-sexp 'CUA 'move) + +(defun sp-backward-sexp (&optional arg) + "Move backward across one balanced expression (sexp). + +With ARG, do it that many times. Negative arg -N means move +forward across N balanced expressions. If there is no previous +expression, jump out of the current one (effectively doing +`sp-backward-up-sexp'). + +With `sp-navigate-consider-symbols' symbols and strings are also +considered balanced expressions. + +Examples: (prefix arg in comment) + + (foo bar baz)| -> |(foo bar baz) + + (foo| bar baz) -> (|foo bar baz) + + (foo bar| baz) -> (|foo bar baz) ;; 2 + + (|(foo bar) baz) -> ((|foo bar) baz)" + (interactive "^p") + (setq arg (or arg 1)) + (if (< arg 0) + (sp-forward-sexp (- arg)) + (let* ((n arg) + (ok t)) + (while (and ok (> n 0)) + (setq ok (sp-get-thing t)) + (setq n (1- n)) + (when ok (goto-char (sp-get ok :beg)))) + ok))) + +(put 'sp-backward-sexp 'CUA 'move) + +(defun sp-next-sexp (&optional arg) + "Move forward to the beginning of next balanced expression. + +With ARG, do it that many times. If there is no next expression +at current level, jump one level up (effectively doing +`sp-backward-up-sexp'). Negative arg -N means move to the +beginning of N-th previous balanced expression. + +With `sp-navigate-consider-symbols' symbols and strings are also +considered balanced expressions. + +Examples: + + ((foo) |bar (baz quux)) -> ((foo) bar |(baz quux)) + + ((foo) bar |(baz quux)) -> |((foo) bar (baz quux))" + (interactive "^p") + (setq arg (or arg 1)) + (if (> arg 0) + (if (= arg 1) + (-when-let (ok (sp-get-thing)) + (if (= (point) (sp-get ok :beg)) + (progn (sp-forward-sexp 2) + (sp-backward-sexp)) + (goto-char (sp-get ok :beg)) + ok)) + (sp-forward-sexp arg) + (sp-backward-sexp)) + (sp-backward-sexp (- arg)))) + +(put 'sp-next-sexp 'CUA 'move) + +(defun sp-previous-sexp (&optional arg) + "Move backward to the end of previous balanced expression. + +With ARG, do it that many times. If there is no next +expression at current level, jump one level up (effectively +doing `sp-up-sexp'). Negative arg -N means move to the end of +N-th following balanced expression. + +With `sp-navigate-consider-symbols' symbols and strings are also +considered balanced expressions. + +Examples: + + ((foo) bar| (baz quux)) -> ((foo)| bar (baz quux)) + + ((foo)| bar (baz quux)) -> ((foo) bar (baz quux))|" + (interactive "^p") + (setq arg (or arg 1)) + (if (> arg 0) + (if (= arg 1) + (-when-let (ok (sp-get-thing t)) + (if (= (point) (sp-get ok :end)) + (progn (sp-backward-sexp 2) + (sp-forward-sexp)) + (goto-char (sp-get ok :end)) + ok)) + (sp-backward-sexp arg) + (sp-forward-sexp)) + (sp-forward-sexp (- arg)))) + +(put 'sp-previous-sexp 'CUA 'move) + +(defun sp--raw-argument-p (arg) + "Return t if ARG represents raw argument, that is a non-empty list." + (and (listp arg) (car arg))) + +(defun sp--negate-argument (arg) + "Return the argument ARG but negated. + +If the argument is a raw prefix argument (cons num nil) return a +list with its car negated. If the argument is just the - symbol, +return 1. If the argument is nil, return -1. Otherwise negate +the input number." + (cond + ((sp--raw-argument-p arg) (list (- (car arg)))) + ((eq arg '-) 1) + ((not arg) -1) + (t (- arg)))) + +(defun sp-down-sexp (&optional arg) + "Move forward down one level of sexp. + +With ARG, do this that many times. A negative argument -N means +move backward but still go down a level. + +If ARG is raw prefix argument \\[universal-argument], descend forward as much as +possible. + +If ARG is raw prefix argument \\[universal-argument] \\[universal-argument], jump to the beginning of +current list. + +If the point is inside sexp and there is no down expression to +descend to, jump to the beginning of current one. If moving +backwards, jump to end of current one. + +Examples: + + |foo (bar (baz quux)) -> foo (|bar (baz quux)) + + |foo (bar (baz quux)) -> foo (bar (|baz quux)) ;; 2 + + |foo (bar (baz (quux) blab)) -> foo (bar (baz (|quux) blab)) ;; \\[universal-argument] + + (foo (bar baz) |quux) -> (|foo (bar baz) quux) + + (blab foo |(bar baz) quux) -> (|blab foo (bar baz) quux) ;; \\[universal-argument] \\[universal-argument]" + (interactive "^P") + (let* ((raw (sp--raw-argument-p arg)) + (arg (prefix-numeric-value arg)) + (n (abs arg)) + (ok t) + (last-point -1)) + (if (and raw (= (abs arg) 16)) + ;; jump to the beginning/end of current list + (-when-let (enc (sp-get-enclosing-sexp)) + (if (> arg 0) + (goto-char (sp-get enc :beg-in)) + (goto-char (sp-get enc :end-in))) + (setq ok enc)) + ;; otherwise descend normally + (while (and ok (> n 0)) + (setq ok (sp-get-sexp (< arg 0))) + ;; if the prefix was C-u, we do not decrease n and instead set + ;; it to -1 when (point) == "last ok" + (if raw + (when (= (point) last-point) + (setq n -1)) + (setq n (1- n))) + (when ok + (setq last-point (point)) + (if (< arg 0) + (goto-char (sp-get ok :end-in)) + (goto-char (sp-get ok :beg-in)))))) + ok)) + +(put 'sp-down-sexp 'CUA 'move) + +(defun sp-backward-down-sexp (&optional arg) + "Move backward down one level of sexp. + +With ARG, do this that many times. A negative argument -N means +move forward but still go down a level. + +If ARG is raw prefix argument \\[universal-argument], descend backward as much as +possible. + +If ARG is raw prefix argument \\[universal-argument] \\[universal-argument], jump to the end of current +list. + +If the point is inside sexp and there is no down expression to +descend to, jump to the end of current one. If moving forward, +jump to beginning of current one. + +Examples: + + foo (bar (baz quux))| -> foo (bar (baz quux)|) + + (bar (baz quux)) foo| -> (bar (baz quux|)) foo ;; 2 + + foo (bar (baz (quux) blab))| -> foo (bar (baz (quux|) blab)) ;; \\[universal-argument] + + (foo| (bar baz) quux) -> (foo (bar baz) quux|) + + (foo (bar baz) |quux blab) -> (foo (bar baz) quux blab|) ;; \\[universal-argument] \\[universal-argument]" + (interactive "^P") + (sp-down-sexp (sp--negate-argument arg))) + +(put 'sp-backward-down-sexp 'CUA 'move) + +(defun sp-beginning-of-sexp (&optional arg) + "Jump to beginning of the sexp the point is in. + +The beginning is the point after the opening delimiter. + +With no argument, this is the same as calling +\\[universal-argument] \\[universal-argument] `sp-down-sexp' + +With ARG positive N > 1, move forward out of the current +expression, move N-2 expressions forward and move down one level +into next expression. + +With ARG negative -N < 1, move backward out of the current +expression, move N-1 expressions backward and move down one level +into next expression. + +With ARG raw prefix argument \\[universal-argument] move out of the current expressions +and then to the beginning of enclosing expression. + +Examples: + + (foo (bar baz) quux| (blab glob)) -> (|foo (bar baz) quux (blab glob)) + + (foo (bar baz|) quux (blab glob)) -> (foo (|bar baz) quux (blab glob)) + + (|foo) (bar) (baz quux) -> (foo) (bar) (|baz quux) ;; 3 + + (foo bar) (baz) (quux|) -> (|foo bar) (baz) (quux) ;; -3 + + ((foo bar) (baz |quux) blab) -> (|(foo bar) (baz quux) blab) ;; \\[universal-argument]" + (interactive "^P") + (let* ((raw (sp--raw-argument-p arg)) + (arg (prefix-numeric-value arg)) + (re (cond + ((and raw (= arg 4)) + (sp-up-sexp) + (sp-beginning-of-sexp)) + ((= arg 1) + (sp-down-sexp '(16))) + ((< arg 0) + (sp-backward-up-sexp) + (sp-forward-sexp (1+ arg)) + (sp-down-sexp)) + ((> arg 0) + (sp-up-sexp) + (sp-forward-sexp (- arg 2)) + (sp-down-sexp))))) + (sp--run-hook-with-args (sp-get re :op) :post-handlers 'beginning-of-sexp) + re)) + +(put 'sp-beginning-of-sexp 'CUA 'move) + +(defun sp-end-of-sexp (&optional arg) + "Jump to end of the sexp the point is in. + +The end is the point before the closing delimiter. + +With no argument, this is the same as calling +\\[universal-argument] \\[universal-argument] `sp-backward-down-sexp'. + +With ARG positive N > 1, move forward out of the current +expression, move N-1 expressions forward and move down backward +one level into previous expression. + +With ARG negative -N < 1, move backward out of the current +expression, move N-2 expressions backward and move down backward +one level into previous expression. + +With ARG raw prefix argument \\[universal-argument] move out of the current expressions +and then to the end of enclosing expression. + +Examples: + + (foo |(bar baz) quux (blab glob)) -> (foo (bar baz) quux (blab glob)|) + + (foo (|bar baz) quux (blab glob)) -> (foo (bar baz|) quux (blab glob)) + + (|foo) (bar) (baz quux) -> (foo) (bar) (baz quux|) ;; 3 + + (foo bar) (baz) (quux|) -> (foo bar|) (baz) (quux) ;; -3 + + ((foo |bar) (baz quux) blab) -> ((foo bar) (baz quux) blab|) ;; \\[universal-argument]" + (interactive "^P") + (let* ((raw (sp--raw-argument-p arg)) + (arg (prefix-numeric-value arg)) + (re (cond + ((and raw (= arg 4)) + (sp-up-sexp) + (sp-end-of-sexp)) + ((= arg 1) + (sp-down-sexp '(-16))) + ((< arg 0) + (sp-backward-up-sexp) + (sp-forward-sexp (+ 2 arg)) + (sp-backward-down-sexp)) + ((> arg 0) + (sp-up-sexp) + (sp-forward-sexp (1- arg)) + (sp-backward-down-sexp))))) + (sp--run-hook-with-args (sp-get re :op) :post-handlers 'end-of-sexp) + re)) + +(put 'sp-end-of-sexp 'CUA 'move) + +(defun sp-beginning-of-next-sexp (&optional arg) + "Jump to the beginning of next sexp on the same depth. + +This acts exactly as `sp-beginning-of-sexp' but adds 1 to the +numeric argument. + +Examples: + + (f|oo) (bar) (baz) -> (foo) (|bar) (baz) + + (f|oo) (bar) (baz) -> (foo) (bar) (|baz) ;; 2" + (interactive "^P") + (if (sp--raw-argument-p arg) + (sp-beginning-of-sexp arg) + (let ((arg (prefix-numeric-value arg))) + (if (> arg 0) + (sp-beginning-of-sexp (1+ arg)) + (sp-beginning-of-sexp (1- arg)))))) + +(put 'sp-beginning-of-next-sexp 'CUA 'move) + +(defun sp-beginning-of-previous-sexp (&optional arg) + "Jump to the beginning of previous sexp on the same depth. + +This acts exactly as `sp-beginning-of-sexp' with negative +argument but subtracts 1 from it. + +Examples: + + (foo) (b|ar) (baz) -> (|foo) (bar) (baz) + + (foo) (bar) (b|az) -> (|foo) (bar) (baz) ;; 2" + (interactive "^P") + (if (sp--raw-argument-p arg) + (sp-beginning-of-sexp (sp--negate-argument arg)) + (let ((arg (prefix-numeric-value arg))) + (if (> arg 0) + (sp-beginning-of-sexp (- (1+ arg))) + (sp-beginning-of-sexp (- (1- arg))))))) + +(put 'sp-beginning-of-previous-sexp 'CUA 'move) + +(defun sp-end-of-next-sexp (&optional arg) + "Jump to the end of next sexp on the same depth. + +This acts exactly as `sp-end-of-sexp' but adds 1 to the +numeric argument. + +Examples: + + (f|oo) (bar) (baz) -> (foo) (bar|) (baz) + + (f|oo) (bar) (baz) -> (foo) (bar) (baz|) ;; 2" + (interactive "^P") + (if (sp--raw-argument-p arg) + (sp-end-of-sexp arg) + (let ((arg (prefix-numeric-value arg))) + (if (> arg 0) + (sp-end-of-sexp (1+ arg)) + (sp-end-of-sexp (1- arg)))))) + +(put 'sp-end-of-next-sexp 'CUA 'move) + +(defun sp-end-of-previous-sexp (&optional arg) + "Jump to the end of previous sexp on the same depth. + +This acts exactly as `sp-end-of-sexp' with negative +argument but subtracts 1 from it. + +Examples: + + (foo) (b|ar) (baz) -> (foo|) (bar) (baz) + + (foo) (bar) (b|az) -> (foo|) (bar) (baz) ;; 2" + (interactive "^P") + (if (sp--raw-argument-p arg) + (sp-end-of-sexp (sp--negate-argument arg)) + (let ((arg (prefix-numeric-value arg))) + (if (> arg 0) + (sp-end-of-sexp (- (1+ arg))) + (sp-end-of-sexp (- (1- arg))))))) + +(put 'sp-end-of-previous-sexp 'CUA 'move) + +(defun sp-up-sexp (&optional arg interactive) + "Move forward out of one level of parentheses. + +With ARG, do this that many times. A negative argument means +move backward but still to a less deep spot. + +The argument INTERACTIVE is for internal use only. + +If called interactively and `sp-navigate-reindent-after-up' is +enabled for current major-mode, remove the whitespace between end +of the expression and the last \"thing\" inside the expression. + +If `sp-navigate-close-if-unbalanced' is non-nil, close the +unbalanced expressions automatically. + +Examples: + + (foo |(bar baz) quux blab) -> (foo (bar baz) quux blab)| + + (foo (bar |baz) quux blab) -> (foo (bar baz) quux blab)| ;; 2 + + (foo bar |baz -> (foo bar baz)| ;; re-indent the expression +​ ) + + (foo |(bar baz) -> (foo)| (bar baz) ;; close unbalanced expr." + (interactive "^p\np") + (setq arg (or arg 1)) + (sp--with-case-sensitive + (let ((ok (sp-get-enclosing-sexp (abs arg)))) + (if ok + (progn + (if (> arg 0) + (goto-char (sp-get ok :end)) + (goto-char (sp-get ok :beg))) + (when (and (= (abs arg) 1) + (not (equal (sp-get ok :prefix) sp-comment-char)) + (or (memq major-mode (assq 'always sp-navigate-reindent-after-up)) + (and (memq major-mode (assq 'interactive sp-navigate-reindent-after-up)) + interactive)) + (if sp-navigate-reindent-after-up-in-string + t + (save-excursion + (sp-get ok + (goto-char :end-in) + (not (sp-point-in-string)))))) + ;; TODO: this needs different indent rules for different + ;; modes. Should we concern with such things? Lisp rules are + ;; funny in HTML... :/ + (save-excursion + (if (> arg 0) + (progn + (goto-char (sp-get ok :end-in)) + (let ((prev (sp-get-thing t))) + ;; if the expression is empty remove everything inside + (if (sp-compare-sexps ok prev) + (sp-get ok (delete-region :beg-in :end-in)) + (when (save-excursion + (skip-chars-backward " \t\n") + (= (point) (sp-get prev :end-suf))) + (delete-region (sp-get prev :end-suf) (point)))))) + (goto-char (sp-get ok :beg-in)) + (let ((next (sp-get-thing))) + (if (sp-compare-sexps ok next) + (sp-get ok (delete-region :beg-in :end-in)) + (when (save-excursion + (skip-chars-forward " \t\n") + (= (point) (sp-get next :beg-prf))) + (delete-region (point) (sp-get next :beg-prf))))))))) + ;; on forward up, we can detect that the pair was not closed. + ;; Therefore, jump sexps backwards until we hit the error, then + ;; extract the opening pair and insert it at point. Only works + ;; for pairs defined in `sp-pair-list'. + (when (and (> arg 0) + sp-navigate-close-if-unbalanced) + (let (active-pair) + (save-excursion + ;; add support for SGML tags here + (while (sp-backward-sexp)) + (sp-skip-backward-to-symbol t) + (when (sp--looking-back (sp--get-opening-regexp)) + (let* ((op (match-string 0))) + (setq active-pair (assoc op sp-pair-list))))) + (when active-pair + (sp-backward-sexp) + (sp-forward-sexp) + (insert (cdr active-pair)))))) + ok))) + +(put 'sp-up-sexp 'CUA 'move) + +(defun sp-backward-up-sexp (&optional arg interactive) + "Move backward out of one level of parentheses. + +With ARG, do this that many times. A negative argument means +move forward but still to a less deep spot. + +The argument INTERACTIVE is for internal use only. + +If called interactively and `sp-navigate-reindent-after-up' is +enabled for current major-mode, remove the whitespace between +beginning of the expression and the first \"thing\" inside the +expression. + +Examples: + + (foo (bar baz) quux| blab) -> |(foo (bar baz) quux blab) + + (foo (bar |baz) quux blab) -> |(foo (bar baz) quux blab) ;; 2 + + ( -> |(foo bar baz) +​ foo |bar baz)" + (interactive "^p\np") + (setq arg (or arg 1)) + (sp-up-sexp (- arg) interactive)) + +(put 'sp-backward-up-sexp 'CUA 'move) + +(defvar sp-last-kill-whitespace nil + "Save the whitespace cleaned after the last kill. + +If the next command is `sp-kill-sexp', append the whitespace +between the successive kills.") + +(defun sp-kill-sexp (&optional arg dont-kill) + "Kill the balanced expression following point. + +If point is inside an expression and there is no following +expression, kill the topmost enclosing expression. + +With ARG being positive number N, repeat that many times. + +With ARG being Negative number -N, repeat that many times in +backward direction. + +With ARG being raw prefix \\[universal-argument], kill all the expressions from +point up until the end of current list. With raw prefix \\[negative-argument] \\[universal-argument], +kill all the expressions from beginning of current list up until +point. If point is inside a symbol, this is also killed. If +there is no expression after/before the point, just delete the +whitespace up until the closing/opening delimiter. + +With ARG being raw prefix \\[universal-argument] \\[universal-argument], kill current list (the list +point is inside). + +With ARG numeric prefix 0 (zero) kill the insides of the current +list, that is everything from after the opening delimiter to +before the closing delimiter. + +If ARG is nil, default to 1 (kill single expression forward) + +If second optional argument DONT-KILL is non-nil, save the to be +killed region in the kill ring, but do not kill the region from +buffer. + +With `sp-navigate-consider-symbols', symbols and strings are also +considered balanced expressions. + +Examples: + + (foo |(abc) bar) -> (foo | bar) ;; nil, defaults to 1 + + (foo (bar) | baz) -> | ;; 2 + + (foo |(bar) baz) -> | ;; \\[universal-argument] \\[universal-argument] + + (1 |2 3 4 5 6) -> (1|) ;; \\[universal-argument] + + (1 |2 3 4 5 6) -> (1 | 5 6) ;; 3 + + (1 2 3 4 5| 6) -> (1 2 3 | 6) ;; -2 + + (1 2 3 4| 5 6) -> (|5 6) ;; - \\[universal-argument] + + (1 2 | ) -> (1 2|) ;; \\[universal-argument], kill useless whitespace + + (1 2 3 |4 5 6) -> (|) ;; 0 + +Note: prefix argument is shown after the example in +\"comment\". Assumes `sp-navigate-consider-symbols' equal to t." + (interactive "P") + (let* ((raw (sp--raw-argument-p arg)) + (arg (prefix-numeric-value arg)) + (n (abs arg)) + (ok t) + (b (point-max)) + (e (point)) + (kill-fn (if dont-kill 'copy-region-as-kill 'kill-region))) + (cond + ;; kill to the end or beginning of list + ((and raw + (= n 4)) + (let ((next (sp-get-thing (< arg 0))) + (enc (sp-get-enclosing-sexp))) + (if (sp-compare-sexps next enc) + (when (not dont-kill) + (let ((del (sp-get-whitespace))) + (sp-get del (delete-region :beg :end)))) + (if (> arg 0) + (funcall kill-fn (sp-get next :beg-prf) (sp-get enc :end-in)) + (funcall kill-fn (sp-get next :end) (sp-get enc :beg-in))) + (when (not dont-kill) + (let ((del (sp-get-whitespace))) + (sp-get del (delete-region :beg :end))))))) + ;; kill the enclosing list + ((and raw + (= n 16)) + (let ((lst (sp-backward-up-sexp))) + (sp-get lst (funcall kill-fn :beg-prf :end)))) + ;; kill inside of sexp + ((= n 0) + (let ((e (sp-get-enclosing-sexp))) + (when e + (sp-get e (funcall kill-fn :beg-in :end-in))))) + ;; regular kill + (t + (save-excursion + (while (and (> n 0) ok) + (setq ok (sp-forward-sexp (sp--signum arg))) + (sp-get ok + (when (< :beg-prf b) (setq b :beg-prf)) + (when (> :end e) (setq e :end))) + (setq n (1- n)))) + (when ok + (let ((bm (set-marker (make-marker) b))) + (if (eq last-command 'kill-region) + (progn + (when (member sp-successive-kill-preserve-whitespace '(1 2)) + (kill-append sp-last-kill-whitespace nil)) + (funcall kill-fn (if (> b (point)) (point) b) e)) + (funcall kill-fn b e)) + ;; kill useless junk whitespace, but only if we're actually + ;; killing the region + (when (not dont-kill) + (sp--cleanup-after-kill) + ;; kill useless newlines + (when (string-match-p "\n" (buffer-substring-no-properties bm (point))) + (setq sp-last-kill-whitespace + (concat sp-last-kill-whitespace + (buffer-substring-no-properties bm (point)))) + (delete-region bm (point))) + (when (= 0 sp-successive-kill-preserve-whitespace) + (kill-append sp-last-kill-whitespace nil))))))))) + +(defun sp--cleanup-after-kill () + (unless (looking-back "^[\t\s]+") + (let ((bdel (save-excursion + (when (looking-back " ") + (skip-chars-backward " \t") + (when (not (looking-back (sp--get-opening-regexp))) + (forward-char))) + (point))) + (edel (save-excursion + (when (looking-at " ") + (skip-chars-forward " \t") + (when (not (or (sp--looking-at (sp--get-closing-regexp)) + (looking-at "$"))) + (backward-char))) + (point)))) + (when (eq this-command 'kill-region) + (setq sp-last-kill-whitespace + (if (/= 2 sp-successive-kill-preserve-whitespace) + (buffer-substring-no-properties bdel edel) + ""))) + (delete-region bdel edel))) + (if (memq major-mode sp-lisp-modes) + (indent-according-to-mode) + (unless (memq major-mode sp-no-reindent-after-kill-modes) + (save-excursion + (sp--indent-region (line-beginning-position) (line-end-position))) + (when (> (save-excursion + (back-to-indentation) + (current-indentation)) + (current-column)) + (back-to-indentation))))) + +(defun sp-backward-kill-sexp (&optional arg dont-kill) + "Kill the balanced expression preceding point. + +This is exactly like calling `sp-kill-sexp' with minus ARG. +In other words, the direction of all commands is reversed. For +more information, see the documentation of `sp-kill-sexp'. + +Examples: + + (foo (abc)| bar) -> (foo | bar) + + blab (foo (bar baz) quux)| -> blab | + + (1 2 3 |4 5 6) -> (|4 5 6) ;; \\[universal-argument]" + (interactive "P") + (sp-kill-sexp (sp--negate-argument arg) dont-kill)) + +(defun sp-copy-sexp (&optional arg) + "Copy the following ARG expressions to the kill-ring. + +This is exactly like calling `sp-kill-sexp' with second argument +t. All the special prefix arguments work the same way." + (interactive "P") + (save-excursion + (sp-kill-sexp arg t))) + +(defun sp-backward-copy-sexp (&optional arg) + "Copy the previous ARG expressions to the kill-ring. + +This is exactly like calling `sp-backward-kill-sexp' with second argument +t. All the special prefix arguments work the same way." + (interactive "P") + (save-excursion + (sp-kill-sexp (sp--negate-argument arg) t))) + +(defun sp-clone-sexp () + "Clone sexp after or around point. + +If the form immediately after point is a sexp, clone it below the +current one and put the point in front of it. + +Otherwise get the enclosing sexp and clone it below the current +enclosing sexp." + (interactive) + (-when-let (ok (let ((sexp (sp-get-thing))) + (if (not (equal (sp-get sexp :op) "")) + sexp + (sp-get-enclosing-sexp)))) + (sp-get ok + (undo-boundary) + (if (< :beg-prf (point)) + ;; this is the case where point is inside a sexp, we place + ;; the "clone" before the current enclosing sexp and move + ;; the old one below. Note that the "net result" is the + ;; same as the other case, but the implementation must + ;; reflect different relative position of the point wrt + ;; "current" sexp. + (save-excursion + (goto-char :beg-prf) + (insert-buffer-substring-no-properties + (current-buffer) :beg-prf :end-suf) + (newline-and-indent)) + ;; in this case we are in front, so we move after the current + ;; one, place the clone and move it below + (goto-char :end-suf) + (save-excursion + (insert-buffer-substring-no-properties + (current-buffer) :beg-prf :end-suf)) + (newline-and-indent)) + (sp-indent-defun)))) + +(defun sp-kill-hybrid-sexp (arg) + "Kill a line as if with `kill-line', but respecting delimiters. + +With ARG being raw prefix \\[universal-argument] \\[universal-argument], kill the hybrid sexp +the point is in (see `sp-get-hybrid-sexp'). + +With ARG numeric prefix 0 (zero) just call `kill-line'. + +You can customize the behaviour of this command by toggling +`sp-hybrid-kill-excessive-whitespace'. + +Examples: + + foo | bar baz -> foo | ;; nil + + foo (bar | baz) quux -> foo (bar |) quux ;; nil + + foo | bar (baz -> foo | ;; nil + quux) + + foo \"bar |baz quux\" quack -> foo \"bar |\" quack ;; nil + + foo (bar + baz) qu|ux (quack -> foo | hoo ;; \\[universal-argument] \\[universal-argument] + zaq) hoo + + foo | (bar -> foo | ;; C-0 + baz) baz)" + (interactive "P") + (let* ((raw (sp--raw-argument-p arg)) + (arg (prefix-numeric-value arg)) + (orig-indent (save-excursion + (back-to-indentation) + (current-column)))) + (cond + ((= arg 0) (kill-line)) + ((and raw (= arg 16)) + (let ((hl (sp-get-hybrid-sexp))) + (sp-get hl (kill-region :beg-prf :end-suf)))) + (t + (let ((hl (sp-get-hybrid-sexp))) + (save-excursion + (when (and (or (eq sp-hybrid-kill-entire-symbol t) + (and (functionp sp-hybrid-kill-entire-symbol) + (not (funcall sp-hybrid-kill-entire-symbol)))) + (sp-point-in-symbol)) + (sp-backward-sexp)) + (sp-get hl + (kill-region (point) (min (point-max) (if (looking-at "[ \t]*$") (1+ :end-suf) :end-suf))) + (when sp-hybrid-kill-excessive-whitespace + (cond + ((sp-point-in-blank-line) + (while (and (not (eobp)) + (sp-point-in-blank-line)) + (delete-region (line-beginning-position) (min (point-max) (1+ (line-end-position)))))) + ((looking-at "[ \t]*$") + (delete-blank-lines))))))) + (sp--cleanup-after-kill) + ;; if we've killed the entire line, do *not* contract the indent + ;; to just one space + (when (sp-point-in-blank-line) + (delete-region (line-beginning-position) (line-end-position)) + (let ((need-indent (- orig-indent (current-column)))) + (when (> need-indent 0) + (insert (make-string need-indent ?\ ))))))))) + +(defun sp--transpose-objects (first second) + "Transpose FIRST and SECOND object while preserving the +whitespace between them." + (save-excursion + (goto-char (sp-get second :beg-prf)) + (let ((ins (sp-get second (delete-and-extract-region :beg-prf :end-suf))) + (between (delete-and-extract-region (sp-get first :end-suf) (point)))) + (goto-char (sp-get first :beg-prf)) + (insert ins between)))) + +(defun sp-transpose-sexp (&optional arg) + "Transpose the expressions around point. + +The operation will move the point after the transposed block, so +the next transpose will \"drag\" it forward. + +With arg positive N, apply that many times, dragging the +expression forward. + +With arg negative -N, apply N times backward, pushing the word +before cursor backward. This will therefore not transpose the +expressions before and after point, but push the expression +before point over the one before it. + +Examples: + + foo |bar baz -> bar foo| baz + + foo |bar baz -> bar baz foo| ;; 2 + + (foo) |(bar baz) -> (bar baz) (foo)| + + (foo bar) -> (baz quux) ;; keeps the formatting +​ |(baz quux) |(foo bar) + + foo bar baz| -> foo baz| bar ;; -1" + (interactive "P") + (let* ((raw (sp--raw-argument-p arg)) + (arg (prefix-numeric-value arg)) + (n (abs arg))) + ;; if we're inside a symbol, we need to move out of it first + (when (> arg 0) + (when (sp-point-in-symbol) + (sp-forward-symbol))) + (while (> n 0) + (when (< arg 0) (sp-backward-sexp)) + (let* ((next (save-excursion (sp-forward-sexp))) + (prev (save-excursion (goto-char (sp-get next :beg-prf)) (sp-backward-sexp)))) + (sp--transpose-objects prev next) + (when (< arg 0) + (goto-char (+ (sp-get prev :beg-prf) (sp-get next :len)))) + (setq n (1- n)))))) + +(defun sp-transpose-hybrid-sexp (&optional arg) + "Transpose the hybrid sexps around point. + +`sp-backward-sexp' is used to enter the previous hybrid sexp. + +With ARG numeric prefix call `transpose-lines' with this +argument. + +The operation will move the point at the next line after the +transposed block if it is at the end of line already. + +Examples: + + foo bar baz (quux + |baz (quux -> quack) + quack) foo bar\\n| + + + [(foo) (bar) -> [(baz) + |(baz)] (foo) (bar)|] + + foo bar baz -> quux flux + |quux flux foo bar baz\\n|" + (interactive "P") + (if (numberp arg) + (transpose-lines arg) + (let* ((next (save-excursion + (sp-forward-sexp) + (sp-backward-sexp) + (sp-get-hybrid-sexp))) + (prev (save-excursion + (goto-char (sp-get next :beg)) + (sp-backward-sexp) + (sp-get-hybrid-sexp)))) + (if (sp-compare-sexps prev next > :end) + (sp-message :invalid-context-prev) + (sp--transpose-objects prev next)) + (when (looking-at "[\n\t ]+") + (forward-line) + (back-to-indentation))))) + +(defun sp-push-hybrid-sexp () + "Push the hybrid sexp after point over the following one. + +`sp-forward-sexp' is used to enter the following hybrid sexp. + +Examples: + + |x = big_function_call(a, |(a, + b) b) = read_user_input() + -> + (a, x = big_function_call(a, + b) = read_user_input() b)" + (interactive) + (let* ((cur (sp-get-hybrid-sexp)) + (next (save-excursion + (goto-char (sp-get cur :end)) + (sp-forward-sexp) + (sp-get-hybrid-sexp)))) + (if (sp-compare-sexps cur next >) + (sp-message :invalid-context-cur) + (sp--transpose-objects cur next)))) + +;; The following two functions are inspired by "adjust-parens.el" +;; package available at +;; http://elpa.gnu.org/packages/adjust-parens-1.0.el +(defun sp-indent-adjust-sexp () + "Add the hybrid sexp at line into previous sexp. All forms +between the two are also inserted. Specifically, if the point is +on empty line, move the closing delimiter there, so the next +typed text will become the last item of the previous sexp. + +This acts similarly to `sp-add-to-previous-sexp' but with special +handling of empty lines." + (interactive) + (let* ((hsexp (sp-get-hybrid-sexp)) + (prev-sexp (save-excursion + (goto-char (sp-get hsexp :beg)) + (sp-get-sexp t)))) + (if (not (and prev-sexp hsexp + (sp-compare-sexps prev-sexp hsexp < :end :beg))) + (sp-message :no-structure-found) + (save-excursion + (sp-get prev-sexp + (goto-char (sp-get hsexp :end)) + (insert :cl) + (goto-char :end-in) + (delete-char :cl-l))) + (sp-get (sp-get-enclosing-sexp) (sp--indent-region :beg :end)) + (indent-according-to-mode) + (sp--run-hook-with-args (sp-get prev-sexp :op) :post-handlers 'indent-adjust-sexp)))) + +(defun sp-dedent-adjust-sexp () + "Remove the hybrid sexp at line from previous sexp. All +sibling forms after it are also removed (not deleted, just placed +outside of the enclosing list). Specifically, if the point is on +empty line followed by closing delimiter of enclosing list, move +the closing delimiter after the last item in the list. + +This acts similarly to `sp-forward-barf-sexp' but with special +handling of empty lines." + (interactive) + (-when-let (enc (sp-get-enclosing-sexp)) + (save-excursion + ;; if we're looking at whitespace and end of sexp, move the + ;; closing paren over the whitespace but *after* the last item + ;; in the list (barf would also go *before* the last item) + (sp-skip-forward-to-symbol t) + (if (= (point) (sp-get enc :end-in)) + (let ((prev-sexp (sp-get-thing t))) + (sp-get enc + (delete-char :cl-l) + (goto-char (sp-get prev-sexp :end)) + ;; see next TODO + (save-restriction + (sp--narrow-to-line) + (skip-syntax-forward " ") + (skip-syntax-forward ".")) + (insert :cl))) + ;; otherwise just C-u barf + (sp-skip-backward-to-symbol t) + (sp-forward-barf-sexp '(4)) + ;; we need to take special care of any hanging + ;; punctuation. TODO: this should be a sexp suffix? HACK until + ;; we fix barf to get the info. + (save-restriction + (sp-get (sp-backward-down-sexp) + (goto-char :end) + (delete-char (- :cl-l)) + (sp--narrow-to-line) + (skip-syntax-forward " ") + (skip-syntax-forward ".") + (insert :cl))) + (sp-get enc (sp--indent-region :beg :end)))) + (indent-according-to-mode) + (sp--run-hook-with-args (sp-get enc :op) :post-handlers 'dedent-adjust-sexp))) + +;; "When the hook is called point is *after* the just moved closing delimiter." +;; TODO: add hook +(defun sp-slurp-hybrid-sexp () + "Add hybrid sexp following the current list in it by moving the +closing delimiter. + +This is philosophically similar to `sp-forward-slurp-sexp' but +works better in \"line-based\" languages like C or Java. + +Because the structure is much looser in these languages, this +command currently does not support all the prefix argument +triggers that `sp-forward-slurp-sexp' does." + (interactive) + (let (slurped-within-line) + (-if-let* ((enc (sp-get-enclosing-sexp)) + (bsexp (save-excursion + (sp-get enc (goto-char :end)) + (when (sp-compare-sexps (sp-forward-sexp) enc >) + (sp-get-hybrid-sexp))))) + (save-excursion + (sp-get enc + (goto-char :end-suf) + (delete-char (- (+ :cl-l :suffix-l))) + ;; TODO: move to hook + (when (sp-point-in-blank-line) + (delete-region (line-beginning-position) (1+ (line-end-position)))) + (sp-forward-sexp) + + (when (eq (line-number-at-pos :beg) + (line-number-at-pos :end)) + (setq slurped-within-line t)) + ;; If we're slurping over multiple lines, include the suffix on the next line. + ;; I.e. while () {|} -> while () {\n foo(); \n} + (unless slurped-within-line + (sp-get (sp-get-hybrid-sexp) (goto-char :end-suf))) + (insert :cl :suffix)) + ;; TODO: move to hook + (sp-get (sp--next-thing-selection -1) + (save-excursion + (if (save-excursion + (goto-char :beg-in) + (looking-at "[ \t]*$")) + (progn + (goto-char :end-in) + (newline)) + ;; copy the whitespace after opening delim and put it in + ;; front of the closing. This will ensure pretty { foo } + ;; or {foo} + (goto-char :end-in) + (insert (buffer-substring-no-properties + :beg-in + (+ :beg-in (save-excursion + (goto-char :beg-in) + (skip-syntax-forward " "))))))) + (unless (or (looking-at "[ \t]*$") + (looking-at (sp--get-stringlike-regexp)) + (looking-at (sp--get-closing-regexp)) + slurped-within-line) + (newline))) + (sp-get (sp--next-thing-selection -1) (sp--indent-region :beg :end)) + ;; we need to call this again to get the new structure after + ;; indent. + (sp--next-thing-selection -1)) + (sp-message :invalid-structure) + nil))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; "paredit" operations + +(defun sp-forward-slurp-sexp (&optional arg) + "Add sexp following the current list in it by moving the closing delimiter. + +If the current list is the last in a parent list, extend that +list (and possibly apply recursively until we can extend a list +or end of file). + +If ARG is N, apply this function that many times. + +If ARG is negative -N, extend the opening pair instead (that is, +backward). + +If ARG is raw prefix \\[universal-argument], extend all the way to the end of the parent list. + +If both the current expression and the expression to be slurped +are strings, they are joined together. + +See also `sp-slurp-hybrid-sexp' which is similar but handles +C-style syntax better. + +Examples: + + (foo |bar) baz -> (foo |bar baz) + + [(foo |bar)] baz -> [(foo |bar) baz] + + [(foo |bar) baz] -> [(foo |bar baz)] + + ((|foo) bar baz quux) -> ((|foo bar baz quux)) ;; with \\[universal-argument] + + \"foo| bar\" \"baz quux\" -> \"foo| bar baz quux\"" + (interactive "P") + (if (> (prefix-numeric-value arg) 0) + (let ((n (abs (prefix-numeric-value arg))) + (enc (sp-get-enclosing-sexp)) + (ins-space 0) + (in-comment (sp-point-in-comment)) + next-thing ok) + (when enc + (save-excursion + (if (sp--raw-argument-p arg) + (progn + (goto-char (sp-get enc :end-suf)) + (setq next-thing (sp-get-enclosing-sexp)) + (when next-thing + (goto-char (sp-get next-thing :end-in)) + (sp--run-hook-with-args (sp-get enc :op) :pre-handlers 'slurp-forward) + (sp-get enc (insert :cl :suffix)) + (goto-char (sp-get enc :end-suf)) + (delete-char (sp-get enc (- (+ :cl-l :suffix-l)))) + (sp--indent-region (sp-get enc :beg-prf) (sp-get next-thing :end)) + (sp--run-hook-with-args (sp-get enc :op) :post-handlers 'slurp-forward))) + (while (> n 0) + (goto-char (sp-get enc :end-suf)) + (setq ok enc) + (setq next-thing (sp-get-thing nil)) + (setq ins-space 0) + (while (sp-compare-sexps next-thing ok <) + (goto-char (sp-get next-thing :end-suf)) + (setq ok next-thing) + (setq next-thing (sp-get-thing nil))) + ;; do not allow slurping into a different context from + ;; inside a comment + (if (and in-comment + (save-excursion + (sp-get next-thing + (goto-char :beg) + (not (sp-point-in-comment))))) + (progn + (sp-message :cant-slurp-context) + (setq n -1)) + (if ok + (progn + (if (and (equal (sp-get next-thing :cl) "\"") + (equal (sp-get ok :cl) "\"")) + (progn + (sp--join-sexp ok next-thing) + (goto-char (- (sp-get next-thing :end) 2)) + (plist-put enc :end (- (sp-get next-thing :end) 2))) + (delete-char (sp-get ok (- (+ :cl-l :suffix-l)))) + (when (and (sp-get ok (/= :len-in 0)) + (= (sp-get ok :end-suf) (sp-get next-thing :beg-prf))) + (insert " ") + (setq ins-space -1)) + ;; this calculation corrects the absence of already deleted cls + (goto-char (- (sp-get next-thing :end-suf) (sp-get ok (+ :cl-l :suffix-l)) ins-space)) + (sp--run-hook-with-args (sp-get enc :op) :pre-handlers 'slurp-forward) + (sp-get ok (insert :cl :suffix)) + (sp--indent-region (sp-get ok :beg-prf) (point)) + ;; HACK: update the "enc" data structure if ok==enc + (when (= (sp-get enc :beg) (sp-get ok :beg)) (plist-put enc :end (point))) + (sp--run-hook-with-args (sp-get enc :op) :post-handlers 'slurp-forward)) + (setq n (1- n))) + (sp-message :cant-slurp) + (setq n -1)))))))) + (sp-backward-slurp-sexp (sp--negate-argument arg)))) + +(defun sp-backward-slurp-sexp (&optional arg) + "Add the sexp preceding the current list in it by moving the opening delimiter. + +If the current list is the first in a parent list, extend that +list (and possibly apply recursively until we can extend a list +or beginning of file). + +If arg is N, apply this function that many times. + +If arg is negative -N, extend the closing pair instead (that is, +forward). + +If ARG is raw prefix \\[universal-argument], extend all the way to the beginning of the parent list. + +If both the current expression and the expression to be slurped +are strings, they are joined together. + +Examples: + + foo (bar| baz) -> (foo bar| baz) + + foo [(bar| baz)] -> [foo (bar| baz)] + + [foo (bar| baz)] -> [(foo bar| baz)] + + (foo bar baz (|quux)) -> ((foo bar baz |quux)) ;; with \\[universal-argument] + + \"foo bar\" \"baz |quux\" -> \"foo bar baz |quux\"" + (interactive "P") + (if (> (prefix-numeric-value arg) 0) + (let ((n (abs (prefix-numeric-value arg))) + (enc (sp-get-enclosing-sexp)) + (in-comment (sp-point-in-comment)) + next-thing ok) + (when enc + (save-excursion + (if (sp--raw-argument-p arg) + (progn + (goto-char (sp-get enc :beg-prf)) + (setq next-thing (sp-get-enclosing-sexp)) + (when next-thing + (delete-char (sp-get enc (+ :op-l :prefix-l))) + (goto-char (sp-get next-thing :beg-in)) + (sp--run-hook-with-args (sp-get enc :op) :pre-handlers 'slurp-backward) + (sp-get enc (insert :prefix :op)) + (sp--indent-region (sp-get next-thing :beg-in) (sp-get enc :end)) + (sp--run-hook-with-args (sp-get enc :op) :post-handlers 'slurp-backward))) + (while (> n 0) + (goto-char (sp-get enc :beg-prf)) + (setq ok enc) + (setq next-thing (sp-get-thing t)) + (while (sp-compare-sexps next-thing ok > :end) + (goto-char (sp-get next-thing :beg-prf)) + (setq ok next-thing) + (setq next-thing (sp-get-thing t))) + ;; do not allow slurping into a different context from + ;; inside a comment + (if (and in-comment + (save-excursion + (sp-get next-thing + (goto-char :beg) + (not (sp-point-in-comment))))) + (progn + (sp-message :cant-slurp-context) + (setq n -1)) + (if ok + (progn + (if (and (equal (sp-get next-thing :cl) "\"") + (equal (sp-get ok :cl) "\"")) + (progn + (sp--join-sexp next-thing ok) + (goto-char (sp-get next-thing :beg-prf)) + (plist-put enc :beg (sp-get next-thing :beg))) + (delete-char (sp-get ok (+ :op-l :prefix-l))) + (when (and (sp-get ok (/= :len-in 0)) + (= (sp-get ok :beg-prf) (sp-get next-thing :end-suf))) + (insert " ")) + (goto-char (sp-get next-thing :beg-prf)) + (sp--run-hook-with-args (sp-get enc :op) :pre-handlers 'slurp-backward) + (sp-get ok (insert :prefix :op)) + (sp--indent-region (point) (sp-get ok :end)) + ;; HACK: update the "enc" data structure if ok==enc + (when (sp-compare-sexps enc ok) (plist-put enc :beg (- (point) (sp-get ok :op-l)))) + (sp--run-hook-with-args (sp-get enc :op) :post-handlers 'slurp-backward)) + (setq n (1- n))) + (sp-message :cant-slurp) + (setq n -1)))))))) + (sp-forward-slurp-sexp (sp--negate-argument arg)))) + +(defun sp-add-to-previous-sexp (&optional arg) + "Add the expression around point to the first list preceding point. + +With ARG positive N add that many expressions to the preceding +list. + +If ARG is raw prefix argument \\[universal-argument] add all expressions until +the end of enclosing list to the previous list. + +If ARG is raw prefix argument \\[universal-argument] \\[universal-argument] add the current +list into the previous list. + +Examples: + + (foo bar) |baz quux -> (foo bar |baz) quux + + (foo bar) |baz quux -> (foo bar |baz quux) ;; 2 + + (blab (foo bar) |baz quux) -> (blab (foo bar |baz quux)) ;; \\[universal-argument] + + (foo bar) (baz |quux) -> (foo bar (baz |quux)) ;; \\[universal-argument] \\[universal-argument]" + (interactive "P") + (save-excursion + (cond + ((equal arg '(16)) + (sp-backward-up-sexp) + (sp-backward-down-sexp) + (sp-forward-slurp-sexp)) + (t + (sp-backward-down-sexp) + (sp-forward-slurp-sexp arg)))) + (indent-according-to-mode)) + +(defun sp-add-to-next-sexp (&optional arg) + "Add the expressions around point to the first list following point. + +With ARG positive N add that many expressions to the following +list. + +If ARG is raw prefix argument \\[universal-argument] add all expressions until +the beginning of enclosing list to the following list. + +If ARG is raw prefix argument \\[universal-argument] \\[universal-argument] add the current +list into the following list. + +Examples: + + foo bar| (baz quux) -> foo (bar| baz quux) + + foo bar| (baz quux) -> (foo bar| baz quux) ;; 2 + + (foo bar |(bar quux) blab) -> ((foo bar |bar quux) blab) ;; \\[universal-argument] + + (foo |bar) (baz quux) -> ((foo |bar) baz quux) ;; \\[universal-argument] \\[universal-argument]" + (interactive "P") + (save-excursion + (cond + ((equal arg '(16)) + (sp-up-sexp) + (sp-down-sexp) + (sp-backward-slurp-sexp)) + (t + (sp-down-sexp) + (sp-backward-slurp-sexp arg))))) + +(defun sp-forward-barf-sexp (&optional arg) + "Remove the last sexp in the current list by moving the closing delimiter. + +If ARG is positive number N, barf that many expressions. + +If ARG is negative number -N, contract the opening pair instead. + +If ARG is raw prefix \\[universal-argument], barf all expressions from the one after +point to the end of current list and place the point before the +closing delimiter of the list. + +If the current list is empty, do nothing. + +Examples: (prefix arg in comment) + + (foo bar| baz) -> (foo bar|) baz ;; nil (defaults to 1) + + (foo| [bar baz]) -> (foo|) [bar baz] ;; 1 + + (1 2 3| 4 5 6) -> (1 2 3|) 4 5 6 ;; \\[universal-argument] (or numeric prefix 3) + + (foo bar| baz) -> foo (bar| baz) ;; -1" + (interactive "P") + (let* ((raw (sp--raw-argument-p arg)) + (old-arg arg) + (arg (prefix-numeric-value arg))) + (if (> arg 0) + (if (sp-point-in-blank-sexp) + (sp-message :blank-sexp) + (save-excursion + (let ((enc (sp-get-enclosing-sexp))) + (sp-get enc + (cond + ((and raw (= arg 4)) + (sp-get (sp-get-thing t) + (goto-char :end-suf))) + (t + (goto-char :end-in) + (sp-backward-sexp arg) + (when (<= (point) :beg) + (goto-char :beg-in)))) + ;; we know for sure there is at least one thing in the list + (let ((back (sp-get-thing t))) + (if (sp-compare-sexps back enc) + (goto-char :beg-in) + (goto-char (sp-get back :end-suf)))) + (sp--run-hook-with-args :op :pre-handlers 'barf-forward)) + (sp-get (sp-get-enclosing-sexp) + (sp-do-move-cl (point)) + (sp--indent-region :beg :end) + (sp--run-hook-with-args :op :post-handlers 'barf-forward))))) + (sp-backward-barf-sexp (sp--negate-argument old-arg))))) + +(defun sp-backward-barf-sexp (&optional arg) + "This is exactly like calling `sp-forward-barf-sexp' with minus ARG. +In other words, instead of contracting the closing pair, the +opening pair is contracted. For more information, see the +documentation of `sp-forward-barf-sexp'. + +Examples: + + (foo bar| baz) -> foo (bar| baz) + + ([foo bar] |baz) -> [foo bar] (|baz) + + (1 2 3 |4 5 6) -> 1 2 3 (|4 5 6) ;; \\[universal-argument] (or 3)" + (interactive "P") + (let* ((raw (sp--raw-argument-p arg)) + (old-arg arg) + (arg (prefix-numeric-value arg))) + (if (> arg 0) + (if (sp-point-in-blank-sexp) + (sp-message :blank-sexp) + (save-excursion + (let ((enc (sp-get-enclosing-sexp))) + (sp-get enc + (cond + ((and raw (= arg 4)) + (sp-get (sp-get-thing) + (goto-char :beg-prf))) + (t + (goto-char :beg-in) + (sp-forward-sexp arg) + (when (>= (point) :end) + (goto-char :end-in)))) + ;; we know for sure there is at least one thing in the list + (let ((next (sp-get-thing))) + (if (sp-compare-sexps next enc) + (goto-char :end-in) + (goto-char (sp-get next :beg-prf)))) + (sp--run-hook-with-args :op :pre-handlers 'barf-backward)) + (sp-get (sp-get-enclosing-sexp) + (sp-do-move-op (point)) + (sp--indent-region :beg :end) + (sp--run-hook-with-args :op :post-handlers 'barf-backward))))) + (sp-forward-barf-sexp (sp--negate-argument old-arg))))) + +;; TODO: get rid of the macro anyway, it's stupid! +(defmacro sp--skip-to-symbol-1 (forward) + "Generate `sp-skip-forward-to-symbol' or `sp-skip-backward-to-symbol'." + (let ((inc (if forward '1+ '1-)) + (dec (if forward '1- '1+)) + (forward-fn (if forward 'forward-char 'backward-char)) + (next-char-fn (if forward 'following-char 'preceding-char)) + (looking (if forward 'sp--looking-at 'sp--looking-back)) + (eob-test (if forward '(eobp) '(bobp))) + (comment-bound (if forward 'cdr 'car))) + `(let ((in-comment (sp-point-in-comment)) + ;; HACK: if we run out of current context this might skip a + ;; pair that was not allowed before. However, such a call is + ;; never made in SP, so it's OK for now + (allowed-pairs (sp--get-allowed-regexp)) + (allowed-strings (sp--get-stringlike-regexp))) + (while (and (not (or ,eob-test + (and stop-after-string + (not (sp-point-in-string)) + (sp-point-in-string (,dec (point)))) + (and stop-at-string + (not (sp-point-in-string)) + (sp-point-in-string (,inc (point)))) + (and stop-inside-string + (sp-point-in-string) + (not (sp-point-in-string (,inc (point))))) + (and (,looking allowed-pairs) + (or in-comment (not (sp-point-in-comment)))) + (and (,looking allowed-strings) + (or in-comment (not (sp-point-in-comment)))))) + (or (member (char-syntax (,next-char-fn)) '(?< ?> ?! ?| ?\ ?\\ ?\" ?' ?.)) + (unless in-comment (sp-point-in-comment)))) + (when (and (not in-comment) + (sp-point-in-comment)) + (goto-char (,comment-bound (sp-get-comment-bounds)))) + (when (not ,eob-test) (,forward-fn 1)))))) + +(defun sp-skip-forward-to-symbol (&optional stop-at-string stop-after-string stop-inside-string) + "Skip whitespace and comments moving forward. + +If STOP-AT-STRING is non-nil, stop before entering a string (if +not already in a string). + +If STOP-AFTER-STRING is non-nil, stop after exiting a string. + +If STOP-INSIDE-STRING is non-nil, stop before exiting a string. + +Examples: + + foo| bar -> foo |bar + + foo| [bar baz] -> foo |[bar baz]" + (interactive "^") + (sp--skip-to-symbol-1 t)) + +(put 'sp-skip-forward-to-symbol 'CUA 'move) + +(defun sp-skip-backward-to-symbol (&optional stop-at-string stop-after-string stop-inside-string) + "Skip whitespace and comments moving backward. +If STOP-AT-STRING is non-nil, stop before entering a string (if +not already in a string). + +If STOP-AFTER-STRING is non-nil, stop after exiting a string. + +If STOP-INSIDE-STRING is non-nil, stop before exiting a string. + +Examples: + + foo |bar -> foo| bar + + [bar baz] |foo -> [bar baz]| foo" + (interactive "^") + (sp--skip-to-symbol-1 nil)) + +(put 'sp-skip-backward-to-symbol 'CUA 'move) + +(defun sp-skip-into-string (&optional back) + "Move the point into the next string. + +With BACK non-nil, move backwards." + (if back + (while (not (sp-point-in-string)) + (backward-char)) + (while (not (sp-point-in-string)) + (forward-char)))) + +;; TODO: in ruby, "foo |if bar" now moves correctly, but there's a +;; noticable lag before it jumps over "if". This is probably caused +;; by :skip-match handlers. Investigate! +(defun sp-forward-symbol (&optional arg) + "Move point to the next position that is the end of a symbol. + +With ARG being positive number N, repeat that many times. + +With ARG being Negative number -N, repeat that many times in +backward direction. + +A symbol is any sequence of characters that are in either the +word constituent or symbol constituent syntax class. Current +symbol only extend to the possible opening or closing delimiter +as defined by `sp-add-pair' even if part of this delimiter +would match \"symbol\" syntax classes. + +Examples: + + |foo bar baz -> foo| bar baz + + |foo (bar (baz)) -> foo (bar| (baz)) ;; 2 + + |foo (bar (baz) quux) -> foo (bar (baz) quux|) ;; 4" + (interactive "^p") + (setq arg (or arg 1)) + (sp--with-case-sensitive + (let* ((n (abs arg)) + (fw (> arg 0)) + (allowed (sp--get-allowed-pair-list)) + (open (sp--get-opening-regexp allowed)) + (close (sp--get-closing-regexp allowed))) + (if fw + (while (> n 0) + ;; First we need to get to the beginning of a symbol. This means + ;; skipping all whitespace and pair delimiters until we hit + ;; something in \sw or \s_ + (while (cond + ((eobp) nil) + ((not (memq (char-syntax (following-char)) '(?w ?_))) + (forward-char) + t) + ;; if allowed is empty, the regexp matches anything + ;; and we go into infinite loop, cf. Issue #400 + ((and allowed (sp--valid-initial-delimiter-p (sp--looking-at open))) + (goto-char (match-end 0))) + ((and allowed (sp--valid-initial-delimiter-p (sp--looking-at close))) + (goto-char (match-end 0))))) + (while (and (not (eobp)) + (or (not allowed) + (not (or (sp--valid-initial-delimiter-p (sp--looking-at open)) + (sp--valid-initial-delimiter-p (sp--looking-at close))))) + (memq (char-syntax (following-char)) '(?w ?_))) + (forward-char)) + (setq n (1- n))) + (sp-backward-symbol n))))) + +(put 'sp-forward-symbol 'CUA 'move) + +(defun sp-backward-symbol (&optional arg) + "Move point to the next position that is the beginning of a symbol. + +With ARG being positive number N, repeat that many times. + +With ARG being Negative number -N, repeat that many times in +forward direction. + +A symbol is any sequence of characters that are in either the word +constituent or symbol constituent syntax class. Current symbol only +extend to the possible opening or closing delimiter as defined by +`sp-add-pair' even if part of this delimiter would match \"symbol\" +syntax classes. + +Examples: + + foo bar| baz -> foo |bar baz + + ((foo bar) baz)| -> ((foo |bar) baz) ;; 2 + + (quux ((foo) bar) baz)| -> (|quux ((foo) bar) baz) ;; 4" + (interactive "^p") + (setq arg (or arg 1)) + (sp--with-case-sensitive + (let ((n (abs arg)) + (fw (> arg 0)) + (open (sp--get-opening-regexp (sp--get-allowed-pair-list))) + (close (sp--get-closing-regexp (sp--get-allowed-pair-list)))) + (if fw + (while (> n 0) + (while (cond + ((bobp) nil) + ((not (memq (char-syntax (preceding-char)) '(?w ?_))) + (backward-char) + t) + ((sp--valid-initial-delimiter-p (sp--looking-back open)) + (goto-char (match-beginning 0))) + ((sp--valid-initial-delimiter-p (sp--looking-back close)) + (goto-char (match-beginning 0))))) + (while (and (not (bobp)) + (not (or (sp--valid-initial-delimiter-p (sp--looking-back open)) + (sp--valid-initial-delimiter-p (sp--looking-back close)))) + (memq (char-syntax (preceding-char)) '(?w ?_))) + (backward-char)) + (setq n (1- n))) + (sp-forward-symbol n))))) + +(put 'sp-backward-symbol 'CUA 'move) + +(defun sp-rewrap-sexp (pair &optional keep-old) + "Rewrap the enclosing expression with a different pair. + +PAIR is the new enclosing pair. + +If optional argument KEEP-OLD is set, keep old delimiter and wrap +with PAIR on the outside of the current expression. + +When used interactively, the new pair is specified in minibuffer +by typing the *opening* delimiter, same way as with pair +wrapping. + +When used interactively with raw prefix argument \\[universal-argument], KEEP-OLD +is set to non-nil. + +Examples: + + (foo |bar baz) -> [foo |bar baz] ;; [ + + (foo |bar baz) -> [(foo |bar baz)] ;; \\[universal-argument] [" + (interactive (list + (let ((available-pairs (sp--get-pair-list-context)) + ev ac (pair-prefix "")) + (while (not ac) + (setq ev (read-event (format "Rewrap with: %s" pair-prefix) t)) + (setq pair-prefix (concat pair-prefix (format-kbd-macro (vector ev)))) + (unless (--any? (string-prefix-p pair-prefix (car it)) available-pairs) + (user-error "Impossible pair prefix selected: %s" pair-prefix)) + (setq ac (--first (equal pair-prefix (car it)) available-pairs))) + ac) + current-prefix-arg)) + (-when-let (enc (sp-get-enclosing-sexp)) + (save-excursion + (sp-get enc + (goto-char :end) + (unless keep-old + (delete-char (- :cl-l))) + (insert (cdr pair)) + (goto-char :beg) + (insert (car pair)) + (unless keep-old + (delete-char :op-l)))) + (sp--run-hook-with-args (sp-get enc :op) :post-handlers 'rewrap-sexp))) + +(defun sp-swap-enclosing-sexp (&optional arg) + "Swap the enclosing delimiters of this and the parent expression. + +With N > 0 numeric argument, ascend that many levels before +swapping. + +Examples: + + (foo [|bar] baz) -> [foo (|bar) baz] ;; 1 + + (foo {bar [|baz] quux} quack) -> [foo {bar (|baz) quux} quack] ;; 2" + (interactive "p") + (let ((enc (sp-get-enclosing-sexp)) + (encp (sp-get-enclosing-sexp (1+ arg)))) + (if (and enc encp) + (save-excursion + (sp-get encp + (goto-char :end) + (delete-char (- :cl-l))) + (sp-get enc + (insert :cl) + (goto-char :end) + (delete-char (- :cl-l))) + (sp-get encp (insert :cl)) + (sp-get enc (goto-char :beg-prf)) + (sp-get encp (insert :prefix :op)) + (sp-get enc (delete-char (+ :op-l :prefix-l))) + (sp-get encp (goto-char :beg-prf)) + (sp-get enc (insert :prefix :op)) + (sp-get encp (delete-char (+ :op-l :prefix-l)))) + (sp-message :point-not-deep-enough)))) + +(defun sp--unwrap-sexp (sexp &optional no-cleanup) + "Unwrap expression defined by SEXP. + +Warning: this function remove possible empty lines and reindents +the unwrapped sexp, so the SEXP structure will no longer +represent a valid object in a buffer!" + (sp-get sexp + (delete-region :end-in :end) + (delete-region :beg-prf :beg-in)) + ;; if the delimiters were the only thing on the line, we should also + ;; get rid of the (possible) empty line that will be the result of + ;; their removal. This is especially nice in HTML mode or + ;; long-running tags like \[\] in latex. + (unless no-cleanup + (let ((new-start (sp-get sexp :beg-prf)) + (new-end (sp-get sexp (- :end-in :op-l :prefix-l))) + indent-from indent-to) + (save-excursion + (goto-char new-end) + (when (string-match-p "^[\n\t ]+\\'" (thing-at-point 'line)) + (let ((b (bounds-of-thing-at-point 'line))) + (delete-region (car b) (cdr b)))) + (setq indent-to (point)) + (goto-char new-start) + (when (string-match-p "^[\n\t ]+\\'" (thing-at-point 'line)) + (let ((b (bounds-of-thing-at-point 'line))) + (delete-region (car b) (cdr b)))) + (setq indent-from (point))) + (unless (memq major-mode sp-no-reindent-after-kill-modes) + (sp--keep-indentation + (sp--indent-region indent-from indent-to)))))) + +(defun sp-unwrap-sexp (&optional arg) + "Unwrap the following expression. + +With ARG N, unwrap Nth expression as returned by +`sp-forward-sexp'. If ARG is negative -N, unwrap Nth expression +backwards as returned by `sp-backward-sexp'. + +Return the information about the just unwrapped expression. Note +that this structure does not represent a valid expression in the +buffer. + +Examples: + + |(foo bar baz) -> |foo bar baz + + (foo bar| baz) -> foo bar| baz + + |(foo) (bar) (baz) -> |(foo) bar (baz) ;; 2" + (interactive "p") + (setq arg (or arg 1)) + (let ((sp-navigate-consider-symbols nil)) + (let ((ok (save-excursion (sp-forward-sexp arg)))) + (when ok (sp--unwrap-sexp ok)) + ok))) + +(defun sp-backward-unwrap-sexp (&optional arg) + "Unwrap the previous expression. + +With ARG N, unwrap Nth expression as returned by +`sp-backward-sexp'. If ARG is negative -N, unwrap Nth expression +forward as returned by `sp-forward-sexp'. + +Examples: + + (foo bar baz)| -> foo bar baz| + + (foo bar)| (baz) -> foo bar| (baz) + + (foo) (bar) (baz)| -> foo (bar) (baz) ;; 3" + (interactive "p") + (sp-unwrap-sexp (- (or arg 1)))) + +(defun sp-splice-sexp (&optional arg) + "Unwrap the current list. + +With ARG N, unwrap Nth list as returned by applying `sp-up-sexp' +N times. This function expect positive arg. + +Examples: + + (foo (bar| baz) quux) -> (foo bar| baz quux) + + (foo |(bar baz) quux) -> foo |(bar baz) quux + + (foo (bar| baz) quux) -> foo (bar| baz) quux ;; 2" + (interactive "p") + (setq arg (or arg 1)) + (-when-let (ok (sp-get-enclosing-sexp arg)) + (if (equal ";" (sp-get ok :prefix)) + (sp-get ok + (save-excursion + (goto-char :beg) + (-when-let (enc (sp-get-enclosing-sexp arg)) + (sp--unwrap-sexp enc)))) + (sp--unwrap-sexp ok)))) + +(defun sp--splice-sexp-do-killing (beg end expr &optional jump-end) + "Save the text in the region between BEG and END inside EXPR, +then delete EXPR and insert the saved text. + +If optional argument JUPM-END is equal to the symbol 'end move +the point after the re-inserted text." + (let (str p) + (setq str (buffer-substring-no-properties beg end)) + (delete-region (sp-get expr :beg-prf) (sp-get expr :end)) + (save-excursion + (insert str) + (sp--indent-region (sp-get expr :beg-prf) (point)) + (setq p (point))) + (when (eq jump-end 'end) (goto-char p)))) + +(defun sp-splice-sexp-killing-backward (&optional arg) + "Unwrap the current list and kill all the expressions +between start of this list and the point. + +With the optional argument ARG, repeat that many times. This +argument should be positive number. + +Examples: + + (foo (let ((x 5)) |(sqrt n)) bar) -> (foo |(sqrt n) bar) + +​ (when ok| |(perform-operation-1) +​ (perform-operation-1) -> (perform-operation-2) +​ (perform-operation-2)) + +​ (save-excursion -> |(awesome-stuff-happens) ;; 2 +​ (unless (test) +​ |(awesome-stuff-happens))) + +Note that to kill only the content and not the enclosing +delimiters you can use \\[universal-argument] \\[sp-backward-kill-sexp]. +See `sp-backward-kill-sexp' for more information." + (interactive "p") + (while (> arg 0) + (sp-splice-sexp-killing-around '(4)) + (setq arg (1- arg)))) + +;; TODO: write in terms of `sp-splice-sexp-killing-around'. +(defun sp-splice-sexp-killing-forward (&optional arg) + "Unwrap the current list and kill all the expressions between +the point and the end of this list. + +With the optional argument ARG, repeat that many times. This +argument should be positive number. + +Examples: + + (a (b c| d e) f) -> (a b c| f) + + (+ (x |y z) w) -> (+ x| w) + +Note that to kill only the content and not the enclosing +delimiters you can use \\[universal-argument] \\[sp-kill-sexp]. +See `sp-kill-sexp' for more information." + (interactive "p") + (while (> arg 0) + (let ((ok (sp-get-enclosing-sexp 1))) + (if ok + (let ((next (sp-get-thing t))) + (if (sp-compare-sexps next ok) + (sp-kill-sexp '(16)) + (sp--splice-sexp-do-killing + (sp-get next :end) ;search backward + (sp-get ok :beg-in) + ok 'end))) + (setq arg -1))) + (setq arg (1- arg)))) + +(defun sp-splice-sexp-killing-around (&optional arg) + "Unwrap the current list and kill everything inside except next expression. + +With ARG save that many next expressions. With ARG negative -N, +save that many expressions backward. + +If ARG is raw prefix argument \\[universal-argument] this function behaves exactly +the same as `sp-splice-sexp-killing-backward'. + +If ARG is negative raw prefix argument \\[negative-argument] \\[universal-argument] this function +behaves exactly the same as `sp-splice-sexp-killing-forward'. + +Note that the behaviour with the prefix argument seems to be +reversed. This is because the backward variant is much more +common and hence deserve shorter binding. + +If ARG is raw prefix argument \\[universal-argument] \\[universal-argument] raise the expression the point +is inside of. This is the same as `sp-backward-up-sexp' followed by +`sp-splice-sexp-killing-around'. + +Examples: + + (a b |(c d) e f) -> |(c d) ;; with arg = 1 + + (a b |c d e f) -> |c d ;; with arg = 2 + + (- (car x) |a 3) -> (car x)| ;; with arg = -1 + + (foo (bar |baz) quux) -> |(bar baz) ;; with arg = \\[universal-argument] \\[universal-argument]" + (interactive "P") + (cond + ((equal arg '(-4)) + (sp-splice-sexp-killing-forward 1)) + (t + (if (equal arg '(16)) + (progn + (sp-backward-up-sexp) + (setq arg 1))) + (let* (inside-comment-inside-sexp + (num-arg (prefix-numeric-value arg)) + (ok ;; (sp-get-enclosing-sexp 1) + (save-excursion + (sp-skip-backward-to-symbol) + ;; if the point is inside a comment, we want to + ;; operate on the sexp that contains it. however, + ;; if we are inside a sexp inside a comment, we + ;; should operate on that instead. + (if (sp-point-in-comment) + (let ((enc (sp-get-enclosing-sexp 1)) + (cb (sp-get-comment-bounds))) + (if (> (sp-get enc :beg) (car cb)) + (progn + (setq inside-comment-inside-sexp t) + enc) + (goto-char (cdr cb)) + ;; todo: replace with something more + ;; abstract + (skip-chars-forward "\t\n ") + (sp-get-enclosing-sexp 1))) + (sp-get-enclosing-sexp 1)))) + str) + (when ok + (when (and (sp-point-in-comment) + (not inside-comment-inside-sexp)) + (let ((cb (sp-get-comment-bounds))) + (goto-char (if (> num-arg 0) (car cb) (cdr cb))))) + (sp-skip-backward-to-symbol) + (-let* ((next (sp--next-thing-selection arg)) + ((from . to) + (cond + ((and (sp-point-in-comment) + (not inside-comment-inside-sexp)) + (if (> num-arg 0) + ;; only extends to keep the comment if raising + ;; towards the end. + (cons (car (sp-get-comment-bounds)) + (sp-get next :end-suf)) + (sp-get next (cons :beg-prf :end-suf)))) + ((and (sp-point-in-comment) + inside-comment-inside-sexp) + (sp-get next (cons :beg-prf :end-suf))) + ;; If we are splicing before a comment, the + ;; comment might be connected to the sexp + ;; after it, so we better don't kill it. Only + ;; do that if the comment is on its own line + ;; though, otherwise it is connected to the + ;; sexp before it. + ((save-excursion + (skip-chars-forward "\t\n ") + (when (and (> num-arg 0) + (sp-point-in-comment) + (save-excursion + (skip-chars-backward "\t ") + (looking-back "^"))) + (cons (point) (sp-get next :end-suf))))) + ;; similarly, if there is a comment before + ;; this sexp, keep it. + ((save-excursion + (sp-backward-symbol) + (when (and (> num-arg 0) + (sp-point-in-comment) + (goto-char (car (sp-get-comment-bounds))) + (> (point) (sp-get ok :beg)) + (save-excursion + (skip-chars-backward "\t ") + (looking-back "^"))) + (cons (point) (sp-get next :end-suf))))) + (t (sp-get next (cons :beg-prf :end-suf)))))) + (sp--splice-sexp-do-killing from to + ok (if (> num-arg 0) nil 'end)))))))) + +(defalias 'sp-raise-sexp 'sp-splice-sexp-killing-around) + +(defun sp-convolute-sexp (&optional arg) + "Convolute balanced expressions. + +Save the expressions preceding point and delete them. Then +splice the resulting expression. Wrap the current enclosing list +with the delimiters of the spliced list and insert the saved +expressions. + +With ARG positive N, move up N lists before wrapping. + +Examples: + +We want to move the `while' before the `let'. + +​ (let ((stuff 1) (while (we-are-good) +​ (other 2)) (let ((stuff 1) +​ (while (we-are-good) -> (other 2)) +​ |(do-thing 1) |(do-thing 1) +​ (do-thing 2) (do-thing 2) +​ (do-thing 3))) (do-thing 3))) + + (forward-char (sp-get env |:op-l)) -> (sp-get env (forward-char |:op-l))" + (interactive "p") + (save-excursion + (let* ((old-buffer-size (buffer-size)) + (enc (sp-get-enclosing-sexp)) + (inner-close (sp-get enc (delete-and-extract-region + (save-excursion + (goto-char :end-in) + (sp-backward-whitespace)) + :end))) + (inner-raise (sp-get enc (delete-and-extract-region + :beg-prf + (save-excursion + (sp-forward-whitespace))))) + (whitespace (sp-get enc + ;; this happens when the entire inside sexp was removed. + (when (= old-buffer-size (+ (buffer-size) :len)) + (delete-and-extract-region + (save-excursion + (goto-char :beg-prf) + (max (line-beginning-position) (sp-backward-whitespace))) + :beg-prf)))) + (encp (sp-get-enclosing-sexp arg))) + (sp-get encp + (goto-char :end) + (insert inner-close) + (goto-char :beg-prf) + (insert inner-raise (if whitespace whitespace "")) + (sp-get (sp-get-enclosing-sexp) + (sp--indent-region :beg :end))))) + (indent-according-to-mode)) + +(defun sp-absorb-sexp (&optional arg) + "Absorb previous expression. + +Save the expressions preceding point and delete them. Then slurp +an expression backward and insert the saved expressions. + +With ARG positive N, absorb that many expressions. + +Examples: + +​ (do-stuff 1) (save-excursion +​ (save-excursion -> |(do-stuff 1) +​ |(do-stuff 2)) (do-stuff 2)) + + foo bar (concat |baz quux) -> (concat |foo bar baz quux) ;; 2" + (interactive "p") + (sp-forward-whitespace) + (let* ((old (point)) + (raise (progn + (sp-beginning-of-sexp) + (buffer-substring (point) old)))) + (delete-region (point) old) + (sp-backward-slurp-sexp arg) + (sp-forward-whitespace) + (sp-beginning-of-sexp) + (insert raise) + (save-excursion + (sp-backward-up-sexp) + (indent-sexp))) + (sp-forward-whitespace)) + +(defun sp-emit-sexp (&optional arg) + "Move all expression preceding point except the first one out of the current list. + +With ARG positive N, keep that many expressions from the start of +the current list. + +This is similar as `sp-backward-barf-sexp' but it also drags the +first N expressions with the delimiter. + +Examples: + +​ (save-excursion ​(do-stuff 1) +​ (do-stuff 1) (do-stuff 2) +​ (do-stuff 2) -> (save-excursion +​ |(do-stuff 3)) |(do-stuff 3)) + +​ (while not-done-yet (execute-only-once) +​ (execute-only-once) -> (while not-done-yet ;; arg = 2 +​ |(execute-in-loop)) |(execute-in-loop))" + (interactive "p") + (let (save-text) + (save-excursion + (sp-beginning-of-sexp) + (let* ((start (point))) + (sp-forward-sexp arg) + (sp-skip-forward-to-symbol t) + (setq save-text (buffer-substring start (point))) + (delete-region start (point)))) + (save-excursion (sp-backward-barf-sexp '(4))) + (sp-down-sexp) + (insert save-text) + (save-excursion + (sp-backward-up-sexp) + (indent-sexp)))) + +(defun sp-extract-before-sexp (&optional arg) + "Move the expression after point before the enclosing balanced expression. + +The point moves with the extracted expression. + +With ARG positive N, extract N expressions after point. + +With ARG negative -N, extract N expressions before point. + +With ARG being raw prefix argument \\[universal-argument], extract all the expressions +up until the end of enclosing list. + +If the raw prefix is negative, this behaves as \\[universal-argument] `sp-backward-barf-sexp'." + (interactive "P") + (if (equal arg '(-4)) + (sp-backward-barf-sexp '(4)) + (sp-select-next-thing arg) + (let ((enc (sp-get-enclosing-sexp)) + save-text b e nl) + (save-excursion + ;; TODO: extract this use pattern into general "get X things + ;; with or without surrounding whitespace." + (setq b (region-beginning)) + (setq e (region-end)) + (goto-char (sp-get enc :end-in)) + (if (looking-back "\n[ \t]*") + (let ((whitespace (sp-get-whitespace))) + (sp-get whitespace (when (= :beg e) + (delete-region :beg :end)))) + (setq nl t)) + (setq save-text (delete-and-extract-region b e)) + (when nl + (let ((whitespace (sp-get-whitespace))) + (sp-get whitespace (delete-region :beg :end)))) + (goto-char (sp-get enc :beg-prf)) + (insert save-text "\n") + (sp-get enc (sp--indent-region :beg-prf :end))) + ;; if we're at an empty line, remove it + (when (string-match-p "^[\n\t ]+\\'" (thing-at-point 'line)) + (let ((b (bounds-of-thing-at-point 'line))) + (delete-region (car b) (cdr b)))) + (goto-char (sp-get enc :beg-prf))))) + +(defun sp-extract-after-sexp (&optional arg) + "Move the expression after point after the enclosing balanced expression. + +The point moves with the extracted expression. + +With ARG positive N, extract N expressions after point. + +With ARG negative -N, extract N expressions before point. + +With ARG being raw prefix argument \\[universal-argument], extract all the +expressions up until the end of enclosing list. + +With ARG being negative raw prefix argument \\[negative-argument] \\[universal-argument], extract all the +expressions up until the start of enclosing list." + ;; this is uch uglier than the "before" version, since the + ;; calculations forward have to account for the deleted text. Figure + ;; out a way to make it smoother. + (interactive "P") + (sp-select-next-thing arg) + (sp--with-case-sensitive + (let ((enc (sp-get-enclosing-sexp)) + (dws 0) ;length of deleted whitespace + save-text b e nl) + (save-excursion + (setq b (region-beginning)) + (setq e (region-end)) + (goto-char (sp-get enc :end-in)) + (if (looking-back "\n[ \t]*") + (let ((whitespace (sp-get-whitespace))) + (sp-get whitespace + (when (= :beg e) + (delete-region :beg :end) + (setq dws (- :end :beg))))) + (setq nl t)) + (setq save-text (delete-and-extract-region b e)) + (when nl + (let ((whitespace (sp-get-whitespace))) + (sp-get whitespace (delete-region :beg :end)) + (sp-get whitespace (setq dws (+ dws (- :end :beg)))))) + (sp-get enc (goto-char (- :end (length save-text) dws))) + (insert "\n" save-text) + (sp-get enc (sp--indent-region :beg-prf :end)) + (setq e (point))) + ;; if we're at an empty line, remove it + (setq dws 0) ; variable reuse, ugly :/ + (when (string-match-p "^[\n\t ]+\\'" (thing-at-point 'line)) + (let ((b (bounds-of-thing-at-point 'line))) + (delete-region (car b) (cdr b)) + (setq dws (- (cdr b) (car b))))) + (when (sp--looking-back (sp--get-opening-regexp) nil t) + (let ((whitespace (sp-get-whitespace))) + (sp-get whitespace + (delete-region :beg :end) + (setq dws (- :end :beg))))) + (goto-char (- e dws))))) + +(defun sp-forward-whitespace (&optional arg) + "Skip forward past the whitespace characters. +With non-nil ARG return number of characters skipped." + (interactive "^P") + (let ((rel-move (skip-chars-forward " \t\n"))) + (if arg rel-move (point)))) + +(put 'sp-forward-whitespace 'CUA 'move) + +(defun sp-backward-whitespace (&optional arg) + "Skip backward past the whitespace characters. +With non-nil ARG return number of characters skipped." + (interactive "^P") + (let ((rel-move (skip-chars-backward " \t\n"))) + (if arg rel-move (point)))) + +(put 'sp-backward-whitespace 'CUA 'move) + +(defun sp-split-sexp (arg) + "Split the list or string the point is on into two. + +If ARG is a raw prefix \\[universal-argument] split all the sexps in current expression +in separate lists enclosed with delimiters of the current +expression. + +See also setting `sp-split-sexp-always-split-as-string' which +determines how sexps inside strings are treated and also for a +discussion of how to automatically add concatenation operators to +string splitting. + +Examples: + + (foo bar |baz quux) -> (foo bar) |(baz quux) + + \"foo bar |baz quux\" -> \"foo bar\" |\"baz quux\" + + ([foo |bar baz] quux) -> ([foo] |[bar baz] quux) + + (foo bar| baz quux) -> (foo) (bar|) (baz) (quux) ;; \\[universal-argument]" + (interactive "P") + (cond + ((equal arg '(4)) + (-when-let (items (sp-get-list-items)) + (let ((op (sp-get (car items) :op)) + (cl (sp-get (car items) :cl)) + (beg (sp-get (car items) :beg)) + (end (sp-get (car items) :end))) + (!cdr items) + (setq items (nreverse items)) + (save-excursion + (goto-char end) + (delete-char (- (length cl))) + (while items + (sp-get (car items) + (goto-char :end) + (insert cl) + (goto-char :beg) + (insert op)) + (!cdr items)) + (goto-char beg) + (delete-char (length op)))))) + (t + (let ((should-split-as-string + (and sp-split-sexp-always-split-as-string + (sp-point-in-string)))) + (-when-let (ok (if should-split-as-string + (save-excursion + (goto-char (1- (cdr (sp-get-quoted-string-bounds)))) + (sp-get-enclosing-sexp 1)) + (sp-get-enclosing-sexp 1))) + (sp-get ok + (sp--run-hook-with-args :op :pre-handlers 'split-sexp) + (if should-split-as-string + (progn + (insert :cl) + (save-excursion (insert :op))) + (forward-char (- (prog1 (sp-backward-whitespace t) (insert :cl)))) + (save-excursion (sp-forward-whitespace) (insert :op))) + (sp--run-hook-with-args :op :post-handlers 'split-sexp))))))) + +(defun sp--join-sexp (prev next) + "Join the expressions PREV and NEXT if they are of the same type. + +The expression with smaller :beg is considered the previous one, +so the input order does not actually matter. + +Return the information about resulting expression." + (if (and (sp-compare-sexps prev next equal :op) + (sp-compare-sexps prev next equal :cl)) + ;; if there's some prefix on the second expression, remove it. + ;; We do not move it to the first expression, it is assumed + ;; there's one already + (progn + (if (sp-compare-sexps prev next >) + (let ((tmp prev)) + (setq prev next) + (setq next tmp))) + (sp-get next (delete-region :beg-prf :beg-in)) + (sp-get prev (delete-region :end-in :end)) + (list :beg (sp-get prev :beg) + :end (- (sp-get next (- :end :op-l :prefix-l)) (sp-get prev :cl-l)) + :op (sp-get prev :op) + :cl (sp-get prev :cl) + :prefix (sp-get prev :prefix))) + (sp-message :different-type))) + +(defun sp-join-sexp (&optional arg) + "Join the sexp before and after point if they are of the same type. + +If ARG is positive N, join N expressions after the point with the +one before the point. + +If ARG is negative -N, join N expressions before the point with +the one after the point. + +If ARG is a raw prefix \\[universal-argument] join all the things up until the end +of current expression. + +The joining stops at the first expression of different type. + +Examples: + + (foo bar) |(baz) -> (foo bar |baz) + + (foo) |(bar) (baz) -> (foo |bar baz) ;; 2 + + [foo] [bar] |[baz] -> [foo bar |baz] ;; -2 + + (foo bar (baz)| (quux) (blob bluq)) -> (foo bar (baz| quux blob bluq)) ;; \\[universal-argument]" + (interactive "P") + (let* ((raw (sp--raw-argument-p arg)) + (arg (prefix-numeric-value arg)) + (n (abs arg)) + (prev (save-excursion (sp-backward-sexp (sp--signum arg)))) + next) + (save-excursion + (cond + ((and raw (= n 4)) + (setq next (sp-forward-sexp (sp--signum arg))) + (while (cond + ((> arg 0) + (sp-compare-sexps next prev > :beg :end)) + ((< arg 0) + (sp-compare-sexps next prev < :end :beg))) + (setq prev (sp--join-sexp prev next)) + (setq next (sp-forward-sexp (sp--signum arg))))) + (t (while (> n 0) + (setq next (sp-forward-sexp (sp--signum arg))) + (setq prev (sp--join-sexp prev next)) + (setq n (1- n))))) + prev))) + +(defun sp--next-thing-selection (&optional arg point) + "Return the bounds of selection over next thing. + +See `sp-select-next-thing' for the meaning of ARG. + +If POINT is non-nil, it is assumed it's a point inside the buffer +from which the selection extends, either forward or backward, +depending on the value of ARG. + +The return value has the same format as `sp-get-sexp'. This does +not necessarily represent a valid balanced expression!" + (save-excursion + (let* ((raw (sp--raw-argument-p arg)) + (arg (prefix-numeric-value arg)) + (dir (sp--signum arg)) + (beg point) (end point) + (op "") (cl "") + (prefix "") + (suffix "")) + (cond + ;; select up until end of list + ((and raw (= arg 4)) + (let ((enc (sp-get-enclosing-sexp))) + (if (not enc) + (error "No enclosing expression") + (save-excursion + (goto-char (sp-get enc :end-in)) + (-when-let (ok (sp-get-thing t)) + (sp-get ok + (setq end :end) + (setq cl :cl) + (setq suffix :suffix))))) + (unless point + (-when-let (ok (sp-get-thing)) + (if (sp-compare-sexps ok enc) + (progn + (setq beg end) + (setq end (sp-get enc :end-in))) + (sp-get ok + (setq beg :beg) + (setq op :op) + (setq prefix :prefix))))))) + ;; select up until beg of list + ((and raw (= arg -4)) + (let ((enc (sp-get-enclosing-sexp))) + (if (not enc) + (error "No enclosing expression") + (save-excursion + (goto-char (sp-get enc :beg-in)) + (-when-let (ok (sp-get-thing)) + (sp-get ok + (setq beg :beg) + (setq op :op) + (setq prefix :prefix)))))) + (unless point + (-when-let (ok (sp-get-thing t)) + (sp-get ok + (setq end :end) + (setq cl :cl) + (setq suffix :suffix))))) + ;; select the enclosing expression + ((and raw (= (abs arg) 16)) + (let ((enc (sp-get-enclosing-sexp))) + (if (not enc) + (error "No enclosing expression") + (sp-get enc (setq beg :beg) (setq end :end) + (setq op :op) (setq cl :cl) + (setq prefix :prefix) + (setq suffix :suffix))))) + ;; normal selection, select N expressions + ((> arg 0) + (let* ((first (sp-forward-sexp)) + (last first)) + (setq arg (1- arg)) + (setq beg (or point (sp-get first :beg))) + (while (and (> arg 0) last) + (setq last (sp-forward-sexp)) + (let ((nb (sp-get last :beg))) (when (< nb beg) + (setq first last) + (setq beg nb))) + (setq arg (1- arg))) + (unless (and point (= point beg)) + (sp-get first + (setq beg :beg) + (setq op :op) + (setq prefix :prefix))) + (sp-get last + (setq end :end) + (setq cl :cl) + (setq suffix :suffix)))) + ;; normal select, select -N expressions + ((< arg 0) + (let* ((first (sp-backward-sexp)) + (last first)) + (setq arg (1+ arg)) + (setq end (or point (sp-get first :end))) + (while (and (< arg 0) last) + (setq last (sp-backward-sexp)) + (let ((ne (sp-get last :end))) (when (> ne end) + (setq first last) + (setq end ne))) + (setq arg (1+ arg))) + (sp-get last + (setq beg :beg) + (setq op :op) + (setq prefix :prefix)) + (unless (and point (= point end)) + (sp-get first + (setq end :end) + (setq cl :cl) + (setq suffix :suffix))))) + ;; N = 0, select insides + ((= arg 0) + (let ((enc (sp-get-enclosing-sexp))) + (if (not enc) + (error "No enclosing expression") + (save-excursion + (goto-char (sp-get enc :beg-in)) + (-when-let (ok (sp-get-thing)) + (sp-get ok + (setq beg :beg) + (setq op :op) + (setq prefix :prefix)))) + (save-excursion + (goto-char (sp-get enc :end-in)) + (-when-let (ok (sp-get-thing t)) + (sp-get ok + (setq end :end) + (setq cl :cl) + (setq suffix :suffix)))))))) + (list :beg beg :end end :op op :cl cl :prefix prefix :suffix suffix)))) + +(defun sp-select-next-thing (&optional arg point) + "Set active region over next thing as recognized by `sp-get-thing'. + +If ARG is positive N, select N expressions forward. + +If ARG is negative -N, select N expressions backward. + +If ARG is a raw prefix \\[universal-argument] select all the things up until the +end of current expression. + +If ARG is a raw prefix \\[universal-argument] \\[universal-argument] select the current expression (as +if doing `sp-backward-up-sexp' followed by +`sp-select-next-thing'). + +If ARG is number 0 (zero), select all the things inside the +current expression. + +If POINT is non-nil, it is assumed it's a point inside the buffer +from which the selection extends, either forward or backward, +depending on the value of ARG. + +If the currently active region contains a balanced expression, +following invocation of `sp-select-next-thing' will select the +inside of this expression . Therefore calling this function +twice with no active region will select the inside of the next +expression. + +If the point is right in front of the expression any potential +prefix is ignored. For example, '|(foo) would only select (foo) +and not include ' in the selection. If you wish to also select +the prefix, you have to move the point backwards. + +With `sp-navigate-consider-symbols' symbols and strings are also +considered balanced expressions." + (interactive "P") + (let* ((selection (sp--next-thing-selection arg point)) + (p (point)) + (b (sp-get selection :beg)) + (e (sp-get selection :end)) + contracted) + ;; Show a helpful error if we're trying to move beyond the + ;; beginning or end of the buffer. + (when (or (null b) (null e)) + (user-error (if (bobp) "At beginning of buffer" "At end of buffer"))) + ;; if region is active and ready to use, check if this selection + ;; == old selection. If so, reselect the insides + (when (region-active-p) + (let ((rb (region-beginning)) + (re (region-end))) + (when (and (sp-get selection + (or (= rb :beg) + (= rb :beg-prf))) + (= re (sp-get selection :end))) + (sp-get selection + (setq b :beg-in) + (setq e :end-in)) + (setq contracted t)))) + ;; if we moved forward check if the old-point was in front of an + ;; expression and after a prefix. If so, remove the prefix from + ;; the selection + (unless (and (> (prefix-numeric-value arg) 0) + (not (sp--raw-argument-p arg)) + (= b p)) + (unless contracted (setq b (sp-get selection :beg-prf)))) + (push-mark b t t) + (goto-char e) + selection)) + +(defun sp-select-previous-thing (&optional arg point) + "Set active region over ARG previous things as recognized by `sp-get-thing'. + +If ARG is negative -N, select that many expressions forward. + +With `sp-navigate-consider-symbols' symbols and strings are also +considered balanced expressions." + (interactive "P") + (sp-select-next-thing (sp--negate-argument arg) point)) + +(defun sp-select-next-thing-exchange (&optional arg point) + "Just like `sp-select-next-thing' but run `exchange-point-and-mark' afterwards." + (interactive "P") + (prog1 + (sp-select-next-thing arg point) + (exchange-point-and-mark))) + +(defun sp-select-previous-thing-exchange (&optional arg point) + "Just like `sp-select-previous-thing' but run `exchange-point-and-mark' afterwards." + (interactive "P") + (prog1 + (sp-select-previous-thing arg point) + (exchange-point-and-mark))) + +(defun sp-delete-char (&optional arg) + "Delete a character forward or move forward over a delimiter. + +If on an opening delimiter, move forward into balanced expression. + +If on a closing delimiter, refuse to delete unless the balanced +expression is empty, in which case delete the entire expression. + +If the delimiter does not form a balanced expression, it will be +deleted normally. + +With a numeric prefix argument N > 0, delete N characters forward. + +With a numeric prefix argument N < 0, delete N characters backward. + +With a numeric prefix argument N = 0, simply delete a character +forward, without regard for delimiter balancing. + +If ARG is raw prefix argument \\[universal-argument], delete +characters forward until a closing delimiter whose deletion would +break the proper pairing is hit. + +Examples: + + (quu|x \"zot\") -> (quu| \"zot\") + + (quux |\"zot\") -> (quux \"|zot\") -> (quux \"|ot\") + + (foo (|) bar) -> (foo | bar) + + |(foo bar) -> (|foo bar)" + (interactive "P") + (sp--with-case-sensitive + (let* ((raw (sp--raw-argument-p arg)) + ;; if you edit 10 gigabyte files in Emacs, you're gonna have + ;; a bad time. + (n (if raw 100000000 + (prefix-numeric-value arg)))) + (cond + ((> n 0) + (while (> n 0) + (cond + ((let ((ok (sp-point-in-empty-sexp))) + (when ok + (backward-char (length (car ok))) + (delete-char (+ (length (car ok)) (length (cdr ok))))) + ok) + ;; make this customizable + (setq n (1- n))) + ((and (sp-point-in-string) + (save-excursion (forward-char) (not (sp-point-in-string)))) + (setq n 0)) + ((sp--looking-at (sp--get-opening-regexp (sp--get-pair-list-context 'navigate))) + (if (save-match-data (sp-get-thing)) + (goto-char (match-end 0)) + (delete-char (length (match-string 0)))) + ;; make this customizable + (setq n (1- n))) + ((and (not (sp-point-in-string)) + (save-excursion (forward-char) (sp-point-in-string))) + (forward-char) + ;; make this customizable + (setq n (1- n))) + ((sp--looking-at (sp--get-closing-regexp (sp--get-pair-list-context 'navigate))) + (if (save-match-data (sp-get-thing)) + ;; make this customizable -- maybe we want to skip and + ;; continue deleting + (setq n 0) + (delete-char (length (match-string 0))) + (setq n (1- n)))) + (t + (delete-char 1) + (setq n (1- n)))))) + ((= n 0) (delete-char 1)) + (t (sp-backward-delete-char (sp--negate-argument arg))))))) + +(defun sp-backward-delete-char (&optional arg) + "Delete a character backward or move backward over a delimiter. + +If on a closing delimiter, move backward into balanced expression. + +If on a opening delimiter, refuse to delete unless the balanced +expression is empty, in which case delete the entire expression. + +If the delimiter does not form a balanced expression, it will be +deleted normally. + +With a numeric prefix argument N > 0, delete N characters backward. + +With a numeric prefix argument N < 0, delete N characters forward. + +With a numeric prefix argument N = 0, simply delete a character +backward, without regard for delimiter balancing. + +If ARG is raw prefix argument \\[universal-argument], delete +characters backward until a opening delimiter whose deletion would +break the proper pairing is hit. + +Examples: + + (\"zot\" q|uux) -> (\"zot\" |uux) + + (\"zot\"| quux) -> (\"zot|\" quux) -> (\"zo|\" quux) + + (foo (|) bar) -> (foo | bar) + + (foo bar)| -> (foo bar|)" + (interactive "P") + (sp--with-case-sensitive + (let* ((raw (sp--raw-argument-p arg)) + ;; if you edit 10 gigabyte files in Emacs, you're gonna have + ;; a bad time. + (n (if raw 100000000 + (prefix-numeric-value arg)))) + (cond + ((> n 0) + (while (> n 0) + (cond + ((let ((ok (sp-point-in-empty-sexp))) + (when ok + (backward-char (length (car ok))) + (delete-char (+ (length (car ok)) (length (cdr ok))))) + ok) + ;; make this customizable + (setq n (1- n))) + ((and (sp-point-in-string) + (save-excursion (backward-char) (not (sp-point-in-string)))) + (setq n 0)) + ((sp--looking-back (sp--get-closing-regexp (sp--get-pair-list-context 'navigate))) + (if (save-match-data (sp-get-thing t)) + (goto-char (match-beginning 0)) + (delete-char (- (length (match-string 0))))) + ;; make this customizable + (setq n (1- n))) + ((and (not (sp-point-in-string)) + (save-excursion (backward-char) (sp-point-in-string))) + (backward-char) + ;; make this customizable + (setq n (1- n))) + ((sp--looking-back (sp--get-opening-regexp (sp--get-pair-list-context 'navigate))) + (if (save-match-data (sp-get-thing t)) + ;; make this customizable -- maybe we want to skip and + ;; continue deleting + (setq n 0) + (delete-char (- (length (match-string 0)))) + (setq n (1- n)))) + (t + (delete-char -1) + (setq n (1- n)))))) + ((= n 0) (delete-char -1)) + (t (sp-delete-char (sp--negate-argument arg))))))) + +(put 'sp-backward-delete-char 'delete-selection 'supersede) +(put 'sp-delete-char 'delete-selection 'supersede) + +(defun sp-point-in-empty-sexp (&optional pos) + "Return non-nil if point is in empty sexp or string. + +The return value is active cons pair of opening and closing sexp +delimiter enclosing this sexp." + (setq pos (or pos (point))) + (let (op act) + (cond + ((sp--looking-back (sp--get-opening-regexp (sp--get-pair-list-context 'navigate))) + (setq op (match-string 0)) + (setq act (--first (equal (car it) op) sp-pair-list)) + (when (sp--looking-at (regexp-quote (cdr act))) act)) + ((sp-point-in-empty-string pos))))) + +(defun sp-point-in-empty-string (&optional pos) + "Return non-nil if point is in empty sexp or string. + +The return value is actually cons pair of opening and closing +string delimiter enclosing this string." + (setq pos (or pos (point))) + (when (and (sp-point-in-string) + (save-excursion (forward-char) (not (sp-point-in-string))) + (save-excursion (backward-char) (not (sp-point-in-string)))) + (save-excursion + (let* ((syntax (nth 3 (syntax-ppss pos))) + (c (char-to-string (if (eq syntax t) (following-char) syntax)))) + (cons c c))))) + +(defun sp-zap-syntax (syntax &optional back) + "Delete characters forward until they match syntax class SYNTAX. + +If BACK is non-nil, delete backward." + (let ((p (point))) + (if back + (skip-syntax-backward syntax) + (skip-syntax-forward syntax)) + (delete-region p (point)))) + +(defun sp--use-subword () + "Return non-nil if word killing commands should kill subwords. +This is the case if `subword-mode' is enabled and +`sp-use-subword' is non-nil." + (and sp-use-subword (bound-and-true-p subword-mode))) + +(declare-function subword-kill "subword") +(declare-function subword-forward "subword") +(declare-function subword-backward "subword") + +(defun sp--kill-word (&optional n) + "Kill N words or subwords." + (let ((n (or n 1))) + (if (sp--use-subword) + (subword-kill n) + (kill-word n)))) + +(defun sp--forward-word (&optional n) + "Move forward N words or subwords." + (let ((n (or n 1))) + (if (sp--use-subword) + (subword-forward n) + (forward-word n)))) + +(defun sp--backward-word (&optional n) + "Move backward N words or subwords." + (let ((n (or n 1))) + (if (sp--use-subword) + (subword-backward n) + (backward-word n)))) + +(defun sp-kill-symbol (&optional arg word) + "Kill a symbol forward, skipping over any intervening delimiters. + +With ARG being positive number N, repeat that many times. + +With ARG being Negative number -N, repeat that many times in +backward direction. + +See `sp-forward-symbol' for what constitutes a symbol." + (interactive "p") + (sp--with-case-sensitive + (if (> arg 0) + (while (> arg 0) + (if (and word (sp-point-in-symbol)) + (sp--kill-word 1) + (let ((s (sp-get-symbol)) + (p (point))) + (when s + (sp-get s + (let ((delims (buffer-substring :beg-prf p))) + (if (string-match-p "\\`\\(\\s.\\|\\s-\\)*\\'" delims) + (if word + (kill-region p (save-excursion (sp--forward-word) (point))) + (kill-region p :end)) + (let ((kill-from (if (> p :beg-prf) :beg :beg-prf))) + (goto-char kill-from) + (if word + (kill-region kill-from (save-excursion (sp--forward-word) (point))) + (kill-region kill-from :end))))))))) + (sp--cleanup-after-kill) + (setq arg (1- arg))) + (sp-backward-kill-symbol (sp--negate-argument arg) word)))) + +(defun sp-kill-word (&optional arg) + "Kill a word forward, skipping over intervening delimiters. + +With ARG being positive number N, repeat that many times. + +With ARG being Negative number -N, repeat that many times in +backward direction." + (interactive "p") + (sp-kill-symbol arg t)) + +(defun sp-backward-kill-symbol (&optional arg word) + "Kill a symbol backward, skipping over any intervening delimiters. + +With ARG being positive number N, repeat that many times. + +With ARG being Negative number -N, repeat that many times in +forward direction. + +See `sp-backward-symbol' for what constitutes a symbol." + (interactive "p") + (sp--with-case-sensitive + (if (> arg 0) + (while (> arg 0) + (if (and word (sp-point-in-symbol)) + (sp--kill-word -1) + (let ((s (sp-get-symbol t)) + (p (point))) + (when s + (sp-get s + (let ((delims (buffer-substring :end p))) + (if (string-match-p "\\`\\(\\s.\\|\\s-\\)*\\'" delims) + ;; Note: the arguments to kill-region are + ;; "reversed" (end before beg) so that the + ;; successive kills are prepended in the kill + ;; ring. See the implementation of + ;; `kill-region' for more info + (if word + (kill-region p (save-excursion (sp--backward-word) (point))) + (kill-region p :beg-prf)) + (goto-char :end) + (if word + (kill-region :end (save-excursion (sp--backward-word) (point))) + (kill-region :end :beg-prf)))))))) + (sp--cleanup-after-kill) + (setq arg (1- arg))) + (sp-kill-symbol (sp--negate-argument arg) word)))) + +(defun sp-backward-kill-word (&optional arg) + "Kill a word backward, skipping over intervening delimiters. + +With ARG being positive number N, repeat that many times. + +With ARG being Negative number -N, repeat that many times in +backward direction." + (interactive "p") + (sp-backward-kill-symbol arg t)) + +(defun sp-indent-defun (&optional arg) + "Reindent the current defun. + +If point is inside a string or comment, fill the current +paragraph instead, and with ARG, justify as well. + +Otherwise, reindent the current defun, and adjust the position +of the point." + (interactive "P") + (if (sp-point-in-string-or-comment) + (fill-paragraph arg) + (let ((column (current-column)) + (indentation (sp--current-indentation))) + (save-excursion + (end-of-defun) + (beginning-of-defun) + (indent-sexp)) + (sp--back-to-indentation column indentation)))) + +(defun sp--balanced-context-p (count start-context end-context) + (let ((string-or-comment-count (cl-first count)) + (normal-count (cl-second count))) + (cond + ((and start-context (eq start-context end-context)) + (zerop string-or-comment-count)) + ((eq start-context end-context) (zerop normal-count)) + (t (= string-or-comment-count normal-count 0))))) + +(cl-defun sp-region-ok-p (start end) + (save-excursion + (save-restriction + (narrow-to-region start end) + (when (ignore-errors (scan-sexps (point-min) (point-max)) t) + (let ((count (list 0 0)) + (start-context (progn (goto-char start) (sp-point-in-string-or-comment))) + (end-context (progn (goto-char end) (sp-point-in-string-or-comment)))) + (dolist (pairs (sp--get-allowed-pair-list)) + (goto-char (point-min)) + (while (re-search-forward (sp--strict-regexp-quote (car pairs)) end :noerror) + (save-excursion + (backward-char) + (if (sp-point-in-string-or-comment) + (cl-incf (cl-first count)) + (cl-incf (cl-second count))))) + (goto-char (point-min)) + (while (re-search-forward (sp--strict-regexp-quote (cdr pairs)) end :noerror) + (save-excursion + (backward-char) + (if (sp-point-in-string-or-comment) + (cl-decf (cl-first count)) + (cl-decf (cl-second count))))) + (unless (sp--balanced-context-p count start-context end-context) + (cl-return-from sp-region-ok-p))) + t))))) + +(defun sp-newline () + "Insert a newline and indent it. + +This is like `newline-and-indent', but it not only indents the +line that the point is on but also the S-expression following the +point, if there is one. + +If in a string, just insert a literal newline. + +If in a comment and if followed by invalid structure, call +`indent-new-comment-line' to keep the invalid structure in a +comment." + (interactive) + (cond + ((sp-point-in-string) + (newline)) + ((sp-point-in-comment) + (if (sp-region-ok-p (point) (point-at-eol)) + (progn (newline-and-indent) (ignore-errors (indent-sexp))) + (indent-new-comment-line))) + (t + (newline-and-indent) + (ignore-errors (indent-sexp))))) + +(defun sp-comment () + "Insert the comment character and adjust hanging sexps such + that it doesn't break structure." + (interactive) + (if (sp-point-in-string-or-comment) + (if (= 1 (length (single-key-description last-command-event))) ;; pretty hacky + (insert (single-key-description last-command-event)) + (insert comment-start)) + (sp--with-case-sensitive + (let ((old-point (point)) + (column (current-column)) + (indentation (sp--current-indentation)) + (old-line (line-number-at-pos)) + (hsexp (sp-get-hybrid-sexp)) + (newline-inserted 0)) + (goto-char (sp-get hsexp :end)) + (if (and (sp--looking-at-p (concat "\\s-*" (sp--get-closing-regexp))) + (= old-line (line-number-at-pos))) + (progn + (setq old-point (point)) + (newline) + (setq newline-inserted (1+ (- (line-end-position) (point))))) + (when (/= old-line (line-number-at-pos)) + (sp-backward-sexp) + (setq old-point (+ old-point (skip-syntax-backward " "))) + (newline) + (setq newline-inserted (- (line-end-position) (point))))) + ;; @{ indenting madness + (goto-char old-point) + (sp-get hsexp (sp--indent-region :beg (+ :end newline-inserted))) + (sp--back-to-indentation column indentation) + ;; @} + (let ((comment-delim (or (cdr (--first (memq major-mode (car it)) sp-comment-string)) + comment-start))) + (when (and (/= 0 (current-column)) + (not (sp--looking-back-p "\\s-"))) + (insert " ")) + (insert comment-delim) + (when (/= newline-inserted 0) + (save-excursion + (forward-line 1) + (indent-according-to-mode)))))))) + + +;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; +;; show-smartparens-mode + +(defgroup show-smartparens nil + "Show smartparens minor mode." + :group 'smartparens) + +(defcustom sp-show-pair-delay 0.125 + "Time in seconds to delay before showing a matching pair." + :type '(number :tag "seconds") + :group 'show-smartparens) + +(defcustom sp-show-enclosing-pair-commands '( + sp-show-enclosing-pair + sp-forward-slurp-sexp + sp-backward-slurp-sexp + sp-forward-barf-sexp + sp-backward-barf-sexp + ) + "List of commands after which the enclosing pair is highlighted. + +After the next command the pair will automatically disappear." + :type '(repeat symbol) + :group 'show-smartparens) + +(defcustom sp-show-pair-from-inside nil + "If non-nil, highlight the enclosing pair if immediately after +the opening delimiter or before the closing delimiter." + :type 'boolean + :group 'show-smartparens) + +(defface sp-show-pair-match-face + '((t (:inherit show-paren-match))) + "`show-smartparens-mode' face used for a matching pair." + :group 'show-smartparens) + +(defface sp-show-pair-mismatch-face + '((t (:inherit show-paren-mismatch))) + "`show-smartparens-mode' face used for a mismatching pair." + :group 'show-smartparens) + +(defface sp-show-pair-enclosing + '((t (:inherit highlight))) + "The face used to highlight pair overlays." + :group 'show-smartparens) + +(defvar sp-show-pair-idle-timer nil) + +(defvar sp-show-pair-overlays nil) + +(defvar sp-show-pair-enc-overlays nil) + +;;;###autoload +(define-minor-mode show-smartparens-mode + "Toggle visualization of matching pairs. When enabled, any +matching pair is highlighted after `sp-show-pair-delay' seconds +of Emacs idle time if the point is immediately in front or after +a pair. This mode works similarly to `show-paren-mode', but +support custom pairs." + :init-value nil + :group 'show-smartparens + (if show-smartparens-mode + (unless sp-show-pair-idle-timer + (setq sp-show-pair-idle-timer + (run-with-idle-timer sp-show-pair-delay t + 'sp-show--pair-function))) + (when sp-show-pair-overlays + (sp-show--pair-delete-overlays)))) + +;;;###autoload +(define-globalized-minor-mode show-smartparens-global-mode + show-smartparens-mode + turn-on-show-smartparens-mode) + +;;;###autoload +(defun turn-on-show-smartparens-mode () + "Turn on `show-smartparens-mode'." + (interactive) + (unless (or (member major-mode sp-ignore-modes-list) + (and (not (derived-mode-p 'comint-mode)) + (eq (get major-mode 'mode-class) 'special))) + (show-smartparens-mode t))) + +;;;###autoload +(defun turn-off-show-smartparens-mode () + "Turn off `show-smartparens-mode'." + (interactive) + (show-smartparens-mode -1)) + +(defun sp-show-enclosing-pair () + "Highlight the enclosing pair around point." + (interactive)) + +(defun sp-highlight-current-sexp (arg) + "Highlight the expression returned by the next command, preserving point position." + (interactive "P") + (let* ((cmd (read-key-sequence "" t)) + (com (key-binding cmd))) + (if (commandp com) + (save-excursion + (let ((ok (call-interactively com))) + (sp-show--pair-enc-function ok))) + (execute-kbd-macro cmd)))) + +(defun sp-show--pair-function () + "Display the show pair overlays." + (when show-smartparens-mode + (sp--with-case-sensitive + (save-match-data + (cl-labels ((scan-and-place-overlays + (match &optional back) + ;; we can use `sp-get-thing' here because we *are* at some + ;; pair opening, and so only the tag or the sexp can trigger. + (-if-let (ok (sp-get-thing back)) + (sp-get ok + (when (and (<= :beg (point)) (<= (point) :end)) + (sp-show--pair-create-overlays :beg :end :op-l :cl-l))) + (if back + (sp-show--pair-create-mismatch-overlay (- (point) (length match)) + (length match)) + (sp-show--pair-create-mismatch-overlay (point) (length match)))))) + (let* ((pair-list (sp--get-allowed-pair-list)) + (opening (sp--get-opening-regexp pair-list)) + (closing (sp--get-closing-regexp pair-list)) + (allowed (and sp-show-pair-from-inside (sp--get-allowed-regexp))) + match) + (cond + ;; if we are in a situation "()|", we should highlight the + ;; regular pair and not the string pair "from inside" + ((and (not (sp--evil-normal-state-p)) + (not (sp--evil-motion-state-p)) + (not (sp--evil-visual-state-p)) + (sp--looking-back (if sp-show-pair-from-inside allowed closing))) + (scan-and-place-overlays (match-string 0) :back)) + ((or (and (or (sp--evil-normal-state-p) + (sp--evil-motion-state-p) + (sp--evil-visual-state-p)) + (sp--looking-at (sp--get-allowed-regexp))) + (sp--looking-at (if sp-show-pair-from-inside allowed opening)) + (looking-at (sp--get-stringlike-regexp)) + (and (memq major-mode sp-navigate-consider-sgml-tags) + (looking-at "<"))) + (scan-and-place-overlays (match-string 0))) + ((or (sp--looking-back (if sp-show-pair-from-inside allowed closing)) + (sp--looking-back (sp--get-stringlike-regexp)) + (and (memq major-mode sp-navigate-consider-sgml-tags) + (sp--looking-back ">"))) + (scan-and-place-overlays (match-string 0) :back)) + (sp-show-pair-overlays + (sp-show--pair-delete-overlays))))))))) + +(defun sp-show--pair-enc-function (&optional thing) + "Display the show pair overlays for enclosing expression." + (when show-smartparens-mode + (-when-let (enc (or thing (sp-get-enclosing-sexp))) + (sp-get enc (sp-show--pair-create-enc-overlays :beg :end :op-l :cl-l))))) + +(defun sp-show--pair-create-overlays (start end olen clen) + "Create the show pair overlays." + (when sp-show-pair-overlays + (sp-show--pair-delete-overlays)) + (let* ((oleft (make-overlay start (+ start olen) nil t nil)) + (oright (make-overlay (- end clen) end nil t nil))) + (setq sp-show-pair-overlays (cons oleft oright)) + (overlay-put oleft 'face 'sp-show-pair-match-face) + (overlay-put oright 'face 'sp-show-pair-match-face) + (overlay-put oleft 'priority 1000) + (overlay-put oright 'priority 1000) + (overlay-put oleft 'type 'show-pair))) + +(defun sp-show--pair-create-enc-overlays (start end olen clen) + "Create the show pair enclosing overlays" + (when sp-show-pair-enc-overlays + (sp-show--pair-delete-enc-overlays)) + (let* ((oleft (make-overlay start (+ start olen) nil t nil)) + (oright (make-overlay (- end clen) end nil t nil))) + (setq sp-show-pair-enc-overlays (cons oleft oright)) + (overlay-put oleft 'face 'sp-show-pair-enclosing) + (overlay-put oright 'face 'sp-show-pair-enclosing) + (overlay-put oleft 'priority 1000) + (overlay-put oright 'priority 1000) + (overlay-put oleft 'type 'show-pair-enc))) + +(defun sp-show--pair-create-mismatch-overlay (start len) + "Create the mismatch pair overlay." + (when sp-show-pair-overlays + (sp-show--pair-delete-overlays)) + (let ((o (make-overlay start (+ start len) nil t nil))) + (setq sp-show-pair-overlays (cons o nil)) + (overlay-put o 'face 'sp-show-pair-mismatch-face) + (overlay-put o 'priority 1000) + (overlay-put o 'type 'show-pair))) + +(defun sp-show--pair-delete-overlays () + "Remove both show pair overlays." + (when sp-show-pair-overlays + (when (car sp-show-pair-overlays) + (delete-overlay (car sp-show-pair-overlays))) + (when (cdr sp-show-pair-overlays) + (delete-overlay (cdr sp-show-pair-overlays))) + (setq sp-show-pair-overlays nil))) + +(defun sp-show--pair-delete-enc-overlays () + "Remove both show pair enclosing overlays." + (when sp-show-pair-enc-overlays + (when (car sp-show-pair-enc-overlays) + (delete-overlay (car sp-show-pair-enc-overlays))) + (when (cdr sp-show-pair-enc-overlays) + (delete-overlay (cdr sp-show-pair-enc-overlays))) + (setq sp-show-pair-enc-overlays nil))) + + +;; global initialization +(defadvice delete-backward-char (before sp-delete-pair-advice activate) + (save-match-data + (sp-delete-pair (ad-get-arg 0)))) +(defadvice haskell-indentation-delete-backward-char (before sp-delete-pair-advice activate) + (save-match-data + (sp-delete-pair (ad-get-arg 0)))) +(add-hook 'post-command-hook 'sp--post-command-hook-handler) +(add-hook 'pre-command-hook 'sp--pre-command-hook-handler) +(sp--set-base-key-bindings) +(sp--update-override-key-bindings) + +(defadvice company--insert-candidate (after sp-company--insert-candidate activate) + "If `smartparens-mode' is active, we check if the completed string +has a pair definition. If so, we insert the closing pair." + (when smartparens-mode + (sp-insert-pair)) + ad-return-value) + +(defadvice hippie-expand (after sp-auto-complete-advice activate) + (when smartparens-mode + (sp-insert-pair))) + +(defvar sp--mc/cursor-specific-vars + '( + sp-wrap-point + sp-wrap-mark + sp-last-wrapped-region + sp-pair-overlay-list + sp-wrap-overlays + sp-wrap-tag-overlays + sp-last-operation + sp-previous-point + ) + "A list of vars that need to be tracked on a per-cursor basis.") + +(defvar mc/cursor-specific-vars) +(eval-after-load 'multiple-cursors + '(dolist (it sp--mc/cursor-specific-vars) + (add-to-list 'mc/cursor-specific-vars it))) + +(provide 'smartparens) + +;; Local Variables: +;; coding: utf-8 +;; eval: (font-lock-add-keywords nil `((,(concat "(" (regexp-opt '("sp-do-move-op" "sp-do-move-cl" "sp-do-put-op" "sp-do-put-cl" "sp-do-del-op" "sp-do-del-cl") t) "\\_>") 1 'font-lock-variable-name-face))) +;; End: + +;;; smartparens.el ends here diff --git a/init.el b/init.el index 3952aeb..d406112 100644 --- a/init.el +++ b/init.el @@ -114,6 +114,11 @@ (require 'zone) (require 'magithub) (require 'origami) +(use-package smartparens-config + :ensure smartparens + :config + (progn + (show-smartparens-global-mode t))) ;; Load my own functions (load "gnu-c-header.el") @@ -211,6 +216,12 @@ (c-add-style "PERSONAL" my-c-style) (setq c-offset-alist '((member-init-intro . ++))) +;; smartparen stuff +(add-hook 'prog-mode-hook + 'turn-on-smartparens-strict-mode) +(add-hook 'markdown-mode-hook + 'turn-on-smartparens-strict-mode) + ;; Custom key bindings (global-set-key (kbd "C-x _") 'maximize-window) ;; Some terminals don’t interpret Alt-Up/Down as M-.