;;; racket-repl.el -*- lexical-binding: t; -*- ;; Copyright (c) 2013-2018 by Greg Hendershott. ;; Portions Copyright (C) 1985-1986, 1999-2013 Free Software Foundation, Inc. ;; Image portions Copyright (C) 2012 Jose Antonio Ortega Ruiz. ;; Author: Greg Hendershott ;; URL: https://github.com/greghendershott/racket-mode ;; License: ;; This 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 2, or (at your option) ;; any later version. This 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. See ;; http://www.gnu.org/licenses/ for details. (require 'racket-custom) (require 'racket-common) (require 'racket-util) (require 'comint) (require 'compile) (require 'easymenu) (require 'cl-lib) ;; Don't (require 'racket-debug). Mutual dependency. Instead: (declare-function racket--debug-send-definition "racket-debug" (beg end)) (autoload 'racket--debug-send-definition "racket-debug") (declare-function racket--debug-on-break "racket-debug" (response)) (autoload 'racket--debug-on-break "racket-debug") (declare-function racket--debuggable-files "racket-debug" (file-to-run)) (autoload 'racket--debuggable-files "racket-debug") (defconst racket--repl-buffer-name/raw "Racket REPL" "The base buffer name, NOT surrounded in *stars*") (defconst racket--repl-buffer-name (concat "*" racket--repl-buffer-name/raw "*") "The actual buffer name as created by comint-mode") (defmacro with-racket-repl-buffer (&rest body) "Execute the forms in BODY with `racket-repl-mode' temporarily current. The value returned is the value of the last form in BODY -- unless no `racket-repl-mode' buffer exists, in which case no BODY forms are evaluated and nil is returned. See also `with-current-buffer'." (declare (indent 0) (debug t)) (let ((repl-buffer (make-symbol "repl-buffer"))) `(let ((,repl-buffer (get-buffer racket--repl-buffer-name))) (when ,repl-buffer (with-current-buffer ,repl-buffer ,@body))))) (defun racket-repl--input-filter (str) "Don't save anything matching `racket-history-filter-regexp'." (not (string-match racket-history-filter-regexp str))) (defalias 'racket-repl-eval-or-newline-and-indent #'racket-repl-submit) (defun racket-repl-submit (&optional prefix) "Submit your input to the Racket REPL. If the REPL is running a Racket lang whose language-info has a 'drracket:submit-predicate, that is first called to see if the input is valid to be submitted. With a prefix: After sending your input and a newline, also calls `process-send-eof' -- because some langs require EOF to mark the end of an interactive expression/statement." (interactive "P") (let* ((proc (get-buffer-process (current-buffer))) (_ (unless proc (user-error "Current buffer has no process"))) (text (substring-no-properties (funcall comint-get-old-input)))) (cl-case (if racket-use-repl-submit-predicate (racket--cmd/await `(repl-submit? ,text t)) 'default) ((nil) (user-error "Not a complete expression, according to the current lang's submit-predicate.")) ((t default) (comint-send-input) (remove-text-properties comint-last-input-start comint-last-input-end '(font-lock-face comint-highlight-input)) ;; Hack for datalog/lang (when prefix (process-send-eof proc)))))) (defun racket-repl-exit (&optional quitp) "End the Racket REPL process. Effectively the same as entering `(exit)` at the prompt, but works even when the module language doesn't provide any binding for `exit`. With a prefix, uses `comint-quit-subjob' to send a quit signal." (interactive "P") (if quitp (comint-quit-subjob) (newline) (racket--cmd/async `(exit)))) ;;;###autoload (defun racket-repl (&optional noselect) "Run the Racket REPL and display its buffer in some window. If the Racket process is not already running, it is started. If NOSELECT is not nil, does not select the REPL window (preserves the originally selected window). Commands that don't want the REPL to be displayed can instead use `racket--repl-ensure-buffer-and-process'." (interactive "P") (racket--repl-ensure-buffer-and-process t) (unless noselect (select-window (get-buffer-window racket--repl-buffer-name t)))) (defconst racket--minimum-required-version "6.0" "The minimum version of Racket required by run.rkt. Although some functionality may require an even newer version of Racket, run.rkt will handle that via `dynamic-require` and fallbacks. The version number here is a baseline for run.rkt to be able to load at all.") (defvar racket--run.rkt (expand-file-name "run.rkt" racket--rkt-source-dir) "Pathname of run.rkt") (defvar-local racket-user-command-line-arguments nil "List of command-line arguments to supply to your Racket program. Accessible in your Racket program in the usual way -- the parameter `current-command-line-arguments` and friends. This is an Emacs buffer-local variable -- convenient to set as a file local variable. For example at the end of your .rkt file: ;; Local Variables: ;; racket-user-command-line-arguments: (\"-f\" \"bar\") ;; End: Set this way the value must be an unquoted list of strings such as: (\"-f\" \"bar\") but NOT: '(\"-f\" \"bar\") (list \"-f\" \"bar\") ") (defun racket--repl-live-p () "Does the Racket REPL buffer exist and have a live Racket process?" (comint-check-proc racket--repl-buffer-name)) (defvar racket--repl-before-run-hook nil "Thunks to do before each `racket--repl-run' -- except an initial run.") (defun racket--repl-run (&optional what-to-run context-level callback) "Do an initial or subsequent run. WHAT-TO-RUN should be a cons of a file name to a list of submodule symbols. Or if nil, defaults to `racket--what-to-run'. CONTEXT-LEVEL should be a valid value for the variable `racket-error-context', 'coverage, or 'profile. Or if nil, defaults to the variable `racket-error-context'. CALLBACK is supplied to `racket--repl-run' and is used as the callback for `racket--cmd/async'; it may be nil which is equivalent to #'ignore. - If the REPL is _not_ live, start our backend run.rkt passing the file to run as a command-line argument. The Emacs UI will _not_ be blocked during this. - If the REPL _is_ live, send a run command to the backend's TCP server. If the server isn't live yet -- e.g. if Racket run.rkt are still starting up -- this _will_ block the Emacs UI." (let ((cmd (racket--repl-make-run-command (or what-to-run (racket--what-to-run)) (or context-level racket-error-context)))) (cond ((racket--repl-live-p) (run-hook-with-args 'racket--repl-before-run-hook) (racket--cmd/async cmd callback) (racket--repl-show-and-move-to-end)) (t (when callback ;; Not sure how to do a callback, here, unless maybe ;; issuing a ``prompt` command? (message "Warning: run command callback ignored for startup run")) (racket--repl-ensure-buffer-and-process t cmd))))) (defun racket--repl-make-run-command (what-to-run &optional context-level) "Form a `run` command sexpr for the backend. WHAT-TO-RUN may be nil, meaning just a `racket/base` namespace." (let ((context-level (or context-level racket-error-context))) (list 'run what-to-run racket-memory-limit racket-pretty-print context-level racket-user-command-line-arguments (when (and what-to-run (eq context-level 'debug)) (racket--debuggable-files (car what-to-run)))))) (defvar racket--cmd-auth nil "A value we give the Racket back-end when we launch it and when we connect. See issue #327.") (defun racket--repl-ensure-buffer-and-process (&optional display run-command) "Ensure Racket REPL buffer exists and has live Racket process. If the Racket process is not already running, it is started and the buffer is put in `racket-repl-mode'. Non-nil DISPLAY means `display-buffer'. Non-nil RUN-COMMAND is supplied as the second command-line argument to `racket--run.rkt' so the process can start by immediately running a desired file. Never changes selected window." (if (racket--repl-live-p) (when display (display-buffer racket--repl-buffer-name)) (racket--require-version racket--minimum-required-version) (with-current-buffer (make-comint racket--repl-buffer-name/raw ;w/o *stars* racket-program nil racket--run.rkt (number-to-string racket-command-port) (setq racket--cmd-auth (format "%S\n" `(auth ,(random)))) (format "%S" (or run-command (racket--repl-make-run-command nil)))) (let ((proc (get-buffer-process racket--repl-buffer-name))) ;; Display now so users see startup and banner sooner. (when display (display-buffer (current-buffer))) (message "Starting %s to run %s ..." racket-program racket--run.rkt) ;; Ensure command server connection closed when racket process dies. (set-process-sentinel proc (lambda (_proc event) (with-racket-repl-buffer (insert (concat "Process Racket REPL " event))) (racket--cmd-disconnect))) (set-process-coding-system proc 'utf-8 'utf-8) ;for e.g. λ (racket-repl-mode)))) (unless (racket--cmd-connected-or-connecting-p) (racket--cmd-connect-start))) (defun racket--version () "Get the `racket-program' version as a string." (with-temp-message "Checking Racket version ..." (with-temp-buffer (call-process racket-program nil t nil "--version") (goto-char (point-min)) ;; Welcome to Racket v6.12. ;; Welcome to Racket v7.0.0.6. (save-match-data (re-search-forward "[0-9]+\\(?:\\.[0-9]+\\)*") (match-string 0))))) (defun racket--require-version (at-least) "Raise a `user-error' unless Racket is version AT-LEAST." (let ((have (racket--version))) (unless (version<= at-least have) (user-error "racket-mode requires at least Racket version %s but you have %s" at-least have)) t)) ;;; Connection to command process (defvar racket--cmd-proc nil "Process when connection to the command server is established.") (defvar racket--cmd-buf nil "Process buffer when connection to the command server is established.") (defvar racket--cmd-connecting-p nil) (defvar racket--cmd-nonce->callback (make-hash-table :test 'eq) "A hash from nonce to callback function.") (defvar racket--cmd-nonce 0 "Increments for each command request we send.") (defvar racket--cmd-connect-attempts 15) (defvar racket--cmd-connect-timeout 15) (defun racket--cmd-connected-or-connecting-p () (and (or racket--cmd-proc racket--cmd-connecting-p) t)) (defun racket--cmd-connect-start (&optional attempt) "Start to connect to the Racket command process. If already connected, disconnects first. The command server may might not be ready to accept connections, because Racket itself and our backend are still starting up. After calling this, call `racket--cmd-connect-finish' to wait for the connection to be established." (unless (featurep 'make-network-process '(:nowait t)) (error "racket-mode needs Emacs to support the :nowait feature")) (let ((attempt (or attempt 1))) (when (= attempt 1) (racket--cmd-disconnect) (setq racket--cmd-connecting-p t)) (make-network-process :name "racket-command" :host "127.0.0.1" :service racket-command-port :nowait t :sentinel (lambda (proc event) ;;(message "sentinel process %S event %S attempt %s" proc event attempt) (cond ((string-match-p "^open" event) (setq racket--cmd-proc proc) (setq racket--cmd-buf (generate-new-buffer (concat " " (process-name proc)))) (buffer-disable-undo racket--cmd-buf) (set-process-filter proc #'racket--cmd-process-filter) (process-send-string proc racket--cmd-auth) (message "Connected to %s process on port %s after %s attempt(s)" proc racket-command-port attempt)) ((string-match-p "^failed" event) (delete-process proc) (when (<= attempt racket--cmd-connect-attempts) (run-at-time 1.0 nil #'racket--cmd-connect-start (1+ attempt)))) (t (racket--cmd-disconnect))))))) (defun racket--cmd-connect-finish () (with-timeout (racket--cmd-connect-timeout (setq racket--cmd-connecting-p nil) (error "Could not connect to racket-command process on port %s" racket-command-port)) (while (not racket--cmd-proc) (message "Still trying to connect to racket-command process on port %s ..." racket-command-port) (sit-for 0.2)) (setq racket--cmd-connecting-p nil))) (defun racket--cmd-disconnect () "Disconnect from the Racket command process." (when racket--cmd-proc ;; Sentinel calls us for "deleted" event, which we ourselves will ;; trigger with the `delete-process' below. So set ;; racket--cmd-proc nil before calling `delete-process'. (let ((proc (prog1 racket--cmd-proc (setq racket--cmd-proc nil))) (buf (prog1 racket--cmd-buf (setq racket--cmd-buf nil)))) (delete-process proc) (kill-buffer buf) (clrhash racket--cmd-nonce->callback) (setq racket--cmd-connecting-p nil)))) (defun racket--cmd-process-filter (_proc string) (let ((buffer racket--cmd-buf)) (when (buffer-live-p buffer) (with-current-buffer buffer (goto-char (point-max)) (insert string) (goto-char (point-min)) (while (condition-case () (progn (forward-sexp 1) (let ((sexp (buffer-substring (point-min) (point)))) (delete-region (point-min) (point)) (ignore-errors (racket--cmd-dispatch-response (read sexp)) t))) (scan-error nil))))))) (defun racket--cmd-dispatch-response (response) (pcase response (`(debug-break . ,response) (run-at-time 0.001 nil #'racket--debug-on-break response)) (`(,nonce . ,response) (let ((callback (gethash nonce racket--cmd-nonce->callback))) (when callback (remhash nonce racket--cmd-nonce->callback) (run-at-time 0.001 nil callback response)))) (_ nil))) (defun racket--cmd/async-raw (command-sexpr &optional callback) "Send COMMAND-SEXPR and return. Later call CALLBACK with the response sexp. If CALLBACK is not supplied or nil, defaults to `ignore'. Otherwise CALLBACK is called after the command server returns a response. Because command responses are obtained from the dynamic extent of a `set-process-filter' proc -- which may have limitations on what it can or should do -- CALLBACK is not called immediately but instead using `run-at-time' with a very small delay. Important: Do not assume that `current-buffer' is the same when CALLBACK is called, as it was when the command was sent. If you need to do something to do that original buffer, save the `current-buffer' in a `let' and use it in a `with-current-buffer' form." (racket--repl-ensure-buffer-and-process nil) (racket--cmd-connect-finish) (cl-incf racket--cmd-nonce) (when (and callback (not (equal callback #'ignore))) (puthash racket--cmd-nonce callback racket--cmd-nonce->callback)) (process-send-string racket--cmd-proc (format "%S\n" (cons racket--cmd-nonce command-sexpr)))) (defun racket--cmd/async (command-sexpr &optional callback) "You probably want to use this instead of `racket--cmd/async-raw'. CALLBACK is only called for 'ok responses, with (ok v ...) unwrapped to (v ...). 'error responses are handled here. Note: We use `message' not `error' here because: 1. It would show \"error running timer:\" which, although true, is confusing or at best N/A for end users. 2. More simply, we don't need to escape any call stack, we only need to ... not call the callback! The original value of `current-buffer' is temporarily restored during CALLBACK, because neglecting to do so is a likely mistake." (let ((buf (current-buffer))) (racket--cmd/async-raw command-sexpr (if callback (lambda (response) (pcase response (`(ok ,v) (with-current-buffer buf (funcall callback v))) (`(error ,m) (message "%s" m)) (v (message "Unknown command response: %S" v)))) #'ignore)))) (defun racket--cmd/await (command-sexpr) "Send COMMAND-SEXPR. Await and return an 'ok response value, or raise `error'." (let* ((awaiting 'RACKET-REPL-AWAITING) (response awaiting)) (racket--cmd/async-raw command-sexpr (lambda (v) (setq response v))) (with-timeout (racket-command-timeout (error "racket-command process timeout")) (while (eq response awaiting) (accept-process-output nil 0.001)) (pcase response (`(ok ,v) v) (`(error ,m) (error "%s" m)) (v (error "Unknown command response: %S" v)))))) ;;; Misc (defun racket-repl-file-name () "Return the file running in the REPL, or nil. The result can be nil if the REPL is not started, or if it is running no particular file as with the `,top` command. On Windows this will replace \ with / in an effort to match the Unix style names used by Emacs on Windows." (when (comint-check-proc racket--repl-buffer-name) (pcase (racket--cmd/await `(path+md5)) (`(,(and (pred stringp) path) . ,_md5) (cl-case system-type (windows-nt (subst-char-in-string ?\\ ?/ path)) (otherwise path))) (_ nil)))) (defun racket--in-repl-or-its-file-p () "Is current-buffer `racket-repl-mode' or buffer for file active in it?" (or (eq (current-buffer) (get-buffer racket--repl-buffer-name)) (string-equal (racket--buffer-file-name) (racket-repl-file-name)))) (defun racket-repl-switch-to-edit () "Switch to the window for the buffer of the file running in the REPL. If no buffer is visting the file, `find-file' it in `other-window'. If the REPL is running no file -- if the prompt is `>` -- use the most recent `racket-mode' buffer, if any." (interactive) (pcase (racket-repl-file-name) (`() (let ((buffer (racket--most-recent-racket-mode-buffer))) (unless buffer (user-error "There are no racket-mode buffers")) (pop-to-buffer buffer t))) (path (let ((buffer (find-buffer-visiting path))) (if buffer (pop-to-buffer buffer t) (other-window 1) (find-file path)))))) (defun racket--most-recent-racket-mode-buffer () (cl-some (lambda (b) (with-current-buffer b (and (eq major-mode 'racket-mode) b))) (buffer-list))) ;;; send to REPL (defun racket--send-region-to-repl (start end) "Internal function to send the region to the Racket REPL. Before sending the region, calls `racket-repl' and `racket--repl-forget-errors'. Also inserts a ?\n at the process mark so that output goes on a fresh line, not on the same line as the prompt. Afterwards call `racket--repl-show-and-move-to-end'." (when (and start end) (racket-repl t) (racket--repl-forget-errors) (let ((proc (get-buffer-process racket--repl-buffer-name))) (with-racket-repl-buffer (save-excursion (goto-char (process-mark proc)) (insert ?\n) (set-marker (process-mark proc) (point)))) (comint-send-region proc start end) (comint-send-string proc "\n")) (racket--repl-show-and-move-to-end))) (defun racket-send-region (start end) "Send the current region (if any) to the Racket REPL." (interactive "r") (unless (region-active-p) (user-error "No region")) (racket--send-region-to-repl start end)) (defun racket-send-definition (&optional prefix) "Send the current definition to the Racket REPL." (interactive "P") (save-excursion (end-of-defun) (let ((end (point))) (beginning-of-defun) (if prefix (racket--debug-send-definition (point) end) (racket--send-region-to-repl (point) end))))) (defun racket-send-last-sexp () "Send the previous sexp to the Racket REPL. When the previous sexp is a sexp comment the sexp itself is sent, without the #; prefix." (interactive) (racket--send-region-to-repl (racket--repl-last-sexp-start) (point))) (defun racket-eval-last-sexp () "Eval the previous sexp asynchronously and `message' the result." (interactive) (racket--cmd/async `(eval ,(buffer-substring-no-properties (racket--repl-last-sexp-start) (point))) (lambda (v) (message "%s" v)))) (defun racket--repl-last-sexp-start () (save-excursion (condition-case () (progn (backward-sexp) (if (save-match-data (looking-at "#;")) (+ (point) 2) (point))) (scan-error (user-error "There isn't a complete s-expression before point"))))) (defun racket--repl-forget-errors () "Forget existing errors in the REPL. Although they remain clickable they will be ignored by `next-error' and `previous-error'" (with-racket-repl-buffer (compilation-forget-errors) ;; `compilation-forget-errors' may have just set ;; `compilation-messages-start' to a marker at position 1. But in ;; that case process output (including error messages) will be ;; inserted ABOVE the marker, in which case `next-error' won't see ;; them. Instead use a non-marker position like 1 or use nil. (when (and (markerp compilation-messages-start) (equal (marker-position compilation-messages-start) 1) (equal (marker-buffer compilation-messages-start) (current-buffer))) (setq compilation-messages-start nil)))) (add-hook 'racket--repl-before-run-hook #'racket--repl-forget-errors) (defun racket--repl-show-and-move-to-end () "Make the Racket REPL visible, and move point to end. Keep original window selected." (display-buffer racket--repl-buffer-name) (save-selected-window (select-window (get-buffer-window racket--repl-buffer-name t)) (comint-show-maximum-output))) ;;; Inline images in REPL (defvar racket-image-cache-dir nil) (defun racket-repl--list-image-cache () "List all the images in the image cache." (and racket-image-cache-dir (file-directory-p racket-image-cache-dir) (let ((files (directory-files-and-attributes racket-image-cache-dir t "racket-image-[0-9]*.png"))) (mapcar #'car (sort files (lambda (a b) (< (float-time (nth 6 a)) (float-time (nth 6 b))))))))) (defun racket-repl--clean-image-cache () "Clean all except for the last `racket-images-keep-last' images in 'racket-image-cache-dir'." (interactive) (dolist (file (butlast (racket-repl--list-image-cache) racket-images-keep-last)) (delete-file file))) (defun racket-repl--replace-images () "Replace all image patterns with actual images" (with-silent-modifications (save-excursion (goto-char (point-min)) (while (re-search-forward "\"#\"" nil t) ;; can't pass a filename to create-image because emacs might ;; not display it before it gets deleted (race condition) (let* ((file (match-string 1)) (begin (match-beginning 0)) (end (match-end 0))) (delete-region begin end) (goto-char begin) (if (and racket-images-inline (display-images-p)) (insert-image (create-image file) "[image]") (goto-char begin) (insert "[image] ; use M-x racket-view-last-image to view")) (setq racket-image-cache-dir (file-name-directory file)) (racket-repl--clean-image-cache)))))) (defun racket-view-last-image (n) "Open the last displayed image using `racket-images-system-viewer'. With prefix arg, open the N-th last shown image." (interactive "p") (let ((images (reverse (racket-repl--list-image-cache)))) (if (>= (length images) n) (start-process "Racket image view" nil racket-images-system-viewer (nth (- n 1) images)) (error "There aren't %d recent images" n)))) (defun racket-repl--output-filter (_txt) (racket-repl--replace-images)) ;;; racket-repl-mode (defvar racket-repl-mode-map (racket--easy-keymap-define '(("C-m" racket-repl-submit) ("C-j" newline-and-indent) ("TAB" indent-for-tab-command) ("C-M-u" racket-backward-up-list) ("C-M-q" prog-indent-sexp) ("C-a" comint-bol) ("C-w" comint-kill-region) ("[C-S-backspace]" comint-kill-whole-line) ("[" racket-smart-open-bracket) (")" racket-insert-closing) ("]" racket-insert-closing) ("}" racket-insert-closing) ("C-c C-e f" racket-expand-file) ("C-c C-e x" racket-expand-definition) ("C-c C-e e" racket-expand-last-sexp) ("C-c C-e r" racket-expand-region) ("M-C-y" racket-insert-lambda) ("C-c C-d" racket-doc) ("C-c C-." racket-describe) ("M-." racket-visit-definition) ("C-M-." racket-visit-module) ("M-," racket-unvisit) ("C-c C-z" racket-repl-switch-to-edit) ("C-c C-l" racket-logger) ("C-c C-\\" racket-repl-exit))) "Keymap for Racket REPL mode.") (easy-menu-define racket-repl-mode-menu racket-repl-mode-map "Menu for Racket REPL mode." '("Racket" ["Break" comint-interrupt-subjob] ["Exit" racket-repl-exit] "---" ["Insert Lambda" racket-insert-lambda] ;λ in string breaks menu ["Indent Region" indent-region] ["Cycle Paren Shapes" racket-cycle-paren-shapes] ("Macro Expand" ["File" racket-expand-file] ["Region" racket-expand-region :active (region-active-p)] ["Definition" racket-expand-definition] ["Last S-Expression" racket-expand-last-sexp]) "---" ["Visit Definition" racket-visit-definition] ["Visit Module" racket-visit-module] ["Return from Visit" racket-unvisit] "---" ["Racket Documentation" racket-doc] ["Describe" racket-describe] "---" ["Switch to Edit Buffer" racket-repl-switch-to-edit])) (define-derived-mode racket-repl-mode comint-mode "Racket-REPL" "Major mode for Racket REPL. \\{racket-repl-mode-map}" (racket--common-variables) (setq-local comint-use-prompt-regexp nil) (setq-local comint-prompt-read-only t) (setq-local comint-scroll-show-maximum-output nil) ;t slow for big outputs (setq-local mode-line-process nil) (setq-local comint-input-filter #'racket-repl--input-filter) (add-hook 'comint-output-filter-functions #'racket-repl--output-filter nil t) (compilation-setup t) (setq-local compilation-error-regexp-alist '(;; error ("^;?[ ]*\\([^ :]+\\):\\([0-9]+\\)[:.]\\([0-9]+\\)" 1 2 3) ;; contract ("^;?[ ]*at:[ ]+\\([^ :]+\\):\\([0-9]+\\)[.]\\([0-9]+\\)$" 1 2 3) ;; rackunit check-xxx ("#]+\\)> \\([0-9]+\\) \\([0-9]+\\)" 1 2 3) ;;rackunit/text-ui test-suite ("^location:[ ]+\\(\\([^:]+\\):\\([0-9]+\\):\\([0-9]+\\)\\)" 2 3 4 2 1) ;; path struct ("#]+\\)>" 1 nil nil 0)))) (provide 'racket-repl) ;; racket-repl.el ends here