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;;; async.el --- Asynchronous processing in Emacs -*- lexical-binding: t -*-

;; Copyright (C) 2012-2016 Free Software Foundation, Inc.

;; Author: John Wiegley <jwiegley@gmail.com>
;; Created: 18 Jun 2012
;; Version: 1.9.3

;; Keywords: async
;; X-URL: https://github.com/jwiegley/emacs-async

;; 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 2, 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 GNU Emacs; see the file COPYING.  If not, write to the
;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
;; Boston, MA 02111-1307, USA.

;;; Commentary:

;; Adds the ability to call asynchronous functions and process with ease.  See
;; the documentation for `async-start' and `async-start-process'.

;;; Code:

(eval-when-compile (require 'cl-lib))

(defgroup async nil
  "Simple asynchronous processing in Emacs"
  :group 'emacs)

(defcustom async-variables-noprops-function #'async-variables-noprops
  "Default function to remove text properties in variables."
  :group 'async
  :type 'function)

(defvar async-debug nil)
(defvar async-send-over-pipe t)
(defvar async-in-child-emacs nil)
(defvar async-callback nil)
(defvar async-callback-for-process nil)
(defvar async-callback-value nil)
(defvar async-callback-value-set nil)
(defvar async-current-process nil)
(defvar async--procvar nil)

(defun async-variables-noprops (sequence)
  "Remove text properties in SEQUENCE.

Argument SEQUENCE may be a list or a string, if anything else it
is returned unmodified.

Note that this is a naive function that doesn't remove text properties
in SEQUENCE recursively, only at the first level which suffice in most
cases."
  (cond ((stringp sequence)
         (substring-no-properties sequence))
        ((listp sequence)
         (cl-loop for elm in sequence
                  if (stringp elm)
                  collect (substring-no-properties elm)
                  else collect elm))
        (t sequence)))

(defun async-inject-variables
  (include-regexp &optional predicate exclude-regexp noprops)
  "Return a `setq' form that replicates part of the calling environment.

It sets the value for every variable matching INCLUDE-REGEXP and
also PREDICATE.  It will not perform injection for any variable
matching EXCLUDE-REGEXP (if present) or representing a syntax-table
i.e. ending by \"-syntax-table\".
When NOPROPS is non nil it tries to strip out text properties of each
variable's value with `async-variables-noprops-function'.

It is intended to be used as follows:

    (async-start
       `(lambda ()
          (require 'smtpmail)
          (with-temp-buffer
            (insert ,(buffer-substring-no-properties (point-min) (point-max)))
            ;; Pass in the variable environment for smtpmail
            ,(async-inject-variables \"\\`\\(smtpmail\\|\\(user-\\)?mail\\)-\")
            (smtpmail-send-it)))
       'ignore)"
  `(setq
    ,@(let (bindings)
        (mapatoms
         (lambda (sym)
           (let* ((sname (and (boundp sym) (symbol-name sym)))
                  (value (and sname (symbol-value sym))))
             (when (and sname
                        (or (null include-regexp)
                            (string-match include-regexp sname))
                        (or (null exclude-regexp)
                            (not (string-match exclude-regexp sname)))
                        (not (string-match "-syntax-table\\'" sname)))
               (unless (or (stringp value)
                           (memq value '(nil t))
                           (numberp value)
                           (vectorp value))
                 (setq value `(quote ,value)))
               (when noprops
                 (setq value (funcall async-variables-noprops-function
                                      value)))
               (when (or (null predicate)
                         (funcall predicate sym))
                 (setq bindings (cons value bindings)
                       bindings (cons sym bindings)))))))
        bindings)))

(defalias 'async-inject-environment 'async-inject-variables)

(defun async-handle-result (func result buf)
  (if (null func)
      (progn
        (set (make-local-variable 'async-callback-value) result)
        (set (make-local-variable 'async-callback-value-set) t))
    (unwind-protect
        (if (and (listp result)
                 (eq 'async-signal (nth 0 result)))
            (signal (car (nth 1 result))
                    (cdr (nth 1 result)))
          (funcall func result))
      (unless async-debug
        (kill-buffer buf)))))

(defun async-when-done (proc &optional _change)
  "Process sentinel used to retrieve the value from the child process."
  (when (eq 'exit (process-status proc))
    (with-current-buffer (process-buffer proc)
      (let ((async-current-process proc))
        (if (= 0 (process-exit-status proc))
            (if async-callback-for-process
                (if async-callback
                    (prog1
                        (funcall async-callback proc)
                      (unless async-debug
                        (kill-buffer (current-buffer))))
                  (set (make-local-variable 'async-callback-value) proc)
                  (set (make-local-variable 'async-callback-value-set) t))
              (goto-char (point-max))
              (backward-sexp)
              (async-handle-result async-callback (read (current-buffer))
                                   (current-buffer)))
          (set (make-local-variable 'async-callback-value)
               (list 'error
                     (format "Async process '%s' failed with exit code %d"
                             (process-name proc) (process-exit-status proc))))
          (set (make-local-variable 'async-callback-value-set) t))))))

(defun async--receive-sexp (&optional stream)
  (let ((sexp (decode-coding-string (base64-decode-string
                                     (read stream)) 'utf-8-auto))
	;; Parent expects UTF-8 encoded text.
	(coding-system-for-write 'utf-8-auto))
    (if async-debug
        (message "Received sexp {{{%s}}}" (pp-to-string sexp)))
    (setq sexp (read sexp))
    (if async-debug
        (message "Read sexp {{{%s}}}" (pp-to-string sexp)))
    (eval sexp)))

(defun async--insert-sexp (sexp)
  (let (print-level
	print-length
	(print-escape-nonascii t)
	(print-circle t))
    (prin1 sexp (current-buffer))
    ;; Just in case the string we're sending might contain EOF
    (encode-coding-region (point-min) (point-max) 'utf-8-auto)
    (base64-encode-region (point-min) (point-max) t)
    (goto-char (point-min)) (insert ?\")
    (goto-char (point-max)) (insert ?\" ?\n)))

(defun async--transmit-sexp (process sexp)
  (with-temp-buffer
    (if async-debug
        (message "Transmitting sexp {{{%s}}}" (pp-to-string sexp)))
    (async--insert-sexp sexp)
    (process-send-region process (point-min) (point-max))))

(defun async-batch-invoke ()
  "Called from the child Emacs process' command-line."
  ;; Make sure 'message' and 'prin1' encode stuff in UTF-8, as parent
  ;; process expects.
  (let ((coding-system-for-write 'utf-8-auto))
    (setq async-in-child-emacs t
	  debug-on-error async-debug)
    (if debug-on-error
	(prin1 (funcall
		(async--receive-sexp (unless async-send-over-pipe
				       command-line-args-left))))
      (condition-case err
	  (prin1 (funcall
		  (async--receive-sexp (unless async-send-over-pipe
					 command-line-args-left))))
	(error
	 (prin1 (list 'async-signal err)))))))

(defun async-ready (future)
  "Query a FUTURE to see if it is ready.

I.e., if no blocking
would result from a call to `async-get' on that FUTURE."
  (and (memq (process-status future) '(exit signal))
       (let ((buf (process-buffer future)))
         (if (buffer-live-p buf)
             (with-current-buffer buf
               async-callback-value-set)
             t))))

(defun async-wait (future)
  "Wait for FUTURE to become ready."
  (while (not (async-ready future))
    (sleep-for 0.05)))

(defun async-get (future)
  "Get the value from process FUTURE when it is ready.
FUTURE is returned by `async-start' or `async-start-process' when
its FINISH-FUNC is nil."
  (and future (async-wait future))
  (let ((buf (process-buffer future)))
    (when (buffer-live-p buf)
      (with-current-buffer buf
        (async-handle-result
         #'identity async-callback-value (current-buffer))))))

(defun async-message-p (value)
  "Return true of VALUE is an async.el message packet."
  (and (listp value)
       (plist-get value :async-message)))

(defun async-send (&rest args)
  "Send the given messages to the asychronous Emacs PROCESS."
  (let ((args (append args '(:async-message t))))
    (if async-in-child-emacs
        (if async-callback
            (funcall async-callback args))
      (async--transmit-sexp (car args) (list 'quote (cdr args))))))

(defun async-receive ()
  "Send the given messages to the asychronous Emacs PROCESS."
  (async--receive-sexp))

;;;###autoload
(defun async-start-process (name program finish-func &rest program-args)
  "Start the executable PROGRAM asynchronously.  See `async-start'.
PROGRAM is passed PROGRAM-ARGS, calling FINISH-FUNC with the
process object when done.  If FINISH-FUNC is nil, the future
object will return the process object when the program is
finished.  Set DEFAULT-DIRECTORY to change PROGRAM's current
working directory."
  (let* ((buf (generate-new-buffer (concat "*" name "*")))
         (proc (let ((process-connection-type nil))
                 (apply #'start-process name buf program program-args))))
    (with-current-buffer buf
      (set (make-local-variable 'async-callback) finish-func)
      (set-process-sentinel proc #'async-when-done)
      (unless (string= name "emacs")
        (set (make-local-variable 'async-callback-for-process) t))
      proc)))

(defvar async-quiet-switch "-Q"
  "The Emacs parameter to use to call emacs without config.
Can be one of \"-Q\" or \"-q\".
Default is \"-Q\" but it is sometimes useful to use \"-q\" to have a
enhanced config or some more variables loaded.")

;;;###autoload
(defun async-start (start-func &optional finish-func)
  "Execute START-FUNC (often a lambda) in a subordinate Emacs process.
When done, the return value is passed to FINISH-FUNC.  Example:

    (async-start
       ;; What to do in the child process
       (lambda ()
         (message \"This is a test\")
         (sleep-for 3)
         222)

       ;; What to do when it finishes
       (lambda (result)
         (message \"Async process done, result should be 222: %s\"
                  result)))

If FINISH-FUNC is nil or missing, a future is returned that can
be inspected using `async-get', blocking until the value is
ready.  Example:

    (let ((proc (async-start
                   ;; What to do in the child process
                   (lambda ()
                     (message \"This is a test\")
                     (sleep-for 3)
                     222))))

        (message \"I'm going to do some work here\") ;; ....

        (message \"Waiting on async process, result should be 222: %s\"
                 (async-get proc)))

If you don't want to use a callback, and you don't care about any
return value from the child process, pass the `ignore' symbol as
the second argument (if you don't, and never call `async-get', it
will leave *emacs* process buffers hanging around):

    (async-start
     (lambda ()
       (delete-file \"a remote file on a slow link\" nil))
     'ignore)

Note: Even when FINISH-FUNC is present, a future is still
returned except that it yields no value (since the value is
passed to FINISH-FUNC).  Call `async-get' on such a future always
returns nil.  It can still be useful, however, as an argument to
`async-ready' or `async-wait'."
  (let ((sexp start-func)
	;; Subordinate Emacs will send text encoded in UTF-8.
	(coding-system-for-read 'utf-8-auto))
    (setq async--procvar
          (async-start-process
           "emacs" (file-truename
                    (expand-file-name invocation-name
                                      invocation-directory))
           finish-func
           async-quiet-switch "-l"
           ;; Using `locate-library' ensure we use the right file
           ;; when the .elc have been deleted.
           (locate-library "async")
           "-batch" "-f" "async-batch-invoke"
           (if async-send-over-pipe
               "<none>"
               (with-temp-buffer
                 (async--insert-sexp (list 'quote sexp))
                 (buffer-string)))))
    (if async-send-over-pipe
        (async--transmit-sexp async--procvar (list 'quote sexp)))
    async--procvar))

(defmacro async-sandbox(func)
  "Evaluate FUNC in a separate Emacs process, synchronously."
  `(async-get (async-start ,func)))

(defun async--fold-left (fn forms bindings)
  (let ((res forms))
    (dolist (binding bindings)
      (setq res (funcall fn res
                         (if (listp binding)
                             binding
                             (list binding)))))
    res))

(defmacro async-let (bindings &rest forms)
  "Implements `let', but each binding is established asynchronously.
For example:

  (async-let ((x (foo))
              (y (bar)))
     (message \"%s %s\" x y))

    expands to ==>

  (async-start (foo)
   (lambda (x)
     (async-start (bar)
      (lambda (y)
        (message \"%s %s\" x y)))))"
  (declare (indent 1))
  (async--fold-left
   (lambda (acc binding)
     (let ((fun (pcase (cadr binding)
                  ((and (pred functionp) f) f)
                  (f `(lambda () ,f)))))
       `(async-start ,fun
                     (lambda (,(car binding))
                       ,acc))))
   `(progn ,@forms)
   (reverse bindings)))

(provide 'async)

;;; async.el ends here