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emacs/lisp/emacs-lisp/cl-indent.el
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;;; cl-indent.el --- enhanced lisp-indent mode
;; Copyright (C) 1987, 2000, 2001, 2002, 2003, 2004,
;; 2005, 2006 Free Software Foundation, Inc.
;; Author: Richard Mlynarik <mly@eddie.mit.edu>
;; Created: July 1987
;; Maintainer: FSF
;; Keywords: lisp, tools
;; This file is part of GNU Emacs.
;; GNU Emacs 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.
;; GNU Emacs 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., 51 Franklin Street, Fifth Floor,
;; Boston, MA 02110-1301, USA.
;;; Commentary:
;; This package supplies a single entry point, common-lisp-indent-function,
;; which performs indentation in the preferred style for Common Lisp code.
;; To enable it:
;;
;; (setq lisp-indent-function 'common-lisp-indent-function)
;;>> TODO
;; :foo
;; bar
;; :baz
;; zap
;; &key (like &body)??
;; &rest 1 in lambda-lists doesn't work
;; -- really want (foo bar
;; baz)
;; not (foo bar
;; baz)
;; Need something better than &rest for such cases
;;; Code:
(defgroup lisp-indent nil
"Indentation in Lisp."
:group 'lisp)
(defcustom lisp-indent-maximum-backtracking 3
"*Maximum depth to backtrack out from a sublist for structured indentation.
If this variable is 0, no backtracking will occur and forms such as `flet'
may not be correctly indented."
:type 'integer
:group 'lisp-indent)
(defcustom lisp-tag-indentation 1
"*Indentation of tags relative to containing list.
This variable is used by the function `lisp-indent-tagbody'."
:type 'integer
:group 'lisp-indent)
(defcustom lisp-tag-body-indentation 3
"*Indentation of non-tagged lines relative to containing list.
This variable is used by the function `lisp-indent-tagbody' to indent normal
lines (lines without tags).
The indentation is relative to the indentation of the parenthesis enclosing
the special form. If the value is t, the body of tags will be indented
as a block at the same indentation as the first s-expression following
the tag. In this case, any forms before the first tag are indented
by `lisp-body-indent'."
:type 'integer
:group 'lisp-indent)
(defcustom lisp-backquote-indentation t
"*Whether or not to indent backquoted lists as code.
If nil, indent backquoted lists as data, i.e., like quoted lists."
:type 'boolean
:group 'lisp-indent)
(defcustom lisp-loop-keyword-indentation 3
"*Indentation of loop keywords in extended loop forms."
:type 'integer
:group 'lisp-indent)
(defcustom lisp-loop-forms-indentation 5
"*Indentation of forms in extended loop forms."
:type 'integer
:group 'lisp-indent)
(defcustom lisp-simple-loop-indentation 3
"*Indentation of forms in simple loop forms."
:type 'integer
:group 'lisp-indent)
(defvar lisp-indent-error-function)
(defvar lisp-indent-defun-method '(4 &lambda &body))
(defun extended-loop-p (loop-start)
"True if an extended loop form starts at LOOP-START."
(condition-case ()
(save-excursion
(goto-char loop-start)
(forward-char 1)
(forward-sexp 2)
(backward-sexp 1)
(looking-at "\\sw"))
(error t)))
(defun common-lisp-loop-part-indentation (indent-point state)
"Compute the indentation of loop form constituents."
(let* ((loop-indentation (save-excursion
(goto-char (elt state 1))
(current-column))))
(goto-char indent-point)
(beginning-of-line)
(cond ((not (extended-loop-p (elt state 1)))
(+ loop-indentation lisp-simple-loop-indentation))
((looking-at "^\\s-*\\(:?\\sw+\\|;\\)")
(+ loop-indentation lisp-loop-keyword-indentation))
(t
(+ loop-indentation lisp-loop-forms-indentation)))))
;;;###autoload
(defun common-lisp-indent-function (indent-point state)
(if (save-excursion (goto-char (elt state 1))
(looking-at "([Ll][Oo][Oo][Pp]"))
(common-lisp-loop-part-indentation indent-point state)
(common-lisp-indent-function-1 indent-point state)))
(defun common-lisp-indent-function-1 (indent-point state)
(let ((normal-indent (current-column)))
;; Walk up list levels until we see something
;; which does special things with subforms.
(let ((depth 0)
;; Path describes the position of point in terms of
;; list-structure with respect to containing lists.
;; `foo' has a path of (0 4 1) in `((a b c (d foo) f) g)'
(path ())
;; set non-nil when somebody works out the indentation to use
calculated
;; If non-nil, this is an indentation to use
;; if nothing else specifies it more firmly.
tentative-calculated
(last-point indent-point)
;; the position of the open-paren of the innermost containing list
(containing-form-start (elt state 1))
;; the column of the above
sexp-column)
;; Move to start of innermost containing list
(goto-char containing-form-start)
(setq sexp-column (current-column))
;; Look over successively less-deep containing forms
(while (and (not calculated)
(< depth lisp-indent-maximum-backtracking))
(let ((containing-sexp (point)))
(forward-char 1)
(parse-partial-sexp (point) indent-point 1 t)
;; Move to the car of the relevant containing form
(let (tem function method tentative-defun)
(if (not (looking-at "\\sw\\|\\s_"))
;; This form doesn't seem to start with a symbol
(setq function nil method nil)
(setq tem (point))
(forward-sexp 1)
(setq function (downcase (buffer-substring-no-properties
tem (point))))
(goto-char tem)
(setq tem (intern-soft function)
method (get tem 'common-lisp-indent-function))
(cond ((and (null method)
(string-match ":[^:]+" function))
;; The pleblisp package feature
(setq function (substring function
(1+ (match-beginning 0)))
method (get (intern-soft function)
'common-lisp-indent-function)))
((and (null method))
;; backwards compatibility
(setq method (get tem 'lisp-indent-function)))))
(let ((n 0))
;; How far into the containing form is the current form?
(if (< (point) indent-point)
(while (condition-case ()
(progn
(forward-sexp 1)
(if (>= (point) indent-point)
nil
(parse-partial-sexp (point)
indent-point 1 t)
(setq n (1+ n))
t))
(error nil))))
(setq path (cons n path)))
;; backwards compatibility.
(cond ((null function))
((null method)
(when (null (cdr path))
;; (package prefix was stripped off above)
(cond ((string-match "\\`def"
function)
(setq tentative-defun t))
((string-match
(eval-when-compile
(concat "\\`\\("
(regexp-opt '("with" "without" "do"))
"\\)-"))
function)
(setq method '(&lambda &body))))))
;; backwards compatibility. Bletch.
((eq method 'defun)
(setq method lisp-indent-defun-method)))
(cond ((and (or (eq (char-after (1- containing-sexp)) ?\')
(and (not lisp-backquote-indentation)
(eq (char-after (1- containing-sexp)) ?\`)))
(not (eq (char-after (- containing-sexp 2)) ?\#)))
;; No indentation for "'(...)" elements
(setq calculated (1+ sexp-column)))
((or (eq (char-after (1- containing-sexp)) ?\,)
(and (eq (char-after (1- containing-sexp)) ?\@)
(eq (char-after (- containing-sexp 2)) ?\,)))
;; ",(...)" or ",@(...)"
(setq calculated normal-indent))
((eq (char-after (1- containing-sexp)) ?\#)
;; "#(...)"
(setq calculated (1+ sexp-column)))
((null method)
;; If this looks like a call to a `def...' form,
;; think about indenting it as one, but do it
;; tentatively for cases like
;; (flet ((defunp ()
;; nil)))
;; Set both normal-indent and tentative-calculated.
;; The latter ensures this value gets used
;; if there are no relevant containing constructs.
;; The former ensures this value gets used
;; if there is a relevant containing construct
;; but we are nested within the structure levels
;; that it specifies indentation for.
(if tentative-defun
(setq tentative-calculated
(common-lisp-indent-call-method
function lisp-indent-defun-method
path state indent-point
sexp-column normal-indent)
normal-indent tentative-calculated)))
((integerp method)
;; convenient top-level hack.
;; (also compatible with lisp-indent-function)
;; The number specifies how many `distinguished'
;; forms there are before the body starts
;; Equivalent to (4 4 ... &body)
(setq calculated (cond ((cdr path)
normal-indent)
((<= (car path) method)
;; `distinguished' form
(list (+ sexp-column 4)
containing-form-start))
((= (car path) (1+ method))
;; first body form.
(+ sexp-column lisp-body-indent))
(t
;; other body form
normal-indent))))
(t
(setq calculated
(common-lisp-indent-call-method
function method path state indent-point
sexp-column normal-indent)))))
(goto-char containing-sexp)
(setq last-point containing-sexp)
(unless calculated
(condition-case ()
(progn (backward-up-list 1)
(setq depth (1+ depth)))
(error (setq depth lisp-indent-maximum-backtracking))))))
(or calculated tentative-calculated))))
(defun common-lisp-indent-call-method (function method path state indent-point
sexp-column normal-indent)
(let ((lisp-indent-error-function function))
(if (symbolp method)
(funcall method
path state indent-point
sexp-column normal-indent)
(lisp-indent-259 method path state indent-point
sexp-column normal-indent))))
(defun lisp-indent-report-bad-format (m)
(error "%s has a badly-formed %s property: %s"
;; Love those free variable references!!
lisp-indent-error-function 'common-lisp-indent-function m))
;; Blame the crufty control structure on dynamic scoping
;; -- not on me!
(defun lisp-indent-259 (method path state indent-point
sexp-column normal-indent)
(catch 'exit
(let ((p path)
(containing-form-start (elt state 1))
n tem tail)
;; Isn't tail-recursion wonderful?
(while p
;; This while loop is for destructuring.
;; p is set to (cdr p) each iteration.
(if (not (consp method)) (lisp-indent-report-bad-format method))
(setq n (1- (car p))
p (cdr p)
tail nil)
(while n
;; This while loop is for advancing along a method
;; until the relevant (possibly &rest/&body) pattern
;; is reached.
;; n is set to (1- n) and method to (cdr method)
;; each iteration.
(setq tem (car method))
(or (eq tem 'nil) ;default indentation
(eq tem '&lambda) ;lambda list
(and (eq tem '&body) (null (cdr method)))
(and (eq tem '&rest)
(consp (cdr method))
(null (cddr method)))
(integerp tem) ;explicit indentation specified
(and (consp tem) ;destructuring
(eq (car tem) '&whole)
(or (symbolp (cadr tem))
(integerp (cadr tem))))
(and (symbolp tem) ;a function to call to do the work.
(null (cdr method)))
(lisp-indent-report-bad-format method))
(cond ((and tail (not (consp tem)))
;; indent tail of &rest in same way as first elt of rest
(throw 'exit normal-indent))
((eq tem '&body)
;; &body means (&rest <lisp-body-indent>)
(throw 'exit
(if (and (= n 0) ;first body form
(null p)) ;not in subforms
(+ sexp-column
lisp-body-indent)
normal-indent)))
((eq tem '&rest)
;; this pattern holds for all remaining forms
(setq tail (> n 0)
n 0
method (cdr method)))
((> n 0)
;; try next element of pattern
(setq n (1- n)
method (cdr method))
(if (< n 0)
;; Too few elements in pattern.
(throw 'exit normal-indent)))
((eq tem 'nil)
(throw 'exit (list normal-indent containing-form-start)))
((eq tem '&lambda)
(throw 'exit
(cond ((null p)
(list (+ sexp-column 4) containing-form-start))
((null (cdr p))
(+ sexp-column 1))
(t normal-indent))))
((integerp tem)
(throw 'exit
(if (null p) ;not in subforms
(list (+ sexp-column tem) containing-form-start)
normal-indent)))
((symbolp tem) ;a function to call
(throw 'exit
(funcall tem path state indent-point
sexp-column normal-indent)))
(t
;; must be a destructing frob
(if (not (null p))
;; descend
(setq method (cddr tem)
n nil)
(setq tem (cadr tem))
(throw 'exit
(cond (tail
normal-indent)
((eq tem 'nil)
(list normal-indent
containing-form-start))
((integerp tem)
(list (+ sexp-column tem)
containing-form-start))
(t
(funcall tem path state indent-point
sexp-column normal-indent))))))))))))
(defun lisp-indent-tagbody (path state indent-point sexp-column normal-indent)
(if (not (null (cdr path)))
normal-indent
(save-excursion
(goto-char indent-point)
(beginning-of-line)
(skip-chars-forward " \t")
(list (cond ((looking-at "\\sw\\|\\s_")
;; a tagbody tag
(+ sexp-column lisp-tag-indentation))
((integerp lisp-tag-body-indentation)
(+ sexp-column lisp-tag-body-indentation))
((eq lisp-tag-body-indentation 't)
(condition-case ()
(progn (backward-sexp 1) (current-column))
(error (1+ sexp-column))))
(t (+ sexp-column lisp-body-indent)))
; (cond ((integerp lisp-tag-body-indentation)
; (+ sexp-column lisp-tag-body-indentation))
; ((eq lisp-tag-body-indentation 't)
; normal-indent)
; (t
; (+ sexp-column lisp-body-indent)))
(elt state 1)
))))
(defun lisp-indent-do (path state indent-point sexp-column normal-indent)
(if (>= (car path) 3)
(let ((lisp-tag-body-indentation lisp-body-indent))
(funcall (function lisp-indent-tagbody)
path state indent-point sexp-column normal-indent))
(funcall (function lisp-indent-259)
'((&whole nil &rest
;; the following causes weird indentation
;;(&whole 1 1 2 nil)
)
(&whole nil &rest 1))
path state indent-point sexp-column normal-indent)))
(defun lisp-indent-defmethod (path state indent-point sexp-column
normal-indent)
"Indentation function defmethod."
(lisp-indent-259 (if (and (>= (car path) 3)
(null (cdr path))
(save-excursion (goto-char (elt state 1))
(forward-char 1)
(forward-sexp 3)
(backward-sexp)
(looking-at ":\\|\\sw+")))
'(4 4 (&whole 4 &rest 4) &body)
(get 'defun 'common-lisp-indent-function))
path state indent-point sexp-column normal-indent))
(defun lisp-indent-function-lambda-hack (path state indent-point
sexp-column normal-indent)
;; indent (function (lambda () <newline> <body-forms>)) kludgily.
(if (or (cdr path) ; wtf?
(> (car path) 3))
;; line up under previous body form
normal-indent
;; line up under function rather than under lambda in order to
;; conserve horizontal space. (Which is what #' is for.)
(condition-case ()
(save-excursion
(backward-up-list 2)
(forward-char 1)
(if (looking-at "\\(lisp:+\\)?function\\(\\Sw\\|\\S_\\)")
(+ lisp-body-indent -1 (current-column))
(+ sexp-column lisp-body-indent)))
(error (+ sexp-column lisp-body-indent)))))
(let ((l '((block 1)
(case (4 &rest (&whole 2 &rest 1)))
(ccase . case) (ecase . case)
(typecase . case) (etypecase . case) (ctypecase . case)
(catch 1)
(cond (&rest (&whole 2 &rest 1)))
(defvar (4 2 2))
(defclass (6 4 (&whole 2 &rest 1) (&whole 2 &rest 1)))
(defconstant . defvar)
(defcustom (4 2 2 2))
(defparameter . defvar)
(defconst . defcustom)
(define-condition . defclass)
(define-modify-macro (4 &lambda &body))
(defsetf (4 &lambda 4 &body))
(defun (4 &lambda &body))
(define-setf-method . defun)
(define-setf-expander . defun)
(defmacro . defun) (defsubst . defun) (deftype . defun)
(defmethod lisp-indent-defmethod)
(defpackage (4 2))
(defstruct ((&whole 4 &rest (&whole 2 &rest 1))
&rest (&whole 2 &rest 1)))
(destructuring-bind
((&whole 6 &rest 1) 4 &body))
(do lisp-indent-do)
(do* . do)
(dolist ((&whole 4 2 1) &body))
(dotimes . dolist)
(eval-when 1)
(flet ((&whole 4 &rest (&whole 1 &lambda &body)) &body))
(labels . flet)
(macrolet . flet)
(generic-flet . flet) (generic-labels . flet)
(handler-case (4 &rest (&whole 2 &lambda &body)))
(restart-case . handler-case)
;; `else-body' style
(if (nil nil &body))
;; single-else style (then and else equally indented)
(if (&rest nil))
(lambda (&lambda &rest lisp-indent-function-lambda-hack))
(let ((&whole 4 &rest (&whole 1 1 2)) &body))
(let* . let)
(compiler-let . let) ;barf
(handler-bind . let) (restart-bind . let)
(locally 1)
;(loop lisp-indent-loop)
(:method (&lambda &body)) ; in `defgeneric'
(multiple-value-bind ((&whole 6 &rest 1) 4 &body))
(multiple-value-call (4 &body))
(multiple-value-prog1 1)
(multiple-value-setq (4 2))
(multiple-value-setf . multiple-value-setq)
(pprint-logical-block (4 2))
(print-unreadable-object ((&whole 4 1 &rest 1) &body))
;; Combines the worst features of BLOCK, LET and TAGBODY
(prog (&lambda &rest lisp-indent-tagbody))
(prog* . prog)
(prog1 1)
(prog2 2)
(progn 0)
(progv (4 4 &body))
(return 0)
(return-from (nil &body))
(symbol-macrolet . let)
(tagbody lisp-indent-tagbody)
(throw 1)
(unless 1)
(unwind-protect (5 &body))
(when 1)
(with-accessors . multiple-value-bind)
(with-condition-restarts . multiple-value-bind)
(with-output-to-string (4 2))
(with-slots . multiple-value-bind)
(with-standard-io-syntax (2)))))
(dolist (el l)
(put (car el) 'common-lisp-indent-function
(if (symbolp (cdr el))
(get (cdr el) 'common-lisp-indent-function)
(car (cdr el))))))
;(defun foo (x)
; (tagbody
; foo
; (bar)
; baz
; (when (losing)
; (with-big-loser
; (yow)
; ((lambda ()
; foo)
; big)))
; (flet ((foo (bar baz zap)
; (zip))
; (zot ()
; quux))
; (do ()
; ((lose)
; (foo 1))
; (quux)
; foo
; (lose))
; (cond ((x)
; (win 1 2
; (foo)))
; (t
; (lose
; 3))))))
;(put 'while 'common-lisp-indent-function 1)
;(put 'defwrapper'common-lisp-indent-function ...)
;(put 'def 'common-lisp-indent-function ...)
;(put 'defflavor 'common-lisp-indent-function ...)
;(put 'defsubst 'common-lisp-indent-function ...)
;(put 'with-restart 'common-lisp-indent-function '((1 4 ((* 1))) (2 &body)))
;(put 'restart-case 'common-lisp-indent-function '((1 4) (* 2 ((0 1) (* 1)))))
;(put 'define-condition 'common-lisp-indent-function '((1 6) (2 6 ((&whole 1))) (3 4 ((&whole 1))) (4 &body)))
;(put 'with-condition-handler 'common-lisp-indent-function '((1 4 ((* 1))) (2 &body)))
;(put 'condition-case 'common-lisp-indent-function '((1 4) (* 2 ((0 1) (1 3) (2 &body)))))
;(put 'defclass 'common-lisp-indent-function '((&whole 2 &rest (&whole 2 &rest 1) &rest (&whole 2 &rest 1)))
;(put 'defgeneric 'common-lisp-indent-function 'defun)
;;; arch-tag: 7914d50f-92ec-4476-93fc-0f043a380e03
;;; cl-indent.el ends here