-;;; cl-extra.el --- Common Lisp extensions for GNU Emacs Lisp (part two)
+;;; cl-extra.el --- Common Lisp features, part 2 -*-byte-compile-dynamic: t;-*-
-;; Copyright (C) 1993 Free Software Foundation, Inc.
+;; Copyright (C) 1993,2000 Free Software Foundation, Inc.
;; Author: Dave Gillespie <daveg@synaptics.com>
-;; Version: 2.02
;; Keywords: extensions
;; This file is part of GNU Emacs.
;; This package was written by Dave Gillespie; it is a complete
;; rewrite of Cesar Quiroz's original cl.el package of December 1986.
;;
-;; This package works with Emacs 18, Emacs 19, and Lucid Emacs 19.
-;;
;; Bug reports, comments, and suggestions are welcome!
;; This file contains portions of the Common Lisp extensions
;; package which are autoloaded since they are relatively obscure.
-;; See cl.el for Change Log.
-
-
;;; Code:
(or (memq 'cl-19 features)
(defmacro cl-pop (place)
(list 'car (list 'prog1 place (list 'setq place (list 'cdr place)))))
-(defvar cl-emacs-type)
-
-
;;; Type coercion.
(defun coerce (x type)
(cond ((eq x y) t)
((stringp x)
(and (stringp y) (= (length x) (length y))
- (or (equal x y)
- (equal (downcase x) (downcase y))))) ; lazy but simple!
+ (or (string-equal x y)
+ (string-equal (downcase x) (downcase y))))) ; lazy but simple!
((numberp x)
(and (numberp y) (= x y)))
((consp x)
- (while (and (consp x) (consp y) (equalp (cl-pop x) (cl-pop y))))
+ (while (and (consp x) (consp y) (equalp (car x) (car y)))
+ (setq x (cdr x) y (cdr y)))
(and (not (consp x)) (equalp x y)))
((vectorp x)
(and (vectorp y) (= (length x) (length y))
(setq cl-list (cdr cl-list)))
(nreverse cl-res))))
-(defun mapc (cl-func cl-seq &rest cl-rest)
+(defun cl-mapc (cl-func cl-seq &rest cl-rest)
"Like `mapcar', but does not accumulate values returned by the function."
(if cl-rest
- (apply 'map nil cl-func cl-seq cl-rest)
- (mapcar cl-func cl-seq))
- cl-seq)
+ (progn (apply 'map nil cl-func cl-seq cl-rest)
+ cl-seq)
+ (mapc cl-func cl-seq)))
(defun mapl (cl-func cl-list &rest cl-rest)
"Like `maplist', but does not accumulate values returned by the function."
;;; Support for `loop'.
(defun cl-map-keymap (cl-func cl-map)
(while (symbolp cl-map) (setq cl-map (symbol-function cl-map)))
- (if (eq cl-emacs-type 'lucid) (funcall 'map-keymap cl-func cl-map)
- (if (listp cl-map)
- (let ((cl-p cl-map))
- (while (consp (setq cl-p (cdr cl-p)))
- (cond ((consp (car cl-p))
- (funcall cl-func (car (car cl-p)) (cdr (car cl-p))))
- ((vectorp (car cl-p))
- (cl-map-keymap cl-func (car cl-p)))
- ((eq (car cl-p) 'keymap)
- (setq cl-p nil)))))
- (let ((cl-i -1))
- (while (< (setq cl-i (1+ cl-i)) (length cl-map))
- (if (aref cl-map cl-i)
- (funcall cl-func cl-i (aref cl-map cl-i))))))))
+ (if (listp cl-map)
+ (let ((cl-p cl-map))
+ (while (consp (setq cl-p (cdr cl-p)))
+ (cond ((consp (car cl-p))
+ (funcall cl-func (car (car cl-p)) (cdr (car cl-p))))
+ ((or (vectorp (car cl-p)) (char-table-p (car cl-p)))
+ (cl-map-keymap cl-func (car cl-p)))
+ ((eq (car cl-p) 'keymap)
+ (setq cl-p nil)))))
+ (let ((cl-i -1))
+ (while (< (setq cl-i (1+ cl-i)) (length cl-map))
+ (if (aref cl-map cl-i)
+ (funcall cl-func cl-i (aref cl-map cl-i)))))))
(defun cl-map-keymap-recursively (cl-func-rec cl-map &optional cl-base)
(or cl-base
- (setq cl-base (copy-sequence (if (eq cl-emacs-type 18) "0" [0]))))
+ (setq cl-base (copy-sequence [0])))
(cl-map-keymap
(function
(lambda (cl-key cl-bind)
(if (keymapp cl-bind)
(cl-map-keymap-recursively
cl-func-rec cl-bind
- (funcall (if (eq cl-emacs-type 18) 'concat 'vconcat)
- cl-base (list 0)))
+ (vconcat cl-base (list 0)))
(funcall cl-func-rec cl-base cl-bind))))
cl-map))
(or cl-what (setq cl-what (current-buffer)))
(if (bufferp cl-what)
(let (cl-mark cl-mark2 (cl-next t) cl-next2)
- (save-excursion
- (set-buffer cl-what)
+ (with-current-buffer cl-what
(setq cl-mark (copy-marker (or cl-start (point-min))))
(setq cl-mark2 (and cl-end (copy-marker cl-end))))
(while (and cl-next (or (not cl-mark2) (< cl-mark cl-mark2)))
- (setq cl-next (and (fboundp 'next-property-change)
- (if cl-prop (next-single-property-change
- cl-mark cl-prop cl-what)
- (next-property-change cl-mark cl-what)))
- cl-next2 (or cl-next (save-excursion
- (set-buffer cl-what) (point-max))))
+ (setq cl-next (if cl-prop (next-single-property-change
+ cl-mark cl-prop cl-what)
+ (next-property-change cl-mark cl-what))
+ cl-next2 (or cl-next (with-current-buffer cl-what
+ (point-max))))
(funcall cl-func (prog1 (marker-position cl-mark)
(set-marker cl-mark cl-next2))
(if cl-mark2 (min cl-next2 cl-mark2) cl-next2)))
(or cl-start (setq cl-start 0))
(or cl-end (setq cl-end (length cl-what)))
(while (< cl-start cl-end)
- (let ((cl-next (or (and (fboundp 'next-property-change)
- (if cl-prop (next-single-property-change
- cl-start cl-prop cl-what)
- (next-property-change cl-start cl-what)))
+ (let ((cl-next (or (if cl-prop (next-single-property-change
+ cl-start cl-prop cl-what)
+ (next-property-change cl-start cl-what))
cl-end)))
(funcall cl-func cl-start (min cl-next cl-end))
(setq cl-start cl-next)))))
;; This is the preferred algorithm, though overlay-lists is undocumented.
(let (cl-ovl)
- (save-excursion
- (set-buffer cl-buffer)
+ (with-current-buffer cl-buffer
(setq cl-ovl (overlay-lists))
(if cl-start (setq cl-start (copy-marker cl-start)))
(if cl-end (setq cl-end (copy-marker cl-end))))
(if cl-end (set-marker cl-end nil)))
;; This alternate algorithm fails to find zero-length overlays.
- (let ((cl-mark (save-excursion (set-buffer cl-buffer)
- (copy-marker (or cl-start (point-min)))))
- (cl-mark2 (and cl-end (save-excursion (set-buffer cl-buffer)
- (copy-marker cl-end))))
+ (let ((cl-mark (with-current-buffer cl-buffer
+ (copy-marker (or cl-start (point-min)))))
+ (cl-mark2 (and cl-end (with-current-buffer cl-buffer
+ (copy-marker cl-end))))
cl-pos cl-ovl)
(while (save-excursion
(and (setq cl-pos (marker-position cl-mark))
(defun isqrt (a)
"Return the integer square root of the argument."
(if (and (integerp a) (> a 0))
- (let ((g (cond ((>= a 1000000) 10000) ((>= a 10000) 1000)
- ((>= a 100) 100) (t 10)))
+ (let ((g (cond ((<= a 100) 10) ((<= a 10000) 100)
+ ((<= a 1000000) 1000) (t a)))
g2)
(while (< (setq g2 (/ (+ g (/ a g)) 2)) g)
(setq g g2))
g)
(if (eq a 0) 0 (signal 'arith-error nil))))
-(defun cl-expt (x y)
- "Return X raised to the power of Y. Works only for integer arguments."
- (if (<= y 0) (if (= y 0) 1 (if (memq x '(-1 1)) x 0))
- (* (if (= (% y 2) 0) 1 x) (cl-expt (* x x) (/ y 2)))))
-(or (and (fboundp 'expt) (subrp (symbol-function 'expt)))
- (defalias 'expt 'cl-expt))
-
(defun floor* (x &optional y)
"Return a list of the floor of X and the fractional part of X.
With two arguments, return floor and remainder of their quotient."
(while (>= (setq i (1- i)) 0)
(aset tree i (cl-copy-tree (aref tree i) vecp))))))
tree)
-(or (and (fboundp 'copy-tree) (subrp (symbol-function 'copy-tree)))
- (defalias 'copy-tree 'cl-copy-tree))
+(defalias 'copy-tree 'cl-copy-tree)
;;; Property lists.
PROPLIST is a list of the sort returned by `symbol-plist'."
(setplist '--cl-getf-symbol-- plist)
(or (get '--cl-getf-symbol-- tag)
- (and def (get* '--cl-getf-symbol-- tag def))))
+ ;; Originally we called get* here,
+ ;; but that fails, because get* has a compiler macro
+ ;; definition that uses getf!
+ (when def
+ (while (and plist (not (eq (car plist) tag)))
+ (setq plist (cdr (cdr plist))))
+ (if plist (car (cdr plist)) def))))
(defun cl-set-getf (plist tag val)
(let ((p plist))
(if (and plist (eq tag (car plist)))
(progn (setplist sym (cdr (cdr plist))) t)
(cl-do-remf plist tag))))
-(or (and (fboundp 'remprop) (subrp (symbol-function 'remprop)))
- (defalias 'remprop 'cl-remprop))
+(defalias 'remprop 'cl-remprop)
;;; Hash tables.
-(defun make-hash-table (&rest cl-keys)
+(defun cl-make-hash-table (&rest cl-keys)
"Make an empty Common Lisp-style hash-table.
-If :test is `eq', this can use Lucid Emacs built-in hash-tables.
-In non-Lucid Emacs, or with non-`eq' test, this internally uses a-lists.
Keywords supported: :test :size
The Common Lisp keywords :rehash-size and :rehash-threshold are ignored."
- (let ((cl-test (or (car (cdr (memq ':test cl-keys))) 'eql))
- (cl-size (or (car (cdr (memq ':size cl-keys))) 20)))
- (if (and (eq cl-test 'eq) (fboundp 'make-hashtable))
- (funcall 'make-hashtable cl-size)
- (list 'cl-hash-table-tag cl-test
- (if (> cl-size 1) (make-vector cl-size 0)
- (let ((sym (make-symbol "--hashsym--"))) (set sym nil) sym))
- 0))))
-
-(defvar cl-lucid-hash-tag
- (if (and (fboundp 'make-hashtable) (vectorp (make-hashtable 1)))
- (aref (make-hashtable 1) 0) (make-symbol "--cl-hash-tag--")))
-
-(defun hash-table-p (x)
+ (let ((cl-test (or (car (cdr (memq :test cl-keys))) 'eql))
+ (cl-size (or (car (cdr (memq :size cl-keys))) 20)))
+ (make-hash-table :size cl-size :test cl-size)))
+
+(defun cl-hash-table-p (x)
"Return t if OBJECT is a hash table."
- (or (eq (car-safe x) 'cl-hash-table-tag)
- (and (vectorp x) (= (length x) 4) (eq (aref x 0) cl-lucid-hash-tag))
- (and (fboundp 'hashtablep) (funcall 'hashtablep x))))
+ (or (hash-table-p x)
+ (eq (car-safe x) 'cl-hash-table-tag)))
(defun cl-not-hash-table (x &optional y &rest z)
- (signal 'wrong-type-argument (list 'hash-table-p (or y x))))
+ (signal 'wrong-type-argument (list 'cl-hash-table-p (or y x))))
(defun cl-hash-lookup (key table)
(or (eq (car-safe table) 'cl-hash-table-tag) (cl-not-hash-table table))
(and (eq test 'eql) (not (numberp key))))
(assq key sym))
((memq test '(eql equal)) (assoc key sym))
- (t (assoc* key sym ':test test))))
+ (t (assoc* key sym :test test))))
sym str)))
-(defvar cl-builtin-gethash
- (if (and (fboundp 'gethash) (subrp (symbol-function 'gethash)))
- (symbol-function 'gethash) 'cl-not-hash-table))
-(defvar cl-builtin-remhash
- (if (and (fboundp 'remhash) (subrp (symbol-function 'remhash)))
- (symbol-function 'remhash) 'cl-not-hash-table))
-(defvar cl-builtin-clrhash
- (if (and (fboundp 'clrhash) (subrp (symbol-function 'clrhash)))
- (symbol-function 'clrhash) 'cl-not-hash-table))
-(defvar cl-builtin-maphash
- (if (and (fboundp 'maphash) (subrp (symbol-function 'maphash)))
- (symbol-function 'maphash) 'cl-not-hash-table))
+;; These variables are just kept for compatibility with code
+;; byte-compiled by Emacs-20.
+(defvar cl-builtin-gethash (symbol-function 'gethash))
+(defvar cl-builtin-remhash (symbol-function 'remhash))
+(defvar cl-builtin-clrhash (symbol-function 'clrhash))
+(defvar cl-builtin-maphash (symbol-function 'maphash))
(defun cl-gethash (key table &optional def)
"Look up KEY in HASH-TABLE; return corresponding value, or DEFAULT."
(if (consp table)
(let ((found (cl-hash-lookup key table)))
(if (car found) (cdr (car found)) def))
- (funcall cl-builtin-gethash key table def)))
-(defalias 'gethash 'cl-gethash)
+ (gethash key table def)))
(defun cl-puthash (key val table)
(if (consp table)
(setcar (cdr (cdr (cdr table))) (1- (nth 3 table)))
(if (nth 2 found) (set (intern (nth 2 found) (nth 2 table)) del)
(set (nth 2 table) del)) t)))
- (prog1 (not (eq (funcall cl-builtin-gethash key table '--cl--) '--cl--))
- (funcall cl-builtin-remhash key table))))
-(defalias 'remhash 'cl-remhash)
+ (prog1 (not (eq (gethash key table '--cl--) '--cl--))
+ (remhash key table))))
(defun cl-clrhash (table)
"Clear HASH-TABLE."
(if (consp table)
(progn
- (or (hash-table-p table) (cl-not-hash-table table))
+ (or (cl-hash-table-p table) (cl-not-hash-table table))
(if (symbolp (nth 2 table)) (set (nth 2 table) nil)
(setcar (cdr (cdr table)) (make-vector (length (nth 2 table)) 0)))
(setcar (cdr (cdr (cdr table))) 0))
- (funcall cl-builtin-clrhash table))
+ (clrhash table))
nil)
-(defalias 'clrhash 'cl-clrhash)
(defun cl-maphash (cl-func cl-table)
"Call FUNCTION on keys and values from HASH-TABLE."
- (or (hash-table-p cl-table) (cl-not-hash-table cl-table))
+ (or (cl-hash-table-p cl-table) (cl-not-hash-table cl-table))
(if (consp cl-table)
(mapatoms (function (lambda (cl-x)
(setq cl-x (symbol-value cl-x))
(setq cl-x (cdr cl-x)))))
(if (symbolp (nth 2 cl-table))
(vector (nth 2 cl-table)) (nth 2 cl-table)))
- (funcall cl-builtin-maphash cl-func cl-table)))
-(defalias 'maphash 'cl-maphash)
+ (maphash cl-func cl-table)))
-(defun hash-table-count (table)
+(defun cl-hash-table-count (table)
"Return the number of entries in HASH-TABLE."
- (or (hash-table-p table) (cl-not-hash-table table))
- (if (consp table) (nth 3 table) (funcall 'hashtable-fullness table)))
+ (or (cl-hash-table-p table) (cl-not-hash-table table))
+ (if (consp table)
+ (nth 3 table)
+ (hash-table-count table)))
;;; Some debugging aids.
cl-closure-vars)
'((quote --cl-rest--)))))))
(list (car form) (list* 'lambda (cadadr form) body))))
- form))
+ (let ((found (assq (cadr form) env)))
+ (if (eq (cadr (caddr found)) 'cl-labels-args)
+ (cl-macroexpand-all (cadr (caddr (cadddr found))) env)
+ form))))
((memq (car form) '(defun defmacro))
(list* (car form) (nth 1 form) (cl-macroexpand-body (cddr form) env)))
((and (eq (car form) 'progn) (not (cddr form)))