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753 lines
26 KiB
EmacsLisp
753 lines
26 KiB
EmacsLisp
;;; cl-extra.el --- Common Lisp features, part 2 -*-byte-compile-dynamic: t;-*-
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;; Copyright (C) 1993,2000,2003 Free Software Foundation, Inc.
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;; Author: Dave Gillespie <daveg@synaptics.com>
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;; Keywords: extensions
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;; This file is part of GNU Emacs.
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;; GNU Emacs is free software; you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation; either version 2, or (at your option)
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;; any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs; see the file COPYING. If not, write to the
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;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
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;; Boston, MA 02111-1307, USA.
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;;; Commentary:
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;; These are extensions to Emacs Lisp that provide a degree of
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;; Common Lisp compatibility, beyond what is already built-in
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;; in Emacs Lisp.
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;;
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;; This package was written by Dave Gillespie; it is a complete
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;; rewrite of Cesar Quiroz's original cl.el package of December 1986.
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;;
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;; Bug reports, comments, and suggestions are welcome!
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;; This file contains portions of the Common Lisp extensions
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;; package which are autoloaded since they are relatively obscure.
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;;; Code:
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(or (memq 'cl-19 features)
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(error "Tried to load `cl-extra' before `cl'!"))
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;;; Type coercion.
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(defun coerce (x type)
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"Coerce OBJECT to type TYPE.
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TYPE is a Common Lisp type specifier."
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(cond ((eq type 'list) (if (listp x) x (append x nil)))
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((eq type 'vector) (if (vectorp x) x (vconcat x)))
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((eq type 'string) (if (stringp x) x (concat x)))
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((eq type 'array) (if (arrayp x) x (vconcat x)))
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((and (eq type 'character) (stringp x) (= (length x) 1)) (aref x 0))
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((and (eq type 'character) (symbolp x)) (coerce (symbol-name x) type))
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((eq type 'float) (float x))
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((typep x type) x)
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(t (error "Can't coerce %s to type %s" x type))))
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;;; Predicates.
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(defun equalp (x y)
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"T if two Lisp objects have similar structures and contents.
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This is like `equal', except that it accepts numerically equal
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numbers of different types (float vs. integer), and also compares
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strings case-insensitively."
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(cond ((eq x y) t)
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((stringp x)
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(and (stringp y) (= (length x) (length y))
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(or (string-equal x y)
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(string-equal (downcase x) (downcase y))))) ; lazy but simple!
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((numberp x)
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(and (numberp y) (= x y)))
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((consp x)
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(while (and (consp x) (consp y) (equalp (car x) (car y)))
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(setq x (cdr x) y (cdr y)))
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(and (not (consp x)) (equalp x y)))
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((vectorp x)
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(and (vectorp y) (= (length x) (length y))
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(let ((i (length x)))
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(while (and (>= (setq i (1- i)) 0)
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(equalp (aref x i) (aref y i))))
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(< i 0))))
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(t (equal x y))))
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;;; Control structures.
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(defun cl-mapcar-many (cl-func cl-seqs)
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(if (cdr (cdr cl-seqs))
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(let* ((cl-res nil)
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(cl-n (apply 'min (mapcar 'length cl-seqs)))
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(cl-i 0)
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(cl-args (copy-sequence cl-seqs))
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cl-p1 cl-p2)
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(setq cl-seqs (copy-sequence cl-seqs))
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(while (< cl-i cl-n)
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(setq cl-p1 cl-seqs cl-p2 cl-args)
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(while cl-p1
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(setcar cl-p2
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(if (consp (car cl-p1))
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(prog1 (car (car cl-p1))
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(setcar cl-p1 (cdr (car cl-p1))))
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(aref (car cl-p1) cl-i)))
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(setq cl-p1 (cdr cl-p1) cl-p2 (cdr cl-p2)))
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(push (apply cl-func cl-args) cl-res)
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(setq cl-i (1+ cl-i)))
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(nreverse cl-res))
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(let ((cl-res nil)
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(cl-x (car cl-seqs))
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(cl-y (nth 1 cl-seqs)))
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(let ((cl-n (min (length cl-x) (length cl-y)))
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(cl-i -1))
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(while (< (setq cl-i (1+ cl-i)) cl-n)
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(push (funcall cl-func
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(if (consp cl-x) (pop cl-x) (aref cl-x cl-i))
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(if (consp cl-y) (pop cl-y) (aref cl-y cl-i)))
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cl-res)))
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(nreverse cl-res))))
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(defun map (cl-type cl-func cl-seq &rest cl-rest)
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"Map a function across one or more sequences, returning a sequence.
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TYPE is the sequence type to return, FUNC is the function, and SEQS
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are the argument sequences."
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(let ((cl-res (apply 'mapcar* cl-func cl-seq cl-rest)))
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(and cl-type (coerce cl-res cl-type))))
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(defun maplist (cl-func cl-list &rest cl-rest)
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"Map FUNC to each sublist of LIST or LISTS.
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Like `mapcar', except applies to lists and their cdr's rather than to
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the elements themselves."
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(if cl-rest
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(let ((cl-res nil)
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(cl-args (cons cl-list (copy-sequence cl-rest)))
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cl-p)
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(while (not (memq nil cl-args))
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(push (apply cl-func cl-args) cl-res)
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(setq cl-p cl-args)
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(while cl-p (setcar cl-p (cdr (pop cl-p)) )))
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(nreverse cl-res))
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(let ((cl-res nil))
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(while cl-list
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(push (funcall cl-func cl-list) cl-res)
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(setq cl-list (cdr cl-list)))
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(nreverse cl-res))))
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(defun cl-mapc (cl-func cl-seq &rest cl-rest)
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"Like `mapcar', but does not accumulate values returned by the function."
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(if cl-rest
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(progn (apply 'map nil cl-func cl-seq cl-rest)
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cl-seq)
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(mapc cl-func cl-seq)))
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(defun mapl (cl-func cl-list &rest cl-rest)
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"Like `maplist', but does not accumulate values returned by the function."
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(if cl-rest
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(apply 'maplist cl-func cl-list cl-rest)
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(let ((cl-p cl-list))
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(while cl-p (funcall cl-func cl-p) (setq cl-p (cdr cl-p)))))
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cl-list)
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(defun mapcan (cl-func cl-seq &rest cl-rest)
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"Like `mapcar', but nconc's together the values returned by the function."
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(apply 'nconc (apply 'mapcar* cl-func cl-seq cl-rest)))
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(defun mapcon (cl-func cl-list &rest cl-rest)
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"Like `maplist', but nconc's together the values returned by the function."
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(apply 'nconc (apply 'maplist cl-func cl-list cl-rest)))
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(defun some (cl-pred cl-seq &rest cl-rest)
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"Return true if PREDICATE is true of any element of SEQ or SEQs.
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If so, return the true (non-nil) value returned by PREDICATE."
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(if (or cl-rest (nlistp cl-seq))
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(catch 'cl-some
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(apply 'map nil
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(function (lambda (&rest cl-x)
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(let ((cl-res (apply cl-pred cl-x)))
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(if cl-res (throw 'cl-some cl-res)))))
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cl-seq cl-rest) nil)
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(let ((cl-x nil))
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(while (and cl-seq (not (setq cl-x (funcall cl-pred (pop cl-seq))))))
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cl-x)))
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(defun every (cl-pred cl-seq &rest cl-rest)
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"Return true if PREDICATE is true of every element of SEQ or SEQs."
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(if (or cl-rest (nlistp cl-seq))
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(catch 'cl-every
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(apply 'map nil
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(function (lambda (&rest cl-x)
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(or (apply cl-pred cl-x) (throw 'cl-every nil))))
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cl-seq cl-rest) t)
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(while (and cl-seq (funcall cl-pred (car cl-seq)))
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(setq cl-seq (cdr cl-seq)))
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(null cl-seq)))
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(defun notany (cl-pred cl-seq &rest cl-rest)
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"Return true if PREDICATE is false of every element of SEQ or SEQs."
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(not (apply 'some cl-pred cl-seq cl-rest)))
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(defun notevery (cl-pred cl-seq &rest cl-rest)
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"Return true if PREDICATE is false of some element of SEQ or SEQs."
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(not (apply 'every cl-pred cl-seq cl-rest)))
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;;; Support for `loop'.
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(defalias 'cl-map-keymap 'map-keymap)
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(defun cl-map-keymap-recursively (cl-func-rec cl-map &optional cl-base)
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(or cl-base
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(setq cl-base (copy-sequence [0])))
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(map-keymap
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(function
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(lambda (cl-key cl-bind)
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(aset cl-base (1- (length cl-base)) cl-key)
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(if (keymapp cl-bind)
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(cl-map-keymap-recursively
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cl-func-rec cl-bind
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(vconcat cl-base (list 0)))
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(funcall cl-func-rec cl-base cl-bind))))
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cl-map))
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(defun cl-map-intervals (cl-func &optional cl-what cl-prop cl-start cl-end)
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(or cl-what (setq cl-what (current-buffer)))
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(if (bufferp cl-what)
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(let (cl-mark cl-mark2 (cl-next t) cl-next2)
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(with-current-buffer cl-what
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(setq cl-mark (copy-marker (or cl-start (point-min))))
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(setq cl-mark2 (and cl-end (copy-marker cl-end))))
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(while (and cl-next (or (not cl-mark2) (< cl-mark cl-mark2)))
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(setq cl-next (if cl-prop (next-single-property-change
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cl-mark cl-prop cl-what)
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(next-property-change cl-mark cl-what))
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cl-next2 (or cl-next (with-current-buffer cl-what
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(point-max))))
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(funcall cl-func (prog1 (marker-position cl-mark)
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(set-marker cl-mark cl-next2))
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(if cl-mark2 (min cl-next2 cl-mark2) cl-next2)))
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(set-marker cl-mark nil) (if cl-mark2 (set-marker cl-mark2 nil)))
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(or cl-start (setq cl-start 0))
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(or cl-end (setq cl-end (length cl-what)))
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(while (< cl-start cl-end)
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(let ((cl-next (or (if cl-prop (next-single-property-change
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cl-start cl-prop cl-what)
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(next-property-change cl-start cl-what))
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cl-end)))
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(funcall cl-func cl-start (min cl-next cl-end))
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(setq cl-start cl-next)))))
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(defun cl-map-overlays (cl-func &optional cl-buffer cl-start cl-end cl-arg)
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(or cl-buffer (setq cl-buffer (current-buffer)))
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(if (fboundp 'overlay-lists)
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;; This is the preferred algorithm, though overlay-lists is undocumented.
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(let (cl-ovl)
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(with-current-buffer cl-buffer
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(setq cl-ovl (overlay-lists))
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(if cl-start (setq cl-start (copy-marker cl-start)))
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(if cl-end (setq cl-end (copy-marker cl-end))))
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(setq cl-ovl (nconc (car cl-ovl) (cdr cl-ovl)))
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(while (and cl-ovl
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(or (not (overlay-start (car cl-ovl)))
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(and cl-end (>= (overlay-start (car cl-ovl)) cl-end))
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(and cl-start (<= (overlay-end (car cl-ovl)) cl-start))
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(not (funcall cl-func (car cl-ovl) cl-arg))))
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(setq cl-ovl (cdr cl-ovl)))
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(if cl-start (set-marker cl-start nil))
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(if cl-end (set-marker cl-end nil)))
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;; This alternate algorithm fails to find zero-length overlays.
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(let ((cl-mark (with-current-buffer cl-buffer
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(copy-marker (or cl-start (point-min)))))
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(cl-mark2 (and cl-end (with-current-buffer cl-buffer
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(copy-marker cl-end))))
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cl-pos cl-ovl)
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(while (save-excursion
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(and (setq cl-pos (marker-position cl-mark))
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(< cl-pos (or cl-mark2 (point-max)))
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(progn
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(set-buffer cl-buffer)
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(setq cl-ovl (overlays-at cl-pos))
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(set-marker cl-mark (next-overlay-change cl-pos)))))
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(while (and cl-ovl
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(or (/= (overlay-start (car cl-ovl)) cl-pos)
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(not (and (funcall cl-func (car cl-ovl) cl-arg)
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(set-marker cl-mark nil)))))
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(setq cl-ovl (cdr cl-ovl))))
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(set-marker cl-mark nil) (if cl-mark2 (set-marker cl-mark2 nil)))))
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;;; Support for `setf'.
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(defun cl-set-frame-visible-p (frame val)
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(cond ((null val) (make-frame-invisible frame))
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((eq val 'icon) (iconify-frame frame))
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(t (make-frame-visible frame)))
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val)
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;;; Support for `progv'.
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(defvar cl-progv-save)
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(defun cl-progv-before (syms values)
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(while syms
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(push (if (boundp (car syms))
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(cons (car syms) (symbol-value (car syms)))
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(car syms)) cl-progv-save)
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(if values
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(set (pop syms) (pop values))
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(makunbound (pop syms)))))
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(defun cl-progv-after ()
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(while cl-progv-save
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(if (consp (car cl-progv-save))
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(set (car (car cl-progv-save)) (cdr (car cl-progv-save)))
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(makunbound (car cl-progv-save)))
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(pop cl-progv-save)))
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;;; Numbers.
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(defun gcd (&rest args)
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"Return the greatest common divisor of the arguments."
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(let ((a (abs (or (pop args) 0))))
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(while args
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(let ((b (abs (pop args))))
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(while (> b 0) (setq b (% a (setq a b))))))
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a))
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(defun lcm (&rest args)
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"Return the least common multiple of the arguments."
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(if (memq 0 args)
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0
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(let ((a (abs (or (pop args) 1))))
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(while args
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(let ((b (abs (pop args))))
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(setq a (* (/ a (gcd a b)) b))))
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a)))
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(defun isqrt (a)
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"Return the integer square root of the argument."
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(if (and (integerp a) (> a 0))
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(let ((g (cond ((<= a 100) 10) ((<= a 10000) 100)
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((<= a 1000000) 1000) (t a)))
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g2)
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(while (< (setq g2 (/ (+ g (/ a g)) 2)) g)
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(setq g g2))
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g)
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(if (eq a 0) 0 (signal 'arith-error nil))))
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(defun floor* (x &optional y)
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"Return a list of the floor of X and the fractional part of X.
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With two arguments, return floor and remainder of their quotient."
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(let ((q (floor x y)))
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(list q (- x (if y (* y q) q)))))
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(defun ceiling* (x &optional y)
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"Return a list of the ceiling of X and the fractional part of X.
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With two arguments, return ceiling and remainder of their quotient."
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(let ((res (floor* x y)))
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(if (= (car (cdr res)) 0) res
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(list (1+ (car res)) (- (car (cdr res)) (or y 1))))))
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(defun truncate* (x &optional y)
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"Return a list of the integer part of X and the fractional part of X.
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With two arguments, return truncation and remainder of their quotient."
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(if (eq (>= x 0) (or (null y) (>= y 0)))
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(floor* x y) (ceiling* x y)))
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(defun round* (x &optional y)
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"Return a list of X rounded to the nearest integer and the remainder.
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With two arguments, return rounding and remainder of their quotient."
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(if y
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(if (and (integerp x) (integerp y))
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(let* ((hy (/ y 2))
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(res (floor* (+ x hy) y)))
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(if (and (= (car (cdr res)) 0)
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(= (+ hy hy) y)
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(/= (% (car res) 2) 0))
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(list (1- (car res)) hy)
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(list (car res) (- (car (cdr res)) hy))))
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(let ((q (round (/ x y))))
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(list q (- x (* q y)))))
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(if (integerp x) (list x 0)
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(let ((q (round x)))
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(list q (- x q))))))
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(defun mod* (x y)
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"The remainder of X divided by Y, with the same sign as Y."
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(nth 1 (floor* x y)))
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(defun rem* (x y)
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"The remainder of X divided by Y, with the same sign as X."
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(nth 1 (truncate* x y)))
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(defun signum (a)
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"Return 1 if A is positive, -1 if negative, 0 if zero."
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(cond ((> a 0) 1) ((< a 0) -1) (t 0)))
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;; Random numbers.
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(defvar *random-state*)
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(defun random* (lim &optional state)
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"Return a random nonnegative number less than LIM, an integer or float.
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Optional second arg STATE is a random-state object."
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(or state (setq state *random-state*))
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;; Inspired by "ran3" from Numerical Recipes. Additive congruential method.
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(let ((vec (aref state 3)))
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(if (integerp vec)
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(let ((i 0) (j (- 1357335 (% (abs vec) 1357333))) (k 1) ii)
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(aset state 3 (setq vec (make-vector 55 nil)))
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(aset vec 0 j)
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(while (> (setq i (% (+ i 21) 55)) 0)
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(aset vec i (setq j (prog1 k (setq k (- j k))))))
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(while (< (setq i (1+ i)) 200) (random* 2 state))))
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(let* ((i (aset state 1 (% (1+ (aref state 1)) 55)))
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(j (aset state 2 (% (1+ (aref state 2)) 55)))
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(n (logand 8388607 (aset vec i (- (aref vec i) (aref vec j))))))
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(if (integerp lim)
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(if (<= lim 512) (% n lim)
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(if (> lim 8388607) (setq n (+ (lsh n 9) (random* 512 state))))
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(let ((mask 1023))
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(while (< mask (1- lim)) (setq mask (1+ (+ mask mask))))
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(if (< (setq n (logand n mask)) lim) n (random* lim state))))
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(* (/ n '8388608e0) lim)))))
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(defun make-random-state (&optional state)
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"Return a copy of random-state STATE, or of `*random-state*' if omitted.
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If STATE is t, return a new state object seeded from the time of day."
|
|
(cond ((null state) (make-random-state *random-state*))
|
|
((vectorp state) (cl-copy-tree state t))
|
|
((integerp state) (vector 'cl-random-state-tag -1 30 state))
|
|
(t (make-random-state (cl-random-time)))))
|
|
|
|
(defun random-state-p (object)
|
|
"Return t if OBJECT is a random-state object."
|
|
(and (vectorp object) (= (length object) 4)
|
|
(eq (aref object 0) 'cl-random-state-tag)))
|
|
|
|
|
|
;; Implementation limits.
|
|
|
|
(defun cl-finite-do (func a b)
|
|
(condition-case err
|
|
(let ((res (funcall func a b))) ; check for IEEE infinity
|
|
(and (numberp res) (/= res (/ res 2)) res))
|
|
(arith-error nil)))
|
|
|
|
(defvar most-positive-float)
|
|
(defvar most-negative-float)
|
|
(defvar least-positive-float)
|
|
(defvar least-negative-float)
|
|
(defvar least-positive-normalized-float)
|
|
(defvar least-negative-normalized-float)
|
|
(defvar float-epsilon)
|
|
(defvar float-negative-epsilon)
|
|
|
|
(defun cl-float-limits ()
|
|
(or most-positive-float (not (numberp '2e1))
|
|
(let ((x '2e0) y z)
|
|
;; Find maximum exponent (first two loops are optimizations)
|
|
(while (cl-finite-do '* x x) (setq x (* x x)))
|
|
(while (cl-finite-do '* x (/ x 2)) (setq x (* x (/ x 2))))
|
|
(while (cl-finite-do '+ x x) (setq x (+ x x)))
|
|
(setq z x y (/ x 2))
|
|
;; Now fill in 1's in the mantissa.
|
|
(while (and (cl-finite-do '+ x y) (/= (+ x y) x))
|
|
(setq x (+ x y) y (/ y 2)))
|
|
(setq most-positive-float x
|
|
most-negative-float (- x))
|
|
;; Divide down until mantissa starts rounding.
|
|
(setq x (/ x z) y (/ 16 z) x (* x y))
|
|
(while (condition-case err (and (= x (* (/ x 2) 2)) (> (/ y 2) 0))
|
|
(arith-error nil))
|
|
(setq x (/ x 2) y (/ y 2)))
|
|
(setq least-positive-normalized-float y
|
|
least-negative-normalized-float (- y))
|
|
;; Divide down until value underflows to zero.
|
|
(setq x (/ 1 z) y x)
|
|
(while (condition-case err (> (/ x 2) 0) (arith-error nil))
|
|
(setq x (/ x 2)))
|
|
(setq least-positive-float x
|
|
least-negative-float (- x))
|
|
(setq x '1e0)
|
|
(while (/= (+ '1e0 x) '1e0) (setq x (/ x 2)))
|
|
(setq float-epsilon (* x 2))
|
|
(setq x '1e0)
|
|
(while (/= (- '1e0 x) '1e0) (setq x (/ x 2)))
|
|
(setq float-negative-epsilon (* x 2))))
|
|
nil)
|
|
|
|
|
|
;;; Sequence functions.
|
|
|
|
(defun subseq (seq start &optional end)
|
|
"Return the subsequence of SEQ from START to END.
|
|
If END is omitted, it defaults to the length of the sequence.
|
|
If START or END is negative, it counts from the end."
|
|
(if (stringp seq) (substring seq start end)
|
|
(let (len)
|
|
(and end (< end 0) (setq end (+ end (setq len (length seq)))))
|
|
(if (< start 0) (setq start (+ start (or len (setq len (length seq))))))
|
|
(cond ((listp seq)
|
|
(if (> start 0) (setq seq (nthcdr start seq)))
|
|
(if end
|
|
(let ((res nil))
|
|
(while (>= (setq end (1- end)) start)
|
|
(push (pop seq) res))
|
|
(nreverse res))
|
|
(copy-sequence seq)))
|
|
(t
|
|
(or end (setq end (or len (length seq))))
|
|
(let ((res (make-vector (max (- end start) 0) nil))
|
|
(i 0))
|
|
(while (< start end)
|
|
(aset res i (aref seq start))
|
|
(setq i (1+ i) start (1+ start)))
|
|
res))))))
|
|
|
|
(defun concatenate (type &rest seqs)
|
|
"Concatenate, into a sequence of type TYPE, the argument SEQUENCES."
|
|
(cond ((eq type 'vector) (apply 'vconcat seqs))
|
|
((eq type 'string) (apply 'concat seqs))
|
|
((eq type 'list) (apply 'append (append seqs '(nil))))
|
|
(t (error "Not a sequence type name: %s" type))))
|
|
|
|
|
|
;;; List functions.
|
|
|
|
(defun revappend (x y)
|
|
"Equivalent to (append (reverse X) Y)."
|
|
(nconc (reverse x) y))
|
|
|
|
(defun nreconc (x y)
|
|
"Equivalent to (nconc (nreverse X) Y)."
|
|
(nconc (nreverse x) y))
|
|
|
|
(defun list-length (x)
|
|
"Return the length of a list. Return nil if list is circular."
|
|
(let ((n 0) (fast x) (slow x))
|
|
(while (and (cdr fast) (not (and (eq fast slow) (> n 0))))
|
|
(setq n (+ n 2) fast (cdr (cdr fast)) slow (cdr slow)))
|
|
(if fast (if (cdr fast) nil (1+ n)) n)))
|
|
|
|
(defun tailp (sublist list)
|
|
"Return true if SUBLIST is a tail of LIST."
|
|
(while (and (consp list) (not (eq sublist list)))
|
|
(setq list (cdr list)))
|
|
(if (numberp sublist) (equal sublist list) (eq sublist list)))
|
|
|
|
(defalias 'cl-copy-tree 'copy-tree)
|
|
|
|
|
|
;;; Property lists.
|
|
|
|
(defun get* (sym tag &optional def) ; See compiler macro in cl-macs.el
|
|
"Return the value of SYMBOL's PROPNAME property, or DEFAULT if none."
|
|
(or (get sym tag)
|
|
(and def
|
|
(let ((plist (symbol-plist sym)))
|
|
(while (and plist (not (eq (car plist) tag)))
|
|
(setq plist (cdr (cdr plist))))
|
|
(if plist (car (cdr plist)) def)))))
|
|
|
|
(defun getf (plist tag &optional def)
|
|
"Search PROPLIST for property PROPNAME; return its value or DEFAULT.
|
|
PROPLIST is a list of the sort returned by `symbol-plist'."
|
|
(setplist '--cl-getf-symbol-- plist)
|
|
(or (get '--cl-getf-symbol-- tag)
|
|
;; 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))
|
|
(while (and p (not (eq (car p) tag))) (setq p (cdr (cdr p))))
|
|
(if p (progn (setcar (cdr p) val) plist) (list* tag val plist))))
|
|
|
|
(defun cl-do-remf (plist tag)
|
|
(let ((p (cdr plist)))
|
|
(while (and (cdr p) (not (eq (car (cdr p)) tag))) (setq p (cdr (cdr p))))
|
|
(and (cdr p) (progn (setcdr p (cdr (cdr (cdr p)))) t))))
|
|
|
|
(defun cl-remprop (sym tag)
|
|
"Remove from SYMBOL's plist the property PROP and its value."
|
|
(let ((plist (symbol-plist sym)))
|
|
(if (and plist (eq tag (car plist)))
|
|
(progn (setplist sym (cdr (cdr plist))) t)
|
|
(cl-do-remf plist tag))))
|
|
(defalias 'remprop 'cl-remprop)
|
|
|
|
|
|
|
|
;;; Hash tables.
|
|
;; This is just kept for compatibility with code byte-compiled by Emacs-20.
|
|
|
|
;; No idea if this might still be needed.
|
|
(defun cl-not-hash-table (x &optional y &rest z)
|
|
(signal 'wrong-type-argument (list 'cl-hash-table-p (or y x))))
|
|
|
|
(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))
|
|
|
|
(defalias 'cl-gethash 'gethash)
|
|
(defalias 'cl-puthash 'puthash)
|
|
(defalias 'cl-remhash 'remhash)
|
|
(defalias 'cl-clrhash 'clrhash)
|
|
(defalias 'cl-maphash 'maphash)
|
|
;; These three actually didn't exist in Emacs-20.
|
|
(defalias 'cl-make-hash-table 'make-hash-table)
|
|
(defalias 'cl-hash-table-p 'hash-table-p)
|
|
(defalias 'cl-hash-table-count 'hash-table-count)
|
|
|
|
;;; Some debugging aids.
|
|
|
|
(defun cl-prettyprint (form)
|
|
"Insert a pretty-printed rendition of a Lisp FORM in current buffer."
|
|
(let ((pt (point)) last)
|
|
(insert "\n" (prin1-to-string form) "\n")
|
|
(setq last (point))
|
|
(goto-char (1+ pt))
|
|
(while (search-forward "(quote " last t)
|
|
(delete-backward-char 7)
|
|
(insert "'")
|
|
(forward-sexp)
|
|
(delete-char 1))
|
|
(goto-char (1+ pt))
|
|
(cl-do-prettyprint)))
|
|
|
|
(defun cl-do-prettyprint ()
|
|
(skip-chars-forward " ")
|
|
(if (looking-at "(")
|
|
(let ((skip (or (looking-at "((") (looking-at "(prog")
|
|
(looking-at "(unwind-protect ")
|
|
(looking-at "(function (")
|
|
(looking-at "(cl-block-wrapper ")))
|
|
(two (or (looking-at "(defun ") (looking-at "(defmacro ")))
|
|
(let (or (looking-at "(let\\*? ") (looking-at "(while ")))
|
|
(set (looking-at "(p?set[qf] ")))
|
|
(if (or skip let
|
|
(progn
|
|
(forward-sexp)
|
|
(and (>= (current-column) 78) (progn (backward-sexp) t))))
|
|
(let ((nl t))
|
|
(forward-char 1)
|
|
(cl-do-prettyprint)
|
|
(or skip (looking-at ")") (cl-do-prettyprint))
|
|
(or (not two) (looking-at ")") (cl-do-prettyprint))
|
|
(while (not (looking-at ")"))
|
|
(if set (setq nl (not nl)))
|
|
(if nl (insert "\n"))
|
|
(lisp-indent-line)
|
|
(cl-do-prettyprint))
|
|
(forward-char 1))))
|
|
(forward-sexp)))
|
|
|
|
(defvar cl-macroexpand-cmacs nil)
|
|
(defvar cl-closure-vars nil)
|
|
|
|
(defun cl-macroexpand-all (form &optional env)
|
|
"Expand all macro calls through a Lisp FORM.
|
|
This also does some trivial optimizations to make the form prettier."
|
|
(while (or (not (eq form (setq form (macroexpand form env))))
|
|
(and cl-macroexpand-cmacs
|
|
(not (eq form (setq form (compiler-macroexpand form)))))))
|
|
(cond ((not (consp form)) form)
|
|
((memq (car form) '(let let*))
|
|
(if (null (nth 1 form))
|
|
(cl-macroexpand-all (cons 'progn (cddr form)) env)
|
|
(let ((letf nil) (res nil) (lets (cadr form)))
|
|
(while lets
|
|
(push (if (consp (car lets))
|
|
(let ((exp (cl-macroexpand-all (caar lets) env)))
|
|
(or (symbolp exp) (setq letf t))
|
|
(cons exp (cl-macroexpand-body (cdar lets) env)))
|
|
(let ((exp (cl-macroexpand-all (car lets) env)))
|
|
(if (symbolp exp) exp
|
|
(setq letf t) (list exp nil)))) res)
|
|
(setq lets (cdr lets)))
|
|
(list* (if letf (if (eq (car form) 'let) 'letf 'letf*) (car form))
|
|
(nreverse res) (cl-macroexpand-body (cddr form) env)))))
|
|
((eq (car form) 'cond)
|
|
(cons (car form)
|
|
(mapcar (function (lambda (x) (cl-macroexpand-body x env)))
|
|
(cdr form))))
|
|
((eq (car form) 'condition-case)
|
|
(list* (car form) (nth 1 form) (cl-macroexpand-all (nth 2 form) env)
|
|
(mapcar (function
|
|
(lambda (x)
|
|
(cons (car x) (cl-macroexpand-body (cdr x) env))))
|
|
(cdddr form))))
|
|
((memq (car form) '(quote function))
|
|
(if (eq (car-safe (nth 1 form)) 'lambda)
|
|
(let ((body (cl-macroexpand-body (cddadr form) env)))
|
|
(if (and cl-closure-vars (eq (car form) 'function)
|
|
(cl-expr-contains-any body cl-closure-vars))
|
|
(let* ((new (mapcar 'gensym cl-closure-vars))
|
|
(sub (pairlis cl-closure-vars new)) (decls nil))
|
|
(while (or (stringp (car body))
|
|
(eq (car-safe (car body)) 'interactive))
|
|
(push (list 'quote (pop body)) decls))
|
|
(put (car (last cl-closure-vars)) 'used t)
|
|
(append
|
|
(list 'list '(quote lambda) '(quote (&rest --cl-rest--)))
|
|
(sublis sub (nreverse decls))
|
|
(list
|
|
(list* 'list '(quote apply)
|
|
(list 'function
|
|
(list* 'lambda
|
|
(append new (cadadr form))
|
|
(sublis sub body)))
|
|
(nconc (mapcar (function
|
|
(lambda (x)
|
|
(list 'list '(quote quote) x)))
|
|
cl-closure-vars)
|
|
'((quote --cl-rest--)))))))
|
|
(list (car form) (list* 'lambda (cadadr form) body))))
|
|
(let ((found (assq (cadr form) env)))
|
|
(if (and found (ignore-errors
|
|
(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)))
|
|
(cl-macroexpand-all (nth 1 form) env))
|
|
((eq (car form) 'setq)
|
|
(let* ((args (cl-macroexpand-body (cdr form) env)) (p args))
|
|
(while (and p (symbolp (car p))) (setq p (cddr p)))
|
|
(if p (cl-macroexpand-all (cons 'setf args)) (cons 'setq args))))
|
|
(t (cons (car form) (cl-macroexpand-body (cdr form) env)))))
|
|
|
|
(defun cl-macroexpand-body (body &optional env)
|
|
(mapcar (function (lambda (x) (cl-macroexpand-all x env))) body))
|
|
|
|
(defun cl-prettyexpand (form &optional full)
|
|
(message "Expanding...")
|
|
(let ((cl-macroexpand-cmacs full) (cl-compiling-file full)
|
|
(byte-compile-macro-environment nil))
|
|
(setq form (cl-macroexpand-all form
|
|
(and (not full) '((block) (eval-when)))))
|
|
(message "Formatting...")
|
|
(prog1 (cl-prettyprint form)
|
|
(message ""))))
|
|
|
|
|
|
|
|
(run-hooks 'cl-extra-load-hook)
|
|
|
|
;;; cl-extra.el ends here
|