tvl-depot/configs/shared/emacs/.emacs.d/elpa/circe-20180525.1231/lcs.el

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;;; lcs.el --- find out the longest common sequence
;; Copyright (c) 2002-2003 by Alex Shinn, All rights reserved.
;; Copyright (c) 2002-2003 by Shiro Kawai, All rights reserved.
;; Copyright (c) 2006, 2012 by Jorgen Schaefer, All rights reserved.
;; Authors: Alex Shinn, Shiro Kawai
;; Maintainer: Jorgen Schaefer <forcer@forcix.cx>
;; URL: https://github.com/jorgenschaefer/circe/wiki/lcs
;; Redistribution and use in source and binary forms, with or without
;; modification, are permitted provided that the following conditions
;; are met:
;; 1. Redistributions of source code must retain the above copyright
;; notice, this list of conditions and the following disclaimer.
;; 2. Redistributions in binary form must reproduce the above copyright
;; notice, this list of conditions and the following disclaimer in the
;; documentation and/or other materials provided with the distribution.
;; 3. Neither the name of the authors nor the names of its contributors
;; may be used to endorse or promote products derived from this
;; software without specific prior written permission.
;; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
;; "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
;; LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
;; A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
;; OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
;; SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED
;; TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
;; PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
;; LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
;; NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
;; SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
;;; Commentary:
;; lcs.el is a library for other Emacs Lisp programs not useful by
;; itself.
;; This library provides functions to find the Longest Common Sequence
;; (LCS) of two sequences. This is used to create a unified diff of to
;; two lists. See `lcs-unified-diff' for a useful function to be
;; called.
;; The code is more or less a literal translation of (part of)
;; Gauche's util/lcs.scm module to Emacs Lisp.
;;; Code:
(put 'lcs-for 'lisp-indent-function 4)
(defmacro lcs-for (var from to step &rest body)
"A simple FOR loop macro.
Count VAR from FROM to TO by stepsize STEP. Evaluate BODY in each
iteration."
(let ((sto (make-symbol "to"))
(sstep (make-symbol "step")))
`(let ((,var ,from)
(,sto ,to)
(,sstep ,step))
(while (<= ,var ,sto)
(progn
,@body)
(setq ,var (+ ,var ,sstep))))))
(defun lcs-split-at (lis pos)
"Return a cons cell of the first POS elements of LIS and the rest."
(let ((head nil))
(while (> pos 0)
(setq head (cons (car lis)
head)
pos (- pos 1)
lis (cdr lis)))
(cons (reverse head)
lis)))
(defun lcs-finish (M+N V_l vl V_r vr)
"Finalize the LCS algorithm.
Should be used only by `lcs-with-positions'."
(let ((maxl 0)
(r '()))
(lcs-for i (- M+N) M+N 1
(when (> (funcall vl i)
maxl)
(setq maxl (funcall vl i)
r (funcall vr i))))
(list maxl (reverse r))))
(defun lcs-with-positions (a-ls b-ls &optional equalp)
"Return the longest common subsequence (LCS) of A-LS and B-LS.
EQUALP can be any procedure which returns non-nil when two
elements should be considered equal."
(let* ((A (vconcat a-ls))
(B (vconcat b-ls))
(N (length A))
(M (length B))
(M+N (+ M N))
(V_d (make-vector (+ 1 (* 2 M+N))
0))
(V_r (make-vector (+ 1 (* 2 M+N))
nil))
(V_l (make-vector (+ 1 (* 2 M+N))
0))
(vd (lambda (i &optional x)
(if x
(aset V_d (+ i M+N) x)
(aref V_d (+ i M+N)))))
(vr (lambda (i &optional x)
(if x
(aset V_r (+ i M+N) x)
(aref V_r (+ i M+N)))))
(vl (lambda (i &optional x)
(if x
(aset V_l (+ i M+N) x)
(aref V_l (+ i M+N))))))
(when (not equalp)
(setq equalp 'equal))
(catch 'return
(if (= M+N 0)
(throw 'return '(0 ()))
(lcs-for d 0 M+N 1
(lcs-for k (- d) d 2
(let ((x nil)
(y nil)
(l nil)
(r nil))
(if (or (= k (- d))
(and (not (= k d))
(< (funcall vd (- k 1))
(funcall vd (+ k 1)))))
(setq x (funcall vd (+ k 1))
l (funcall vl (+ k 1))
r (funcall vr (+ k 1)))
(setq x (+ 1 (funcall vd (- k 1)))
l (funcall vl (- k 1))
r (funcall vr (- k 1))))
(setq y (- x k))
(while (and (< x N)
(< y M)
(funcall equalp (aref A x) (aref B y)))
(setq r (cons (list (aref A x) x y)
r)
x (+ x 1)
y (+ y 1)
l (+ l 1)))
(funcall vd k x)
(funcall vr k r)
(funcall vl k l)
(when (and (>= x N)
(>= y M))
(throw 'return(lcs-finish M+N V_l vl V_r vr)))))))
(error "Can't happen"))))
(defun lcs-unified-diff (a b &optional equalp)
"Return a unified diff of the lists A and B.
EQUALP should can be a procedure that returns non-nil when two
elements of A and B should be considered equal. It's `equal' by
default."
(let ((common (cadr (lcs-with-positions a b equalp)))
(a a)
(a-pos 0)
(b b)
(b-pos 0)
(diff '()))
(while common
(let* ((elt (car common))
(a-off (nth 1 elt))
(a-skip (- a-off a-pos))
(b-off (nth 2 elt))
(b-skip (- b-off b-pos))
(a-split (lcs-split-at a a-skip))
(a-head (car a-split))
(a-tail (cdr a-split))
(b-split (lcs-split-at b b-skip))
(b-head (car b-split))
(b-tail (cdr b-split)))
(setq diff (append diff
(mapcar (lambda (a)
`(- ,a))
a-head)
(mapcar (lambda (b)
`(+ ,b))
b-head)
`((! ,(car elt))))
common (cdr common)
a (cdr a-tail)
a-pos (+ a-off 1)
b (cdr b-tail)
b-pos (+ b-off 1))))
(append diff
(mapcar (lambda (a)
`(- ,a))
a)
(mapcar (lambda (b)
`(+ ,b))
b))))
(provide 'lcs)
;;; lcs.el ends here