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- ;;; gnus-range.el --- range and sequence functions for Gnus
- ;; Copyright (C) 1996-2012 Free Software Foundation, Inc.
- ;; Author: Lars Magne Ingebrigtsen <larsi@gnus.org>
- ;; Keywords: news
- ;; 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 3 of the License, 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. If not, see <http://www.gnu.org/licenses/>.
- ;;; Commentary:
- ;;; Code:
- (eval-when-compile (require 'cl))
- ;;; List and range functions
- (defsubst gnus-range-normalize (range)
- "Normalize RANGE.
- If RANGE is a single range, return (RANGE). Otherwise, return RANGE."
- (if (listp (cdr-safe range)) range (list range)))
- (defun gnus-last-element (list)
- "Return last element of LIST."
- (while (cdr list)
- (setq list (cdr list)))
- (car list))
- (defun gnus-copy-sequence (list)
- "Do a complete, total copy of a list."
- (let (out)
- (while (consp list)
- (if (consp (car list))
- (push (gnus-copy-sequence (pop list)) out)
- (push (pop list) out)))
- (if list
- (nconc (nreverse out) list)
- (nreverse out))))
- (defun gnus-set-difference (list1 list2)
- "Return a list of elements of LIST1 that do not appear in LIST2."
- (let ((list1 (copy-sequence list1)))
- (while list2
- (setq list1 (delq (car list2) list1))
- (setq list2 (cdr list2)))
- list1))
- (defun gnus-range-nconcat (&rest ranges)
- "Return a range comprising all the RANGES, which are pre-sorted.
- RANGES will be destructively altered."
- (setq ranges (delete nil ranges))
- (let* ((result (gnus-range-normalize (pop ranges)))
- (last (last result)))
- (dolist (range ranges)
- (setq range (gnus-range-normalize range))
- ;; Normalize the single-number case, so that we don't need to
- ;; special-case that so much.
- (when (numberp (car last))
- (setcar last (cons (car last) (car last))))
- (when (numberp (car range))
- (setcar range (cons (car range) (car range))))
- (if (= (1+ (cdar last)) (caar range))
- (progn
- (setcdr (car last) (cdar range))
- (setcdr last (cdr range)))
- (setcdr last range)
- ;; Denormalize back, since we couldn't join the ranges up.
- (when (= (caar range) (cdar range))
- (setcar range (caar range)))
- (when (= (caar last) (cdar last))
- (setcar last (caar last))))
- (setq last (last last)))
- (if (and (consp (car result))
- (= (length result) 1))
- (car result)
- result)))
- (defun gnus-range-difference (range1 range2)
- "Return the range of elements in RANGE1 that do not appear in RANGE2.
- Both ranges must be in ascending order."
- (setq range1 (gnus-range-normalize range1))
- (setq range2 (gnus-range-normalize range2))
- (let* ((new-range (cons nil (copy-sequence range1)))
- (r new-range)
- (safe t))
- (while (cdr r)
- (let* ((r1 (cadr r))
- (r2 (car range2))
- (min1 (if (numberp r1) r1 (car r1)))
- (max1 (if (numberp r1) r1 (cdr r1)))
- (min2 (if (numberp r2) r2 (car r2)))
- (max2 (if (numberp r2) r2 (cdr r2))))
- (cond ((> min1 max1)
- ;; Invalid range: may result from overlap condition (below)
- ;; remove Invalid range
- (setcdr r (cddr r)))
- ((and (= min1 max1)
- (listp r1))
- ;; Inefficient representation: may result from overlap condition (below)
- (setcar (cdr r) min1))
- ((not min2)
- ;; All done with range2
- (setq r nil))
- ((< max1 min2)
- ;; No overlap: range1 precedes range2
- (pop r))
- ((< max2 min1)
- ;; No overlap: range2 precedes range1
- (pop range2))
- ((and (<= min2 min1) (<= max1 max2))
- ;; Complete overlap: range1 removed
- (setcdr r (cddr r)))
- (t
- (setcdr r (nconc (list (cons min1 (1- min2)) (cons (1+ max2) max1)) (cddr r)))))))
- (cdr new-range)))
- ;;;###autoload
- (defun gnus-sorted-difference (list1 list2)
- "Return a list of elements of LIST1 that do not appear in LIST2.
- Both lists have to be sorted over <.
- The tail of LIST1 is not copied."
- (let (out)
- (while (and list1 list2)
- (cond ((= (car list1) (car list2))
- (setq list1 (cdr list1)
- list2 (cdr list2)))
- ((< (car list1) (car list2))
- (setq out (cons (car list1) out))
- (setq list1 (cdr list1)))
- (t
- (setq list2 (cdr list2)))))
- (nconc (nreverse out) list1)))
- ;;;###autoload
- (defun gnus-sorted-ndifference (list1 list2)
- "Return a list of elements of LIST1 that do not appear in LIST2.
- Both lists have to be sorted over <.
- LIST1 is modified."
- (let* ((top (cons nil list1))
- (prev top))
- (while (and list1 list2)
- (cond ((= (car list1) (car list2))
- (setcdr prev (cdr list1))
- (setq list1 (cdr list1)
- list2 (cdr list2)))
- ((< (car list1) (car list2))
- (setq prev list1
- list1 (cdr list1)))
- (t
- (setq list2 (cdr list2)))))
- (cdr top)))
- ;;;###autoload
- (defun gnus-sorted-complement (list1 list2)
- "Return a list of elements that are in LIST1 or LIST2 but not both.
- Both lists have to be sorted over <."
- (let (out)
- (if (or (null list1) (null list2))
- (or list1 list2)
- (while (and list1 list2)
- (cond ((= (car list1) (car list2))
- (setq list1 (cdr list1)
- list2 (cdr list2)))
- ((< (car list1) (car list2))
- (setq out (cons (car list1) out))
- (setq list1 (cdr list1)))
- (t
- (setq out (cons (car list2) out))
- (setq list2 (cdr list2)))))
- (nconc (nreverse out) (or list1 list2)))))
- ;;;###autoload
- (defun gnus-intersection (list1 list2)
- (let ((result nil))
- (while list2
- (when (memq (car list2) list1)
- (setq result (cons (car list2) result)))
- (setq list2 (cdr list2)))
- result))
- ;;;###autoload
- (defun gnus-sorted-intersection (list1 list2)
- "Return intersection of LIST1 and LIST2.
- LIST1 and LIST2 have to be sorted over <."
- (let (out)
- (while (and list1 list2)
- (cond ((= (car list1) (car list2))
- (setq out (cons (car list1) out)
- list1 (cdr list1)
- list2 (cdr list2)))
- ((< (car list1) (car list2))
- (setq list1 (cdr list1)))
- (t
- (setq list2 (cdr list2)))))
- (nreverse out)))
- ;;;###autoload
- (defun gnus-sorted-range-intersection (range1 range2)
- "Return intersection of RANGE1 and RANGE2.
- RANGE1 and RANGE2 have to be sorted over <."
- (let* (out
- (min1 (car range1))
- (max1 (if (numberp min1)
- (if (numberp (cdr range1))
- (prog1 (cdr range1)
- (setq range1 nil)) min1)
- (prog1 (cdr min1)
- (setq min1 (car min1)))))
- (min2 (car range2))
- (max2 (if (numberp min2)
- (if (numberp (cdr range2))
- (prog1 (cdr range2)
- (setq range2 nil)) min2)
- (prog1 (cdr min2)
- (setq min2 (car min2))))))
- (setq range1 (cdr range1)
- range2 (cdr range2))
- (while (and min1 min2)
- (cond ((< max1 min2) ; range1 precedes range2
- (setq range1 (cdr range1)
- min1 nil))
- ((< max2 min1) ; range2 precedes range1
- (setq range2 (cdr range2)
- min2 nil))
- (t ; some sort of overlap is occurring
- (let ((min (max min1 min2))
- (max (min max1 max2)))
- (setq out (if (= min max)
- (cons min out)
- (cons (cons min max) out))))
- (if (< max1 max2) ; range1 ends before range2
- (setq min1 nil) ; incr range1
- (setq min2 nil)))) ; incr range2
- (unless min1
- (setq min1 (car range1)
- max1 (if (numberp min1) min1 (prog1 (cdr min1) (setq min1 (car min1))))
- range1 (cdr range1)))
- (unless min2
- (setq min2 (car range2)
- max2 (if (numberp min2) min2 (prog1 (cdr min2) (setq min2 (car min2))))
- range2 (cdr range2))))
- (cond ((cdr out)
- (nreverse out))
- ((numberp (car out))
- out)
- (t
- (car out)))))
- ;;;###autoload
- (defalias 'gnus-set-sorted-intersection 'gnus-sorted-nintersection)
- ;;;###autoload
- (defun gnus-sorted-nintersection (list1 list2)
- "Return intersection of LIST1 and LIST2 by modifying cdr pointers of LIST1.
- LIST1 and LIST2 have to be sorted over <."
- (let* ((top (cons nil list1))
- (prev top))
- (while (and list1 list2)
- (cond ((= (car list1) (car list2))
- (setq prev list1
- list1 (cdr list1)
- list2 (cdr list2)))
- ((< (car list1) (car list2))
- (setcdr prev (cdr list1))
- (setq list1 (cdr list1)))
- (t
- (setq list2 (cdr list2)))))
- (setcdr prev nil)
- (cdr top)))
- ;;;###autoload
- (defun gnus-sorted-union (list1 list2)
- "Return union of LIST1 and LIST2.
- LIST1 and LIST2 have to be sorted over <."
- (let (out)
- (while (and list1 list2)
- (cond ((= (car list1) (car list2))
- (setq out (cons (car list1) out)
- list1 (cdr list1)
- list2 (cdr list2)))
- ((< (car list1) (car list2))
- (setq out (cons (car list1) out)
- list1 (cdr list1)))
- (t
- (setq out (cons (car list2) out)
- list2 (cdr list2)))))
- (while list1
- (setq out (cons (car list1) out)
- list1 (cdr list1)))
- (while list2
- (setq out (cons (car list2) out)
- list2 (cdr list2)))
- (nreverse out)))
- ;;;###autoload
- (defun gnus-sorted-nunion (list1 list2)
- "Return union of LIST1 and LIST2 by modifying cdr pointers of LIST1.
- LIST1 and LIST2 have to be sorted over <."
- (let* ((top (cons nil list1))
- (prev top))
- (while (and list1 list2)
- (cond ((= (car list1) (car list2))
- (setq prev list1
- list1 (cdr list1)
- list2 (cdr list2)))
- ((< (car list1) (car list2))
- (setq prev list1
- list1 (cdr list1)))
- (t
- (setcdr prev (list (car list2)))
- (setq prev (cdr prev)
- list2 (cdr list2))
- (setcdr prev list1))))
- (while list2
- (setcdr prev (list (car list2)))
- (setq prev (cdr prev)
- list2 (cdr list2)))
- (cdr top)))
- (defun gnus-compress-sequence (numbers &optional always-list)
- "Convert sorted list of numbers to a list of ranges or a single range.
- If ALWAYS-LIST is non-nil, this function will always release a list of
- ranges."
- (let* ((first (car numbers))
- (last (car numbers))
- result)
- (if (null numbers)
- nil
- (if (not (listp (cdr numbers)))
- numbers
- (while numbers
- (cond ((= last (car numbers)) nil) ;Omit duplicated number
- ((= (1+ last) (car numbers)) ;Still in sequence
- (setq last (car numbers)))
- (t ;End of one sequence
- (setq result
- (cons (if (= first last) first
- (cons first last))
- result))
- (setq first (car numbers))
- (setq last (car numbers))))
- (setq numbers (cdr numbers)))
- (if (and (not always-list) (null result))
- (if (= first last) (list first) (cons first last))
- (nreverse (cons (if (= first last) first (cons first last))
- result)))))))
- (defalias 'gnus-uncompress-sequence 'gnus-uncompress-range)
- (defun gnus-uncompress-range (ranges)
- "Expand a list of ranges into a list of numbers.
- RANGES is either a single range on the form `(num . num)' or a list of
- these ranges."
- (let (first last result)
- (cond
- ((null ranges)
- nil)
- ((not (listp (cdr ranges)))
- (setq first (car ranges))
- (setq last (cdr ranges))
- (while (<= first last)
- (setq result (cons first result))
- (setq first (1+ first)))
- (nreverse result))
- (t
- (while ranges
- (if (atom (car ranges))
- (when (numberp (car ranges))
- (setq result (cons (car ranges) result)))
- (setq first (caar ranges))
- (setq last (cdar ranges))
- (while (<= first last)
- (setq result (cons first result))
- (setq first (1+ first))))
- (setq ranges (cdr ranges)))
- (nreverse result)))))
- (defun gnus-add-to-range (ranges list)
- "Return a list of ranges that has all articles from both RANGES and LIST.
- Note: LIST has to be sorted over `<'."
- (if (not ranges)
- (gnus-compress-sequence list t)
- (setq list (copy-sequence list))
- (unless (listp (cdr ranges))
- (setq ranges (list ranges)))
- (let ((out ranges)
- ilist lowest highest temp)
- (while (and ranges list)
- (setq ilist list)
- (setq lowest (or (and (atom (car ranges)) (car ranges))
- (caar ranges)))
- (while (and list (cdr list) (< (cadr list) lowest))
- (setq list (cdr list)))
- (when (< (car ilist) lowest)
- (setq temp list)
- (setq list (cdr list))
- (setcdr temp nil)
- (setq out (nconc (gnus-compress-sequence ilist t) out)))
- (setq highest (or (and (atom (car ranges)) (car ranges))
- (cdar ranges)))
- (while (and list (<= (car list) highest))
- (setq list (cdr list)))
- (setq ranges (cdr ranges)))
- (when list
- (setq out (nconc (gnus-compress-sequence list t) out)))
- (setq out (sort out (lambda (r1 r2)
- (< (or (and (atom r1) r1) (car r1))
- (or (and (atom r2) r2) (car r2))))))
- (setq ranges out)
- (while ranges
- (if (atom (car ranges))
- (when (cdr ranges)
- (if (atom (cadr ranges))
- (when (= (1+ (car ranges)) (cadr ranges))
- (setcar ranges (cons (car ranges)
- (cadr ranges)))
- (setcdr ranges (cddr ranges)))
- (when (= (1+ (car ranges)) (caadr ranges))
- (setcar (cadr ranges) (car ranges))
- (setcar ranges (cadr ranges))
- (setcdr ranges (cddr ranges)))))
- (when (cdr ranges)
- (if (atom (cadr ranges))
- (when (= (1+ (cdar ranges)) (cadr ranges))
- (setcdr (car ranges) (cadr ranges))
- (setcdr ranges (cddr ranges)))
- (when (= (1+ (cdar ranges)) (caadr ranges))
- (setcdr (car ranges) (cdadr ranges))
- (setcdr ranges (cddr ranges))))))
- (setq ranges (cdr ranges)))
- out)))
- (defun gnus-remove-from-range (range1 range2)
- "Return a range that has all articles from RANGE2 removed from RANGE1.
- The returned range is always a list. RANGE2 can also be a unsorted
- list of articles. RANGE1 is modified by side effects, RANGE2 is not
- modified."
- (if (or (null range1) (null range2))
- range1
- (let (out r1 r2 r1_min r1_max r2_min r2_max
- (range2 (gnus-copy-sequence range2)))
- (setq range1 (if (listp (cdr range1)) range1 (list range1))
- range2 (sort (if (listp (cdr range2)) range2 (list range2))
- (lambda (e1 e2)
- (< (if (consp e1) (car e1) e1)
- (if (consp e2) (car e2) e2))))
- r1 (car range1)
- r2 (car range2)
- r1_min (if (consp r1) (car r1) r1)
- r1_max (if (consp r1) (cdr r1) r1)
- r2_min (if (consp r2) (car r2) r2)
- r2_max (if (consp r2) (cdr r2) r2))
- (while (and range1 range2)
- (cond ((< r2_max r1_min) ; r2 < r1
- (pop range2)
- (setq r2 (car range2)
- r2_min (if (consp r2) (car r2) r2)
- r2_max (if (consp r2) (cdr r2) r2)))
- ((and (<= r2_min r1_min) (<= r1_max r2_max)) ; r2 overlap r1
- (pop range1)
- (setq r1 (car range1)
- r1_min (if (consp r1) (car r1) r1)
- r1_max (if (consp r1) (cdr r1) r1)))
- ((and (<= r2_min r1_min) (<= r2_max r1_max)) ; r2 overlap min r1
- (pop range2)
- (setq r1_min (1+ r2_max)
- r2 (car range2)
- r2_min (if (consp r2) (car r2) r2)
- r2_max (if (consp r2) (cdr r2) r2)))
- ((and (<= r1_min r2_min) (<= r2_max r1_max)) ; r2 contained in r1
- (if (eq r1_min (1- r2_min))
- (push r1_min out)
- (push (cons r1_min (1- r2_min)) out))
- (pop range2)
- (if (< r2_max r1_max) ; finished with r1?
- (setq r1_min (1+ r2_max))
- (pop range1)
- (setq r1 (car range1)
- r1_min (if (consp r1) (car r1) r1)
- r1_max (if (consp r1) (cdr r1) r1)))
- (setq r2 (car range2)
- r2_min (if (consp r2) (car r2) r2)
- r2_max (if (consp r2) (cdr r2) r2)))
- ((and (<= r2_min r1_max) (<= r1_max r2_max)) ; r2 overlap max r1
- (if (eq r1_min (1- r2_min))
- (push r1_min out)
- (push (cons r1_min (1- r2_min)) out))
- (pop range1)
- (setq r1 (car range1)
- r1_min (if (consp r1) (car r1) r1)
- r1_max (if (consp r1) (cdr r1) r1)))
- ((< r1_max r2_min) ; r2 > r1
- (pop range1)
- (if (eq r1_min r1_max)
- (push r1_min out)
- (push (cons r1_min r1_max) out))
- (setq r1 (car range1)
- r1_min (if (consp r1) (car r1) r1)
- r1_max (if (consp r1) (cdr r1) r1)))))
- (when r1
- (if (eq r1_min r1_max)
- (push r1_min out)
- (push (cons r1_min r1_max) out))
- (pop range1))
- (while range1
- (push (pop range1) out))
- (nreverse out))))
- (defun gnus-member-of-range (number ranges)
- (if (not (listp (cdr ranges)))
- (and (>= number (car ranges))
- (<= number (cdr ranges)))
- (let ((not-stop t))
- (while (and ranges
- (if (numberp (car ranges))
- (>= number (car ranges))
- (>= number (caar ranges)))
- not-stop)
- (when (if (numberp (car ranges))
- (= number (car ranges))
- (and (>= number (caar ranges))
- (<= number (cdar ranges))))
- (setq not-stop nil))
- (setq ranges (cdr ranges)))
- (not not-stop))))
- (defun gnus-list-range-intersection (list ranges)
- "Return a list of numbers in LIST that are members of RANGES.
- LIST is a sorted list."
- (setq ranges (gnus-range-normalize ranges))
- (let (number result)
- (while (setq number (pop list))
- (while (and ranges
- (if (numberp (car ranges))
- (< (car ranges) number)
- (< (cdar ranges) number)))
- (setq ranges (cdr ranges)))
- (when (and ranges
- (if (numberp (car ranges))
- (= (car ranges) number)
- ;; (caar ranges) <= number <= (cdar ranges)
- (>= number (caar ranges))))
- (push number result)))
- (nreverse result)))
- (defalias 'gnus-inverse-list-range-intersection 'gnus-list-range-difference)
- (defun gnus-list-range-difference (list ranges)
- "Return a list of numbers in LIST that are not members of RANGES.
- LIST is a sorted list."
- (setq ranges (gnus-range-normalize ranges))
- (let (number result)
- (while (setq number (pop list))
- (while (and ranges
- (if (numberp (car ranges))
- (< (car ranges) number)
- (< (cdar ranges) number)))
- (setq ranges (cdr ranges)))
- (when (or (not ranges)
- (if (numberp (car ranges))
- (not (= (car ranges) number))
- ;; not ((caar ranges) <= number <= (cdar ranges))
- (< number (caar ranges))))
- (push number result)))
- (nreverse result)))
- (defun gnus-range-length (range)
- "Return the length RANGE would have if uncompressed."
- (cond
- ((null range)
- 0)
- ((not (listp (cdr range)))
- (- (cdr range) (car range) -1))
- (t
- (let ((sum 0))
- (dolist (x range sum)
- (setq sum
- (+ sum (if (consp x) (- (cdr x) (car x) -1) 1))))))))
- (defun gnus-sublist-p (list sublist)
- "Test whether all elements in SUBLIST are members of LIST."
- (let ((sublistp t))
- (while sublist
- (unless (memq (pop sublist) list)
- (setq sublistp nil
- sublist nil)))
- sublistp))
- (defun gnus-range-add (range1 range2)
- "Add RANGE2 to RANGE1 (nondestructively)."
- (unless (listp (cdr range1))
- (setq range1 (list range1)))
- (unless (listp (cdr range2))
- (setq range2 (list range2)))
- (let ((item1 (pop range1))
- (item2 (pop range2))
- range item selector)
- (while (or item1 item2)
- (setq selector
- (cond
- ((null item1) nil)
- ((null item2) t)
- ((and (numberp item1) (numberp item2)) (< item1 item2))
- ((numberp item1) (< item1 (car item2)))
- ((numberp item2) (< (car item1) item2))
- (t (< (car item1) (car item2)))))
- (setq item
- (or
- (let ((tmp1 item) (tmp2 (if selector item1 item2)))
- (cond
- ((null tmp1) tmp2)
- ((null tmp2) tmp1)
- ((and (numberp tmp1) (numberp tmp2))
- (cond
- ((eq tmp1 tmp2) tmp1)
- ((eq (1+ tmp1) tmp2) (cons tmp1 tmp2))
- ((eq (1+ tmp2) tmp1) (cons tmp2 tmp1))
- (t nil)))
- ((numberp tmp1)
- (cond
- ((and (>= tmp1 (car tmp2)) (<= tmp1 (cdr tmp2))) tmp2)
- ((eq (1+ tmp1) (car tmp2)) (cons tmp1 (cdr tmp2)))
- ((eq (1- tmp1) (cdr tmp2)) (cons (car tmp2) tmp1))
- (t nil)))
- ((numberp tmp2)
- (cond
- ((and (>= tmp2 (car tmp1)) (<= tmp2 (cdr tmp1))) tmp1)
- ((eq (1+ tmp2) (car tmp1)) (cons tmp2 (cdr tmp1)))
- ((eq (1- tmp2) (cdr tmp1)) (cons (car tmp1) tmp2))
- (t nil)))
- ((< (1+ (cdr tmp1)) (car tmp2)) nil)
- ((< (1+ (cdr tmp2)) (car tmp1)) nil)
- (t (cons (min (car tmp1) (car tmp2))
- (max (cdr tmp1) (cdr tmp2))))))
- (progn
- (if item (push item range))
- (if selector item1 item2))))
- (if selector
- (setq item1 (pop range1))
- (setq item2 (pop range2))))
- (if item (push item range))
- (reverse range)))
- ;;;###autoload
- (defun gnus-add-to-sorted-list (list num)
- "Add NUM into sorted LIST by side effect."
- (let* ((top (cons nil list))
- (prev top))
- (while (and list (< (car list) num))
- (setq prev list
- list (cdr list)))
- (unless (eq (car list) num)
- (setcdr prev (cons num list)))
- (cdr top)))
- (defun gnus-range-map (func range)
- "Apply FUNC to each value contained by RANGE."
- (setq range (gnus-range-normalize range))
- (while range
- (let ((span (pop range)))
- (if (numberp span)
- (funcall func span)
- (let ((first (car span))
- (last (cdr span)))
- (while (<= first last)
- (funcall func first)
- (setq first (1+ first))))))))
- (provide 'gnus-range)
- ;;; gnus-range.el ends here
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