;;; gap-buffer.scm --- String buffer that supports point ;;; Copyright (C) 2002, 2003, 2006 Free Software Foundation, Inc. ;;; ;;;; This library is free software; you can redistribute it and/or ;;;; modify it under the terms of the GNU Lesser General Public ;;;; License as published by the Free Software Foundation; either ;;;; version 3 of the License, or (at your option) any later version. ;;;; ;;;; This library 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 ;;;; Lesser General Public License for more details. ;;;; ;;;; You should have received a copy of the GNU Lesser General Public ;;;; License along with this library; if not, write to the Free Software ;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ;;; ;;; Author: Thien-Thi Nguyen ;;; Commentary: ;; A gap buffer is a structure that models a string but allows relatively ;; efficient insertion of text somewhere in the middle. The insertion ;; location is called `point' with minimum value 1, and a maximum value of the ;; length of the string (which is not fixed). ;; ;; Specifically, we allocate a continuous buffer of characters that is ;; composed of the BEFORE, the GAP and the AFTER (reading L->R), like so: ;; ;; +--- POINT ;; v ;; +--------------------+--------------------+--------------------+ ;; | BEFORE | GAP | AFTER | ;; +--------------------+--------------------+--------------------+ ;; ;; <----- bef-sz ----->|<----- gap-sz ----->|<----- aft-sz -----> ;; ;; <-------------------| usr-sz |-------------------> ;; ;; <-------------------------- all-sz --------------------------> ;; ;; This diagram also shows how the different sizes are computed, and the ;; location of POINT. Note that the user-visible buffer size `usr-sz' does ;; NOT include the GAP, while the allocation `all-sz' DOES. ;; ;; The consequence of this arrangement is that "moving point" is simply a ;; matter of kicking characters across the GAP, while insertion can be viewed ;; as filling up the gap, increasing `bef-sz' and decreasing `gap-sz'. When ;; `gap-sz' falls below some threshold, we reallocate with a larger `all-sz'. ;; ;; In the implementation, we actually keep track of the AFTER start offset ;; `aft-ofs' since it is used more often than `gap-sz'. In fact, most of the ;; variables in the diagram are for conceptualization only. ;; ;; A gap buffer port is a soft port (see Guile manual) that wraps a gap ;; buffer. Character and string writes, as well as character reads, are ;; supported. Flushing and closing are not supported. ;; ;; These procedures are exported: ;; (gb? OBJ) ;; (make-gap-buffer . INIT) ;; (gb-point GB) ;; (gb-point-min GB) ;; (gb-point-max GB) ;; (gb-insert-string! GB STRING) ;; (gb-insert-char! GB CHAR) ;; (gb-delete-char! GB COUNT) ;; (gb-goto-char GB LOCATION) ;; (gb->string GB) ;; (gb-filter! GB STRING-PROC) ;; (gb->lines GB) ;; (gb-filter-lines! GB LINES-PROC) ;; (make-gap-buffer-port GB) ;; ;; INIT is an optional port or a string. COUNT and LOCATION are integers. ;; STRING-PROC is a procedure that takes and returns a string. LINES-PROC is ;; a procedure that takes and returns a list of strings, each representing a ;; line of text (newlines are stripped and added back automatically). ;; ;; (The term and concept of "gap buffer" are borrowed from Emacs. We will ;; gladly return them when libemacs.so is available. ;-) ;; ;; Notes: ;; - overrun errors are suppressed silently ;;; Code: (define-module (ice-9 gap-buffer) :autoload (srfi srfi-13) (string-join) :export (gb? make-gap-buffer gb-point gb-point-min gb-point-max gb-insert-string! gb-insert-char! gb-delete-char! gb-erase! gb-goto-char gb->string gb-filter! gb->lines gb-filter-lines! make-gap-buffer-port)) (define gap-buffer (make-record-type 'gap-buffer '(s ; the buffer, a string all-sz ; total allocation gap-ofs ; GAP starts, aka (1- point) aft-ofs ; AFTER starts ))) (define gb? (record-predicate gap-buffer)) (define s: (record-accessor gap-buffer 's)) (define all-sz: (record-accessor gap-buffer 'all-sz)) (define gap-ofs: (record-accessor gap-buffer 'gap-ofs)) (define aft-ofs: (record-accessor gap-buffer 'aft-ofs)) (define s! (record-modifier gap-buffer 's)) (define all-sz! (record-modifier gap-buffer 'all-sz)) (define gap-ofs! (record-modifier gap-buffer 'gap-ofs)) (define aft-ofs! (record-modifier gap-buffer 'aft-ofs)) ;; todo: expose (define default-initial-allocation 128) (define default-chunk-size 128) (define default-realloc-threshold 32) (define (round-up n) (* default-chunk-size (+ 1 (quotient n default-chunk-size)))) (define new (record-constructor gap-buffer '())) (define (realloc gb inc) (let* ((old-s (s: gb)) (all-sz (all-sz: gb)) (new-sz (+ all-sz inc)) (gap-ofs (gap-ofs: gb)) (aft-ofs (aft-ofs: gb)) (new-s (make-string new-sz)) (new-aft-ofs (+ aft-ofs inc))) (substring-move! old-s 0 gap-ofs new-s 0) (substring-move! old-s aft-ofs all-sz new-s new-aft-ofs) (s! gb new-s) (all-sz! gb new-sz) (aft-ofs! gb new-aft-ofs))) (define (make-gap-buffer . init) ; port/string (let ((gb (new))) (cond ((null? init) (s! gb (make-string default-initial-allocation)) (all-sz! gb default-initial-allocation) (gap-ofs! gb 0) (aft-ofs! gb default-initial-allocation)) (else (let ((jam! (lambda (string len) (let ((alloc (round-up len))) (s! gb (make-string alloc)) (all-sz! gb alloc) (substring-move! string 0 len (s: gb) 0) (gap-ofs! gb len) (aft-ofs! gb alloc)))) (v (car init))) (cond ((port? v) (let ((next (lambda () (read-char v)))) (let loop ((c (next)) (acc '()) (len 0)) (if (eof-object? c) (jam! (list->string (reverse acc)) len) (loop (next) (cons c acc) (1+ len)))))) ((string? v) (jam! v (string-length v))) (else (error "bad init type")))))) gb)) (define (gb-point gb) (1+ (gap-ofs: gb))) (define (gb-point-min gb) 1) ; no narrowing (for now) (define (gb-point-max gb) (1+ (- (all-sz: gb) (- (aft-ofs: gb) (gap-ofs: gb))))) (define (insert-prep gb len) (let* ((gap-ofs (gap-ofs: gb)) (aft-ofs (aft-ofs: gb)) (slack (- (- aft-ofs gap-ofs) len))) (and (< slack default-realloc-threshold) (realloc gb (round-up (- slack)))) gap-ofs)) (define (gb-insert-string! gb string) (let* ((len (string-length string)) (gap-ofs (insert-prep gb len))) (substring-move! string 0 len (s: gb) gap-ofs) (gap-ofs! gb (+ gap-ofs len)))) (define (gb-insert-char! gb char) (let ((gap-ofs (insert-prep gb 1))) (string-set! (s: gb) gap-ofs char) (gap-ofs! gb (+ gap-ofs 1)))) (define (gb-delete-char! gb count) (cond ((< count 0) ; backwards (gap-ofs! gb (max 0 (+ (gap-ofs: gb) count)))) ((> count 0) ; forwards (aft-ofs! gb (min (all-sz: gb) (+ (aft-ofs: gb) count)))) ((= count 0) ; do nothing #t))) (define (gb-erase! gb) (gap-ofs! gb 0) (aft-ofs! gb (all-sz: gb))) (define (point++n! gb n s gap-ofs aft-ofs) ; n>0; warning: reckless (substring-move! s aft-ofs (+ aft-ofs n) s gap-ofs) (gap-ofs! gb (+ gap-ofs n)) (aft-ofs! gb (+ aft-ofs n))) (define (point+-n! gb n s gap-ofs aft-ofs) ; n<0; warning: reckless (substring-move! s (+ gap-ofs n) gap-ofs s (+ aft-ofs n)) (gap-ofs! gb (+ gap-ofs n)) (aft-ofs! gb (+ aft-ofs n))) (define (gb-goto-char gb new-point) (let ((pmax (gb-point-max gb))) (or (and (< new-point 1) (gb-goto-char gb 1)) (and (> new-point pmax) (gb-goto-char gb pmax)) (let ((delta (- new-point (gb-point gb)))) (or (= delta 0) ((if (< delta 0) point+-n! point++n!) gb delta (s: gb) (gap-ofs: gb) (aft-ofs: gb)))))) new-point) (define (gb->string gb) (let ((s (s: gb))) (string-append (substring s 0 (gap-ofs: gb)) (substring s (aft-ofs: gb))))) (define (gb-filter! gb string-proc) (let ((new (string-proc (gb->string gb)))) (gb-erase! gb) (gb-insert-string! gb new))) (define (gb->lines gb) (let ((str (gb->string gb))) (let loop ((start 0) (acc '())) (cond ((string-index str #\newline start) => (lambda (w) (loop (1+ w) (cons (substring str start w) acc)))) (else (reverse (cons (substring str start) acc))))))) (define (gb-filter-lines! gb lines-proc) (let ((new-lines (lines-proc (gb->lines gb)))) (gb-erase! gb) (gb-insert-string! gb (string-join new-lines #\newline)))) (define (make-gap-buffer-port gb) (or (gb? gb) (error "not a gap-buffer:" gb)) (make-soft-port (vector (lambda (c) (gb-insert-char! gb c)) (lambda (s) (gb-insert-string! gb s)) #f (lambda () (let ((gap-ofs (gap-ofs: gb)) (aft-ofs (aft-ofs: gb))) (if (= aft-ofs (all-sz: gb)) #f (let* ((s (s: gb)) (c (string-ref s aft-ofs))) (string-set! s gap-ofs c) (gap-ofs! gb (1+ gap-ofs)) (aft-ofs! gb (1+ aft-ofs)) c)))) #f) "rw")) ;;; gap-buffer.scm ends here