;;;; Copyright (C) 1997 Free Software Foundation, Inc. ;;;; ;;;; This program 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 2, or (at your option) ;;;; any later version. ;;;; ;;;; This program 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 this software; see the file COPYING. If not, write to ;;;; the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. ;;;; ;;;; POSIX regex support functions. (define-module (ice-9 regex)) ;;; FIXME: ;;; It is not clear what should happen if a `match' function ;;; is passed a `match number' which is out of bounds for the ;;; regexp match: return #f, or throw an error? These routines ;;; throw an out-of-range error. ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;; These procedures are not defined in SCSH, but I found them useful. (define-public (match:count match) (- (vector-length match) 1)) (define-public (match:string match) (vector-ref match 0)) (define-public (match:prefix match) (make-shared-substring (match:string match) 0 (match:start match 0))) (define-public (match:suffix match) (make-shared-substring (match:string match) (match:end match 0))) ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; ;;;; SCSH compatibility routines. (define-public (regexp-match? match) (and (vector? match) (string? (vector-ref match 0)) (let loop ((i 1)) (cond ((>= i (vector-length match)) #t) ((and (pair? (vector-ref match i)) (integer? (car (vector-ref match i))) (integer? (cdr (vector-ref match i)))) (loop (+ 1 i))) (else #f))))) (define-public (regexp-quote regexp) (call-with-output-string (lambda (p) (let loop ((i 0)) (and (< i (string-length regexp)) (begin (case (string-ref regexp i) ((#\* #\. #\( #\) #\+ #\? #\\ #\^ #\$ #\{ #\}) (write-char #\\ p))) (write-char (string-ref regexp i) p) (loop (1+ i)))))))) (define-public (match:start match . args) (let* ((matchnum (if (pair? args) (+ 1 (car args)) 1)) (start (car (vector-ref match matchnum)))) (if (= start -1) #f start))) (define-public (match:end match . args) (let* ((matchnum (if (pair? args) (+ 1 (car args)) 1)) (end (cdr (vector-ref match matchnum)))) (if (= end -1) #f end))) (define-public (match:substring match . args) (let* ((matchnum (if (pair? args) (car args) 0)) (start (match:start match matchnum)) (end (match:end match matchnum))) (and start end (make-shared-substring (match:string match) start end)))) (define-public (string-match pattern str . args) (let ((rx (make-regexp pattern)) (start (if (pair? args) (car args) 0))) (regexp-exec rx str start))) (define-public (regexp-substitute port match . items) ;; If `port' is #f, send output to a string. (if (not port) (call-with-output-string (lambda (p) (apply regexp-substitute p match items))) ;; Otherwise, process each substitution argument in `items'. (for-each (lambda (obj) (cond ((string? obj) (display obj port)) ((integer? obj) (display (match:substring match obj) port)) ((eq? 'pre obj) (display (match:prefix match) port)) ((eq? 'post obj) (display (match:suffix match) port)) (else (error 'wrong-type-arg obj)))) items))) (define-public (regexp-substitute/global port regexp string . items) ;; If `port' is #f, send output to a string. (if (not port) (call-with-output-string (lambda (p) (apply regexp-substitute/global p regexp string items))) ;; Otherwise, compile the regexp and match it against the ;; string, looping if 'post is encountered in `items'. (let ((rx (make-regexp regexp))) (let next-match ((str string)) (let ((match (regexp-exec rx str))) (if (not match) (display str port) ;; Process all of the items for this match. (for-each (lambda (obj) (cond ((string? obj) (display obj port)) ((integer? obj) (display (match:substring match obj) port)) ((procedure? obj) (display (obj match) port)) ((eq? 'pre obj) (display (match:prefix match) port)) ((eq? 'post obj) (next-match (match:suffix match))) (else (error 'wrong-type-arg obj)))) items)))))))