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+; SILex - Scheme Implementation of Lex
+; Copyright (C) 2001 Danny Dube'
+;
+; 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
+; of the License, 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 program; if not, write to the Free Software
+; Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+;
+; Fonction de copiage du fichier run-time
+;
+
+(define out-print-run-time-lib
+ (lambda (port)
+ (display "; *** This file start" port)
+ (display "s with a copy of the " port)
+ (display "file multilex.scm ***" port)
+ (newline port)
+ (display "; SILex - Scheme Implementation of Lex
+; Copyright (C) 2001 Danny Dube'
+;
+; 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
+; of the License, 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 program; if not, write to the Free Software
+; Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+
+;
+; Gestion des Input Systems
+; Fonctions a utiliser par l'usager:
+; lexer-make-IS, lexer-get-func-getc, lexer-get-func-ungetc,
+; lexer-get-func-line, lexer-get-func-column et lexer-get-func-offset
+;
+
+; Taille initiale par defaut du buffer d'entree
+(define lexer-init-buffer-len 1024)
+
+; Numero du caractere newline
+(define lexer-integer-newline (char->integer #\\newline))
+
+; Constructeur d'IS brut
+(define lexer-raw-IS-maker
+ (lambda (buffer read-ptr input-f counters)
+ (let ((input-f input-f) ; Entree reelle
+ (buffer buffer) ; Buffer
+ (buflen (string-length buffer))
+ (read-ptr read-ptr)
+ (start-ptr 1) ; Marque de debut de lexeme
+ (start-line 1)
+ (start-column 1)
+ (start-offset 0)
+ (end-ptr 1) ; Marque de fin de lexeme
+ (point-ptr 1) ; Le point
+ (user-ptr 1) ; Marque de l'usager
+ (user-line 1)
+ (user-column 1)
+ (user-offset 0)
+ (user-up-to-date? #t)) ; Concerne la colonne seul.
+ (letrec
+ ((start-go-to-end-none ; Fonctions de depl. des marques
+ (lambda ()
+ (set! start-ptr end-ptr)))
+ (start-go-to-end-line
+ (lambda ()
+ (let loop ((ptr start-ptr) (line start-line))
+ (if (= ptr end-ptr)
+ (begin
+ (set! start-ptr ptr)
+ (set! start-line line))
+ (if (char=? (string-ref buffer ptr) #\\newline)
+ (loop (+ ptr 1) (+ line 1))
+ (loop (+ ptr 1) line))))))
+ (start-go-to-end-all
+ (lambda ()
+ (set! start-offset (+ start-offset (- end-ptr start-ptr)))
+ (let loop ((ptr start-ptr)
+ (line start-line)
+ (column start-column))
+ (if (= ptr end-ptr)
+ (begin
+ (set! start-ptr ptr)
+ (set! start-line line)
+ (set! start-column column))
+ (if (char=? (string-ref buffer ptr) #\\newline)
+ (loop (+ ptr 1) (+ line 1) 1)
+ (loop (+ ptr 1) line (+ column 1)))))))
+ (start-go-to-user-none
+ (lambda ()
+ (set! start-ptr user-ptr)))
+ (start-go-to-user-line
+ (lambda ()
+ (set! start-ptr user-ptr)
+ (set! start-line user-line)))
+ (start-go-to-user-all
+ (lambda ()
+ (set! start-line user-line)
+ (set! start-offset user-offset)
+ (if user-up-to-date?
+ (begin
+ (set! start-ptr user-ptr)
+ (set! start-column user-column))
+ (let loop ((ptr start-ptr) (column start-column))
+ (if (= ptr user-ptr)
+ (begin
+ (set! start-ptr ptr)
+ (set! start-column column))
+ (if (char=? (string-ref buffer ptr) #\\newline)
+ (loop (+ ptr 1) 1)
+ (loop (+ ptr 1) (+ column 1))))))))
+ (end-go-to-point
+ (lambda ()
+ (set! end-ptr point-ptr)))
+ (point-go-to-start
+ (lambda ()
+ (set! point-ptr start-ptr)))
+ (user-go-to-start-none
+ (lambda ()
+ (set! user-ptr start-ptr)))
+ (user-go-to-start-line
+ (lambda ()
+ (set! user-ptr start-ptr)
+ (set! user-line start-line)))
+ (user-go-to-start-all
+ (lambda ()
+ (set! user-ptr start-ptr)
+ (set! user-line start-line)
+ (set! user-column start-column)
+ (set! user-offset start-offset)
+ (set! user-up-to-date? #t)))
+ (init-lexeme-none ; Debute un nouveau lexeme
+ (lambda ()
+ (if (< start-ptr user-ptr)
+ (start-go-to-user-none))
+ (point-go-to-start)))
+ (init-lexeme-line
+ (lambda ()
+ (if (< start-ptr user-ptr)
+ (start-go-to-user-line))
+ (point-go-to-start)))
+ (init-lexeme-all
+ (lambda ()
+ (if (< start-ptr user-ptr)
+ (start-go-to-user-all))
+ (point-go-to-start)))
+ (get-start-line ; Obtention des stats du debut du lxm
+ (lambda ()
+ start-line))
+ (get-start-column
+ (lambda ()
+ start-column))
+ (get-start-offset
+ (lambda ()
+ start-offset))
+ (peek-left-context ; Obtention de caracteres (#f si EOF)
+ (lambda ()
+ (char->integer (string-ref buffer (- start-ptr 1)))))
+ (peek-char
+ (lambda ()
+ (if (< point-ptr read-ptr)
+ (char->integer (string-ref buffer point-ptr))
+ (let ((c (input-f)))
+ (if (char? c)
+ (begin
+ (if (= read-ptr buflen)
+ (reorganize-buffer))
+ (string-set! buffer point-ptr c)
+ (set! read-ptr (+ point-ptr 1))
+ (char->integer c))
+ (begin
+ (set! input-f (lambda () 'eof))
+ #f))))))
+ (read-char
+ (lambda ()
+ (if (< point-ptr read-ptr)
+ (let ((c (string-ref buffer point-ptr)))
+ (set! point-ptr (+ point-ptr 1))
+ (char->integer c))
+ (let ((c (input-f)))
+ (if (char? c)
+ (begin
+ (if (= read-ptr buflen)
+ (reorganize-buffer))
+ (string-set! buffer point-ptr c)
+ (set! read-ptr (+ point-ptr 1))
+ (set! point-ptr read-ptr)
+ (char->integer c))
+ (begin
+ (set! input-f (lambda () 'eof))
+ #f))))))
+ (get-start-end-text ; Obtention du lexeme
+ (lambda ()
+ (substring buffer start-ptr end-ptr)))
+ (get-user-line-line ; Fonctions pour l'usager
+ (lambda ()
+ (if (< user-ptr start-ptr)
+ (user-go-to-start-line))
+ user-line))
+ (get-user-line-all
+ (lambda ()
+ (if (< user-ptr start-ptr)
+ (user-go-to-start-all))
+ user-line))
+ (get-user-column-all
+ (lambda ()
+ (cond ((< user-ptr start-ptr)
+ (user-go-to-start-all)
+ user-column)
+ (user-up-to-date?
+ user-column)
+ (else
+ (let loop ((ptr start-ptr) (column start-column))
+ (if (= ptr user-ptr)
+ (begin
+ (set! user-column column)
+ (set! user-up-to-date? #t)
+ column)
+ (if (char=? (string-ref buffer ptr) #\\newline)
+ (loop (+ ptr 1) 1)
+ (loop (+ ptr 1) (+ column 1)))))))))
+ (get-user-offset-all
+ (lambda ()
+ (if (< user-ptr start-ptr)
+ (user-go-to-start-all))
+ user-offset))
+ (user-getc-none
+ (lambda ()
+ (if (< user-ptr start-ptr)
+ (user-go-to-start-none))
+ (if (< user-ptr read-ptr)
+ (let ((c (string-ref buffer user-ptr)))
+ (set! user-ptr (+ user-ptr 1))
+ c)
+ (let ((c (input-f)))
+ (if (char? c)
+ (begin
+ (if (= read-ptr buflen)
+ (reorganize-buffer))
+ (string-set! buffer user-ptr c)
+ (set! read-ptr (+ read-ptr 1))
+ (set! user-ptr read-ptr)
+ c)
+ (begin
+ (set! input-f (lambda () 'eof))
+ 'eof))))))
+ (user-getc-line
+ (lambda ()
+ (if (< user-ptr start-ptr)
+ (user-go-to-start-line))
+ (if (< user-ptr read-ptr)
+ (let ((c (string-ref buffer user-ptr)))
+ (set! user-ptr (+ user-ptr 1))
+ (if (char=? c #\\newline)
+ (set! user-line (+ user-line 1)))
+ c)
+ (let ((c (input-f)))
+ (if (char? c)
+ (begin
+ (if (= read-ptr buflen)
+ (reorganize-buffer))
+ (string-set! buffer user-ptr c)
+ (set! read-ptr (+ read-ptr 1))
+ (set! user-ptr read-ptr)
+ (if (char=? c #\\newline)
+ (set! user-line (+ user-line 1)))
+ c)
+ (begin
+ (set! input-f (lambda () 'eof))
+ 'eof))))))
+ (user-getc-all
+ (lambda ()
+ (if (< user-ptr start-ptr)
+ (user-go-to-start-all))
+ (if (< user-ptr read-ptr)
+ (let ((c (string-ref buffer user-ptr)))
+ (set! user-ptr (+ user-ptr 1))
+ (if (char=? c #\\newline)
+ (begin
+ (set! user-line (+ user-line 1))
+ (set! user-column 1))
+ (set! user-column (+ user-column 1)))
+ (set! user-offset (+ user-offset 1))
+ c)
+ (let ((c (input-f)))
+ (if (char? c)
+ (begin
+ (if (= read-ptr buflen)
+ (reorganize-buffer))
+ (string-set! buffer user-ptr c)
+ (set! read-ptr (+ read-ptr 1))
+ (set! user-ptr read-ptr)
+ (if (char=? c #\\newline)
+ (begin
+ (set! user-line (+ user-line 1))
+ (set! user-column 1))
+ (set! user-column (+ user-column 1)))
+ (set! user-offset (+ user-offset 1))
+ c)
+ (begin
+ (set! input-f (lambda () 'eof))
+ 'eof))))))
+ (user-ungetc-none
+ (lambda ()
+ (if (> user-ptr start-ptr)
+ (set! user-ptr (- user-ptr 1)))))
+ (user-ungetc-line
+ (lambda ()
+ (if (> user-ptr start-ptr)
+ (begin
+ (set! user-ptr (- user-ptr 1))
+ (let ((c (string-ref buffer user-ptr)))
+ (if (char=? c #\\newline)
+ (set! user-line (- user-line 1))))))))
+ (user-ungetc-all
+ (lambda ()
+ (if (> user-ptr start-ptr)
+ (begin
+ (set! user-ptr (- user-ptr 1))
+ (let ((c (string-ref buffer user-ptr)))
+ (if (char=? c #\\newline)
+ (begin
+ (set! user-line (- user-line 1))
+ (set! user-up-to-date? #f))
+ (set! user-column (- user-column 1)))
+ (set! user-offset (- user-offset 1)))))))
+ (reorganize-buffer ; Decaler ou agrandir le buffer
+ (lambda ()
+ (if (< (* 2 start-ptr) buflen)
+ (let* ((newlen (* 2 buflen))
+ (newbuf (make-string newlen))
+ (delta (- start-ptr 1)))
+ (let loop ((from (- start-ptr 1)))
+ (if (< from buflen)
+ (begin
+ (string-set! newbuf
+ (- from delta)
+ (string-ref buffer from))
+ (loop (+ from 1)))))
+ (set! buffer newbuf)
+ (set! buflen newlen)
+ (set! read-ptr (- read-ptr delta))
+ (set! start-ptr (- start-ptr delta))
+ (set! end-ptr (- end-ptr delta))
+ (set! point-ptr (- point-ptr delta))
+ (set! user-ptr (- user-ptr delta)))
+ (let ((delta (- start-ptr 1)))
+ (let loop ((from (- start-ptr 1)))
+ (if (< from buflen)
+ (begin
+ (string-set! buffer
+ (- from delta)
+ (string-ref buffer from))
+ (loop (+ from 1)))))
+ (set! read-ptr (- read-ptr delta))
+ (set! start-ptr (- start-ptr delta))
+ (set! end-ptr (- end-ptr delta))
+ (set! point-ptr (- point-ptr delta))
+ (set! user-ptr (- user-ptr delta)))))))
+ (list (cons 'start-go-to-end
+ (cond ((eq? counters 'none) start-go-to-end-none)
+ ((eq? counters 'line) start-go-to-end-line)
+ ((eq? counters 'all ) start-go-to-end-all)))
+ (cons 'end-go-to-point
+ end-go-to-point)
+ (cons 'init-lexeme
+ (cond ((eq? counters 'none) init-lexeme-none)
+ ((eq? counters 'line) init-lexeme-line)
+ ((eq? counters 'all ) init-lexeme-all)))
+ (cons 'get-start-line
+ get-start-line)
+ (cons 'get-start-column
+ get-start-column)
+ (cons 'get-start-offset
+ get-start-offset)
+ (cons 'peek-left-context
+ peek-left-context)
+ (cons 'peek-char
+ peek-char)
+ (cons 'read-char
+ read-char)
+ (cons 'get-start-end-text
+ get-start-end-text)
+ (cons 'get-user-line
+ (cond ((eq? counters 'none) #f)
+ ((eq? counters 'line) get-user-line-line)
+ ((eq? counters 'all ) get-user-line-all)))
+ (cons 'get-user-column
+ (cond ((eq? counters 'none) #f)
+ ((eq? counters 'line) #f)
+ ((eq? counters 'all ) get-user-column-all)))
+ (cons 'get-user-offset
+ (cond ((eq? counters 'none) #f)
+ ((eq? counters 'line) #f)
+ ((eq? counters 'all ) get-user-offset-all)))
+ (cons 'user-getc
+ (cond ((eq? counters 'none) user-getc-none)
+ ((eq? counters 'line) user-getc-line)
+ ((eq? counters 'all ) user-getc-all)))
+ (cons 'user-ungetc
+ (cond ((eq? counters 'none) user-ungetc-none)
+ ((eq? counters 'line) user-ungetc-line)
+ ((eq? counters 'all ) user-ungetc-all))))))))
+
+; Construit un Input System
+; Le premier parametre doit etre parmi \"port\", \"procedure\" ou \"string\"
+; Prend un parametre facultatif qui doit etre parmi
+; \"none\", \"line\" ou \"all\"
+(define lexer-make-IS
+ (lambda (input-type input . largs)
+ (let ((counters-type (cond ((null? largs)
+ 'line)
+ ((memq (car largs) '(none line all))
+ (car largs))
+ (else
+ 'line))))
+ (cond ((and (eq? input-type 'port) (input-port? input))
+ (let* ((buffer (make-string lexer-init-buffer-len #\\newline))
+ (read-ptr 1)
+ (input-f (lambda () (read-char input))))
+ (lexer-raw-IS-maker buffer read-ptr input-f counters-type)))
+ ((and (eq? input-type 'procedure) (procedure? input))
+ (let* ((buffer (make-string lexer-init-buffer-len #\\newline))
+ (read-ptr 1)
+ (input-f input))
+ (lexer-raw-IS-maker buffer read-ptr input-f counters-type)))
+ ((and (eq? input-type 'string) (string? input))
+ (let* ((buffer (string-append (string #\\newline) input))
+ (read-ptr (string-length buffer))
+ (input-f (lambda () 'eof)))
+ (lexer-raw-IS-maker buffer read-ptr input-f counters-type)))
+ (else
+ (let* ((buffer (string #\\newline))
+ (read-ptr 1)
+ (input-f (lambda () 'eof)))
+ (lexer-raw-IS-maker buffer read-ptr input-f counters-type)))))))
+
+; Les fonctions:
+; lexer-get-func-getc, lexer-get-func-ungetc,
+; lexer-get-func-line, lexer-get-func-column et lexer-get-func-offset
+(define lexer-get-func-getc
+ (lambda (IS) (cdr (assq 'user-getc IS))))
+(define lexer-get-func-ungetc
+ (lambda (IS) (cdr (assq 'user-ungetc IS))))
+(define lexer-get-func-line
+ (lambda (IS) (cdr (assq 'get-user-line IS))))
+(define lexer-get-func-column
+ (lambda (IS) (cdr (assq 'get-user-column IS))))
+(define lexer-get-func-offset
+ (lambda (IS) (cdr (assq 'get-user-offset IS))))
+
+;
+; Gestion des lexers
+;
+
+; Fabrication de lexer a partir d'arbres de decision
+(define lexer-make-tree-lexer
+ (lambda (tables IS)
+ (letrec
+ (; Contenu de la table
+ (counters-type (vector-ref tables 0))
+ (<<EOF>>-pre-action (vector-ref tables 1))
+ (<<ERROR>>-pre-action (vector-ref tables 2))
+ (rules-pre-actions (vector-ref tables 3))
+ (table-nl-start (vector-ref tables 5))
+ (table-no-nl-start (vector-ref tables 6))
+ (trees-v (vector-ref tables 7))
+ (acc-v (vector-ref tables 8))
+
+ ; Contenu du IS
+ (IS-start-go-to-end (cdr (assq 'start-go-to-end IS)))
+ (IS-end-go-to-point (cdr (assq 'end-go-to-point IS)))
+ (IS-init-lexeme (cdr (assq 'init-lexeme IS)))
+ (IS-get-start-line (cdr (assq 'get-start-line IS)))
+ (IS-get-start-column (cdr (assq 'get-start-column IS)))
+ (IS-get-start-offset (cdr (assq 'get-start-offset IS)))
+ (IS-peek-left-context (cdr (assq 'peek-left-context IS)))
+ (IS-peek-char (cdr (assq 'peek-char IS)))
+ (IS-read-char (cdr (assq 'read-char IS)))
+ (IS-get-start-end-text (cdr (assq 'get-start-end-text IS)))
+ (IS-get-user-line (cdr (assq 'get-user-line IS)))
+ (IS-get-user-column (cdr (assq 'get-user-column IS)))
+ (IS-get-user-offset (cdr (assq 'get-user-offset IS)))
+ (IS-user-getc (cdr (assq 'user-getc IS)))
+ (IS-user-ungetc (cdr (assq 'user-ungetc IS)))
+
+ ; Resultats
+ (<<EOF>>-action #f)
+ (<<ERROR>>-action #f)
+ (rules-actions #f)
+ (states #f)
+ (final-lexer #f)
+
+ ; Gestion des hooks
+ (hook-list '())
+ (add-hook
+ (lambda (thunk)
+ (set! hook-list (cons thunk hook-list))))
+ (apply-hooks
+ (lambda ()
+ (let loop ((l hook-list))
+ (if (pair? l)
+ (begin
+ ((car l))
+ (loop (cdr l)))))))
+
+ ; Preparation des actions
+ (set-action-statics
+ (lambda (pre-action)
+ (pre-action final-lexer IS-user-getc IS-user-ungetc)))
+ (prepare-special-action-none
+ (lambda (pre-action)
+ (let ((action #f))
+ (let ((result
+ (lambda ()
+ (action \"\")))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-special-action-line
+ (lambda (pre-action)
+ (let ((action #f))
+ (let ((result
+ (lambda (yyline)
+ (action \"\" yyline)))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-special-action-all
+ (lambda (pre-action)
+ (let ((action #f))
+ (let ((result
+ (lambda (yyline yycolumn yyoffset)
+ (action \"\" yyline yycolumn yyoffset)))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-special-action
+ (lambda (pre-action)
+ (cond ((eq? counters-type 'none)
+ (prepare-special-action-none pre-action))
+ ((eq? counters-type 'line)
+ (prepare-special-action-line pre-action))
+ ((eq? counters-type 'all)
+ (prepare-special-action-all pre-action)))))
+ (prepare-action-yytext-none
+ (lambda (pre-action)
+ (let ((get-start-end-text IS-get-start-end-text)
+ (start-go-to-end IS-start-go-to-end)
+ (action #f))
+ (let ((result
+ (lambda ()
+ (let ((yytext (get-start-end-text)))
+ (start-go-to-end)
+ (action yytext))))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-action-yytext-line
+ (lambda (pre-action)
+ (let ((get-start-end-text IS-get-start-end-text)
+ (start-go-to-end IS-start-go-to-end)
+ (action #f))
+ (let ((result
+ (lambda (yyline)
+ (let ((yytext (get-start-end-text)))
+ (start-go-to-end)
+ (action yytext yyline))))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-action-yytext-all
+ (lambda (pre-action)
+ (let ((get-start-end-text IS-get-start-end-text)
+ (start-go-to-end IS-start-go-to-end)
+ (action #f))
+ (let ((result
+ (lambda (yyline yycolumn yyoffset)
+ (let ((yytext (get-start-end-text)))
+ (start-go-to-end)
+ (action yytext yyline yycolumn yyoffset))))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-action-yytext
+ (lambda (pre-action)
+ (cond ((eq? counters-type 'none)
+ (prepare-action-yytext-none pre-action))
+ ((eq? counters-type 'line)
+ (prepare-action-yytext-line pre-action))
+ ((eq? counters-type 'all)
+ (prepare-action-yytext-all pre-action)))))
+ (prepare-action-no-yytext-none
+ (lambda (pre-action)
+ (let ((start-go-to-end IS-start-go-to-end)
+ (action #f))
+ (let ((result
+ (lambda ()
+ (start-go-to-end)
+ (action)))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-action-no-yytext-line
+ (lambda (pre-action)
+ (let ((start-go-to-end IS-start-go-to-end)
+ (action #f))
+ (let ((result
+ (lambda (yyline)
+ (start-go-to-end)
+ (action yyline)))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-action-no-yytext-all
+ (lambda (pre-action)
+ (let ((start-go-to-end IS-start-go-to-end)
+ (action #f))
+ (let ((result
+ (lambda (yyline yycolumn yyoffset)
+ (start-go-to-end)
+ (action yyline yycolumn yyoffset)))
+ (hook
+ (lambda ()
+ (set! action (set-action-statics pre-action)))))
+ (add-hook hook)
+ result))))
+ (prepare-action-no-yytext
+ (lambda (pre-action)
+ (cond ((eq? counters-type 'none)
+ (prepare-action-no-yytext-none pre-action))
+ ((eq? counters-type 'line)
+ (prepare-action-no-yytext-line pre-action))
+ ((eq? counters-type 'all)
+ (prepare-action-no-yytext-all pre-action)))))
+
+ ; Fabrique les fonctions de dispatch
+ (prepare-dispatch-err
+ (lambda (leaf)
+ (lambda (c)
+ #f)))
+ (prepare-dispatch-number
+ (lambda (leaf)
+ (let ((state-function #f))
+ (let ((result
+ (lambda (c)
+ state-function))
+ (hook
+ (lambda ()
+ (set! state-function (vector-ref states leaf)))))
+ (add-hook hook)
+ result))))
+ (prepare-dispatch-leaf
+ (lambda (leaf)
+ (if (eq? leaf 'err)
+ (prepare-dispatch-err leaf)
+ (prepare-dispatch-number leaf))))
+ (prepare-dispatch-<
+ (lambda (tree)
+ (let ((left-tree (list-ref tree 1))
+ (right-tree (list-ref tree 2)))
+ (let ((bound (list-ref tree 0))
+ (left-func (prepare-dispatch-tree left-tree))
+ (right-func (prepare-dispatch-tree right-tree)))
+ (lambda (c)
+ (if (< c bound)
+ (left-func c)
+ (right-func c)))))))
+ (prepare-dispatch-=
+ (lambda (tree)
+ (let ((left-tree (list-ref tree 2))
+ (right-tree (list-ref tree 3)))
+ (let ((bound (list-ref tree 1))
+ (left-func (prepare-dispatch-tree left-tree))
+ (right-func (prepare-dispatch-tree right-tree)))
+ (lambda (c)
+ (if (= c bound)
+ (left-func c)
+ (right-func c)))))))
+ (prepare-dispatch-tree
+ (lambda (tree)
+ (cond ((not (pair? tree))
+ (prepare-dispatch-leaf tree))
+ ((eq? (car tree) '=)
+ (prepare-dispatch-= tree))
+ (else
+ (prepare-dispatch-< tree)))))
+ (prepare-dispatch
+ (lambda (tree)
+ (let ((dicho-func (prepare-dispatch-tree tree)))
+ (lambda (c)
+ (and c (dicho-func c))))))
+
+ ; Fabrique les fonctions de transition (read & go) et (abort)
+ (prepare-read-n-go
+ (lambda (tree)
+ (let ((dispatch-func (prepare-dispatch tree))
+ (read-char IS-read-char))
+ (lambda ()
+ (dispatch-func (read-char))))))
+ (prepare-abort
+ (lambda (tree)
+ (lambda ()
+ #f)))
+ (prepare-transition
+ (lambda (tree)
+ (if (eq? tree 'err)
+ (prepare-abort tree)
+ (prepare-read-n-go tree))))
+
+ ; Fabrique les fonctions d'etats ([set-end] & trans)
+ (prepare-state-no-acc
+ (lambda (s r1 r2)
+ (let ((trans-func (prepare-transition (vector-ref trees-v s))))
+ (lambda (action)
+ (let ((next-state (trans-func)))
+ (if next-state
+ (next-state action)
+ action))))))
+ (prepare-state-yes-no
+ (lambda (s r1 r2)
+ (let ((peek-char IS-peek-char)
+ (end-go-to-point IS-end-go-to-point)
+ (new-action1 #f)
+ (trans-func (prepare-transition (vector-ref trees-v s))))
+ (let ((result
+ (lambda (action)
+ (let* ((c (peek-char))
+ (new-action
+ (if (or (not c) (= c lexer-integer-newline))
+ (begin
+ (end-go-to-point)
+ new-action1)
+ action))
+ (next-state (trans-func)))
+ (if next-state
+ (next-state new-action)
+ new-action))))
+ (hook
+ (lambda ()
+ (set! new-action1 (vector-ref rules-actions r1)))))
+ (add-hook hook)
+ result))))
+ (prepare-state-diff-acc
+ (lambda (s r1 r2)
+ (let ((end-go-to-point IS-end-go-to-point)
+ (peek-char IS-peek-char)
+ (new-action1 #f)
+ (new-action2 #f)
+ (trans-func (prepare-transition (vector-ref trees-v s))))
+ (let ((result
+ (lambda (action)
+ (end-go-to-point)
+ (let* ((c (peek-char))
+ (new-action
+ (if (or (not c) (= c lexer-integer-newline))
+ new-action1
+ new-action2))
+ (next-state (trans-func)))
+ (if next-state
+ (next-state new-action)
+ new-action))))
+ (hook
+ (lambda ()
+ (set! new-action1 (vector-ref rules-actions r1))
+ (set! new-action2 (vector-ref rules-actions r2)))))
+ (add-hook hook)
+ result))))
+ (prepare-state-same-acc
+ (lambda (s r1 r2)
+ (let ((end-go-to-point IS-end-go-to-point)
+ (trans-func (prepare-transition (vector-ref trees-v s)))
+ (new-action #f))
+ (let ((result
+ (lambda (action)
+ (end-go-to-point)
+ (let ((next-state (trans-func)))
+ (if next-state
+ (next-state new-action)
+ new-action))))
+ (hook
+ (lambda ()
+ (set! new-action (vector-ref rules-actions r1)))))
+ (add-hook hook)
+ result))))
+ (prepare-state
+ (lambda (s)
+ (let* ((acc (vector-ref acc-v s))
+ (r1 (car acc))
+ (r2 (cdr acc)))
+ (cond ((not r1) (prepare-state-no-acc s r1 r2))
+ ((not r2) (prepare-state-yes-no s r1 r2))
+ ((< r1 r2) (prepare-state-diff-acc s r1 r2))
+ (else (prepare-state-same-acc s r1 r2))))))
+
+ ; Fabrique la fonction de lancement du lexage a l'etat de depart
+ (prepare-start-same
+ (lambda (s1 s2)
+ (let ((peek-char IS-peek-char)
+ (eof-action #f)
+ (start-state #f)
+ (error-action #f))
+ (let ((result
+ (lambda ()
+ (if (not (peek-char))
+ eof-action
+ (start-state error-action))))
+ (hook
+ (lambda ()
+ (set! eof-action <<EOF>>-action)
+ (set! start-state (vector-ref states s1))
+ (set! error-action <<ERROR>>-action))))
+ (add-hook hook)
+ result))))
+ (prepare-start-diff
+ (lambda (s1 s2)
+ (let ((peek-char IS-peek-char)
+ (eof-action #f)
+ (peek-left-context IS-peek-left-context)
+ (start-state1 #f)
+ (start-state2 #f)
+ (error-action #f))
+ (let ((result
+ (lambda ()
+ (cond ((not (peek-char))
+ eof-action)
+ ((= (peek-left-context) lexer-integer-newline)
+ (start-state1 error-action))
+ (else
+ (start-state2 error-action)))))
+ (hook
+ (lambda ()
+ (set! eof-action <<EOF>>-action)
+ (set! start-state1 (vector-ref states s1))
+ (set! start-state2 (vector-ref states s2))
+ (set! error-action <<ERROR>>-action))))
+ (add-hook hook)
+ result))))
+ (prepare-start
+ (lambda ()
+ (let ((s1 table-nl-start)
+ (s2 table-no-nl-start))
+ (if (= s1 s2)
+ (prepare-start-same s1 s2)
+ (prepare-start-diff s1 s2)))))
+
+ ; Fabrique la fonction principale
+ (prepare-lexer-none
+ (lambda ()
+ (let ((init-lexeme IS-init-lexeme)
+ (start-func (prepare-start)))
+ (lambda ()
+ (init-lexeme)
+ ((start-func))))))
+ (prepare-lexer-line
+ (lambda ()
+ (let ((init-lexeme IS-init-lexeme)
+ (get-start-line IS-get-start-line)
+ (start-func (prepare-start)))
+ (lambda ()
+ (init-lexeme)
+ (let ((yyline (get-start-line)))
+ ((start-func) yyline))))))
+ (prepare-lexer-all
+ (lambda ()
+ (let ((init-lexeme IS-init-lexeme)
+ (get-start-line IS-get-start-line)
+ (get-start-column IS-get-start-column)
+ (get-start-offset IS-get-start-offset)
+ (start-func (prepare-start)))
+ (lambda ()
+ (init-lexeme)
+ (let ((yyline (get-start-line))
+ (yycolumn (get-start-column))
+ (yyoffset (get-start-offset)))
+ ((start-func) yyline yycolumn yyoffset))))))
+ (prepare-lexer
+ (lambda ()
+ (cond ((eq? counters-type 'none) (prepare-lexer-none))
+ ((eq? counters-type 'line) (prepare-lexer-line))
+ ((eq? counters-type 'all) (prepare-lexer-all))))))
+
+ ; Calculer la valeur de <<EOF>>-action et de <<ERROR>>-action
+ (set! <<EOF>>-action (prepare-special-action <<EOF>>-pre-action))
+ (set! <<ERROR>>-action (prepare-special-action <<ERROR>>-pre-action))
+
+ ; Calculer la valeur de rules-actions
+ (let* ((len (quotient (vector-length rules-pre-actions) 2))
+ (v (make-vector len)))
+ (let loop ((r (- len 1)))
+ (if (< r 0)
+ (set! rules-actions v)
+ (let* ((yytext? (vector-ref rules-pre-actions (* 2 r)))
+ (pre-action (vector-ref rules-pre-actions (+ (* 2 r) 1)))
+ (action (if yytext?
+ (prepare-action-yytext pre-action)
+ (prepare-action-no-yytext pre-action))))
+ (vector-set! v r action)
+ (loop (- r 1))))))
+
+ ; Calculer la valeur de states
+ (let* ((len (vector-length trees-v))
+ (v (make-vector len)))
+ (let loop ((s (- len 1)))
+ (if (< s 0)
+ (set! states v)
+ (begin
+ (vector-set! v s (prepare-state s))
+ (loop (- s 1))))))
+
+ ; Calculer la valeur de final-lexer
+ (set! final-lexer (prepare-lexer))
+
+ ; Executer les hooks
+ (apply-hooks)
+
+ ; Resultat
+ final-lexer)))
+
+; Fabrication de lexer a partir de listes de caracteres taggees
+(define lexer-make-char-lexer
+ (let* ((char->class
+ (lambda (c)
+ (let ((n (char->integer c)))
+ (list (cons n n)))))
+ (merge-sort
+ (lambda (l combine zero-elt)
+ (if (null? l)
+ zero-elt
+ (let loop1 ((l l))
+ (if (null? (cdr l))
+ (car l)
+ (loop1
+ (let loop2 ((l l))
+ (cond ((null? l)
+ l)
+ ((null? (cdr l))
+ l)
+ (else
+ (cons (combine (car l) (cadr l))
+ (loop2 (cddr l))))))))))))
+ (finite-class-union
+ (lambda (c1 c2)
+ (let loop ((c1 c1) (c2 c2) (u '()))
+ (if (null? c1)
+ (if (null? c2)
+ (reverse u)
+ (loop c1 (cdr c2) (cons (car c2) u)))
+ (if (null? c2)
+ (loop (cdr c1) c2 (cons (car c1) u))
+ (let* ((r1 (car c1))
+ (r2 (car c2))
+ (r1start (car r1))
+ (r1end (cdr r1))
+ (r2start (car r2))
+ (r2end (cdr r2)))
+ (if (<= r1start r2start)
+ (cond ((< (+ r1end 1) r2start)
+ (loop (cdr c1) c2 (cons r1 u)))
+ ((<= r1end r2end)
+ (loop (cdr c1)
+ (cons (cons r1start r2end) (cdr c2))
+ u))
+ (else
+ (loop c1 (cdr c2) u)))
+ (cond ((> r1start (+ r2end 1))
+ (loop c1 (cdr c2) (cons r2 u)))
+ ((>= r1end r2end)
+ (loop (cons (cons r2start r1end) (cdr c1))
+ (cdr c2)
+ u))
+ (else
+ (loop (cdr c1) c2 u))))))))))
+ (char-list->class
+ (lambda (cl)
+ (let ((classes (map char->class cl)))
+ (merge-sort classes finite-class-union '()))))
+ (class-<
+ (lambda (b1 b2)
+ (cond ((eq? b1 'inf+) #f)
+ ((eq? b2 'inf-) #f)
+ ((eq? b1 'inf-) #t)
+ ((eq? b2 'inf+) #t)
+ (else (< b1 b2)))))
+ (finite-class-compl
+ (lambda (c)
+ (let loop ((c c) (start 'inf-))
+ (if (null? c)
+ (list (cons start 'inf+))
+ (let* ((r (car c))
+ (rstart (car r))
+ (rend (cdr r)))
+ (if (class-< start rstart)
+ (cons (cons start (- rstart 1))
+ (loop c rstart))
+ (loop (cdr c) (+ rend 1))))))))
+ (tagged-chars->class
+ (lambda (tcl)
+ (let* ((inverse? (car tcl))
+ (cl (cdr tcl))
+ (class-tmp (char-list->class cl)))
+ (if inverse? (finite-class-compl class-tmp) class-tmp))))
+ (charc->arc
+ (lambda (charc)
+ (let* ((tcl (car charc))
+ (dest (cdr charc))
+ (class (tagged-chars->class tcl)))
+ (cons class dest))))
+ (arc->sharcs
+ (lambda (arc)
+ (let* ((range-l (car arc))
+ (dest (cdr arc))
+ (op (lambda (range) (cons range dest))))
+ (map op range-l))))
+ (class-<=
+ (lambda (b1 b2)
+ (cond ((eq? b1 'inf-) #t)
+ ((eq? b2 'inf+) #t)
+ ((eq? b1 'inf+) #f)
+ ((eq? b2 'inf-) #f)
+ (else (<= b1 b2)))))
+ (sharc-<=
+ (lambda (sharc1 sharc2)
+ (class-<= (caar sharc1) (caar sharc2))))
+ (merge-sharcs
+ (lambda (l1 l2)
+ (let loop ((l1 l1) (l2 l2))
+ (cond ((null? l1)
+ l2)
+ ((null? l2)
+ l1)
+ (else
+ (let ((sharc1 (car l1))
+ (sharc2 (car l2)))
+ (if (sharc-<= sharc1 sharc2)
+ (cons sharc1 (loop (cdr l1) l2))
+ (cons sharc2 (loop l1 (cdr l2))))))))))
+ (class-= eqv?)
+ (fill-error
+ (lambda (sharcs)
+ (let loop ((sharcs sharcs) (start 'inf-))
+ (cond ((class-= start 'inf+)
+ '())
+ ((null? sharcs)
+ (cons (cons (cons start 'inf+) 'err)
+ (loop sharcs 'inf+)))
+ (else
+ (let* ((sharc (car sharcs))
+ (h (caar sharc))
+ (t (cdar sharc)))
+ (if (class-< start h)
+ (cons (cons (cons start (- h 1)) 'err)
+ (loop sharcs h))
+ (cons sharc (loop (cdr sharcs)
+ (if (class-= t 'inf+)
+ 'inf+
+ (+ t 1)))))))))))
+ (charcs->tree
+ (lambda (charcs)
+ (let* ((op (lambda (charc) (arc->sharcs (charc->arc charc))))
+ (sharcs-l (map op charcs))
+ (sorted-sharcs (merge-sort sharcs-l merge-sharcs '()))
+ (full-sharcs (fill-error sorted-sharcs))
+ (op (lambda (sharc) (cons (caar sharc) (cdr sharc))))
+ (table (list->vector (map op full-sharcs))))
+ (let loop ((left 0) (right (- (vector-length table) 1)))
+ (if (= left right)
+ (cdr (vector-ref table left))
+ (let ((mid (quotient (+ left right 1) 2)))
+ (if (and (= (+ left 2) right)
+ (= (+ (car (vector-ref table mid)) 1)
+ (car (vector-ref table right)))
+ (eqv? (cdr (vector-ref table left))
+ (cdr (vector-ref table right))))
+ (list '=
+ (car (vector-ref table mid))
+ (cdr (vector-ref table mid))
+ (cdr (vector-ref table left)))
+ (list (car (vector-ref table mid))
+ (loop left (- mid 1))
+ (loop mid right))))))))))
+ (lambda (tables IS)
+ (let ((counters (vector-ref tables 0))
+ (<<EOF>>-action (vector-ref tables 1))
+ (<<ERROR>>-action (vector-ref tables 2))
+ (rules-actions (vector-ref tables 3))
+ (nl-start (vector-ref tables 5))
+ (no-nl-start (vector-ref tables 6))
+ (charcs-v (vector-ref tables 7))
+ (acc-v (vector-ref tables 8)))
+ (let* ((len (vector-length charcs-v))
+ (v (make-vector len)))
+ (let loop ((i (- len 1)))
+ (if (>= i 0)
+ (begin
+ (vector-set! v i (charcs->tree (vector-ref charcs-v i)))
+ (loop (- i 1)))
+ (lexer-make-tree-lexer
+ (vector counters
+ <<EOF>>-action
+ <<ERROR>>-action
+ rules-actions
+ 'decision-trees
+ nl-start
+ no-nl-start
+ v
+ acc-v)
+ IS))))))))
+
+; Fabrication d'un lexer a partir de code pre-genere
+(define lexer-make-code-lexer
+ (lambda (tables IS)
+ (let ((<<EOF>>-pre-action (vector-ref tables 1))
+ (<<ERROR>>-pre-action (vector-ref tables 2))
+ (rules-pre-action (vector-ref tables 3))
+ (code (vector-ref tables 5)))
+ (code <<EOF>>-pre-action <<ERROR>>-pre-action rules-pre-action IS))))
+
+(define lexer-make-lexer
+ (lambda (tables IS)
+ (let ((automaton-type (vector-ref tables 4)))
+ (cond ((eq? automaton-type 'decision-trees)
+ (lexer-make-tree-lexer tables IS))
+ ((eq? automaton-type 'tagged-chars-lists)
+ (lexer-make-char-lexer tables IS))
+ ((eq? automaton-type 'code)
+ (lexer-make-code-lexer tables IS))))))
+" port)))