2124 lines
61 KiB
Scheme
2124 lines
61 KiB
Scheme
;;;
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;;;; An Efficient and Portable LALR(1) Parser Generator for Scheme
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;;;
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;; Copyright 2014 Jan Nieuwenhuizen <janneke@gnu.org>
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;; Copyright 1993, 2010 Dominique Boucher
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;;
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;; This program is free software: you can redistribute it and/or
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;; modify it under the terms of the GNU Lesser General Public License
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;; as published by the Free Software Foundation, either version 3 of
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;; the License, or (at your option) any later version.
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;;
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;; This program is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU Lesser General Public License for more details.
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;;
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;; You should have received a copy of the GNU General Public License
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;; along with this program. If not, see <http://www.gnu.org/licenses/>.
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(define *lalr-scm-version* "2.5.0")
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(cond-expand
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;; -- Gambit-C
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(gambit
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(display "Gambit-C!")
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(newline)
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(define-macro (def-macro form . body)
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`(define-macro ,form (let () ,@body)))
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(def-macro (BITS-PER-WORD) 28)
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(def-macro (logical-or x . y) `(bitwise-ior ,x ,@y))
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(def-macro (lalr-error msg obj) `(error ,msg ,obj))
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(define pprint pretty-print)
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(define lalr-keyword? keyword?)
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(define (note-source-location lvalue tok) lvalue))
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;; --
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(bigloo
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(define-macro (def-macro form . body)
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`(define-macro ,form (let () ,@body)))
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(define pprint (lambda (obj) (write obj) (newline)))
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(define lalr-keyword? keyword?)
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(def-macro (BITS-PER-WORD) 29)
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(def-macro (logical-or x . y) `(bit-or ,x ,@y))
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(def-macro (lalr-error msg obj) `(error "lalr-parser" ,msg ,obj))
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(define (note-source-location lvalue tok) lvalue))
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;; -- Chicken
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(chicken
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(define-macro (def-macro form . body)
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`(define-macro ,form (let () ,@body)))
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(define pprint pretty-print)
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(define lalr-keyword? symbol?)
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(def-macro (BITS-PER-WORD) 30)
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(def-macro (logical-or x . y) `(bitwise-ior ,x ,@y))
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(def-macro (lalr-error msg obj) `(error ,msg ,obj))
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(define (note-source-location lvalue tok) lvalue))
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;; -- STKlos
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(stklos
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(require "pp")
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(define (pprint form) (pp form :port (current-output-port)))
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(define lalr-keyword? keyword?)
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(define-macro (BITS-PER-WORD) 30)
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(define-macro (logical-or x . y) `(bit-or ,x ,@y))
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(define-macro (lalr-error msg obj) `(error 'lalr-parser ,msg ,obj))
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(define (note-source-location lvalue tok) lvalue))
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;; -- Guile
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(guile
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(display "GUILE") (newline)
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(use-modules (ice-9 pretty-print))
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(use-modules (srfi srfi-9))
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(define pprint pretty-print)
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(define lalr-keyword? symbol?)
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(define-macro (BITS-PER-WORD) 30)
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(define-macro (logical-or x . y) `(logior ,x ,@y))
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(define-macro (lalr-error msg obj) `(error ,msg ,obj))
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(define (note-source-location lvalue tok)
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(if (and (supports-source-properties? lvalue)
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(not (source-property lvalue 'loc))
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(lexical-token? tok))
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(set-source-property! lvalue 'loc (lexical-token-source tok)))
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lvalue))
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;; -- Mes
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(mes
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(display "MES!")
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(newline)
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(define pprint display)
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(define lalr-keyword? symbol?)
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(define-macro (BITS-PER-WORD) 30)
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(define-macro (logical-or x . y) `(logior ,x ,@y))
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(define-macro (lalr-error msg obj) `(error ,msg ,obj))
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(define (note-source-location lvalue tok) lvalue)
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)
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;; -- Kawa
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(kawa
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(require 'pretty-print)
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(define (BITS-PER-WORD) 30)
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(define logical-or logior)
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(define (lalr-keyword? obj) (keyword? obj))
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(define (pprint obj) (pretty-print obj))
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(define (lalr-error msg obj) (error msg obj))
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(define (note-source-location lvalue tok) lvalue))
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;; -- SISC
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(sisc
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(import logicops)
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(import record)
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(define pprint pretty-print)
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(define lalr-keyword? symbol?)
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(define-macro BITS-PER-WORD (lambda () 32))
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(define-macro logical-or (lambda (x . y) `(logor ,x ,@y)))
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(define-macro (lalr-error msg obj) `(error "~a ~S:" ,msg ,obj))
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(define (note-source-location lvalue tok) lvalue))
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;; -- Gauche
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(gauche
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(use gauche.record)
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(define-macro (def-macro form . body)
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`(define-macro ,form (let () ,@body)))
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(define pprint (lambda (obj) (write obj) (newline)))
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(define lalr-keyword? symbol?)
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(def-macro (BITS-PER-WORD) 30)
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(def-macro (logical-or x . y) `(logior ,x . ,y))
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(def-macro (lalr-error msg obj) `(error "lalr-parser" ,msg ,obj))
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(define (note-source-location lvalue tok) lvalue))
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(else
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(error "Unsupported Scheme system")))
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(define-record-type lexical-token
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(make-lexical-token category source value)
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lexical-token?
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(category lexical-token-category)
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(source lexical-token-source)
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(value lexical-token-value))
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(define-record-type source-location
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(make-source-location input line column offset length)
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source-location?
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(input source-location-input)
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(line source-location-line)
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(column source-location-column)
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(offset source-location-offset)
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(length source-location-length))
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;; - Macros pour la gestion des vecteurs de bits
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(define-macro (lalr-parser . arguments)
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(define (set-bit v b)
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(let ((x (quotient b (BITS-PER-WORD)))
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(y (expt 2 (remainder b (BITS-PER-WORD)))))
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(vector-set! v x (logical-or (vector-ref v x) y))))
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(define (bit-union v1 v2 n)
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(do ((i 0 (+ i 1)))
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((= i n))
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(vector-set! v1 i (logical-or (vector-ref v1 i)
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(vector-ref v2 i)))))
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;; - Macro pour les structures de donnees
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(define (new-core) (make-vector 4 0))
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(define (set-core-number! c n) (vector-set! c 0 n))
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(define (set-core-acc-sym! c s) (vector-set! c 1 s))
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(define (set-core-nitems! c n) (vector-set! c 2 n))
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(define (set-core-items! c i) (vector-set! c 3 i))
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(define (core-number c) (vector-ref c 0))
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(define (core-acc-sym c) (vector-ref c 1))
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(define (core-nitems c) (vector-ref c 2))
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(define (core-items c) (vector-ref c 3))
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(define (new-shift) (make-vector 3 0))
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(define (set-shift-number! c x) (vector-set! c 0 x))
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(define (set-shift-nshifts! c x) (vector-set! c 1 x))
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(define (set-shift-shifts! c x) (vector-set! c 2 x))
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(define (shift-number s) (vector-ref s 0))
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(define (shift-nshifts s) (vector-ref s 1))
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(define (shift-shifts s) (vector-ref s 2))
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(define (new-red) (make-vector 3 0))
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(define (set-red-number! c x) (vector-set! c 0 x))
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(define (set-red-nreds! c x) (vector-set! c 1 x))
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(define (set-red-rules! c x) (vector-set! c 2 x))
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(define (red-number c) (vector-ref c 0))
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(define (red-nreds c) (vector-ref c 1))
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(define (red-rules c) (vector-ref c 2))
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(define (new-set nelem)
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(make-vector nelem 0))
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(define (vector-map f v)
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(let ((vm-n (- (vector-length v) 1)))
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(let loop ((vm-low 0) (vm-high vm-n))
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(if (= vm-low vm-high)
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(vector-set! v vm-low (f (vector-ref v vm-low) vm-low))
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(let ((vm-middle (quotient (+ vm-low vm-high) 2)))
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(loop vm-low vm-middle)
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(loop (+ vm-middle 1) vm-high))))))
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;; - Constantes
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(define STATE-TABLE-SIZE 1009)
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;; - Tableaux
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(define rrhs #f)
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(define rlhs #f)
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(define ritem #f)
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(define nullable #f)
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(define derives #f)
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(define fderives #f)
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(define firsts #f)
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(define kernel-base #f)
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(define kernel-end #f)
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(define shift-symbol #f)
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(define shift-set #f)
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(define red-set #f)
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(define state-table #f)
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(define acces-symbol #f)
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(define reduction-table #f)
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(define shift-table #f)
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(define consistent #f)
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(define lookaheads #f)
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(define LA #f)
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(define LAruleno #f)
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(define lookback #f)
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(define goto-map #f)
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(define from-state #f)
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(define to-state #f)
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(define includes #f)
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(define F #f)
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(define action-table #f)
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;; - Variables
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(define nitems #f)
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(define nrules #f)
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(define nvars #f)
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(define nterms #f)
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(define nsyms #f)
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(define nstates #f)
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(define first-state #f)
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(define last-state #f)
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(define final-state #f)
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(define first-shift #f)
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(define last-shift #f)
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(define first-reduction #f)
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(define last-reduction #f)
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(define nshifts #f)
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(define maxrhs #f)
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(define ngotos #f)
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(define token-set-size #f)
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(define driver-name 'lr-driver)
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(define (glr-driver?)
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(eq? driver-name 'glr-driver))
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(define (lr-driver?)
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(eq? driver-name 'lr-driver))
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(define (gen-tables! tokens gram )
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(initialize-all)
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(rewrite-grammar
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tokens
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gram
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(lambda (terms terms/prec vars gram gram/actions)
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(set! the-terminals/prec (list->vector terms/prec))
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(set! the-terminals (list->vector terms))
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(set! the-nonterminals (list->vector vars))
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(set! nterms (length terms))
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(set! nvars (length vars))
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(set! nsyms (+ nterms nvars))
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(let ((no-of-rules (length gram/actions))
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(no-of-items (let loop ((l gram/actions) (count 0))
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(if (null? l)
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count
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(loop (cdr l) (+ count (length (caar l))))))))
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(pack-grammar no-of-rules no-of-items gram)
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(set-derives)
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(set-nullable)
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(generate-states)
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(lalr)
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(build-tables)
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(compact-action-table terms)
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gram/actions))))
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(define (initialize-all)
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(set! rrhs #f)
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(set! rlhs #f)
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(set! ritem #f)
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(set! nullable #f)
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(set! derives #f)
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(set! fderives #f)
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(set! firsts #f)
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(set! kernel-base #f)
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(set! kernel-end #f)
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(set! shift-symbol #f)
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(set! shift-set #f)
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(set! red-set #f)
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(set! state-table (make-vector STATE-TABLE-SIZE '()))
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(set! acces-symbol #f)
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(set! reduction-table #f)
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(set! shift-table #f)
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(set! consistent #f)
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(set! lookaheads #f)
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(set! LA #f)
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(set! LAruleno #f)
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(set! lookback #f)
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(set! goto-map #f)
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(set! from-state #f)
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(set! to-state #f)
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(set! includes #f)
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(set! F #f)
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(set! action-table #f)
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(set! nstates #f)
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(set! first-state #f)
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(set! last-state #f)
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(set! final-state #f)
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(set! first-shift #f)
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(set! last-shift #f)
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(set! first-reduction #f)
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(set! last-reduction #f)
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(set! nshifts #f)
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(set! maxrhs #f)
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(set! ngotos #f)
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(set! token-set-size #f)
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(set! rule-precedences '()))
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(define (pack-grammar no-of-rules no-of-items gram)
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(set! nrules (+ no-of-rules 1))
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(set! nitems no-of-items)
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(set! rlhs (make-vector nrules #f))
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(set! rrhs (make-vector nrules #f))
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(set! ritem (make-vector (+ 1 nitems) #f))
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(let loop ((p gram) (item-no 0) (rule-no 1))
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(if (not (null? p))
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(let ((nt (caar p)))
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(let loop2 ((prods (cdar p)) (it-no2 item-no) (rl-no2 rule-no))
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(if (null? prods)
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(loop (cdr p) it-no2 rl-no2)
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(begin
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(vector-set! rlhs rl-no2 nt)
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(vector-set! rrhs rl-no2 it-no2)
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(let loop3 ((rhs (car prods)) (it-no3 it-no2))
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(if (null? rhs)
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(begin
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(vector-set! ritem it-no3 (- rl-no2))
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(loop2 (cdr prods) (+ it-no3 1) (+ rl-no2 1)))
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(begin
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(vector-set! ritem it-no3 (car rhs))
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(loop3 (cdr rhs) (+ it-no3 1))))))))))))
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(define (set-derives)
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(define delts (make-vector (+ nrules 1) 0))
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(define dset (make-vector nvars -1))
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(let loop ((i 1) (j 0)) ; i = 0
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(if (< i nrules)
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(let ((lhs (vector-ref rlhs i)))
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(if (>= lhs 0)
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(begin
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(vector-set! delts j (cons i (vector-ref dset lhs)))
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(vector-set! dset lhs j)
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(loop (+ i 1) (+ j 1)))
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(loop (+ i 1) j)))))
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(set! derives (make-vector nvars 0))
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(let loop ((i 0))
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(if (< i nvars)
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(let ((q (let loop2 ((j (vector-ref dset i)) (s '()))
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(if (< j 0)
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s
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(let ((x (vector-ref delts j)))
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(loop2 (cdr x) (cons (car x) s)))))))
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(vector-set! derives i q)
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(loop (+ i 1))))))
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(define (set-nullable)
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(set! nullable (make-vector nvars #f))
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(let ((squeue (make-vector nvars #f))
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(rcount (make-vector (+ nrules 1) 0))
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(rsets (make-vector nvars #f))
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(relts (make-vector (+ nitems nvars 1) #f)))
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(let loop ((r 0) (s2 0) (p 0))
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(let ((*r (vector-ref ritem r)))
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(if *r
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(if (< *r 0)
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(let ((symbol (vector-ref rlhs (- *r))))
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(if (and (>= symbol 0)
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(not (vector-ref nullable symbol)))
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(begin
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(vector-set! nullable symbol #t)
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(vector-set! squeue s2 symbol)
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(loop (+ r 1) (+ s2 1) p))))
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(let loop2 ((r1 r) (any-tokens #f))
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(let* ((symbol (vector-ref ritem r1)))
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(if (> symbol 0)
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(loop2 (+ r1 1) (or any-tokens (>= symbol nvars)))
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(if (not any-tokens)
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(let ((ruleno (- symbol)))
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(let loop3 ((r2 r) (p2 p))
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(let ((symbol (vector-ref ritem r2)))
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(if (> symbol 0)
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(begin
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(vector-set! rcount ruleno
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(+ (vector-ref rcount ruleno) 1))
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(vector-set! relts p2
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(cons (vector-ref rsets symbol)
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ruleno))
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(vector-set! rsets symbol p2)
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(loop3 (+ r2 1) (+ p2 1)))
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(loop (+ r2 1) s2 p2)))))
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(loop (+ r1 1) s2 p))))))
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(let loop ((s1 0) (s3 s2))
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(if (< s1 s3)
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(let loop2 ((p (vector-ref rsets (vector-ref squeue s1))) (s4 s3))
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(if p
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(let* ((x (vector-ref relts p))
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(ruleno (cdr x))
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(y (- (vector-ref rcount ruleno) 1)))
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(vector-set! rcount ruleno y)
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(if (= y 0)
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(let ((symbol (vector-ref rlhs ruleno)))
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(if (and (>= symbol 0)
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(not (vector-ref nullable symbol)))
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(begin
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(vector-set! nullable symbol #t)
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(vector-set! squeue s4 symbol)
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(loop2 (car x) (+ s4 1)))
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(loop2 (car x) s4)))
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(loop2 (car x) s4))))
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(loop (+ s1 1) s4)))))))))
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(define (set-firsts)
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(set! firsts (make-vector nvars '()))
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;; -- initialization
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(let loop ((i 0))
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(if (< i nvars)
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(let loop2 ((sp (vector-ref derives i)))
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(if (null? sp)
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(loop (+ i 1))
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(let ((sym (vector-ref ritem (vector-ref rrhs (car sp)))))
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(if (< -1 sym nvars)
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(vector-set! firsts i (sinsert sym (vector-ref firsts i))))
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|
(loop2 (cdr sp)))))))
|
|
|
|
;; -- reflexive and transitive closure
|
|
(let loop ((continue #t))
|
|
(if continue
|
|
(let loop2 ((i 0) (cont #f))
|
|
(if (>= i nvars)
|
|
(loop cont)
|
|
(let* ((x (vector-ref firsts i))
|
|
(y (let loop3 ((l x) (z x))
|
|
(if (null? l)
|
|
z
|
|
(loop3 (cdr l)
|
|
(sunion (vector-ref firsts (car l)) z))))))
|
|
(if (equal? x y)
|
|
(loop2 (+ i 1) cont)
|
|
(begin
|
|
(vector-set! firsts i y)
|
|
(loop2 (+ i 1) #t))))))))
|
|
|
|
(let loop ((i 0))
|
|
(if (< i nvars)
|
|
(begin
|
|
(vector-set! firsts i (sinsert i (vector-ref firsts i)))
|
|
(loop (+ i 1))))))
|
|
|
|
|
|
|
|
|
|
(define (set-fderives)
|
|
(set! fderives (make-vector nvars #f))
|
|
|
|
(set-firsts)
|
|
|
|
(let loop ((i 0))
|
|
(if (< i nvars)
|
|
(let ((x (let loop2 ((l (vector-ref firsts i)) (fd '()))
|
|
(if (null? l)
|
|
fd
|
|
(loop2 (cdr l)
|
|
(sunion (vector-ref derives (car l)) fd))))))
|
|
(vector-set! fderives i x)
|
|
(loop (+ i 1))))))
|
|
|
|
|
|
(define (closure core)
|
|
;; Initialization
|
|
(define ruleset (make-vector nrules #f))
|
|
|
|
(let loop ((csp core))
|
|
(if (not (null? csp))
|
|
(let ((sym (vector-ref ritem (car csp))))
|
|
(if (< -1 sym nvars)
|
|
(let loop2 ((dsp (vector-ref fderives sym)))
|
|
(if (not (null? dsp))
|
|
(begin
|
|
(vector-set! ruleset (car dsp) #t)
|
|
(loop2 (cdr dsp))))))
|
|
(loop (cdr csp)))))
|
|
|
|
(let loop ((ruleno 1) (csp core) (itemsetv '())) ; ruleno = 0
|
|
(if (< ruleno nrules)
|
|
(if (vector-ref ruleset ruleno)
|
|
(let ((itemno (vector-ref rrhs ruleno)))
|
|
(let loop2 ((c csp) (itemsetv2 itemsetv))
|
|
(if (and (pair? c)
|
|
(< (car c) itemno))
|
|
(loop2 (cdr c) (cons (car c) itemsetv2))
|
|
(loop (+ ruleno 1) c (cons itemno itemsetv2)))))
|
|
(loop (+ ruleno 1) csp itemsetv))
|
|
(let loop2 ((c csp) (itemsetv2 itemsetv))
|
|
(if (pair? c)
|
|
(loop2 (cdr c) (cons (car c) itemsetv2))
|
|
(reverse itemsetv2))))))
|
|
|
|
|
|
|
|
(define (allocate-item-sets)
|
|
(set! kernel-base (make-vector nsyms 0))
|
|
(set! kernel-end (make-vector nsyms #f)))
|
|
|
|
|
|
(define (allocate-storage)
|
|
(allocate-item-sets)
|
|
(set! red-set (make-vector (+ nrules 1) 0)))
|
|
|
|
; --
|
|
|
|
|
|
(define (initialize-states)
|
|
(let ((p (new-core)))
|
|
(set-core-number! p 0)
|
|
(set-core-acc-sym! p #f)
|
|
(set-core-nitems! p 1)
|
|
(set-core-items! p '(0))
|
|
|
|
(set! first-state (list p))
|
|
(set! last-state first-state)
|
|
(set! nstates 1)))
|
|
|
|
|
|
|
|
(define (generate-states)
|
|
(allocate-storage)
|
|
(set-fderives)
|
|
(initialize-states)
|
|
(let loop ((this-state first-state))
|
|
(if (pair? this-state)
|
|
(let* ((x (car this-state))
|
|
(is (closure (core-items x))))
|
|
(save-reductions x is)
|
|
(new-itemsets is)
|
|
(append-states)
|
|
(if (> nshifts 0)
|
|
(save-shifts x))
|
|
(loop (cdr this-state))))))
|
|
|
|
|
|
(define (new-itemsets itemset)
|
|
;; - Initialization
|
|
(set! shift-symbol '())
|
|
(let loop ((i 0))
|
|
(if (< i nsyms)
|
|
(begin
|
|
(vector-set! kernel-end i '())
|
|
(loop (+ i 1)))))
|
|
|
|
(let loop ((isp itemset))
|
|
(if (pair? isp)
|
|
(let* ((i (car isp))
|
|
(sym (vector-ref ritem i)))
|
|
(if (>= sym 0)
|
|
(begin
|
|
(set! shift-symbol (sinsert sym shift-symbol))
|
|
(let ((x (vector-ref kernel-end sym)))
|
|
(if (null? x)
|
|
(begin
|
|
(vector-set! kernel-base sym (cons (+ i 1) x))
|
|
(vector-set! kernel-end sym (vector-ref kernel-base sym)))
|
|
(begin
|
|
(set-cdr! x (list (+ i 1)))
|
|
(vector-set! kernel-end sym (cdr x)))))))
|
|
(loop (cdr isp)))))
|
|
|
|
(set! nshifts (length shift-symbol)))
|
|
|
|
|
|
|
|
(define (get-state sym)
|
|
(let* ((isp (vector-ref kernel-base sym))
|
|
(n (length isp))
|
|
(key (let loop ((isp1 isp) (k 0))
|
|
(if (null? isp1)
|
|
(modulo k STATE-TABLE-SIZE)
|
|
(loop (cdr isp1) (+ k (car isp1))))))
|
|
(sp (vector-ref state-table key)))
|
|
(if (null? sp)
|
|
(let ((x (new-state sym)))
|
|
(vector-set! state-table key (list x))
|
|
(core-number x))
|
|
(let loop ((sp1 sp))
|
|
(if (and (= n (core-nitems (car sp1)))
|
|
(let loop2 ((i1 isp) (t (core-items (car sp1))))
|
|
(if (and (pair? i1)
|
|
(= (car i1)
|
|
(car t)))
|
|
(loop2 (cdr i1) (cdr t))
|
|
(null? i1))))
|
|
(core-number (car sp1))
|
|
(if (null? (cdr sp1))
|
|
(let ((x (new-state sym)))
|
|
(set-cdr! sp1 (list x))
|
|
(core-number x))
|
|
(loop (cdr sp1))))))))
|
|
|
|
|
|
(define (new-state sym)
|
|
(let* ((isp (vector-ref kernel-base sym))
|
|
(n (length isp))
|
|
(p (new-core)))
|
|
(set-core-number! p nstates)
|
|
(set-core-acc-sym! p sym)
|
|
(if (= sym nvars) (set! final-state nstates))
|
|
(set-core-nitems! p n)
|
|
(set-core-items! p isp)
|
|
(set-cdr! last-state (list p))
|
|
(set! last-state (cdr last-state))
|
|
(set! nstates (+ nstates 1))
|
|
p))
|
|
|
|
|
|
; --
|
|
|
|
(define (append-states)
|
|
(set! shift-set
|
|
(let loop ((l (reverse shift-symbol)))
|
|
(if (null? l)
|
|
'()
|
|
(cons (get-state (car l)) (loop (cdr l)))))))
|
|
|
|
; --
|
|
|
|
(define (save-shifts core)
|
|
(let ((p (new-shift)))
|
|
(set-shift-number! p (core-number core))
|
|
(set-shift-nshifts! p nshifts)
|
|
(set-shift-shifts! p shift-set)
|
|
(if last-shift
|
|
(begin
|
|
(set-cdr! last-shift (list p))
|
|
(set! last-shift (cdr last-shift)))
|
|
(begin
|
|
(set! first-shift (list p))
|
|
(set! last-shift first-shift)))))
|
|
|
|
(define (save-reductions core itemset)
|
|
(let ((rs (let loop ((l itemset))
|
|
(if (null? l)
|
|
'()
|
|
(let ((item (vector-ref ritem (car l))))
|
|
(if (< item 0)
|
|
(cons (- item) (loop (cdr l)))
|
|
(loop (cdr l))))))))
|
|
(if (pair? rs)
|
|
(let ((p (new-red)))
|
|
(set-red-number! p (core-number core))
|
|
(set-red-nreds! p (length rs))
|
|
(set-red-rules! p rs)
|
|
(if last-reduction
|
|
(begin
|
|
(set-cdr! last-reduction (list p))
|
|
(set! last-reduction (cdr last-reduction)))
|
|
(begin
|
|
(set! first-reduction (list p))
|
|
(set! last-reduction first-reduction)))))))
|
|
|
|
|
|
; --
|
|
|
|
(define (lalr)
|
|
(set! token-set-size (+ 1 (quotient nterms (BITS-PER-WORD))))
|
|
(set-accessing-symbol)
|
|
(set-shift-table)
|
|
(set-reduction-table)
|
|
(set-max-rhs)
|
|
(initialize-LA)
|
|
(set-goto-map)
|
|
(initialize-F)
|
|
(build-relations)
|
|
(digraph includes)
|
|
(compute-lookaheads))
|
|
|
|
(define (set-accessing-symbol)
|
|
(set! acces-symbol (make-vector nstates #f))
|
|
(let loop ((l first-state))
|
|
(if (pair? l)
|
|
(let ((x (car l)))
|
|
(vector-set! acces-symbol (core-number x) (core-acc-sym x))
|
|
(loop (cdr l))))))
|
|
|
|
(define (set-shift-table)
|
|
(set! shift-table (make-vector nstates #f))
|
|
(let loop ((l first-shift))
|
|
(if (pair? l)
|
|
(let ((x (car l)))
|
|
(vector-set! shift-table (shift-number x) x)
|
|
(loop (cdr l))))))
|
|
|
|
(define (set-reduction-table)
|
|
(set! reduction-table (make-vector nstates #f))
|
|
(let loop ((l first-reduction))
|
|
(if (pair? l)
|
|
(let ((x (car l)))
|
|
(vector-set! reduction-table (red-number x) x)
|
|
(loop (cdr l))))))
|
|
|
|
(define (set-max-rhs)
|
|
(let loop ((p 0) (curmax 0) (length 0))
|
|
(let ((x (vector-ref ritem p)))
|
|
(if x
|
|
(if (>= x 0)
|
|
(loop (+ p 1) curmax (+ length 1))
|
|
(loop (+ p 1) (max curmax length) 0))
|
|
(set! maxrhs curmax)))))
|
|
|
|
(define (initialize-LA)
|
|
(define (last l)
|
|
(if (null? (cdr l))
|
|
(car l)
|
|
(last (cdr l))))
|
|
|
|
(set! consistent (make-vector nstates #f))
|
|
(set! lookaheads (make-vector (+ nstates 1) #f))
|
|
|
|
(let loop ((count 0) (i 0))
|
|
(if (< i nstates)
|
|
(begin
|
|
(vector-set! lookaheads i count)
|
|
(let ((rp (vector-ref reduction-table i))
|
|
(sp (vector-ref shift-table i)))
|
|
(if (and rp
|
|
(or (> (red-nreds rp) 1)
|
|
(and sp
|
|
(not
|
|
(< (vector-ref acces-symbol
|
|
(last (shift-shifts sp)))
|
|
nvars)))))
|
|
(loop (+ count (red-nreds rp)) (+ i 1))
|
|
(begin
|
|
(vector-set! consistent i #t)
|
|
(loop count (+ i 1))))))
|
|
|
|
(begin
|
|
(vector-set! lookaheads nstates count)
|
|
(let ((c (max count 1)))
|
|
(set! LA (make-vector c #f))
|
|
(do ((j 0 (+ j 1))) ((= j c)) (vector-set! LA j (new-set token-set-size)))
|
|
(set! LAruleno (make-vector c -1))
|
|
(set! lookback (make-vector c #f)))
|
|
(let loop ((i 0) (np 0))
|
|
(if (< i nstates)
|
|
(if (vector-ref consistent i)
|
|
(loop (+ i 1) np)
|
|
(let ((rp (vector-ref reduction-table i)))
|
|
(if rp
|
|
(let loop2 ((j (red-rules rp)) (np2 np))
|
|
(if (null? j)
|
|
(loop (+ i 1) np2)
|
|
(begin
|
|
(vector-set! LAruleno np2 (car j))
|
|
(loop2 (cdr j) (+ np2 1)))))
|
|
(loop (+ i 1) np))))))))))
|
|
|
|
|
|
(define (set-goto-map)
|
|
(set! goto-map (make-vector (+ nvars 1) 0))
|
|
(let ((temp-map (make-vector (+ nvars 1) 0)))
|
|
(let loop ((ng 0) (sp first-shift))
|
|
(if (pair? sp)
|
|
(let loop2 ((i (reverse (shift-shifts (car sp)))) (ng2 ng))
|
|
(if (pair? i)
|
|
(let ((symbol (vector-ref acces-symbol (car i))))
|
|
(if (< symbol nvars)
|
|
(begin
|
|
(vector-set! goto-map symbol
|
|
(+ 1 (vector-ref goto-map symbol)))
|
|
(loop2 (cdr i) (+ ng2 1)))
|
|
(loop2 (cdr i) ng2)))
|
|
(loop ng2 (cdr sp))))
|
|
|
|
(let loop ((k 0) (i 0))
|
|
(if (< i nvars)
|
|
(begin
|
|
(vector-set! temp-map i k)
|
|
(loop (+ k (vector-ref goto-map i)) (+ i 1)))
|
|
|
|
(begin
|
|
(do ((i 0 (+ i 1)))
|
|
((>= i nvars))
|
|
(vector-set! goto-map i (vector-ref temp-map i)))
|
|
|
|
(set! ngotos ng)
|
|
(vector-set! goto-map nvars ngotos)
|
|
(vector-set! temp-map nvars ngotos)
|
|
(set! from-state (make-vector ngotos #f))
|
|
(set! to-state (make-vector ngotos #f))
|
|
|
|
(do ((sp first-shift (cdr sp)))
|
|
((null? sp))
|
|
(let* ((x (car sp))
|
|
(state1 (shift-number x)))
|
|
(do ((i (shift-shifts x) (cdr i)))
|
|
((null? i))
|
|
(let* ((state2 (car i))
|
|
(symbol (vector-ref acces-symbol state2)))
|
|
(if (< symbol nvars)
|
|
(let ((k (vector-ref temp-map symbol)))
|
|
(vector-set! temp-map symbol (+ k 1))
|
|
(vector-set! from-state k state1)
|
|
(vector-set! to-state k state2))))))))))))))
|
|
|
|
|
|
(define (map-goto state symbol)
|
|
(let loop ((low (vector-ref goto-map symbol))
|
|
(high (- (vector-ref goto-map (+ symbol 1)) 1)))
|
|
(if (> low high)
|
|
(begin
|
|
(display (list "Error in map-goto" state symbol)) (newline)
|
|
0)
|
|
(let* ((middle (quotient (+ low high) 2))
|
|
(s (vector-ref from-state middle)))
|
|
(cond
|
|
((= s state)
|
|
middle)
|
|
((< s state)
|
|
(loop (+ middle 1) high))
|
|
(else
|
|
(loop low (- middle 1))))))))
|
|
|
|
|
|
(define (initialize-F)
|
|
(set! F (make-vector ngotos #f))
|
|
(do ((i 0 (+ i 1))) ((= i ngotos)) (vector-set! F i (new-set token-set-size)))
|
|
|
|
(let ((reads (make-vector ngotos #f)))
|
|
|
|
(let loop ((i 0) (rowp 0))
|
|
(if (< i ngotos)
|
|
(let* ((rowf (vector-ref F rowp))
|
|
(stateno (vector-ref to-state i))
|
|
(sp (vector-ref shift-table stateno)))
|
|
(if sp
|
|
(let loop2 ((j (shift-shifts sp)) (edges '()))
|
|
(if (pair? j)
|
|
(let ((symbol (vector-ref acces-symbol (car j))))
|
|
(if (< symbol nvars)
|
|
(if (vector-ref nullable symbol)
|
|
(loop2 (cdr j) (cons (map-goto stateno symbol)
|
|
edges))
|
|
(loop2 (cdr j) edges))
|
|
(begin
|
|
(set-bit rowf (- symbol nvars))
|
|
(loop2 (cdr j) edges))))
|
|
(if (pair? edges)
|
|
(vector-set! reads i (reverse edges))))))
|
|
(loop (+ i 1) (+ rowp 1)))))
|
|
(digraph reads)))
|
|
|
|
(define (add-lookback-edge stateno ruleno gotono)
|
|
(let ((k (vector-ref lookaheads (+ stateno 1))))
|
|
(let loop ((found #f) (i (vector-ref lookaheads stateno)))
|
|
(if (and (not found) (< i k))
|
|
(if (= (vector-ref LAruleno i) ruleno)
|
|
(loop #t i)
|
|
(loop found (+ i 1)))
|
|
|
|
(if (not found)
|
|
(begin (display "Error in add-lookback-edge : ")
|
|
(display (list stateno ruleno gotono)) (newline))
|
|
(vector-set! lookback i
|
|
(cons gotono (vector-ref lookback i))))))))
|
|
|
|
|
|
(define (transpose r-arg n)
|
|
(let ((new-end (make-vector n #f))
|
|
(new-R (make-vector n #f)))
|
|
(do ((i 0 (+ i 1)))
|
|
((= i n))
|
|
(let ((x (list 'bidon)))
|
|
(vector-set! new-R i x)
|
|
(vector-set! new-end i x)))
|
|
(do ((i 0 (+ i 1)))
|
|
((= i n))
|
|
(let ((sp (vector-ref r-arg i)))
|
|
(if (pair? sp)
|
|
(let loop ((sp2 sp))
|
|
(if (pair? sp2)
|
|
(let* ((x (car sp2))
|
|
(y (vector-ref new-end x)))
|
|
(set-cdr! y (cons i (cdr y)))
|
|
(vector-set! new-end x (cdr y))
|
|
(loop (cdr sp2))))))))
|
|
(do ((i 0 (+ i 1)))
|
|
((= i n))
|
|
(vector-set! new-R i (cdr (vector-ref new-R i))))
|
|
|
|
new-R))
|
|
|
|
|
|
|
|
(define (build-relations)
|
|
|
|
(define (get-state stateno symbol)
|
|
(let loop ((j (shift-shifts (vector-ref shift-table stateno)))
|
|
(stno stateno))
|
|
(if (null? j)
|
|
stno
|
|
(let ((st2 (car j)))
|
|
(if (= (vector-ref acces-symbol st2) symbol)
|
|
st2
|
|
(loop (cdr j) st2))))))
|
|
|
|
(set! includes (make-vector ngotos #f))
|
|
(do ((i 0 (+ i 1)))
|
|
((= i ngotos))
|
|
(let ((state1 (vector-ref from-state i))
|
|
(symbol1 (vector-ref acces-symbol (vector-ref to-state i))))
|
|
(let loop ((rulep (vector-ref derives symbol1))
|
|
(edges '()))
|
|
(if (pair? rulep)
|
|
(let ((*rulep (car rulep)))
|
|
(let loop2 ((rp (vector-ref rrhs *rulep))
|
|
(stateno state1)
|
|
(states (list state1)))
|
|
(let ((*rp (vector-ref ritem rp)))
|
|
(if (> *rp 0)
|
|
(let ((st (get-state stateno *rp)))
|
|
(loop2 (+ rp 1) st (cons st states)))
|
|
(begin
|
|
|
|
(if (not (vector-ref consistent stateno))
|
|
(add-lookback-edge stateno *rulep i))
|
|
|
|
(let loop2 ((done #f)
|
|
(stp (cdr states))
|
|
(rp2 (- rp 1))
|
|
(edgp edges))
|
|
(if (not done)
|
|
(let ((*rp (vector-ref ritem rp2)))
|
|
(if (< -1 *rp nvars)
|
|
(loop2 (not (vector-ref nullable *rp))
|
|
(cdr stp)
|
|
(- rp2 1)
|
|
(cons (map-goto (car stp) *rp) edgp))
|
|
(loop2 #t stp rp2 edgp)))
|
|
|
|
(loop (cdr rulep) edgp))))))))
|
|
(vector-set! includes i edges)))))
|
|
(set! includes (transpose includes ngotos)))
|
|
|
|
|
|
|
|
(define (compute-lookaheads)
|
|
(let ((n (vector-ref lookaheads nstates)))
|
|
(let loop ((i 0))
|
|
(if (< i n)
|
|
(let loop2 ((sp (vector-ref lookback i)))
|
|
(if (pair? sp)
|
|
(let ((LA-i (vector-ref LA i))
|
|
(F-j (vector-ref F (car sp))))
|
|
(bit-union LA-i F-j token-set-size)
|
|
(loop2 (cdr sp)))
|
|
(loop (+ i 1))))))))
|
|
|
|
|
|
|
|
(define (digraph relation)
|
|
(define infinity (+ ngotos 2))
|
|
(define INDEX (make-vector (+ ngotos 1) 0))
|
|
(define VERTICES (make-vector (+ ngotos 1) 0))
|
|
(define top 0)
|
|
(define R relation)
|
|
|
|
(define (traverse i)
|
|
(set! top (+ 1 top))
|
|
(vector-set! VERTICES top i)
|
|
(let ((height top))
|
|
(vector-set! INDEX i height)
|
|
(let ((rp (vector-ref R i)))
|
|
(if (pair? rp)
|
|
(let loop ((rp2 rp))
|
|
(if (pair? rp2)
|
|
(let ((j (car rp2)))
|
|
(if (= 0 (vector-ref INDEX j))
|
|
(traverse j))
|
|
(if (> (vector-ref INDEX i)
|
|
(vector-ref INDEX j))
|
|
(vector-set! INDEX i (vector-ref INDEX j)))
|
|
(let ((F-i (vector-ref F i))
|
|
(F-j (vector-ref F j)))
|
|
(bit-union F-i F-j token-set-size))
|
|
(loop (cdr rp2))))))
|
|
(if (= (vector-ref INDEX i) height)
|
|
(let loop ()
|
|
(let ((j (vector-ref VERTICES top)))
|
|
(set! top (- top 1))
|
|
(vector-set! INDEX j infinity)
|
|
(if (not (= i j))
|
|
(begin
|
|
(bit-union (vector-ref F i)
|
|
(vector-ref F j)
|
|
token-set-size)
|
|
(loop)))))))))
|
|
|
|
(let loop ((i 0))
|
|
(if (< i ngotos)
|
|
(begin
|
|
(if (and (= 0 (vector-ref INDEX i))
|
|
(pair? (vector-ref R i)))
|
|
(traverse i))
|
|
(loop (+ i 1))))))
|
|
|
|
|
|
;; ----------------------------------------------------------------------
|
|
;; operator precedence management
|
|
;; ----------------------------------------------------------------------
|
|
|
|
;; a vector of precedence descriptors where each element
|
|
;; is of the form (terminal type precedence)
|
|
(define the-terminals/prec #f) ; terminal symbols with precedence
|
|
; the precedence is an integer >= 0
|
|
(define (get-symbol-precedence sym)
|
|
(caddr (vector-ref the-terminals/prec sym)))
|
|
; the operator type is either 'none, 'left, 'right, or 'nonassoc
|
|
(define (get-symbol-assoc sym)
|
|
(cadr (vector-ref the-terminals/prec sym)))
|
|
|
|
(define rule-precedences '())
|
|
(define (add-rule-precedence! rule sym)
|
|
(set! rule-precedences
|
|
(cons (cons rule sym) rule-precedences)))
|
|
|
|
(define (get-rule-precedence ruleno)
|
|
(cond
|
|
((assq ruleno rule-precedences)
|
|
=> (lambda (p)
|
|
(get-symbol-precedence (cdr p))))
|
|
(else
|
|
;; process the rule symbols from left to right
|
|
(let loop ((i (vector-ref rrhs ruleno))
|
|
(prec 0))
|
|
(let ((item (vector-ref ritem i)))
|
|
;; end of rule
|
|
(if (< item 0)
|
|
prec
|
|
(let ((i1 (+ i 1)))
|
|
(if (>= item nvars)
|
|
;; it's a terminal symbol
|
|
(loop i1 (get-symbol-precedence (- item nvars)))
|
|
(loop i1 prec)))))))))
|
|
|
|
;; ----------------------------------------------------------------------
|
|
;; Build the various tables
|
|
;; ----------------------------------------------------------------------
|
|
|
|
(define expected-conflicts 0)
|
|
|
|
(define (build-tables)
|
|
|
|
(define (resolve-conflict sym rule)
|
|
(let ((sym-prec (get-symbol-precedence sym))
|
|
(sym-assoc (get-symbol-assoc sym))
|
|
(rule-prec (get-rule-precedence rule)))
|
|
(cond
|
|
((> sym-prec rule-prec) 'shift)
|
|
((< sym-prec rule-prec) 'reduce)
|
|
((eq? sym-assoc 'left) 'reduce)
|
|
((eq? sym-assoc 'right) 'shift)
|
|
(else 'none))))
|
|
|
|
(define conflict-messages '())
|
|
|
|
(define (add-conflict-message . l)
|
|
(set! conflict-messages (cons l conflict-messages)))
|
|
|
|
(define (log-conflicts)
|
|
(if (> (length conflict-messages) expected-conflicts)
|
|
(for-each
|
|
(lambda (message)
|
|
(for-each display message)
|
|
(newline))
|
|
conflict-messages)))
|
|
|
|
;; --- Add an action to the action table
|
|
(define (add-action state symbol new-action)
|
|
(let* ((state-actions (vector-ref action-table state))
|
|
(actions (assv symbol state-actions)))
|
|
(if (pair? actions)
|
|
(let ((current-action (cadr actions)))
|
|
(if (not (= new-action current-action))
|
|
;; -- there is a conflict
|
|
(begin
|
|
(if (and (<= current-action 0) (<= new-action 0))
|
|
;; --- reduce/reduce conflict
|
|
(begin
|
|
(add-conflict-message
|
|
"%% Reduce/Reduce conflict (reduce " (- new-action) ", reduce " (- current-action)
|
|
") on '" (get-symbol (+ symbol nvars)) "' in state " state)
|
|
(if (glr-driver?)
|
|
(set-cdr! (cdr actions) (cons new-action (cddr actions)))
|
|
(set-car! (cdr actions) (max current-action new-action))))
|
|
;; --- shift/reduce conflict
|
|
;; can we resolve the conflict using precedences?
|
|
(case (resolve-conflict symbol (- current-action))
|
|
;; -- shift
|
|
((shift) (if (glr-driver?)
|
|
(set-cdr! (cdr actions) (cons new-action (cddr actions)))
|
|
(set-car! (cdr actions) new-action)))
|
|
;; -- reduce
|
|
((reduce) #f) ; well, nothing to do...
|
|
;; -- signal a conflict!
|
|
(else (add-conflict-message
|
|
"%% Shift/Reduce conflict (shift " new-action ", reduce " (- current-action)
|
|
") on '" (get-symbol (+ symbol nvars)) "' in state " state)
|
|
(if (glr-driver?)
|
|
(set-cdr! (cdr actions) (cons new-action (cddr actions)))
|
|
(set-car! (cdr actions) new-action))))))))
|
|
|
|
(vector-set! action-table state (cons (list symbol new-action) state-actions)))
|
|
))
|
|
|
|
(define (add-action-for-all-terminals state action)
|
|
(do ((i 1 (+ i 1)))
|
|
((= i nterms))
|
|
(add-action state i action)))
|
|
|
|
(set! action-table (make-vector nstates '()))
|
|
|
|
(do ((i 0 (+ i 1))) ; i = state
|
|
((= i nstates))
|
|
(let ((red (vector-ref reduction-table i)))
|
|
(if (and red (>= (red-nreds red) 1))
|
|
(if (and (= (red-nreds red) 1) (vector-ref consistent i))
|
|
(if (glr-driver?)
|
|
(add-action-for-all-terminals i (- (car (red-rules red))))
|
|
(add-action i 'default (- (car (red-rules red)))))
|
|
(let ((k (vector-ref lookaheads (+ i 1))))
|
|
(let loop ((j (vector-ref lookaheads i)))
|
|
(if (< j k)
|
|
(let ((rule (- (vector-ref LAruleno j)))
|
|
(lav (vector-ref LA j)))
|
|
(let loop2 ((token 0) (x (vector-ref lav 0)) (y 1) (z 0))
|
|
(if (< token nterms)
|
|
(begin
|
|
(let ((in-la-set? (modulo x 2)))
|
|
(if (= in-la-set? 1)
|
|
(add-action i token rule)))
|
|
(if (= y (BITS-PER-WORD))
|
|
(loop2 (+ token 1)
|
|
(vector-ref lav (+ z 1))
|
|
1
|
|
(+ z 1))
|
|
(loop2 (+ token 1) (quotient x 2) (+ y 1) z)))))
|
|
(loop (+ j 1)))))))))
|
|
|
|
(let ((shiftp (vector-ref shift-table i)))
|
|
(if shiftp
|
|
(let loop ((k (shift-shifts shiftp)))
|
|
(if (pair? k)
|
|
(let* ((state (car k))
|
|
(symbol (vector-ref acces-symbol state)))
|
|
(if (>= symbol nvars)
|
|
(add-action i (- symbol nvars) state))
|
|
(loop (cdr k))))))))
|
|
|
|
(add-action final-state 0 'accept)
|
|
(log-conflicts))
|
|
|
|
(define (compact-action-table terms)
|
|
(define (most-common-action acts)
|
|
(let ((accums '()))
|
|
(let loop ((l acts))
|
|
(if (pair? l)
|
|
(let* ((x (cadar l))
|
|
(y (assv x accums)))
|
|
(if (and (number? x) (< x 0))
|
|
(if y
|
|
(set-cdr! y (+ 1 (cdr y)))
|
|
(set! accums (cons `(,x . 1) accums))))
|
|
(loop (cdr l)))))
|
|
|
|
(let loop ((l accums) (max 0) (sym #f))
|
|
(if (null? l)
|
|
sym
|
|
(let ((x (car l)))
|
|
(if (> (cdr x) max)
|
|
(loop (cdr l) (cdr x) (car x))
|
|
(loop (cdr l) max sym)))))))
|
|
|
|
(define (translate-terms acts)
|
|
(map (lambda (act)
|
|
(cons (list-ref terms (car act))
|
|
(cdr act)))
|
|
acts))
|
|
|
|
(do ((i 0 (+ i 1)))
|
|
((= i nstates))
|
|
(let ((acts (vector-ref action-table i)))
|
|
(if (vector? (vector-ref reduction-table i))
|
|
(let ((act (most-common-action acts)))
|
|
(vector-set! action-table i
|
|
(cons `(*default* ,(if act act '*error*))
|
|
(translate-terms
|
|
(lalr-filter (lambda (x)
|
|
(not (and (= (length x) 2)
|
|
(eq? (cadr x) act))))
|
|
acts)))))
|
|
(vector-set! action-table i
|
|
(cons `(*default* *error*)
|
|
(translate-terms acts)))))))
|
|
|
|
|
|
|
|
;; --
|
|
|
|
(define (rewrite-grammar tokens grammar k)
|
|
|
|
(define eoi '*eoi*)
|
|
|
|
(define (check-terminal term terms)
|
|
(cond
|
|
((not (valid-terminal? term))
|
|
(lalr-error "invalid terminal: " term))
|
|
((member term terms)
|
|
(lalr-error "duplicate definition of terminal: " term))))
|
|
|
|
(define (prec->type prec)
|
|
(cdr (assq prec '((left: . left)
|
|
(right: . right)
|
|
(nonassoc: . nonassoc)))))
|
|
|
|
(cond
|
|
;; --- a few error conditions
|
|
((not (list? tokens))
|
|
(lalr-error "Invalid token list: " tokens))
|
|
((not (pair? grammar))
|
|
(lalr-error "Grammar definition must have a non-empty list of productions" '()))
|
|
|
|
(else
|
|
;; --- check the terminals
|
|
(let loop1 ((lst tokens)
|
|
(rev-terms '())
|
|
(rev-terms/prec '())
|
|
(prec-level 0))
|
|
(if (pair? lst)
|
|
(let ((term (car lst)))
|
|
(cond
|
|
((pair? term)
|
|
(if (and (memq (car term) '(left: right: nonassoc:))
|
|
(not (null? (cdr term))))
|
|
(let ((prec (+ prec-level 1))
|
|
(optype (prec->type (car term))))
|
|
(let loop-toks ((l (cdr term))
|
|
(rev-terms rev-terms)
|
|
(rev-terms/prec rev-terms/prec))
|
|
(if (null? l)
|
|
(loop1 (cdr lst) rev-terms rev-terms/prec prec)
|
|
(let ((term (car l)))
|
|
(check-terminal term rev-terms)
|
|
(loop-toks
|
|
(cdr l)
|
|
(cons term rev-terms)
|
|
(cons (list term optype prec) rev-terms/prec))))))
|
|
|
|
(lalr-error "invalid operator precedence specification: " term)))
|
|
|
|
(else
|
|
(check-terminal term rev-terms)
|
|
(loop1 (cdr lst)
|
|
(cons term rev-terms)
|
|
(cons (list term 'none 0) rev-terms/prec)
|
|
prec-level))))
|
|
|
|
;; --- check the grammar rules
|
|
(let loop2 ((lst grammar) (rev-nonterm-defs '()))
|
|
(if (pair? lst)
|
|
(let ((def (car lst)))
|
|
(if (not (pair? def))
|
|
(lalr-error "Nonterminal definition must be a non-empty list" '())
|
|
(let ((nonterm (car def)))
|
|
(cond ((not (valid-nonterminal? nonterm))
|
|
(lalr-error "Invalid nonterminal:" nonterm))
|
|
((or (member nonterm rev-terms)
|
|
(assoc nonterm rev-nonterm-defs))
|
|
(lalr-error "Nonterminal previously defined:" nonterm))
|
|
(else
|
|
(loop2 (cdr lst)
|
|
(cons def rev-nonterm-defs)))))))
|
|
(let* ((terms (cons eoi (cons 'error (reverse rev-terms))))
|
|
(terms/prec (cons '(eoi none 0) (cons '(error none 0) (reverse rev-terms/prec))))
|
|
(nonterm-defs (reverse rev-nonterm-defs))
|
|
(nonterms (cons '*start* (map car nonterm-defs))))
|
|
(if (= (length nonterms) 1)
|
|
(lalr-error "Grammar must contain at least one nonterminal" '())
|
|
(let loop-defs ((defs (cons `(*start* (,(cadr nonterms) ,eoi) : $1)
|
|
nonterm-defs))
|
|
(ruleno 0)
|
|
(comp-defs '()))
|
|
(if (pair? defs)
|
|
(let* ((nonterm-def (car defs))
|
|
(compiled-def (rewrite-nonterm-def
|
|
nonterm-def
|
|
ruleno
|
|
terms nonterms)))
|
|
(loop-defs (cdr defs)
|
|
(+ ruleno (length compiled-def))
|
|
(cons compiled-def comp-defs)))
|
|
|
|
(let ((compiled-nonterm-defs (reverse comp-defs)))
|
|
(k terms
|
|
terms/prec
|
|
nonterms
|
|
(map (lambda (x) (cons (caaar x) (map cdar x)))
|
|
compiled-nonterm-defs)
|
|
(apply append compiled-nonterm-defs))))))))))))))
|
|
|
|
|
|
(define (rewrite-nonterm-def nonterm-def ruleno terms nonterms)
|
|
|
|
(define No-NT (length nonterms))
|
|
|
|
(define (encode x)
|
|
(let ((PosInNT (pos-in-list x nonterms)))
|
|
(if PosInNT
|
|
PosInNT
|
|
(let ((PosInT (pos-in-list x terms)))
|
|
(if PosInT
|
|
(+ No-NT PosInT)
|
|
(lalr-error "undefined symbol : " x))))))
|
|
|
|
(define (process-prec-directive rhs ruleno)
|
|
(let loop ((l rhs))
|
|
(if (null? l)
|
|
'()
|
|
(let ((first (car l))
|
|
(rest (cdr l)))
|
|
(cond
|
|
((or (member first terms) (member first nonterms))
|
|
(cons first (loop rest)))
|
|
((and (pair? first)
|
|
(eq? (car first) 'prec:))
|
|
(if (and (pair? (cdr first))
|
|
(null? (cddr first))
|
|
(member (cadr first) terms))
|
|
(if (null? rest)
|
|
(begin
|
|
(add-rule-precedence! ruleno (pos-in-list (cadr first) terms))
|
|
(loop rest))
|
|
(lalr-error "prec: directive should be at end of rule: " rhs))
|
|
(lalr-error "Invalid prec: directive: " first)))
|
|
(else
|
|
(lalr-error "Invalid terminal or nonterminal: " first)))))))
|
|
|
|
(define (check-error-production rhs)
|
|
(let loop ((rhs rhs))
|
|
(if (pair? rhs)
|
|
(begin
|
|
(if (and (eq? (car rhs) 'error)
|
|
(or (null? (cdr rhs))
|
|
(not (member (cadr rhs) terms))
|
|
(not (null? (cddr rhs)))))
|
|
(lalr-error "Invalid 'error' production. A single terminal symbol must follow the 'error' token.:" rhs))
|
|
(loop (cdr rhs))))))
|
|
|
|
|
|
(if (not (pair? (cdr nonterm-def)))
|
|
(lalr-error "At least one production needed for nonterminal:" (car nonterm-def))
|
|
(let ((name (symbol->string (car nonterm-def))))
|
|
(let loop1 ((lst (cdr nonterm-def))
|
|
(i 1)
|
|
(rev-productions-and-actions '()))
|
|
(if (not (pair? lst))
|
|
(reverse rev-productions-and-actions)
|
|
(let* ((rhs (process-prec-directive (car lst) (+ ruleno i -1)))
|
|
(rest (cdr lst))
|
|
(prod (map encode (cons (car nonterm-def) rhs))))
|
|
;; -- check for undefined tokens
|
|
(for-each (lambda (x)
|
|
(if (not (or (member x terms) (member x nonterms)))
|
|
(lalr-error "Invalid terminal or nonterminal:" x)))
|
|
rhs)
|
|
;; -- check 'error' productions
|
|
(check-error-production rhs)
|
|
|
|
(if (and (pair? rest)
|
|
(eq? (car rest) ':)
|
|
(pair? (cdr rest)))
|
|
(loop1 (cddr rest)
|
|
(+ i 1)
|
|
(cons (cons prod (cadr rest))
|
|
rev-productions-and-actions))
|
|
(let* ((rhs-length (length rhs))
|
|
(action
|
|
(cons 'vector
|
|
(cons (list 'quote (string->symbol
|
|
(string-append
|
|
name
|
|
"-"
|
|
(number->string i))))
|
|
(let loop-j ((j 1))
|
|
(if (> j rhs-length)
|
|
'()
|
|
(cons (string->symbol
|
|
(string-append
|
|
"$"
|
|
(number->string j)))
|
|
(loop-j (+ j 1)))))))))
|
|
(loop1 rest
|
|
(+ i 1)
|
|
(cons (cons prod action)
|
|
rev-productions-and-actions))))))))))
|
|
|
|
(define (valid-nonterminal? x)
|
|
(symbol? x))
|
|
|
|
(define (valid-terminal? x)
|
|
(symbol? x)) ; DB
|
|
|
|
;; ----------------------------------------------------------------------
|
|
;; Miscellaneous
|
|
;; ----------------------------------------------------------------------
|
|
(define (pos-in-list x lst)
|
|
(let loop ((lst lst) (i 0))
|
|
(cond ((not (pair? lst)) #f)
|
|
((equal? (car lst) x) i)
|
|
(else (loop (cdr lst) (+ i 1))))))
|
|
|
|
(define (sunion lst1 lst2) ; union of sorted lists
|
|
(let loop ((L1 lst1)
|
|
(L2 lst2))
|
|
(cond ((null? L1) L2)
|
|
((null? L2) L1)
|
|
(else
|
|
(let ((x (car L1)) (y (car L2)))
|
|
(cond
|
|
((> x y)
|
|
(cons y (loop L1 (cdr L2))))
|
|
((< x y)
|
|
(cons x (loop (cdr L1) L2)))
|
|
(else
|
|
(loop (cdr L1) L2))
|
|
))))))
|
|
|
|
(define (sinsert elem lst)
|
|
(let loop ((l1 lst))
|
|
(if (null? l1)
|
|
(cons elem l1)
|
|
(let ((x (car l1)))
|
|
(cond ((< elem x)
|
|
(cons elem l1))
|
|
((> elem x)
|
|
(cons x (loop (cdr l1))))
|
|
(else
|
|
l1))))))
|
|
|
|
(define (lalr-filter p lst)
|
|
(let loop ((l lst))
|
|
(if (null? l)
|
|
'()
|
|
(let ((x (car l)) (y (cdr l)))
|
|
(if (p x)
|
|
(cons x (loop y))
|
|
(loop y))))))
|
|
|
|
;; ----------------------------------------------------------------------
|
|
;; Debugging tools ...
|
|
;; ----------------------------------------------------------------------
|
|
(define the-terminals #f) ; names of terminal symbols
|
|
(define the-nonterminals #f) ; non-terminals
|
|
|
|
(define (print-item item-no)
|
|
(let loop ((i item-no))
|
|
(let ((v (vector-ref ritem i)))
|
|
(if (>= v 0)
|
|
(loop (+ i 1))
|
|
(let* ((rlno (- v))
|
|
(nt (vector-ref rlhs rlno)))
|
|
(display (vector-ref the-nonterminals nt)) (display " --> ")
|
|
(let loop ((i (vector-ref rrhs rlno)))
|
|
(let ((v (vector-ref ritem i)))
|
|
(if (= i item-no)
|
|
(display ". "))
|
|
(if (>= v 0)
|
|
(begin
|
|
(display (get-symbol v))
|
|
(display " ")
|
|
(loop (+ i 1)))
|
|
(begin
|
|
(display " (rule ")
|
|
(display (- v))
|
|
(display ")")
|
|
(newline))))))))))
|
|
|
|
(define (get-symbol n)
|
|
(if (>= n nvars)
|
|
(vector-ref the-terminals (- n nvars))
|
|
(vector-ref the-nonterminals n)))
|
|
|
|
|
|
(define (print-states)
|
|
(define (print-action act)
|
|
(cond
|
|
((eq? act '*error*)
|
|
(display " : Error"))
|
|
((eq? act 'accept)
|
|
(display " : Accept input"))
|
|
((< act 0)
|
|
(display " : reduce using rule ")
|
|
(display (- act)))
|
|
(else
|
|
(display " : shift and goto state ")
|
|
(display act)))
|
|
(newline)
|
|
#t)
|
|
|
|
(define (print-actions acts)
|
|
(let loop ((l acts))
|
|
(if (null? l)
|
|
#t
|
|
(let ((sym (caar l))
|
|
(act (cadar l)))
|
|
(display " ")
|
|
(cond
|
|
((eq? sym 'default)
|
|
(display "default action"))
|
|
(else
|
|
(if (number? sym)
|
|
(display (get-symbol (+ sym nvars)))
|
|
(display sym))))
|
|
(print-action act)
|
|
(loop (cdr l))))))
|
|
|
|
(if (not action-table)
|
|
(begin
|
|
(display "No generated parser available!")
|
|
(newline)
|
|
#f)
|
|
(begin
|
|
(display "State table") (newline)
|
|
(display "-----------") (newline) (newline)
|
|
|
|
(let loop ((l first-state))
|
|
(if (null? l)
|
|
#t
|
|
(let* ((core (car l))
|
|
(i (core-number core))
|
|
(items (core-items core))
|
|
(actions (vector-ref action-table i)))
|
|
(display "state ") (display i) (newline)
|
|
(newline)
|
|
(for-each (lambda (x) (display " ") (print-item x))
|
|
items)
|
|
(newline)
|
|
(print-actions actions)
|
|
(newline)
|
|
(loop (cdr l))))))))
|
|
|
|
|
|
|
|
;; ----------------------------------------------------------------------
|
|
|
|
(define build-goto-table
|
|
(lambda ()
|
|
`(vector
|
|
,@(map
|
|
(lambda (shifts)
|
|
(list 'quote
|
|
(if shifts
|
|
(let loop ((l (shift-shifts shifts)))
|
|
(if (null? l)
|
|
'()
|
|
(let* ((state (car l))
|
|
(symbol (vector-ref acces-symbol state)))
|
|
(if (< symbol nvars)
|
|
(cons `(,symbol . ,state)
|
|
(loop (cdr l)))
|
|
(loop (cdr l))))))
|
|
'())))
|
|
(vector->list shift-table)))))
|
|
|
|
|
|
(define build-reduction-table
|
|
(lambda (gram/actions)
|
|
`(vector
|
|
'()
|
|
,@(map
|
|
(lambda (p)
|
|
(let ((act (cdr p)))
|
|
`(lambda ,(if (eq? driver-name 'lr-driver)
|
|
'(___stack ___sp ___goto-table ___push yypushback)
|
|
'(___sp ___goto-table ___push))
|
|
,(let* ((nt (caar p)) (rhs (cdar p)) (n (length rhs)))
|
|
`(let* (,@(if act
|
|
(let loop ((i 1) (l rhs))
|
|
(if (pair? l)
|
|
(let ((rest (cdr l))
|
|
(ns (number->string (+ (- n i) 1))))
|
|
(cons
|
|
`(tok ,(if (eq? driver-name 'lr-driver)
|
|
`(vector-ref ___stack (- ___sp ,(- (* i 2) 1)))
|
|
`(list-ref ___sp ,(+ (* (- i 1) 2) 1))))
|
|
(cons
|
|
`(,(string->symbol (string-append "$" ns))
|
|
(if (lexical-token? tok) (lexical-token-value tok) tok))
|
|
(cons
|
|
`(,(string->symbol (string-append "@" ns))
|
|
(if (lexical-token? tok) (lexical-token-source tok) tok))
|
|
(loop (+ i 1) rest)))))
|
|
'()))
|
|
'()))
|
|
,(if (= nt 0)
|
|
'$1
|
|
`(___push ,n ,nt ,(cdr p) ,@(if (eq? driver-name 'lr-driver) '() '(___sp))
|
|
,(if (eq? driver-name 'lr-driver)
|
|
`(vector-ref ___stack (- ___sp ,(length rhs)))
|
|
`(list-ref ___sp ,(length rhs))))))))))
|
|
|
|
gram/actions))))
|
|
|
|
|
|
|
|
;; Options
|
|
|
|
(define *valid-options*
|
|
(list
|
|
(cons 'out-table:
|
|
(lambda (option)
|
|
(and (list? option)
|
|
(= (length option) 2)
|
|
(string? (cadr option)))))
|
|
(cons 'output:
|
|
(lambda (option)
|
|
(and (list? option)
|
|
(= (length option) 3)
|
|
(symbol? (cadr option))
|
|
(string? (caddr option)))))
|
|
(cons 'expect:
|
|
(lambda (option)
|
|
(and (list? option)
|
|
(= (length option) 2)
|
|
(integer? (cadr option))
|
|
(>= (cadr option) 0))))
|
|
|
|
(cons 'driver:
|
|
(lambda (option)
|
|
(and (list? option)
|
|
(= (length option) 2)
|
|
(symbol? (cadr option))
|
|
(memq (cadr option) '(lr glr)))))))
|
|
|
|
|
|
(define (validate-options options)
|
|
(for-each
|
|
(lambda (option)
|
|
(let ((p (assoc (car option) *valid-options*)))
|
|
(if (or (not p)
|
|
(not ((cdr p) option)))
|
|
(lalr-error "Invalid option:" option))))
|
|
options))
|
|
|
|
|
|
(define (output-parser! options code)
|
|
(let ((option (assq 'output: options)))
|
|
(if option
|
|
(let ((parser-name (cadr option))
|
|
(file-name (caddr option)))
|
|
(with-output-to-file file-name
|
|
(lambda ()
|
|
(pprint `(define ,parser-name ,code))
|
|
(newline)))))))
|
|
|
|
|
|
(define (output-table! options)
|
|
(let ((option (assq 'out-table: options)))
|
|
(if option
|
|
(let ((file-name (cadr option)))
|
|
(with-output-to-file file-name print-states)))))
|
|
|
|
|
|
(define (set-expected-conflicts! options)
|
|
(let ((option (assq 'expect: options)))
|
|
(set! expected-conflicts (if option (cadr option) 0))))
|
|
|
|
(define (set-driver-name! options)
|
|
(let ((option (assq 'driver: options)))
|
|
(if option
|
|
(let ((driver-type (cadr option)))
|
|
(set! driver-name (if (eq? driver-type 'glr) 'glr-driver 'lr-driver))))))
|
|
|
|
|
|
;; -- arguments
|
|
|
|
(define (extract-arguments lst proc)
|
|
(let loop ((options '())
|
|
(tokens '())
|
|
(rules '())
|
|
(lst lst))
|
|
(if (pair? lst)
|
|
(let ((p (car lst)))
|
|
(cond
|
|
((and (pair? p)
|
|
(lalr-keyword? (car p))
|
|
(assq (car p) *valid-options*))
|
|
(loop (cons p options) tokens rules (cdr lst)))
|
|
(else
|
|
(proc options p (cdr lst)))))
|
|
(lalr-error "Malformed lalr-parser form" lst))))
|
|
|
|
|
|
(define (build-driver options tokens rules)
|
|
(validate-options options)
|
|
(set-expected-conflicts! options)
|
|
(set-driver-name! options)
|
|
(let* ((gram/actions (gen-tables! tokens rules))
|
|
(code `(,driver-name ',action-table ,(build-goto-table) ,(build-reduction-table gram/actions))))
|
|
|
|
(output-table! options)
|
|
(output-parser! options code)
|
|
code))
|
|
|
|
(extract-arguments arguments build-driver))
|
|
|
|
|
|
|
|
;;;
|
|
;;;; --
|
|
;;;; Implementation of the lr-driver
|
|
;;;
|
|
|
|
|
|
(cond-expand
|
|
(gambit
|
|
(declare
|
|
(standard-bindings)
|
|
(fixnum)
|
|
(block)
|
|
(not safe)))
|
|
(chicken
|
|
(declare
|
|
(uses extras)
|
|
(usual-integrations)
|
|
(fixnum)
|
|
(not safe)))
|
|
(else))
|
|
|
|
|
|
;;;
|
|
;;;; Source location utilities
|
|
;;;
|
|
|
|
|
|
;; This function assumes that src-location-1 and src-location-2 are source-locations
|
|
;; Returns #f if they are not locations for the same input
|
|
(define (combine-locations src-location-1 src-location-2)
|
|
(let ((offset-1 (source-location-offset src-location-1))
|
|
(offset-2 (source-location-offset src-location-2))
|
|
(length-1 (source-location-length src-location-1))
|
|
(length-2 (source-location-length src-location-2)))
|
|
|
|
(cond ((not (equal? (source-location-input src-location-1)
|
|
(source-location-input src-location-2)))
|
|
#f)
|
|
((or (not (number? offset-1)) (not (number? offset-2))
|
|
(not (number? length-1)) (not (number? length-2))
|
|
(< offset-1 0) (< offset-2 0)
|
|
(< length-1 0) (< length-2 0))
|
|
(make-source-location (source-location-input src-location-1)
|
|
(source-location-line src-location-1)
|
|
(source-location-column src-location-1)
|
|
-1 -1))
|
|
((<= offset-1 offset-2)
|
|
(make-source-location (source-location-input src-location-1)
|
|
(source-location-line src-location-1)
|
|
(source-location-column src-location-1)
|
|
offset-1
|
|
(- (+ offset-2 length-2) offset-1)))
|
|
(else
|
|
(make-source-location (source-location-input src-location-1)
|
|
(source-location-line src-location-1)
|
|
(source-location-column src-location-1)
|
|
offset-2
|
|
(- (+ offset-1 length-1) offset-2))))))
|
|
|
|
|
|
;;;
|
|
;;;; LR-driver
|
|
;;;
|
|
|
|
|
|
(define *max-stack-size* 500)
|
|
|
|
(define (lr-driver action-table goto-table reduction-table)
|
|
(define ___atable action-table)
|
|
(define ___gtable goto-table)
|
|
(define ___rtable reduction-table)
|
|
|
|
(define ___lexerp #f)
|
|
(define ___errorp #f)
|
|
|
|
(define ___stack #f)
|
|
(define ___sp 0)
|
|
|
|
(define ___curr-input #f)
|
|
(define ___reuse-input #f)
|
|
|
|
(define ___input #f)
|
|
(define (___consume)
|
|
(set! ___input (if ___reuse-input ___curr-input (___lexerp)))
|
|
(set! ___reuse-input #f)
|
|
(set! ___curr-input ___input))
|
|
|
|
(define (___pushback)
|
|
(set! ___reuse-input #t))
|
|
|
|
(define (___initstack)
|
|
(set! ___stack (make-vector *max-stack-size* 0))
|
|
(set! ___sp 0))
|
|
|
|
(define (___growstack)
|
|
(let ((new-stack (make-vector (* 2 (vector-length ___stack)) 0)))
|
|
(let loop ((i (- (vector-length ___stack) 1)))
|
|
(if (>= i 0)
|
|
(begin
|
|
(vector-set! new-stack i (vector-ref ___stack i))
|
|
(loop (- i 1)))))
|
|
(set! ___stack new-stack)))
|
|
|
|
(define (___checkstack)
|
|
(if (>= ___sp (vector-length ___stack))
|
|
(___growstack)))
|
|
|
|
(define (___push delta new-category lvalue tok)
|
|
(set! ___sp (- ___sp (* delta 2)))
|
|
(let* ((state (vector-ref ___stack ___sp))
|
|
(new-state (cdr (assoc new-category (vector-ref ___gtable state)))))
|
|
(set! ___sp (+ ___sp 2))
|
|
(___checkstack)
|
|
(vector-set! ___stack ___sp new-state)
|
|
(vector-set! ___stack (- ___sp 1) (note-source-location lvalue tok))))
|
|
|
|
(define (___reduce st)
|
|
((vector-ref ___rtable st) ___stack ___sp ___gtable ___push ___pushback))
|
|
|
|
(define (___shift token attribute)
|
|
(set! ___sp (+ ___sp 2))
|
|
(___checkstack)
|
|
(vector-set! ___stack (- ___sp 1) attribute)
|
|
(vector-set! ___stack ___sp token))
|
|
|
|
(define (___action x l)
|
|
(let ((y (assoc x l)))
|
|
(if y (cadr y) (cadar l))))
|
|
|
|
(define (___recover tok)
|
|
(let find-state ((sp ___sp))
|
|
(if (< sp 0)
|
|
(set! ___sp sp)
|
|
(let* ((state (vector-ref ___stack sp))
|
|
(act (assoc 'error (vector-ref ___atable state))))
|
|
(if act
|
|
(begin
|
|
(set! ___sp sp)
|
|
(___sync (cadr act) tok))
|
|
(find-state (- sp 2)))))))
|
|
|
|
(define (___sync state tok)
|
|
(let ((sync-set (map car (cdr (vector-ref ___atable state)))))
|
|
(set! ___sp (+ ___sp 4))
|
|
(___checkstack)
|
|
(vector-set! ___stack (- ___sp 3) #f)
|
|
(vector-set! ___stack (- ___sp 2) state)
|
|
(let skip ()
|
|
(let ((i (___category ___input)))
|
|
(if (eq? i '*eoi*)
|
|
(set! ___sp -1)
|
|
(if (memq i sync-set)
|
|
(let ((act (assoc i (vector-ref ___atable state))))
|
|
(vector-set! ___stack (- ___sp 1) #f)
|
|
(vector-set! ___stack ___sp (cadr act)))
|
|
(begin
|
|
(___consume)
|
|
(skip))))))))
|
|
|
|
(define (___category tok)
|
|
(if (lexical-token? tok)
|
|
(lexical-token-category tok)
|
|
tok))
|
|
|
|
(define (___run)
|
|
(let loop ()
|
|
(if ___input
|
|
(let* ((state (vector-ref ___stack ___sp))
|
|
(i (___category ___input))
|
|
(act (___action i (vector-ref ___atable state))))
|
|
|
|
(cond ((not (symbol? i))
|
|
(___errorp "Syntax error: invalid token: " ___input)
|
|
#f)
|
|
|
|
;; Input succesfully parsed
|
|
((eq? act 'accept)
|
|
(vector-ref ___stack 1))
|
|
|
|
;; Syntax error in input
|
|
((eq? act '*error*)
|
|
(if (eq? i '*eoi*)
|
|
(begin
|
|
(___errorp "Syntax error: unexpected end of input")
|
|
#f)
|
|
(begin
|
|
(___errorp "Syntax error: unexpected token : " ___input)
|
|
(___recover i)
|
|
(if (>= ___sp 0)
|
|
(set! ___input #f)
|
|
(begin
|
|
(set! ___sp 0)
|
|
(set! ___input '*eoi*)))
|
|
(loop))))
|
|
|
|
;; Shift current token on top of the stack
|
|
((>= act 0)
|
|
(___shift act ___input)
|
|
(set! ___input (if (eq? i '*eoi*) '*eoi* #f))
|
|
(loop))
|
|
|
|
;; Reduce by rule (- act)
|
|
(else
|
|
(___reduce (- act))
|
|
(loop))))
|
|
|
|
;; no lookahead, so check if there is a default action
|
|
;; that does not require the lookahead
|
|
(let* ((state (vector-ref ___stack ___sp))
|
|
(acts (vector-ref ___atable state))
|
|
(defact (if (pair? acts) (cadar acts) #f)))
|
|
(if (and (= 1 (length acts)) (< defact 0))
|
|
(___reduce (- defact))
|
|
(___consume))
|
|
(loop)))))
|
|
|
|
|
|
(lambda (lexerp errorp)
|
|
(set! ___errorp errorp)
|
|
(set! ___lexerp lexerp)
|
|
(___initstack)
|
|
(___run)))
|
|
|
|
|
|
;;;
|
|
;;;; Simple-minded GLR-driver
|
|
;;;
|
|
|
|
|
|
(define (glr-driver action-table goto-table reduction-table)
|
|
(define ___atable action-table)
|
|
(define ___gtable goto-table)
|
|
(define ___rtable reduction-table)
|
|
|
|
(define ___lexerp #f)
|
|
(define ___errorp #f)
|
|
|
|
;; -- Input handling
|
|
|
|
(define *input* #f)
|
|
(define (initialize-lexer lexer)
|
|
(set! ___lexerp lexer)
|
|
(set! *input* #f))
|
|
(define (consume)
|
|
(set! *input* (___lexerp)))
|
|
|
|
(define (token-category tok)
|
|
(if (lexical-token? tok)
|
|
(lexical-token-category tok)
|
|
tok))
|
|
|
|
(define (token-attribute tok)
|
|
(if (lexical-token? tok)
|
|
(lexical-token-value tok)
|
|
tok))
|
|
|
|
;; -- Processes (stacks) handling
|
|
|
|
(define *processes* '())
|
|
|
|
(define (initialize-processes)
|
|
(set! *processes* '()))
|
|
(define (add-process process)
|
|
(set! *processes* (cons process *processes*)))
|
|
(define (get-processes)
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(reverse *processes*))
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(define (for-all-processes proc)
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(let ((processes (get-processes)))
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(initialize-processes)
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(for-each proc processes)))
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;; -- parses
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(define *parses* '())
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(define (get-parses)
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*parses*)
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(define (initialize-parses)
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(set! *parses* '()))
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(define (add-parse parse)
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(set! *parses* (cons parse *parses*)))
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(define (push delta new-category lvalue stack tok)
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(let* ((stack (drop stack (* delta 2)))
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(state (car stack))
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(new-state (cdr (assv new-category (vector-ref ___gtable state)))))
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(cons new-state (cons (note-source-location lvalue tok) stack))))
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(define (reduce state stack)
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((vector-ref ___rtable state) stack ___gtable push))
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(define (shift state symbol stack)
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(cons state (cons symbol stack)))
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(define (get-actions token action-list)
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(let ((pair (assoc token action-list)))
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(if pair
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(cdr pair)
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(cdar action-list)))) ;; get the default action
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(define (run)
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(let loop-tokens ()
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(consume)
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(let ((symbol (token-category *input*)))
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(for-all-processes
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(lambda (process)
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(let loop ((stacks (list process)) (active-stacks '()))
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(cond ((pair? stacks)
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(let* ((stack (car stacks))
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(state (car stack)))
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(let actions-loop ((actions (get-actions symbol (vector-ref ___atable state)))
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(active-stacks active-stacks))
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(if (pair? actions)
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(let ((action (car actions))
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(other-actions (cdr actions)))
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(cond ((eq? action '*error*)
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(actions-loop other-actions active-stacks))
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((eq? action 'accept)
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(add-parse (car (take-right stack 2)))
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(actions-loop other-actions active-stacks))
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((>= action 0)
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(let ((new-stack (shift action *input* stack)))
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|
(add-process new-stack))
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|
(actions-loop other-actions active-stacks))
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(else
|
|
(let ((new-stack (reduce (- action) stack)))
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(actions-loop other-actions (cons new-stack active-stacks))))))
|
|
(loop (cdr stacks) active-stacks)))))
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|
((pair? active-stacks)
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|
(loop (reverse active-stacks) '())))))))
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(if (pair? (get-processes))
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|
(loop-tokens))))
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(lambda (lexerp errorp)
|
|
(set! ___errorp errorp)
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|
(initialize-lexer lexerp)
|
|
(initialize-processes)
|
|
(initialize-parses)
|
|
(add-process '(0))
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|
(run)
|
|
(get-parses)))
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(define (drop l n)
|
|
(cond ((and (> n 0) (pair? l))
|
|
(drop (cdr l) (- n 1)))
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|
(else
|
|
l)))
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(define (take-right l n)
|
|
(drop l (- (length l) n)))
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