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br-parser-tools/collects/parser-tools/private-lex/front.rkt

180 lines
7.4 KiB
Racket

(module front mzscheme
(require (prefix is: mzlib/integer-set)
mzlib/list
syntax/stx
"util.rkt"
"stx.rkt"
"re.rkt"
"deriv.rkt")
(provide build-lexer)
(define-syntax time-label
(syntax-rules ()
((_ l e ...)
(begin
(printf "~a: " l)
(time (begin e ...))))))
;; A table is either
;; - (vector-of (union #f nat))
;; - (vector-of (vector-of (vector nat nat nat)))
(define loc:integer-set-contents is:integer-set-contents)
;; dfa->1d-table : dfa -> (same as build-lexer)
(define (dfa->1d-table dfa)
(let ((state-table (make-vector (dfa-num-states dfa) #f))
(transition-cache (make-hash-table 'equal)))
(for-each
(lambda (trans)
(let* ((from-state (car trans))
(all-chars/to (cdr trans))
(flat-all-chars/to
(sort
(apply append
(map (lambda (chars/to)
(let ((char-ranges (loc:integer-set-contents (car chars/to)))
(to (cdr chars/to)))
(map (lambda (char-range)
(let ((entry (vector (car char-range) (cdr char-range) to)))
(hash-table-get transition-cache entry
(lambda ()
(hash-table-put! transition-cache
entry
entry)
entry))))
char-ranges)))
all-chars/to))
(lambda (a b)
(< (vector-ref a 0) (vector-ref b 0))))))
(vector-set! state-table from-state (list->vector flat-all-chars/to))))
(dfa-transitions dfa))
state-table))
(define loc:foldr is:foldr)
;; dfa->2d-table : dfa -> (same as build-lexer)
(define (dfa->2d-table dfa)
(let (
;; char-table : (vector-of (union #f nat))
;; The lexer table, one entry per state per char.
;; Each entry specifies a state to transition to.
;; #f indicates no transition
(char-table (make-vector (* 256 (dfa-num-states dfa)) #f)))
;; Fill the char-table vector
(for-each
(lambda (trans)
(let ((from-state (car trans)))
(for-each (lambda (chars/to)
(let ((to-state (cdr chars/to)))
(loc:foldr (lambda (char _)
(vector-set! char-table
(bitwise-ior
char
(arithmetic-shift from-state 8))
to-state))
(void)
(car chars/to))))
(cdr trans))))
(dfa-transitions dfa))
char-table))
;; dfa->actions : dfa -> (vector-of (union #f syntax-object))
;; The action for each final state, #f if the state isn't final
(define (dfa->actions dfa)
(let ((actions (make-vector (dfa-num-states dfa) #f)))
(for-each (lambda (state/action)
(vector-set! actions (car state/action) (cdr state/action)))
(dfa-final-states/actions dfa))
actions))
;; dfa->no-look : dfa -> (vector-of bool)
;; For each state whether the lexer can ignore the next input.
;; It can do this only if there are no transitions out of the
;; current state.
(define (dfa->no-look dfa)
(let ((no-look (make-vector (dfa-num-states dfa) #t)))
(for-each (lambda (trans)
(vector-set! no-look (car trans) #f))
(dfa-transitions dfa))
no-look))
(test-block ((d1 (make-dfa 1 1 (list) (list)))
(d2 (make-dfa 4 1 (list (cons 2 2) (cons 3 3))
(list (cons 1 (list (cons (is:make-range 49 50) 1)
(cons (is:make-range 51) 2)))
(cons 2 (list (cons (is:make-range 49) 3))))))
(d3 (make-dfa 4 1 (list (cons 2 2) (cons 3 3))
(list (cons 1 (list (cons (is:make-range 100 200) 0)
(cons (is:make-range 49 50) 1)
(cons (is:make-range 51) 2)))
(cons 2 (list (cons (is:make-range 49) 3)))))))
((dfa->2d-table d1) (make-vector 256 #f))
((dfa->2d-table d2) (let ((v (make-vector 1024 #f)))
(vector-set! v 305 1)
(vector-set! v 306 1)
(vector-set! v 307 2)
(vector-set! v 561 3)
v))
((dfa->1d-table d1) (make-vector 1 #f))
((dfa->1d-table d2) #(#f
#(#(49 50 1) #(51 51 2))
#(#(49 49 3))
#f))
((dfa->1d-table d3) #(#f
#(#(49 50 1) #(51 51 2) #(100 200 0))
#(#(49 49 3))
#f))
((dfa->actions d1) (vector #f))
((dfa->actions d2) (vector #f #f 2 3))
((dfa->no-look d1) (vector #t))
((dfa->no-look d2) (vector #t #f #f #t)))
;; build-lexer : syntax-object list ->
;; (values table nat (vector-of (union #f syntax-object)) (vector-of bool) (list-of syntax-object))
;; each syntax object has the form (re action)
(define (build-lexer sos)
(let* ((disappeared-uses (box null))
(s-re-acts (map (lambda (so)
(cons (parse (stx-car so) disappeared-uses)
(stx-car (stx-cdr so))))
sos))
(cache (make-cache))
(re-acts (map (lambda (s-re-act)
(cons (->re (car s-re-act) cache)
(cdr s-re-act)))
s-re-acts))
(dfa (build-dfa re-acts cache))
(table (dfa->1d-table dfa)))
;(print-dfa dfa)
#;(let ((num-states (vector-length table))
(num-vectors (length (filter values (vector->list table))))
(num-entries (apply + (map
(lambda (x) (if x (vector-length x) 0))
(vector->list table))))
(num-different-entries
(let ((ht (make-hash-table)))
(for-each
(lambda (x)
(when x
(for-each
(lambda (y)
(hash-table-put! ht y #t))
(vector->list x))))
(vector->list table))
(length (hash-table-map ht cons)))))
(printf "~a states, ~aKB\n"
num-states
(/ (* 4.0 (+ 2 num-states (* 2 num-vectors) num-entries
(* 5 num-different-entries))) 1024)))
(values table (dfa-start-state dfa) (dfa->actions dfa) (dfa->no-look dfa)
(unbox disappeared-uses))))
)