#lang racket/base (require "input-file-parser.rkt" "grammar.rkt" "table.rkt" racket/class racket/contract) (require (for-template racket/base)) (provide/contract [build-parser (-> string? any/c any/c (listof identifier?) (listof identifier?) (listof identifier?) (or/c syntax? #f) syntax? (values any/c any/c any/c any/c))]) ;; fix-check-syntax : (listof identifier?) (listof identifier?) (listof identifier?) ;; (union syntax? false/c) syntax?) -> syntax? (define (fix-check-syntax input-terms start ends assocs prods) (define term-binders (get-term-list input-terms)) (define get-term-binder (let ([t (make-hasheq)]) (for ([term (in-list term-binders)]) (hash-set! t (syntax-e term) term)) (λ (x) (define r (hash-ref t (syntax-e x) (λ () #f))) (if r (syntax-local-introduce (datum->syntax r (syntax-e x) x x)) x)))) (define rhs-list (syntax-case prods () [((_ RHS ...) ...) (syntax->list #'(RHS ... ...))])) (with-syntax ([(TMP ...) (map syntax-local-introduce term-binders)] [(TERM-GROUP ...) (map (λ (tg) (syntax-property (datum->syntax tg #f) 'disappeared-use tg)) input-terms)] [(END ...) (map get-term-binder ends)] [(START ...) (map get-term-binder start)] [(BIND ...) (syntax-case prods () (((BIND _ ...) ...) (syntax->list #'(BIND ...))))] [((BOUND ...) ...) (map (λ (rhs) (syntax-case rhs () [((BOUND ...) (_ PBOUND) __) (map get-term-binder (cons #'PBOUND (syntax->list #'(BOUND ...))))] [((BOUND ...) _) (map get-term-binder (syntax->list #'(BOUND ...)))])) rhs-list)] [(PREC ...) (if assocs (map get-term-binder (syntax-case assocs () (((__ TERM ...) ...) (syntax->list #'(TERM ... ...))))) null)]) #`(when #f (let ((BIND void) ... (TMP void) ...) (void BOUND ... ... TERM-GROUP ... START ... END ... PREC ...))))) (require racket/list "parser-actions.rkt") (define (build-parser filename src-pos suppress input-terms start end assocs prods) (define grammar (parse-input input-terms start end assocs prods src-pos)) (define table (build-table grammar filename suppress)) (define all-tokens (make-hasheq)) (define actions-code `(vector ,@(map prod-action (send grammar get-prods)))) (for ([term (in-list (send grammar get-terms))]) (hash-set! all-tokens (gram-sym-symbol term) #t)) #;(let ((num-states (vector-length table)) (num-gram-syms (+ (send grammar get-num-terms) (send grammar get-num-non-terms))) (num-ht-entries (apply + (map length (vector->list table)))) (num-reduces (let ((ht (make-hasheq))) (for-each (λ (x) (when (reduce? x) (hash-set! ht x #t))) (map cdr (apply append (vector->list table)))) (length (hash-table-map ht void))))) (printf "~a states, ~a grammar symbols, ~a hash-table entries, ~a reduces\n" num-states num-gram-syms num-ht-entries num-reduces) (printf "~a -- ~aKB, previously ~aKB\n" (/ (+ 2 num-states (* 4 num-states) (* 2 1.5 num-ht-entries) (* 5 num-reduces)) 256.0) (/ (+ 2 num-states (* 4 num-states) (* 2 2.3 num-ht-entries) (* 5 num-reduces)) 256.0) (/ (+ 2 (* num-states num-gram-syms) (* 5 num-reduces)) 256.0))) (values table all-tokens actions-code (fix-check-syntax input-terms start end assocs prods)))