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br-parser-tools/parser-tools-lib/parser-tools/private-lex/util.rkt

128 lines
3.7 KiB
Racket

#lang racket
(provide (all-defined-out))
(define max-char-num #x10FFFF)
(define-struct lex-abbrev (get-abbrev))
(define-struct lex-trans (f))
(module+ test
(require rackunit))
#;(define-syntax test-block
(syntax-rules ()
((_ defs (code right-ans) ...)
(let* defs
(let ((real-ans code))
(unless (equal? real-ans right-ans)
(printf "Test failed: ~e gave ~e. Expected ~e\n"
'code real-ans 'right-ans))) ...))))
(define-syntax test-block
(syntax-rules ()
((_ x ...) (void))))
;; A cache is (X ( -> Y) -> Y)
;; make-cache : -> cache
;; table map Xs to Ys. If key is mapped, its value is returned.
;; Otherwise, build is invoked and its result is placed in the table and
;; returned.
;; Xs are compared with equal?
(define (make-cache)
(let ((table (make-hash)))
(lambda (key build)
(hash-ref table key
(lambda ()
(let ((new (build)))
(hash-set! table key new)
new))))))
(module+ test
(define cache (make-cache))
(check-equal? (cache '(s 1 2) (lambda () 9)) 9)
(check-equal? (cache '(s 2 1) (lambda () 8)) 8)
(check-equal? (cache '(s 1 2) (lambda () 1)) 9)
(check-equal? (cache (cons 's (cons 0 (cons +inf.0 10)))
(lambda () 22)) 22)
(check-equal? (cache (cons 's (cons 0 (cons +inf.0 10)))
(lambda () 1)) 22))
;; make-counter : -> -> nat
;; makes a function that returns a higher number by 1, each time
;; it is called.
(define (make-counter)
(let ((counter 0))
(lambda ()
(begin0
counter
(set! counter (add1 counter))))))
(module+ test
(define c (make-counter))
(define d (make-counter))
(check-equal? (c) 0)
(check-equal? (d) 0)
(check-equal? (c) 1)
(check-equal? (d) 1)
(check-equal? (c) 2))
;; remove-dups : (list-of X) (X -> number) -> (list-of X)
;; removes the entries from l that have the same index as a
;; previous entry. l must be grouped by indexes.
(define (remove-dups l index acc)
(cond
((null? l) (reverse acc))
((null? acc) (remove-dups (cdr l) index (cons (car l) acc)))
((= (index (car acc)) (index (car l)))
(remove-dups (cdr l) index acc))
(else
(remove-dups (cdr l) index (cons (car l) acc)))))
(module+ test
(check-equal? (remove-dups '((1 2) (2 2) (1 3) (1 4)
(100 4) (0 5)) cadr null)
'((1 2) (1 3) (1 4) (0 5)))
(check-equal? (remove-dups null error null) null))
;; do-simple-equiv : (list-of X) (X -> nat) -> (list-of X)
;; Sorts l according to index and removes the entries with duplicate
;; indexes.
(define (do-simple-equiv l index)
(let ((ordered (sort l (lambda (a b) (< (index a) (index b))))))
(remove-dups ordered index null)))
(module+ test
(check-equal? (do-simple-equiv '((2 2) (1 4) (1 2)
(100 4) (1 3) (0 5))
cadr)
'((2 2) (1 3) (1 4) (0 5)))
(check-equal? (do-simple-equiv null error) null))
;; replace : (list-of X) (X -> bool) (X -> (list-of X)) (list-of X) ->
;; (list-of X)
;; If (pred? r) for some r in l, splice (get r) in place of r in the resulting
;; list.
(define (replace l pred? get acc)
(cond
((null? l) acc)
((pred? (car l)) (replace (cdr l) pred? get (append (get (car l)) acc)))
(else (replace (cdr l) pred? get (cons (car l) acc)))))
(module+ test
(check-equal? (replace null void (lambda () (list 1)) null) null)
(check-equal? (replace '(1 2 3 4 3 5)
(lambda (x) (= x 3))
(lambda (x) (list 1 2 3))
null)
'(5 1 2 3 4 1 2 3 2 1)))