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@ -1,7 +1,7 @@
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(module util mzscheme
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(require (lib "list.ss"))
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(provide (all-defined-except split-acc complement-acc))
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(provide (all-defined))
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(define-struct lex-abbrev (abbrev))
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@ -107,275 +107,5 @@
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'(5 1 2 3 4 1 2 3 2 1)))
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;; A char-set is (list-of (cons nat nat))
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;; Each cons represents a range of characters, and the entire
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;; set is the union of the ranges. The ranges must be disjoint and
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;; increasing. Further, adjacent ranges must have at least
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;; one number between them.
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(define (nat? x)
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(and (integer? x) (exact? x) (>= x 0)))
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;; char-set? : X -> bool
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(define (char-set? x)
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(let loop ((set x)
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(current-num -2))
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(or
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(null? set)
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(and (pair? set)
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(pair? (car set))
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(nat? (caar set))
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(nat? (cdar set))
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(< (add1 current-num) (caar set))
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(<= (caar set) (cdar set))
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(loop (cdr set) (cdar set))))))
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(test-block ()
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((char-set? '((0 . 4) (7 . 9))) #t)
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((char-set? '((-1 . 4))) #f)
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((char-set? '((11 . 10))) #f)
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((char-set? '((0 . 10) (8 . 12))) #f)
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((char-set? '((10 . 20) (1 . 2))) #f)
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((char-set? '((1 . 1))) #t)
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((char-set? '((1 . 1) (2 . 3))) #f)
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((char-set? '((1 . 1) (3 . 3))) #t)
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((char-set? null) #t))
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;; make-range : int * int -> char-set
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;; creates a set of chars between i and j. i <= j
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(define (make-range i j)
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(list (cons i j)))
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(test-block ()
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((make-range 97 110) '((97 . 110)))
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((make-range 111 111) '((111 . 111))))
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;; sub-range? : (cons int int) (cons int int) -> bool
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;; true iff the interval [(car r1), (cdr r1)] is a subset of
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;; [(car r2), (cdr r2)]
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(define (sub-range? r1 r2)
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(and (>= (car r1) (car r2))
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(<= (cdr r1) (cdr r2))))
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;; overlap? : (cons int int) (cons int int) -> bool
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;; true iff the intervals [(car r1), (cdr r1)] and [(car r2), (cdr r2)]
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;; have non-empty intersections and (car r1) >= (car r2)
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(define (overlap? r1 r2)
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(and (>= (car r1) (car r2))
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(>= (cdr r1) (cdr r2))
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(<= (car r1) (cdr r2))))
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;; merge : char-set char-set -> char-set
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;; unions 2 char-sets
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(define (merge s1 s2)
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(cond
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((null? s2) s1)
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((null? s1) s2)
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(else
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(let ((r1 (car s1))
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(r2 (car s2)))
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(cond
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((sub-range? r1 r2) (merge (cdr s1) s2))
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((sub-range? r2 r1) (merge s1 (cdr s2)))
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((or (overlap? r1 r2) (= (car r1) (add1 (cdr r2))))
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(merge (cons (cons (car r2) (cdr r1)) (cdr s1)) (cdr s2)))
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((or (overlap? r2 r1) (= (car r2) (add1 (cdr r1))))
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(merge (cdr s1) (cons (cons (car r1) (cdr r2)) (cdr s2))))
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((< (car r1) (car r2))
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(cons r1 (merge (cdr s1) s2)))
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(else
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(cons r2 (merge s1 (cdr s2)))))))))
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(test-block ()
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((merge null null) null)
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((merge null '((1 . 10))) '((1 . 10)))
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((merge '((1 . 10)) null) '((1 . 10)))
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;; r1 in r2
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((merge '((5 . 10)) '((5 . 10))) '((5 . 10)))
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((merge '((6 . 9)) '((5 . 10))) '((5 . 10)))
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((merge '((7 . 7)) '((5 . 10))) '((5 . 10)))
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;; r2 in r1
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((merge '((5 . 10)) '((5 . 10))) '((5 . 10)))
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((merge '((5 . 10)) '((6 . 9))) '((5 . 10)))
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((merge '((5 . 10)) '((7 . 7))) '((5 . 10)))
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;; r2 and r1 are disjoint
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((merge '((5 . 10)) '((12 . 14))) '((5 . 10) (12 . 14)))
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((merge '((12 . 14)) '((5 . 10))) '((5 . 10) (12 . 14)))
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;; r1 and r1 are adjacent
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((merge '((5 . 10)) '((11 . 13))) '((5 . 13)))
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((merge '((11 . 13)) '((5 . 10))) '((5 . 13)))
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;; r1 and r2 overlap
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((merge '((5 . 10)) '((7 . 14))) '((5 . 14)))
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((merge '((7 . 14)) '((5 . 10))) '((5 . 14)))
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((merge '((5 . 10)) '((10 . 14))) '((5 . 14)))
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((merge '((7 . 10)) '((5 . 7))) '((5 . 10)))
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;; with lists
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((merge '((1 . 1) (3 . 3) (5 . 10) (100 . 200))
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'((2 . 2) (10 . 12) (300 . 300)))
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'((1 . 3) (5 . 12) (100 . 200) (300 . 300)))
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((merge '((1 . 1) (3 . 3) (5 . 5) (8 . 8) (10 . 10) (12 . 12))
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'((2 . 2) (4 . 4) (6 . 7) (9 . 9) (11 . 11)))
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'((1 . 12)))
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((merge '((2 . 2) (4 . 4) (6 . 7) (9 . 9) (11 . 11))
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'((1 . 1) (3 . 3) (5 . 5) (8 . 8) (10 . 10) (12 . 12)))
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'((1 . 12))))
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;; split-sub-range : (cons int int) (cons int int) -> char-set
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;; (subrange? r1 r2) must hold.
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;; returns [(car r2), (cdr r2)] - ([(car r1), (cdr r1)] intersect [(car r2), (cdr r2)]).
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(define (split-sub-range r1 r2)
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(let ((r1-car (car r1))
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(r1-cdr (cdr r1))
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(r2-car (car r2))
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(r2-cdr (cdr r2)))
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(cond
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((and (= r1-car r2-car) (= r1-cdr r2-cdr)) null)
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((= r1-car r2-car) (list (cons (add1 r1-cdr) r2-cdr)))
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((= r1-cdr r2-cdr) (list (cons r2-car (sub1 r1-car))))
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(else
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(list (cons r2-car (sub1 r1-car)) (cons (add1 r1-cdr) r2-cdr))))))
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(test-block ()
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((split-sub-range '(1 . 10) '(1 . 10)) '())
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((split-sub-range '(1 . 5) '(1 . 10)) '((6 . 10)))
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((split-sub-range '(2 . 10) '(1 . 10)) '((1 . 1)))
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((split-sub-range '(2 . 5) '(1 . 10)) '((1 . 1) (6 . 10))))
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(define (split-acc s1 s2 i s1-i s2-i)
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(cond
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((null? s1) (values (reverse! i) (reverse! s1-i) (reverse! (append! (reverse s2) s2-i))))
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((null? s2) (values (reverse! i) (reverse! (append! (reverse s1) s1-i)) (reverse! s2-i)))
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(else
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(let ((r1 (car s1))
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(r2 (car s2)))
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(cond
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((sub-range? r1 r2)
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(split-acc (cdr s1) (append (split-sub-range r1 r2) (cdr s2))
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(cons r1 i) s1-i s2-i))
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((sub-range? r2 r1)
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(split-acc (append (split-sub-range r2 r1) (cdr s1)) (cdr s2)
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(cons r2 i) s1-i s2-i))
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((overlap? r1 r2)
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(split-acc (cons (cons (add1 (cdr r2)) (cdr r1)) (cdr s1))
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(cdr s2)
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(cons (cons (car r1) (cdr r2)) i)
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s1-i
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(cons (cons (car r2) (sub1 (car r1))) s2-i)))
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((overlap? r2 r1)
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(split-acc (cdr s1)
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(cons (cons (add1 (cdr r1)) (cdr r2)) (cdr s2))
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(cons (cons (car r2) (cdr r1)) i)
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(cons (cons (car r1) (sub1 (car r2)))s1-i )
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s2-i))
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((< (car r1) (car r2))
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(split-acc (cdr s1) s2 i (cons r1 s1-i) s2-i))
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(else
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(split-acc s1 (cdr s2) i s1-i (cons r2 s2-i))))))))
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;; split : char-set -> char-set char-set char-set
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;; returns (l1 intersect l2), l1 - (l1 intersect l2) and l2 - (l1 intersect l2)
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(define (split s1 s2)
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(split-acc s1 s2 null null null))
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(test-block ((s (lambda (s1 s2)
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(call-with-values (lambda () (split s1 s2)) list))))
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((s null null) '(() () ()))
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((s '((1 . 10)) null) '(() ((1 . 10)) ()))
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((s null '((1 . 10))) '(() () ((1 . 10))))
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((s '((1 . 10)) null) '(() ((1 . 10)) ()))
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((s '((1 . 10)) '((1 . 10))) '(((1 . 10)) () ()))
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((s '((1 . 10)) '((2 . 5))) '(((2 . 5)) ((1 . 1) (6 . 10)) ()))
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((s '((2 . 5)) '((1 . 10))) '(((2 . 5)) () ((1 . 1) (6 . 10))))
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((s '((2 . 5)) '((5 . 10))) '(((5 . 5)) ((2 . 4)) ((6 . 10))))
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((s '((5 . 10)) '((2 . 5))) '(((5 . 5)) ((6 . 10)) ((2 . 4))))
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((s '((2 . 10)) '((5 . 14))) '(((5 . 10)) ((2 . 4)) ((11 . 14))))
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((s '((5 . 14)) '((2 . 10))) '(((5 . 10)) ((11 . 14)) ((2 . 4))))
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((s '((10 . 20)) '((30 . 50))) '(() ((10 . 20)) ((30 . 50))))
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((s '((100 . 200)) '((30 . 50))) '(() ((100 . 200)) ((30 . 50))))
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((s '((1 . 5) (7 . 9) (100 . 200) (500 . 600) (600 . 700))
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'((2 . 8) (50 . 60) (101 . 104) (105 . 220)))
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'(((2 . 5) (7 . 8) (101 . 104) (105 . 200))
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((1 . 1) (9 . 9) (100 . 100) (500 . 600) (600 . 700))
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((6 . 6) (50 . 60) (201 . 220))))
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((s '((2 . 8) (50 . 60) (101 . 104) (105 . 220))
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'((1 . 5) (7 . 9) (100 . 200) (500 . 600) (600 . 700)))
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'(((2 . 5) (7 . 8) (101 . 104) (105 . 200))
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((6 . 6) (50 . 60) (201 . 220))
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((1 . 1) (9 . 9) (100 . 100) (500 . 600) (600 . 700))))
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)
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;; complement-acc : char-set nat nat -> char-set
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;; As complement. The current-nat accumulator keeps track of where the
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;; next range in the complement should start.
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(define (complement-acc s current-nat max)
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(cond
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((null? s) (if (<= current-nat max)
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(list (cons current-nat max))
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null))
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(else
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(let ((s-car (car s)))
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(cond
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((< current-nat (car s-car))
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(cons (cons current-nat (sub1 (car s-car)))
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(complement-acc (cdr s) (add1 (cdr s-car)) max)))
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((<= current-nat (cdr s-car))
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(complement-acc (cdr s) (add1 (cdr s-car)) max))
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(else
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(complement-acc (cdr s) current-nat max)))))))
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;; complement : char-set nat -> char-set
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;; A set of all the nats not in s, up to and including max.
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;; (cdr (last-pair s)) <= max
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(define (complement s max)
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(complement-acc s 0 max))
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(test-block ()
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((complement null 255) '((0 . 255)))
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((complement '((1 . 5) (7 . 7) (10 . 200)) 255)
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'((0 . 0) (6 . 6) (8 . 9) (201 . 255)))
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((complement '((0 . 254)) 255) '((255 . 255)))
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((complement '((1 . 255)) 255) '((0 . 0)))
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((complement '((0 . 255)) 255) null))
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;; char-in-set? : nat char-set -> bool
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(define (char-in-set? c cs)
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(and
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(pair? cs)
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(or (<= (caar cs) c (cdar cs))
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(char-in-set? c (cdr cs)))))
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(test-block ()
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((char-in-set? 1 null) #f)
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((char-in-set? 19 '((1 . 18) (20 . 21))) #f)
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((char-in-set? 19 '((1 . 2) (19 . 19) (20 . 21))) #t))
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(define get-a-char car)
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(define (char-set->string cs)
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(cond
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((null? cs) "")
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(else
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(string-append (format "~a(~a)-~a(~a) "
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(caar cs) (integer->char (caar cs))
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(cdar cs) (integer->char (cdar cs)))
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(char-set->string (cdr cs))))))
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(define (char-for-each-acc f start stop cs)
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(cond
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((and (> start stop) (null? cs)) (void))
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((> start stop)
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(char-for-each-acc f (caar cs) (cdar cs) (cdr cs)))
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(else
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(f start)
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(char-for-each-acc f (add1 start) stop cs))))
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(define (char-set-for-each f cs)
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(cond
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((null? cs) (void))
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(else
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(char-for-each-acc f (caar cs) (cdar cs) (cdr cs)))))
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)
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