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(define (rat-add r1 r2) (let ((n1 (numer r1)) (d1 (denom r1)) (n2 (numer r2))

(define (make-rat n d)   (if (and (number? n) (number? d) (not (= d 0)))       (cons n d)       (error "cannot make a rat with denominator 0"))) (define (numer r) (head r)) (define (denom r) (tail r)). (define (rat-add r1 r2) (let ((n1 (numer r1)) (d1 (denom r1))

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(define (rat-add r1 r2) (let ((n1 (numer r1)) (d1 (denom r1)) (n2 (numer r2))

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  1. (define (make-rat n d)  (if (and (number? n) (number? d) (not (= d 0)))      (cons n d)      (error "cannot make a rat with denominator 0"))) (define (numer r) (head r)) (define (denom r) (tail r))

  2. (define (rat-add r1 r2) (let ((n1 (numer r1)) (d1 (denom r1)) (n2 (numer r2)) (d2 (denom r2))) (make-rat (+ (* n1 d2) (* n2 d1)) (* d1 d2)))) (define (rat-mul r1 r2) (let ((n1 (numer r1)) (d1 (denom r1)) (n2 (numer r2)) (d2 (denom r2))) (make-rat (* n1 n2) (* d1 d2))))

  3. (define (rat-eq r1 r2)  (let ((n1 (numer r1))        (d1 (denom r1))        (n2 (numer r2))        (d2 (denom r2)))    (= (* n1 d2) (* n2 d1))))(define (rat-leq r1 r2)  (let ((n1 (numer r1))        (d1 (denom r1))        (n2 (numer r2))        (d2 (denom r2)))    (if (>= (* d1 d2) 0) ;;if d1 and d2 have the same sign        (<= (* n1 d2) (* n2 d1))        (>= (* n1 d2) (* n2 d1)))))

  4. (define (make-rat n d)  (if (and (number? n) (number? d) (not (= d 0)))      (let ((g (gcd n d)))        (cons (/ n g) (/ d g)))      (error "..."))) (define (rat-eq r1 r2)  (and (= (numer r1) (numer r2))       (= (denom r1) (denom r2))))

  5. (define (make-rat n d)  (if (and (number? n) (number? d) (not (= d 0)))      (let* ((n2 (if (> d 0) n (- n)))             (d2 (if (> d 0) d (- d)))             (g (gcd n2 d2)))        (cons (/ n2 g) (/ d2 g)))      (error "..."))) (define (rat-leq r1 r2)  (let ((n1 (numer r1))        (d1 (denom r1))        (n2 (numer r2))        (d2 (denom r2)))    (<= (* n1 d2) (* n2 d1))))

  6. (defstruct <rat>   (n <number>) (d <number>)) (define (numer (r <rat>)) (get-rat-n r)) (define (denom (r <rat>)) (get-rat-d r)) (define (new-rat (n <number>) (d <number>))  (if (not (zero? d))      (let ((g (gcd n d)))        (make-rat (/ n g) (/ d g)))      (error "...")))

  7. (define (rat-add (r1 <rat>) (r2 <rat>)) (let ((n1 (numer r1)) (d1 (denom r1)) (n2 (numer r2)) (d2 (denom r2))) (new-rat (+ (* n1 d2) (* n2 d1)) (* d1 d2)))) (define (rat-mul (r1 <rat>) (r2 <rat>)) (let ((n1 (numer r1)) (d1 (denom r1)) (n2 (numer r2)) (d2 (denom r2))) (new-rat (* n1 n2) (* d1 d2))))

  8. (define (rat-eq (r1 <rat>) (r2 <rat>))  (let ((n1 (numer r1))        (d1 (denom r1))        (n2 (numer r2))        (d2 (denom r2)))    (= (* n1 d2) (* n2 d1))))(define (rat-leq (r1 <rat>) (r2 <rat>))  (let ((n1 (numer r1))        (d1 (denom r1))        (n2 (numer r2))        (d2 (denom r2)))    (if (>= (* d1 d2) 0) ;;if d1 and d2 have the same sign        (<= (* n1 d2) (* n2 d1))        (>= (* n1 d2) (* n2 d1)))))

  9. (define (new-rat (n <number>) (d <number>))  (if (not (= d 0))       (let ((g (gcd n d)))        (make-rat (/ n g) (/ d g)))      (error "..."))) (define (rat-eq (r1 <rat>) (r2 <rat>))   (and (= (numer r1) (numer r2))       (= (denom r1) (denom r2))))

  10. (define (new-rat (n <number>) (d <number>))   (if (not (= d 0))      (let* ((n2 (if (> d 0) n (- n)))             (d2 (if (> d 0) d (- d)))             (g (gcd n2 d2)))        (make-rat (/ n2 g) (/ d2 g)))      (error "..."))) (define rat-leq (r1 <rat>) (r2 <rat>))   (let ((n1 (numer r1))        (d1 (denom r1))        (n2 (numer r2))        (d2 (denom r2)))    (<= (* n1 d2) (* n2 d1))))

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