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(define (sum-two-sqrt a b c)

    (cond ((and (<= c a) (<= c b)) sqrt-sum(a b))
           ((and (<= a b) (<= a c)) sqrt-sum(b c))
           ((and (<= b a) (<= b c)) sqrt-sum(a c))
(define (sqrt-sum x y)
           (+ (* x x) (*y y))
(define (<= x y)
      (not (> x y))

(sum-two-sqrt 3 4 5)

This is my code

Please help me to fix the problem. :)

I just start studing Lisp today.

learned some C before but the two language is QUITE DIFFERENT!

This is the question Define a procedure that takes three numbers as arguments and returns the sum of the squares of the two larger numbers.

If you have better algorithm


Thank you :)

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(sqrt-sum a b) not sqrt-sum(a b), also why define <= ? isn't it already defined? –  user1651640 Sep 13 '12 at 4:49
OK, I changed the sqrt-sum(a b) to (sqrt-sum a b). The procedure could run now, but the result is not right. –  Jerry Zhao Sep 13 '12 at 4:55
Solved, Thank you! –  Jerry Zhao Sep 13 '12 at 4:57
Please post your solution for others' benefit. –  Barmar Sep 13 '12 at 4:58
Next time, describe your problem. You omitted describing why you think there are problems. –  dyoo Sep 14 '12 at 6:36

4 Answers 4

There's no need to define <=, it's a primitive operation. After fixing a couple of typos:

  • sqrt-sum: you were incorrectly invoking the procedure; the opening parenthesis must be written before the procedure name, not after.
  • sqrt-sum: (*y y) is incorrect, you surely meant (* y y); the space(s) after an operator matter.

This should work:

(define (sqrt-sum x y)
  (+ (* x x) (* y y)))

(define (sum-two-sqrt a b c)
  (cond ((and (<= c a) (<= c b)) (sqrt-sum a b))
        ((and (<= a b) (<= a c)) (sqrt-sum b c))
        ((and (<= b a) (<= b c)) (sqrt-sum a c))))

Or another alternative:

(define (sum-two-sqrt a b c)
  (let ((m (min a b c)))
    (cond ((= a m) (sqrt-sum b c))
          ((= b m) (sqrt-sum a c))
          (else (sqrt-sum a b)))))
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Your second solution is rather elegant, using three arguments to <= –  River Sep 13 '12 at 5:04
in python i'd do something like args.remove(min(args)) to pull the smallest arg out of the list, then return sum(arg **2 for arg in args). i would think a lisp translation of that would be even more elegant perhaps? –  J.Spiral Sep 13 '12 at 5:06
I don't know python, but that looks good. If you would want to do it functionally, you could make a list of the arguments, sort them in descending order, take the first two elements, map these to their squares, sum the resulting list of two items to produce your result. –  River Sep 13 '12 at 5:10
Come on guys, removing elements? sorting? mapping? that's overkill! my second solution is as simple as it can get for a fixed number of parameters –  Óscar López Sep 13 '12 at 5:14
upvoted for solidarity :) –  J.Spiral Sep 13 '12 at 5:23

Following up on a suggestion by @J.Spiral and seconded by @River, the following Racket code reads nicely to me:

#lang racket

(define (squares-of-larger l)
  (define two-larger (remove (apply min l) l))
  (for/sum ([i two-larger]) (* i i)))

(squares-of-larger '(3 1 4)) ;; should be 25

Please note that this solution is entirely functional, since "remove" just returns a new list.

Also note that this isn't even in the same neighborhood with HtDP; I just wanted to express this concisely, and show off for/sum.

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I didn't have Scheme interpreter here, but below seems to be shorter then other suggestions :) So it's in CL, but should look very similar in Scheme.

(defun sum-two-sqrt (a b c)
  (let ((a (max a b))
        (b (max (min a b) c)))
    (+ (* a a) (* b b))))

In Scheme this would translate to:

(define (sum-two-sqrt a b c)
  (let ((a (max a b))
        (b (max (min a b) c)))
    (+ (* a a) (* b b))))
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the algorithm seems to work, just turn



* y

whitespace is important here, else you're telling the interpreter you want to usethe function *y

add a close paren after

(define (<= x y) (not (> x y))

sqrt-sum(a b) 

turns to

(sqrt-sum a b)

and ditto for the other sqrt-sum calls

edit: also a possibility:

(define (square a) (* a a))
(define (square-sum a b c)
    (- (+ (square a) 
          (square b)
          (square c))
       (square (min a b c))))
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