I'm trying to learn scheme via SICP. Exercise 1.3 reads as follow: Define a procedure that takes three numbers as arguments and returns the sum of the squares of the two larger numbers. Please comment on how I can improve my solution.

(define (big x y)
    (if (> x y) x y))

(define (p a b c)
    (cond ((> a b) (+ (square a) (square (big b c))))
          (else (+ (square b) (square (big a c))))))
  • 2
    FWIW, I think your solution is better than any of the provided answers (if you rename big to max, as suggested). – Ellen Spertus Jun 19 '11 at 19:33
  • Nice solution on your own! – lukas.pukenis Nov 4 '13 at 13:23

17 Answers 17


Looks ok to me, is there anything specific you want to improve on?

You could do something like:

(define (max2 . l)
  (lambda ()
    (let ((a (apply max l)))
      (values a (apply max (remv a l))))))

(define (q a b c)
  (call-with-values (max2 a b c)
    (lambda (a b)
      (+ (* a a) (* b b)))))

(define (skip-min . l)
  (lambda ()
    (apply values (remv (apply min l) l))))

(define (p a b c)
  (call-with-values (skip-min a b c)
    (lambda (a b)
      (+ (* a a) (* b b)))))

And this (proc p) can be easily converted to handle any number of arguments.

  • I believe the OP was asking for comments on style, and in that department there are some things that could be talked about, such as what's in my post. :-) – Chris Jester-Young Oct 2 '08 at 10:29
  • P.S. I see you on #scheme (though you seem to keep getting logged out)! Small world! – Chris Jester-Young Oct 2 '08 at 11:11
  • Yeah, seems my ISP is heavily shaping traffic on some ports. Funny thing is, I can send data, it just takes ages to receive anything :( That said, I didnt know the world had more than 100 Scheme users! hehe – leppie Oct 2 '08 at 11:31
  • Bummer about your ISP. Yes, it's nice to know there's a good handful of Schemers out here on the Internet.... :-) – Chris Jester-Young Oct 2 '08 at 11:40
  • I'm a total newbie to scheme, so it's great to see your alternative solution (which is way over my head). – ashitaka Oct 2 '08 at 12:32

Using only the concepts presented at that point of the book, I would do it:

(define (square x) (* x x))

(define (sum-of-squares x y) (+ (square x) (square y)))

(define (min x y) (if (< x y) x y))

(define (max x y) (if (> x y) x y))

(define (sum-squares-2-biggest x y z)
  (sum-of-squares (max x y) (max z (min x y))))

big is called max. Use standard library functionality when it's there.

My approach is different. Rather than lots of tests, I simply add the squares of all three, then subtract the square of the smallest one.

(define (exercise1.3 a b c)
  (let ((smallest (min a b c))
        (square (lambda (x) (* x x))))
    (+ (square a) (square b) (square c) (- (square smallest)))))

Whether you prefer this approach, or a bunch of if tests, is up to you, of course.

Alternative implementation using SRFI 95:

(define (exercise1.3 . args)
  (let ((sorted (sort! args >))
        (square (lambda (x) (* x x))))
    (+ (square (car sorted)) (square (cadr sorted)))))

As above, but as a one-liner (thanks synx @ freenode #scheme); also requires SRFI 1 and SRFI 26:

(define (exercise1.3 . args)
  (apply + (map! (cut expt <> 2) (take! (sort! args >) 2))))
  • 1
    I think doing square is more expensive than a few extra tests. But that's just me :) – leppie Oct 2 '08 at 10:31
  • 3
    I think code should optimise clarity first, performance second. However, I'm willing to accept that reasonable people can disagree on this. :-) – Chris Jester-Young Oct 2 '08 at 10:33
  • I believe code should do only as intended :) – leppie Oct 2 '08 at 10:40
  • This is a very interesting solution. There's more than one way to skin the cat. – ashitaka Oct 2 '08 at 12:34
  • 1
    min, let, lambda, sort!, map!, cut car, cadr, take!, and apply are not yet introduced at that point in the text. – Shawn J. Goff Jan 9 '10 at 16:22

I did it with the following code, which uses the built-in min, max, and square procedures. They're simple enough to implement using only what's been introduced in the text up to that point.

(define (sum-of-highest-squares x y z)
   (+ (square (max x y))
      (square (max (min x y) z))))

What about something like this?

(define (p a b c)
  (if (> a b)
      (if (> b c)
          (+ (square a) (square b))
          (+ (square a) (square c)))
      (if (> a c)
          (+ (square a) (square b))
          (+ (square b) (square c)))))
  • Voted up cause I was struggling on this and my code was on similar lines. I'm only learning and don't know yet the bigger constructs in the other examples. With your code I corrected my faulty one. Since I'm not able to add html code in here, I'm putting in my code in a separate reply below. – Christy John Dec 10 '09 at 14:10

Using only the concepts introduced up to that point of the text, which I think is rather important, here is a different solution:

(define (smallest-of-three a b c)
        (if (< a b)
            (if (< a c) a c)
            (if (< b c) b c)))

(define (square a)
        (* a a))

(define (sum-of-squares-largest a b c) 
        (+ (square a)
           (square b)
           (square c)
           (- (square (smallest-of-three a b c)))))
(define (sum-sqr x y)
(+ (square x) (square y)))

(define (sum-squares-2-of-3 x y z)
    (cond ((and (<= x y) (<= x z)) (sum-sqr y z))
             ((and (<= y x) (<= y z)) (sum-sqr x z))
             ((and (<= z x) (<= z y)) (sum-sqr x y))))
(define (f a b c) 
  (if (= a (min a b c)) 
      (+ (* b b) (* c c)) 
      (f b c a)))
  • 1
    This one's gorgeous – Jordan Dimov Apr 13 '14 at 21:30

With Scott Hoffman's and some irc help I corrected my faulty code, here it is

(define (p a b c)
    (cond ((> a b)
        (cond ((> b c)
            (+ (square a) (square b)))
            (else (+ (square a) (square c)))))
            (cond ((> a c)
                (+ (square b) (square a))))
             (+ (square b) (square c)))))

You can also sort the list and add the squares of the first and second element of the sorted list:

(require (lib "list.ss")) ;; I use PLT Scheme

(define (exercise-1-3 a b c)
  (let* [(sorted-list (sort (list a b c) >))
         (x (first sorted-list))
         (y (second sorted-list))]
    (+ (* x x) (* y y))))
  • Sébastien, I haven't learnt yet how to work with lists; but again an interesting solution. I am using PLT-scheme. Will that require work on PLT-scheme ? – ashitaka Oct 2 '08 at 12:37
  • 1
    AFAIK, that only works on PLT Scheme. :-) – Chris Jester-Young Oct 3 '08 at 10:49
  • Yes, I'm a DrScheme user – Sébastien RoccaSerra Oct 4 '08 at 6:47

Here's yet another way to do it:

#!/usr/bin/env mzscheme
#lang scheme/load

(module ex-1.3 scheme/base
  (define (ex-1.3 a b c)
    (let* ((square (lambda (x) (* x x)))
           (p (lambda (a b c) (+ (square a) (square (if (> b c) b c))))))
      (if (> a b) (p a b c) (p b a c))))

  (require scheme/contract)
  (provide/contract [ex-1.3 (-> number? number? number? number?)]))

;; tests
(module ex-1.3/test scheme/base
  (require (planet "test.ss" ("schematics" "schemeunit.plt" 2))
           (planet "text-ui.ss" ("schematics" "schemeunit.plt" 2)))
  (require 'ex-1.3)

    (test-equal? "1 2 3" (ex-1.3 1 2 3) 13)
    (test-equal? "2 1 3" (ex-1.3 2 1 3) 13)
    (test-equal? "2 1. 3.5" (ex-1.3 2 1. 3.5) 16.25)
    (test-equal? "-2 -10. 3.5" (ex-1.3 -2 -10. 3.5) 16.25)
    (test-exn "2+1i 0 0" exn:fail:contract? (lambda () (ex-1.3 2+1i 0 0)))
    (test-equal? "all equal" (ex-1.3 3 3 3) 18))))

(require 'ex-1.3/test)


$ mzscheme ex-1.3.ss
6 success(es) 0 failure(s) 0 error(s) 6 test(s) run
  • 2
    NB - MzScheme is now Racket. – Will Ness Jul 27 '18 at 10:01

It's nice to see how other people have solved this problem. This was my solution:

(define (isGreater? x y z)
(if (and (> x z) (> y z))
(+ (square x) (square y))

(define (sumLarger x y z)
(if (= (isGreater? x y z) 0)   
(sumLarger y z x)
(isGreater? x y z)))

I solved it by iteration, but I like ashitaka's and the (+ (square (max x y)) (square (max (min x y) z))) solutions better, since in my version, if z is the smallest number, isGreater? is called twice, creating an unnecessarily slow and circuitous procedure.

(define (sum a b) (+ a b))
(define (square a) (* a a))
(define (greater a b ) 
  ( if (< a b) b a))
(define (smaller a b ) 
  ( if (< a b) a b))
(define (sumOfSquare a b)
    (sum (square a) (square b)))
(define (sumOfSquareOfGreaterNumbers a b c)
  (sumOfSquare (greater a b) (greater (smaller a b) c)))

I've had a go:

(define (procedure a b c)
    (let ((y (sort (list a b c) >)) (square (lambda (x) (* x x))))
        (+ (square (first y)) (square(second y)))))
;exercise 1.3
(define (sum-square-of-max a b c)
  (+ (if (> a b) (* a a) (* b b))
     (if (> b c) (* b b) (* c c))))
  • 1
    What if A is greater than C, but lesser than B? – timmmay Dec 12 '16 at 0:59

I think this is the smallest and most efficient way:

(define (square-sum-larger a b c)
  (square (max a b))
  (square (max (min a b) c))))

Below is the solution that I came up with. I find it easier to reason about a solution when the code is decomposed into small functions.

            ; Exercise 1.3
(define (sum-square-largest a b c)
  (+ (square (greatest a b))
     (square (greatest (least a b) c))))

(define (greatest a b)
  (cond (( > a b) a)
    (( < a b) b)))

(define (least a b)
  (cond ((> a b) b)
    ((< a b) a)))

(define (square a)
  (* a a))
  • 1
    The question didn't ask for code to fulfill the exercise, it asked for comments on how they could improve their solution. What is good or bad about OP's code? What advantages does your way provide? Without comments this is not an answer to the question that was asked. – Chris H Aug 30 '17 at 14:01
  • @ChrisH - you are right. There are a lot of good solutions here. I'm working through SICP and found this post while looking to see what other solutions people had come up with. Since mine was a little different than others, I decided to leave it as yet another example. I will be sure to leave comments in the future. – Ethan Barrett Aug 30 '17 at 15:10

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