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Example: (reverse-list (list 1 2 3 4)) => 4321 Note: I am not allowed to use string->num or num->string or reverse.

so the list is consumed and the reverse number is created (not a list anymore)

I'm having trouble with the recursive logic.

(define (reverse-list lofd)
 (cond [(empty? lofd) empty]
       [else (+ (* (exp 10 (something that starts at 0 and adds one extra everytime))
                   (first lofd))
                (convert-to-decimal (rest lofd)))]))

My code starts and turns the first number into num1*10^0 and then adds the numbers that are recursed.

What I am having trouble with is how would I make it so that in the recursion the exponent is 10^0 and then goes up to 1, 2, 3... until the length of the list minus 1? Also is my logic/template right? Thank you!

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Why are you doing arithmetic when you just want to reverse the order? –  stark Mar 19 '13 at 3:25
... because technically he is trying to compute the polynomial 1 + 2x + 3x^2 + 4x^3 at x=10. The fact that the numbers look "reversed" is a special case when x=10. He may not know that this is what he's doing, but it is. :) –  dyoo Mar 19 '13 at 5:24
This is exactly what I am trying to do but I am unable to get it =( –  James Lalonde Mar 19 '13 at 5:30
If you try directly computing a sequence of exps, you'll find that you're going "against the grain" of the recursive solution. That is, rather than directly do: 1 + 2*10^1 + 3*10^2 + 4*10^3, the direct recursive solution to this will effectively compute 1 + [10 * (2 + [10 * (3 + [10 * 4])])]. Just treat this as any other introductory recursive function that you've studied, and you'll solve it. But don't try doing it via repeated computing of exps: it's actually harder than the recursive solution, and it's actually doing much more work than necessary. –  dyoo Mar 20 '13 at 4:42

3 Answers 3

Strong suggestion: follow the Design Recipe for list structures both in spirit and to the letter. This problem is novel enough to you that you won't get it easily. You need the extra support that the Design Recipe steps make you go through.

In this specific case, you really need a good suite of examples (test cases) to help you out, because a solution to this problem is not immediately obvious. It's tricker because this function isn't from lists to lists: it's from lists to numbers, so you must have a strong suite to help you catch silly mistakes.

For example, what should?

(check-expect (reverse-list empty) <fill-me-in>)

be? And should we even consider the empty list? Is it a weird input? Is it sensical? Does the contract say that we have to deal with empty lists as input, or can we be guaranteed that it only accepts non-empty lists? This is the sort of thing you need to resolve up front! What you have right now in code can't certainly be right, because the type of your contract... well, you have not expressed a contract formally, but once you do, you'll see that the base case has to be different than what you've written so far.

In the cited link about the Design Recipe, part 5 is critical: once you have the template of your function, you need to understand what kind of thing the natural recursion is computing. Use concrete test cases to help. From looking at your code, it appears that you may have skipped this step, because the code you've written does not appear to consider the question: "What do the natural recursions compute?"

Concretely, if we're doing:

(reverse-list (list 1 2 3 4))

What do we want the answer to be? You said it yourself:

(reverse-list (list 1 2 3 4))   ==>   4321

Consider what the natural recursion will be:

(reverse-list (list 2 3 4))

What's the value of this? We know that it must be

(reverse-list (list 2 3 4))     ==>   432

Once you figure that out, ask yourself: does the value of the natural recursion have any relationship whatsoever to the answer of the original question?

Given that we're trying to solve:

(reverse-list (list 1 2 3 4))   ===>   4321

and we have the pieces 1 (the first part of the list) and 432 (from the natural recursion), can we put together 1 and 432 in some way to get 4321?

Repeat this for a few examples. And by few, I mean more than one. :) Do this concretely for those examples, and your brain will have a much better shot at pattern matching and generalizing to figure out what the code for the recursive case must be.

That is, once you've gotten enough exercise figuring out how to get the right answer for the concrete cases, go and see if you can express what you were doing with the concrete values back to the original terms in your program. e.g. if you figured out that:

we want to get 4321 out of 1 and 432:
    => 1 + 10 * 432

...  other examples you worked out...

Let's re-express these in prefix notation:

we want to get 4321 out of 1 and 432:
    => (+ 1 (* 10 432))

...  other examples you worked out...

What parts are changing? What parts are staying the same? What does the first changing part stand for? What does the second changing part stand for? That is:

we want to get 4321 out of 1 and 432:
    => (+ 1 (* 10 432))

...  other examples you worked out ...

we want to get (reverse-list lst) out of (first lst) and (reverse-list (rest lst))
    ==> ???

Once you see the pattern, then you've figured out what the code needs to be for the recursive case. But note that you truly need a suite of examples here: trying to generalize out of one specific example isn't enough for your brain to see patterns. Your brain requires the repetition from working out multiple examples to be able to start seeing patterns.

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So far I have (define (reverse-list lofd) (cond [(empty? lofd) 0] [else (+(*(exp 10 0) (first lofd))) (reverse-list (rest lofd))])) (check-expect(reverse-list empty) 0) (check-expect(reverse-list(list 1 2 3 4))4321) But I still can't figure what to do with recursive part. –  James Lalonde Mar 19 '13 at 4:15
Please step away from the code. You are not going to get anywhere with the exp stuff, and trying to "hack" it from a broken solution to a correct solution is not easy. Follow the Design Recipe. –  dyoo Mar 19 '13 at 4:21
To be more specific: what's the value of (reverse-list (list 2 3 4))? –  dyoo Mar 19 '13 at 4:23
The value would be 432. do you mean natural recursion as in the empty list returning 0? –  James Lalonde Mar 19 '13 at 4:25
When I use the term natural recursion for the problem (reverse-list (list 1 2 3 4)), I ask for: (reverse-list (list 2 3 4)). Ok, so you know that (reverse-list (list 2 3 4)) is 432. You know that the answer of (reverse-list (list 1 2 3 4)) is 4321. Is there any numeric relationship between 1, 432, and 4321? –  dyoo Mar 19 '13 at 4:29

You need to pass along another parameter, besides the input list. If needed, create a new helper procedure (or an inner procedure, or a named let, etc.) for this to work. The two parameters will keep track of the current position in the list, and the current exponent of 10. Something along these lines:

(define (reverse-list lofd n)
  (cond [(empty? lofd) ; what do we return if the list is empty?
         <???>]        ; not the empty list! we're building a number
        [else          ; otherwise add this term, taking the
         (<???> <???>  ; current element times current 10^n and
            (reverse-list <???> <???>))])) ; advance recursion over lofd and n

Call the procedure with this initial values:

(reverse-list (list 1 2 3 4) 0)
=> 4321
share|improve this answer
Yeah, the solution is significantly easier that the original author is thinking, but it is not obvious at first. The recipe will pull him through. :) –  dyoo Mar 19 '13 at 4:02
... if he doesn't skip steps. Gotta keep him to follow the steps till the solution is basically at his fingertips. But it is actually neat how relevant this particular problem is. He probably doesn't realize it yet, but he's basically deriving from first principles the form of Horner's formula for evaluating polynomials. –  dyoo Mar 19 '13 at 4:40

This is a Scheme solution; it uses stuff like null?, car and cdr which have historical importance but are not in your 'learning Racket' vocabulary. Maybe it will illustrate an approach.

(define (list->reverse-number l)
  (if (null? l)
      (+ (car l) (* 10 (list->reverse-number (cdr l)))))

If you insist on trying to use expt then you might try something like this (using named-let, which might be beyond your level):

(define (list->reverse-number l)
  (let reversing ((l l) (n 0))
    (if (null? l)
        (+ (* (expt 10 n) (car l))
           (reversing (cdr l) (+ n 1))))))

but I've no idea if the above will work. Actually, this works too.

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I understand where this solution comes from however I'm stuck at where I wrote NOTE in my code. I need the code to replace NOTE as a number that goes from 0 to the length of lofd minus one for it to work. Any ideas? Thanks! (define (reverse-number lofd) (cond [(empty? lofd) 0] [(not(empty? lofd)) (+ (*(expt 10 (NOTE)(first lofd)) (reverse-number (rest lofd)))])) –  James Lalonde Mar 19 '13 at 6:20
@JamesLalonde It should be clear from the answers you've got that the reason you're stuck is that there is nothing you can replace NOTE in your code with that gives you a solution - that path is a dead end. –  molbdnilo Mar 19 '13 at 14:26
@molbdnilo Actually, both versions in my answer work. Try them. –  GoZoner Mar 19 '13 at 15:18
@GoZoner I am aware of that, but none of them is OP's code with "NOTE" replaced by "something that goes from 0 ...", which is why I called OP's attempt a dead end. –  molbdnilo Mar 19 '13 at 15:52

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