# Scheme, how to square just negative numbers in a list leaving the rest of the list intact

I have been working on a call to accumulate which goes as follows:

``````(define (accumulate op initial sequence)
(if (null? sequence)
initial
(op (car sequence)
(accumulate op initial (cdr sequence)))))
``````

However when I try to square something by slecting it through filter the answer doesn't work. What I have so far is this:

``````(define (f2b items)
(accumulate (lambda (x y)
(cons (append
(map square (filter negative? (filter number? x))) x) y)) () items)
)
``````

The Input I give is:

``````(f2a '(("sdas" 89) (-53 "sad")))
``````

The output I get is:

`````` ((sdas 89) (2809 -53 sad))
``````

I can't seem to get the negative number to go away.

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What's your input? It looks like you have a nested list of two lists, but your code doesn't handle that. –  Greg Hewgill Oct 31 '12 at 0:57
@GregHewgill I put the input that I am giving. –  Bill Nader Oct 31 '12 at 1:07

Actually, the functionality you describe is not usually the job of an accumulator. Instead, squaring negative numbers in a list seems like the perfect job for something like a map.

First, let's do:

``````(define (make-positive x)
(if (and (number? x) (negative? x))
(square x)
x))
``````

Now suppose we want to operate on a list called `lst`. If it was just a flat list, like `'(1 "2" -5 -4 6)`, then we could just

``````(map make-positive lst)
``````

Since we need to operate on lists which are nested two levels deep, we could do:

``````(map (lambda (x)
(map make-positive x))
lst)
``````

If we wanted to operate on lists which are nested arbitrarily deep, we could do:

``````(define (nested-map fn elm)
(if (list? elm)
(map (lambda (x) (nested-map fn x)) elm)
(fn elm)))

(nested-map make-positive lst)
``````

PS - we can define `map` like this:

``````(define (map fn lst)
(if (empty? lst)
'()
(cons (fn (car lst))
(map fn (cdr lst)))))
``````
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Thanks! I'm not sure why I didn't think to use map, however, this makes perfect sense! –  Bill Nader Oct 31 '12 at 15:38

It would be much easier to use filter and map. Filter is predefined but it looks like this.

``````   (define (filter1 predicate sequence)
(cond
((null? sequence) null)
((predicate (car sequence))
(cons (car sequence)
(filter predicate (cdr sequence))))
(else (filter predicate (cdr sequence)))))
``````

map is also predefined, it just runs a function over a list.

This should be pretty simple to write, but incase you need help you should just write a lamdba for the predicate in filter.

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