# Count positive elements in list

Im trying count the number of positive elements in a list. Here is what I have so far:

`````` (define howMany
(lambda (list)
(cond
[(not (list? list)) 0]
[(null? list) 0]
[(> list 0) (+ 1 (howMany (cdr list)))])))
``````

It keeps giving me an error, "expects type real number", how would you fix this?

Oh im calling this like so:

``````(howMany '(6 7 8))
``````
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Surely, you mean Scheme and not Schema? –  I GIVE CRAP ANSWERS Nov 11 '10 at 21:06

There are a couple of bugs in your code.

`(> list 0)` should be `(> (car list) 0)` as you want to check if the first element of the list is greater than 0. You cannot apply the default implementation of `>` to a list either.

`(+ 1 (howMany (cdr list)))` will also fail as `howMany` does not always evaluate to a number. You have to maintain a counter by passing that as an argument to the recursively called procedure. One way to do this is:

``````(define (howmany lst)
(let loop ((n 0) (lst lst))
(if (null? lst) n
(loop (if (> (car lst) 0) (add1 n) n) (cdr lst)))))
``````

Test:

``````> (howmany '(1 2 3 4 5))
5
> (howmany '(1 2 3 -4 5))
4
> (howmany '(1 -2 3 -4 5))
3
> (howmany '(-1 -2 3 -4 5))
2
``````
-

You can't expect `(> list 0)` to work — `list` is a list, but `>` expects its arguments to be numbers.

You want to see if the first element of the list is positive, so that should be `(> (car list) 0)`.

However: there's a bigger problem with your code: what happens if the first element is negative or zero?

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Do you mean `#t` and not just `t`? –  erjiang Nov 11 '10 at 21:18
Yes, `#t`. I'm more of a lisper than a schemer, and I often forget about these small differences. –  Gareth Rees Nov 11 '10 at 21:20
I see your point, if the first number is zero or negative it doesnt do anything. If the list looks like this: '(1 2 -3) it crashes and tells me expecting type number. –  Jack Null Nov 11 '10 at 21:46
That's because if none of the cases match, the value of the `cond` expression "returns unspecified values" (as it says in R6RS)—pr‌​obably in fact it returns `#f` or `()`. And then you try to add 1 to this, which is a type error since `+` expects its arguments to be numbers. –  Gareth Rees Nov 11 '10 at 21:54
Expect `cond` to return `<void>` or other suitable nothing if none of the clauses match. `'()` actually counts as true. –  erjiang Nov 11 '10 at 22:40
show 1 more comment

Here's your problem: `(> list 0)`

You're comparing a list to a number. Try `(> (length list) 0)` or `(not (null? list))`. Or whatever the Scheme keyword for "default condition in a `cond` block" is.

Edit: This is what you get when you focus on error messages foremost. Gareth has it right, of course.

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Scheme has no special keyword for "default condition in a cond". You just give `#t` (scheme's keyword for true) as the condition when you want a default condition. –  sepp2k Nov 11 '10 at 21:20
Ahh thanks. I dabbled in Common Lisp a bit, so Scheme looks like a foreign dialect to me. –  Mihai Nov 11 '10 at 21:23
"no special keyword" — there's `else` in R6RS –  Gareth Rees Nov 11 '10 at 21:55
I think the `else` clause of Scheme has been around a lot longer than R6RS. –  erjiang Nov 11 '10 at 22:38
``````positiveCounter(seq)
if typeof(first(seq)) == num
if first(seq) > 0
return positiveCounter(rest(seq) + 1
else
return positiveCounter(rest(seq)
else
#Handle Errors Somehow.
``````

Pseudocode for the recursive algorithm I would use.

I don't know either Scheme or Clojure (which your square brackets remind me of).

Or you could write a considerably snazzier applicative approach in Common Lisp- extra newlines for readability.

``````(defun positiveCounter (seq)
(reduce #'+
(mapcar
#'(lambda (x)
(if (atom x)
(if (> x 0) 1 0)
0))
seq)))
``````
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The square brackets that some Schemes allow are purely for readability — they're the same thing as parens. The Scheme equivalent is pretty close: `(define (positive-counter seq) (apply + (map (lambda (x) (if (number? x) (if (> x 0) 1 0) 0)) seq)))` –  Chuck Nov 12 '10 at 0:51
@Chuck: good to know. –  Paul Nathan Nov 12 '10 at 2:06
@Chuck: `(if (and (number? x) (> x 0)) 1 0)`, surely? –  Jack Kelly Nov 12 '10 at 4:55