# Search in a list with argument

I`m trying to implement a function that given an argument and a list, find that argument in the first element of the pair in a list

Like this:

``````#lang scheme
(define pairs
(list (cons 1 2) (cons 2 3) (cons 2 4) (cons 3 1) (cons 2 5) (cons 4 4)))

;This try only gets the first element, I need to runs o every pair on pairs
((lambda (lst arg)
(if (equal? (car (first lst)) arg) "DIFF" "EQ"))
pairs 2)

;This try below brings nok for every element, because Its not spliting the pairs
(define (arg) (lambda (x)2))
(map
(lambda (e)
(if (equal? arg (car e)) "ok" "nok"))
pairs)
``````

The idea is simple, I have pair elements, and a given number. I need to see if the first element of the pairs (they are in a list) starts with that number

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So how do you loop in Scheme? –  Le Petit Prince Feb 17 at 22:33
With map or for-each ? –  Eduardo Almeida Feb 18 at 13:13

In Racket, this is easy to implement in terms of `map`. Simply do this:

``````(define (find-pair lst arg)
(map (lambda (e)
(if (equal? (car e) arg) "ok" "nok"))
lst))
``````

Alternatively, you could do the same "by hand", basically reinventing `map`. Notice that in Scheme we use explicit recursion to implement looping:

``````(define (find-pair lst arg)
(cond ((null? lst) '())
((equal? (car (first lst)) arg)
(cons "ok" (find-pair (rest lst) arg)))
(else
(cons "nok" (find-pair (rest lst) arg)))))
``````

Either way, it works as expected:

``````(find-pair pairs 2)
=> '("nok" "ok" "ok" "nok" "ok" "nok")
(find-pair pairs 7)
=> '("nok" "nok" "nok" "nok" "nok" "nok")
``````
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This is almost what I need Oscar, but I need to say "ok" or "nok" for every element in the list. It would be something like "(find-pair pairs 4)" => "nok", "nok", "nok", "nok", "nok", "ok" –  Eduardo Almeida Feb 18 at 13:11
@EduardoAlmeida ok, I updated my answer. The question wasn't clear, it didn't specify that the output was to be a list. You should always add sample input / expected output to your questions ;) –  Óscar López Feb 18 at 13:16

In Scheme, you should usually approach algorithms with a recursive mindset - especially when lists are involved. In your case, if you find the element in the `car` of the list then you are done; if not, then you've got the same problem on the `cdr` (rest) of the list. When the list is empty, you've not found the result.

Here is a solution:

``````(define (find pred list)
(and (not (null? list))            ; no list, #f result
(or (pred (car list))         ; pred on car, #t result
(find pred (cdr list))))) ; otherwise, recurse on cdr
``````

With this your predicate function 'match if car of argument is n' is:

``````(define (predicate-if-car-is-n n)
(lambda (arg)
(eq? n (car arg))))
``````

The above stretches your understanding; make sure you understand it - it returns a new function that uses `n`.

With everything together, some examples:

``````> (find (predicate-if-car-is-n 2) '((1 . 2) (2 . 3) (4 . 5)))
#t
> (find (predicate-if-car-is-n 5) '((1 . 2) (2 . 3) (4 . 5)))
#f
``````
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