"define a procedure 'reduce-per-key' which a procedure reducef and a list of associations in which each key is paired with a list. The output is a list of the same structure except that each key is now associated with the result of applying reducef to its associated list"
I've already written 'map-per-key' and 'group-by-key' :
(define (map-per-key mapf lls) (cond [(null? lls) '()] [else (append (mapf (car lls))(map-per-key mapf (cdr lls)))]))
(define (addval kv lls) (cond [(null? lls) (list (list (car kv)(cdr kv)))] [(eq? (caar lls) (car kv)) (cons (list (car kv) (cons (cadr kv) (cadar lls)))(cdr lls))] [else (cons (car lls)(addval kv (cdr lls)))])) (define (group-by-key lls) (cond [(null? lls) '()] [else (addval (car lls) (group-by-key (cdr lls)))]))
how would I write the next step, 'reduce-per-key' ? I'm also having trouble determining if it calls for two arguments or three.
so far, I've come up with:
(define (reduce-per-key reducef lls) (let loop ((val (car lls)) (lls (cdr lls))) (if (null? lls) val (loop (reducef val (car lls)) (cdr lls)))))
however, with a test case such as:
(reduce-per-key (lambda (kv) (list (car kv) (length (cadr kv)))) (group-by-key (map-per-key (lambda (kv) (list kv kv kv)) xs)))
I receive an incorrect argument count, but when I try to write it with three arguments, I also receive this error. Anyone know what I'm doing wrong?