# Minimum between a list and a number

I'm having some complications with a piece of code I'm working on. I need the procedure to take `number (list-of-numbers)` and return the minimum value between the two. So far I have this

``````(define (mini y lon)
(cond
[(empty? lon) y]
[else (min (first (foldr cons lon (list y))) (mini y (rest lon)))]))
``````

and I can't figure out the reason why it's not working. Thanks in advance.

-

The solution is overly complicated, why using `foldr` and `min`, when a simple `min` together with `apply` will do all the work? try this:

``````(define (mini y lon)
(apply min y lon))
``````

... Or you can build a single list with `y` and `lon`, but once again you don't need `foldr` for this, a simple `cons` is all you want:

``````(define (mini y lon)
(apply min (cons y lon)))
``````

... But if you really, really need to use `foldl` (or `foldr`), then it's not required to use `min`, the trick is to pass the right function:

``````(define (mini y lon)
(foldl (lambda (e a) (if (< e a) e a)) ; foldr will also work
y
lon))
``````

... Or you could use `min` after all, for a shorter solution. There are so many ways to solve this problem!

``````(define (mini y lon)
(foldl min y lon)) ; foldr will also work
``````
-
I thought of this as well but sadly we are required to use foldr or foldl. – Nikolai Naidenov Nov 15 '13 at 14:42
You should state that in the question, otherwise it doesn't make sense to use a fold here – Óscar López Nov 15 '13 at 14:43
I love fold, but I really wished it would handle multiple values, so that I could rewrite a min-max function using fold. (No, not particularly liking the idea of packing the min and max into a cons, as you'll soon see when you look at the code.) – Chris Jester-Young Nov 15 '13 at 15:26
There's at least one good reason for @user2969733 to use `fold[lr]` in preference to `(apply n-ary-function ...)`; implementations probably have a limit on the length of an argument list that can be used with a function, and `apply` with a long list could run afoul of it. `(fold[lr] n-ary-function ...)` won't have that issue. There's a bit about it (for Common Lisp) in this answer, but similar considerations probably hold for Schemes. – Joshua Taylor Nov 15 '13 at 16:40
@JoshuaTaylor Racket doesn't have that limitation, so there you can use `apply` with reckless abandon. :-) – Chris Jester-Young Nov 15 '13 at 18:49

I think Óscar nailed it for a `racket` solution, but since you tagged the cmpletely different languages Scheme and Lisp I made som solutions to fit those tags as well.

A R6RS-solution using the native `fold-left` from `(rnrs lists)`

``````#!r6rs ; #!r7rs
(import (rnrs base) (rnrs lists)) ; (import (scheme base))

(define (mini x xs)
(fold-left min x xs))

;; without fold
(define (mini-simple x xs)
(apply min x xs))
``````

Since you tagged `lisp`, here is a `Common Lisp` version. CL doesn't have `foldl/foldr`, but `reduce` which replaces both and more:

``````(defun mini (x xs)
(reduce #'min xs :initial-value x))
``````
-