Data structures in functional languages are generally immutable; that is, they cannot be modified once created. So you can't perform in-place swaps like you would in an iterative array-based implementation. Instead, you need to write a function which takes your original list as an argument, and returns an independent copy of it with your desired changes.
For example, look at the built-in function
rev. It returns the reversed version of whatever list you pass it, but it does not (indeed, it can not) alter the structure of the original list.
In this case, you probably want a function
min(xs) to find the smallest element
xs, and a function
remove(x,xs) which returns a copy of
x removed (let's call it
remainder). Then just recursively sort
remainder, and prepend
x to the result.
Instead of using
< to compare elements in
min, you can enforce this unusual ordering by defining your own comparison function
lessThan(x,y) is always true if
x is even and
y is odd.
fun lessThan(x,y) = (x mod 2 = 0 and y mod 2 = 1) or (x mod 2 = y mod 2 and x < y)
Now just replace any instance of
x < y in your
min(xs) function with
Better yet, write a version
selSort(list,comp) which takes a comparison function
comp as an argument. Then you can pass it
(op <) to perform a standard sort,
lessThan to perform this "sort with a twist", or even use it sort non-integer lists (as long as you give it a comparison function with a corresponding type).