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 `x`

in `xs`

, and a function `remove(x,xs)`

which returns a copy of `xs`

with `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`

, where `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 `lessThan(x,y)`

.

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).