where is the actual comparison/swap done on two elements for a
re-order? Is this handled by the `Ord`

(ordered) type definition
itself. So the type enforces this condition of being ordered?

## What does `Ord`

mean?

`Ord`

just means that `a`

should be comparable with itself or in stricter terms operations such as `>`

, `<`

, and `==`

should be defined for `a`

. You can think of it as a constraint on the method.

## So, where is the ordering done?

And the answer is the last pattern:

```
quicksort (p:xs) = (quicksort lesser) ++ [p] ++ (quicksort greater)
where
lesser = filter (< p) xs
greater = filter (>= p) xs
```

At run time, the program is going to get an array and the array must meet either of these two patterns:

Pattern 1#: It is empty, in which case the function returns that same empty array and stops.

Pattern 2#: It is not empty or in other words, there is a head element `p`

appended to a tailing array `xs`

. In such a case, the function is told to put `p`

in the middle, put all elements of `xs`

that are less than `p`

on the left (as defined by `lesser`

) of `p`

and all elements of `xs`

that are greater than or equal to `p`

on the right of `p`

. Furthermore, the function is finally told to apply itself (i.e., the same function `quicksort`

) on `lesser`

(which as we defined above, is the array on the left hand side of `p`

) and `greater`

(which as we defined above, is the array on the right hand side of `p`

). As you can see, this will go on till you are left with a zero sized array and pattern 1# terminates the function.

Finally, whenever those recursive calls terminate the function shall return the array:

```
sortedlesser ++ p ++ sortedgreater
```

where `sortedlesser`

is the array that resulted from the application of `quicksort`

on `lesser`

and `sortedgreater`

is the array that resulted from the application of `quicksort`

on `greater`

.

## Wait… are we not duplicating p again and again?

the 'greater' predicate defines items '>= p' (the pivot), so doesn't
this mean we'll end up with an extra pivot [p] in resulting list of
the function, due to the '++ [p]' item?

No, this is not how pattern matching works. It is saying all elements in `xs`

that are greater than or equal to `p`

. By definition `p`

itself is out of `xs`

. If there are duplicates of `p`

in `xs`

then they will fall on the right hand side. Note that this choice will preserve the natural ordering of the original array.

`greater`

isn't a predicate (a function of type`a -> Bool`

); it's just the result of`filter (>= p) xs`

, which has type`Ord a => [a]`

, i.e., a list of`a`

s. – jwodder Apr 16 '12 at 2:22