Not sure if this is the right place for this question, but I have a function, which I'm pretty sure can be simplified, but I'm not sure how.

```
let rec probOK = function
| Branch(ds, p, Leaf l1, Leaf l2) when p <= 1.0 && p >= 0.0 -> true
| Branch(ds, p, b1, b2) when p <= 1.0 && p >= 0.0 -> probOK b1 && probOK b2
| Branch(ds, p , b1, Leaf l1) when p <= 1.0 && p >= 0.0 -> probOK b1
| Branch(ds, p , Leaf l2, b2) when p <= 1.0 && p >= 0.0 -> probOK b2
| _ -> false
```

The task is to define a function that takes a `probability tree`

(see below) and check whether it satisfies that every probability `p`

is `0 <= p <= 1`

. A `probability tree`

has the type

```
type ProbTree = | Branch of string * float * ProbTree * ProbTree
| Leaf of string
```

What is meant by `probability tree`

is a tree to represent sample spaces of sequential processes, where the outcomes at each stage in the process is either a success or failure.

An example of a `probability tree`

, where a six-sided die is thrown and the probability that it's `>2`

is `2/3`

, the probability it's `<= 2`

is `1/3`

and so on:

In my example, the probability tree I'm working on is:

```
let test = Branch(">2",0.67, Branch(">3",0.5, Leaf "A", Leaf "B")
, Branch(">3",0.5, Leaf "C", Leaf "D"))
```

which would return true, as all the probabilities `p`

are within 0 and 1.

Now, the function I've defined works, but I feel like the pattern matching could be simplified, perhaps by doing something akin to `([],Leaf _ )-> true`

, but I can't quite figure it out.

Any hints?

EDIT1: A shortened suggestion (now with less whitespace):

```
let rec probOK = function
| Branch(ds, p, b1, b2) when p <= 1.0 && p >= 0.0 -> probOK b1 && probOK b2
| Leaf _ -> true
| _ -> false
```