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:

Probability tree

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   
  • That function doesn't seem to work with your example because because you're missing the case where a branch contains 2 branches. Commented Oct 5, 2017 at 10:47
  • True. I posted the wrong version of the function, but I've updated the post now.
    – Khaine775
    Commented Oct 5, 2017 at 10:49
  • FYI I've edited my answer below to something completely different. Commented Oct 5, 2017 at 11:02
  • 2
    EDIT1 looks good, aside from the whitespace :) Commented Oct 5, 2017 at 11:22

1 Answer 1


You could simplify the code by separating out the traversing of tree nodes from acting on them. Here's a function that checks if a node is valid:

let nodeProbOk = function
| Branch(_, p, _, _)-> p <= 1.0 && p >= 0.0
| Leaf _ -> true

Here's a function that tests that all nodes satisfy a predicate:

let rec forAllNodes pred = function
| Branch(_, _, a, b) as branch -> pred branch && forAllNodes pred a && forAllNodes pred b
| Leaf _ as leaf               -> pred leaf

And this is how you would use them together:

test |> forAllNodes nodeProbOk

The advantage of this approach is that you have two relatively simple functions and you can reuse forAllNodes for purposes other than validation. This limits the number of places that you need to use recursion in your code and should make things easier to reason about.

  • That's a good suggestion. What do you think of the suggestion in EDIT1?
    – Khaine775
    Commented Oct 5, 2017 at 11:06

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