First, note that you can simplify a bit your problem. Instead of "each bucket needs to contain between 15 and 60 potatoes and the total in the buckets should be 100" you can restate as "I need n numbers between 0 and 45 (60 - 15) such that these numbers sum up to 100 - n x 15". In other words, fill all your buckets with 15 potatoes, and now you are trying to decide how to use the remaining potatoes to fill the remaining space in your buckets.

Suppose that you have n buckets to fill, and p potatoes left. Generate a random number r between 0 and 45, you are now left with p - r potatoes. Can you now fill the remaining (n-1) buckets?

- If (p - r) < 0, you obviously cannot fill the remaining buckets, because you allocated more than what you have,
- If (p - r) > 45 * (n - 1), this is not feasible: you have too many potatoes left, and would have to exceed the capacity of your buckets.
- Otherwise, you know that if you put r potatoes in the current bucket, you will still be able to find a solution for the next buckets.

You can write this as a recursive solution: for each successive bucket, generate a random number of potatoes until that number does not prevent you from finding a solution at the next step.

Below is a very crude F# implementation, which can obviously be refined/optimized but illustrates the gist of the algorithm. allocation is a list of int containing the quantity already allocated to buckets, qty is the Quantity of potatoes left to allocate, buckets the number of buckets left and min, max the capacity of buckets. For instance with 100 potatoes and 3 buckets, you would call solve 100 3 15 60.

The resulting allocation should be "as random as it gets", i.e. it should produce with equal probability any possible allocation, with one caveat: I assumed the order of the buckets doesn't matter. Given that the algorithm allocates the remaining potatoes based on what was allocated so far, depending on the path, the "head" of the list is constrained, and the allocation will likely allocate more on the first buckets. If you wanted to have a "true" random allocation, you would need to shuffle the buckets once the allocation is finished.

Hope this helps!

```
let rng = new System.Random()
let rec allocate allocation qty buckets min max =
match buckets with
| 0 -> allocation
| 1 -> qty :: allocation
| _ ->
let candidate = rng.Next(min, max + 1) // try a number in [min,max]
let rest = qty - candidate
if rest < (buckets - 1) * min // not enough left
then allocate allocation qty buckets min max // try again
else if rest > (buckets - 1) * max // too much left
then allocate allocation qty buckets min max // try again
else allocate (candidate :: allocation) rest (buckets - 1) min max
let solve qty buckets min max =
if min * buckets > qty then failwith "unfeasible"
if max * buckets < qty then failwith "unfeasible"
allocate [] qty buckets min max
```