if you have a function "test a b" which returns true if a and b are connected directly and if you have a given unordered list of things, what would be an elegant and fast solution to filter all connected things from given list?

Example:

```
let test a b = let diff = a - b in diff == 0 ;;
let lst = [4;1;7;3;8;9;2;0] ;;
filter_connected 2 lst ;;
-> [4;1;3;2;0]
```

Any hints?

Hmmm, I will try to refine my question...

- there exists an unsorted list of things, pE. "let lst = [a;b;c;d;e;f;g;h];;" with type val a' list
- there exists also a function which decide if two things are directly connectable or in other words, if the two things are direct neighbours: val test : a' -> a' -> bool
- what I need is a function which has three arguments, the first one is a specific thing, the second one the unsorted list of things as suggested above, the last one is the test-function described above: val filter_connected : a' -> a' list -> (a' -> a' -> bool) -> a' list

if a <-> b are direct neigbours and b <-> c are direct neighbours then [a;b;c] are connected.

The suggested "List.filter () lst" does not help here, because it only filters the directed neighbours.

In the example above with a <-> b and b <-> c as direct neighbours in case of test-function, and all others not, the "filter_connected" call will be:

"filter_connected b lst (test);;"

and would return: [a;b;c]

Hope it will be more clean...

`diff = 0`

where you have written`diff == 0`

, if only because they do the same things in the current implementations. But then again, if`test`

is an example of what you mean by "connected", why do you not pass it to`filter_connected`

and more importantly, isn't that definition of connectedness just equality and how is it supposed to be used to get`[4;1;3;2;0]`

? – Pascal Cuoq Mar 15 '10 at 9:18