# Code generation for dealing with matches on regular tree-like structures?

I 'm developing a specialized quad tree for doing some bioinformatics. The types for the qtree are:

``````type base = A | C | G | T | ROOT  ;;
| Empty
| Leaf of int ref ;;

let new_node b = Nd(b,Empty,Empty,Empty,Empty);;
``````

Now to do a match on these trees when either constructing or walking you end up with something like:

``````let rec add_node  base k qtree =
let rec aux k' accum qtree' =
if k' = k then
match qtree' with
| Nd(bse, Empty, cc, gg, tt) -> Nd(bse, (Leaf(ref accum)),cc,gg,tt)
| Nd(bse, aa, Empty, gg, tt) -> Nd(bse, aa,(Leaf(ref accum)),gg,tt)
| Nd(bse, aa, cc, Empty, tt) -> Nd(bse, aa,cc,(Leaf(ref accum)),tt)
| Nd(bse, aa, cc, gg, Empty) -> Nd(bse, aa,cc,gg,(Leaf(ref accum)))
| Leaf _ -> qtree'
| Empty -> Leaf(ref accum)
| _ -> qtree'
else
match qtree' with
| Leaf(iref)  -> iref := !iref + 1; qtree'
| Nd(bse, Empty,Empty,Empty,Empty) ->  (*all empty*)
(
match base with
| A -> Nd(bse,(new_node base),Empty,Empty,Empty)
| C -> Nd(bse,Empty,(new_node base),Empty,Empty)
| G -> Nd(bse,Empty,Empty,(new_node base),Empty)
| T -> Nd(bse,Empty,Empty,Empty,(new_node base))
| _ -> qtree'
)
...
| Nd(bse, Empty,(Nd(_,_,_,_,_) as c),(Nd(_,_,_,_,_) as g),(Nd(_,_,_,_,_) as t)) ->
(
match base with
| A -> Nd(bse,(new_node base),(aux (k'+1) (accum+1) c),(aux (k'+1) (accum+1) g),(aux (k'+1) (accum+1) t))
| C -> Nd(bse,Empty,(aux (k'+1)(accum+1) c),(aux (k'+1)(accum+1) g),(aux (k'+1)(accum+1) t))
| G -> Nd(bse,Empty,(aux (k'+1)(accum+1) c),(aux (k'+1)(accum+1) g),(aux (k'+1)(accum+1) t))
| T -> Nd(bse,Empty,(aux (k'+1)(accum+1) c),(aux (k'+1)(accum+1) g),(aux (k'+1)(accum+1) t))
| _ -> qtree'
)
...
| Nd(bse, (Nd(_,_,_,_,_) as a),(Nd(_,_,_,_,_) as c),(Nd(_,_,_,_,_) as g),(Nd(_,_,_,_,_) as t)) ->
...
``````

You get the idea, basically I need to cover all 16 combinations there (4 subtrees which can either be empty or Nd). That's a lot of typing and it's error prone.

However, it's a very regular structure that would lend itself to code generation. I was going to actually generate this code using a Ruby script, but I'm wondering if this would be possible with campl4 or the new -ppx-style "macros" (for lack of a better term)? And if so, how could I get started in either one of those directions?

-
What are you trying to represent and achieve here? Why do you have two kinds of leaves (`Empty`, `Leaf`)? Why is there a `ROOT` mixed with the bases? Why is the type called `bases` and not `base`? –  Martin Jambon Nov 15 '13 at 18:17
Good questions.Just prior to reading your comment I changed bases to base in my code (Just changed it above). ROOT is only for labeling the ROOT node at the top. Empty and Leaf are different things: Empty is an initial condition, Leaf's will contain a count of how many times the string has been seen (that's the intent, the code above does not reflect that, instead the accum just shows the current level of the tree). –  aneccodeal Nov 15 '13 at 20:20
Basically, it's a tree of fixed-length strings (in this case bases, or k-mers). The number of times the k-mer has been seen already is to be stored in the leaves (I need to change the Leaf type to: Leaf of base * int ref ) –  aneccodeal Nov 15 '13 at 20:23