I'm trying to memoize a member function of a class, but every time the member is called (by another member) it makes a whole new cache and 'memoized' function.
member x.internal_dec_rates = let cache = new Dictionary< Basis*(DateTime option), float*float>() fun (basis:Basis) (tl:DateTime option) -> match cache.TryGetValue((basis,tl)) with | true, (sgl_mux, sgl_lps) -> (sgl_mux, sgl_lps) | _ -> let (sgl_mux, sgl_lps) = (* Bunch of stuff *) cache.Add((basis,tl),(sgl_mux,sgl_lps)) sgl_mux,sgl_lps
I'm using Listing 10.5 in "Real World Functional Programming" as a model. I've tried using a memoization higher-order function and that doesn't help. The above listing has the memoization built in directly.
The problem is, when I call it e.g.
member x.px (basis:Basis) (tl: DateTime option) = let (q,l) = (x.internal_dec_rates basis tl) let (q2,l2) = (x.internal_dec_rates basis tl) (exp -q)*(1.-l)
execution goes to the 'let cache=...' line, defeating the whole point. I put in the (q2,l2) line in order to make sure it wasn't a scope problem, but it doesn't seem to be.
In fact I did a test using Petricek's code as a member function and that seems to have the same issue:
// Not a member function let memo1 f = let cache = new Dictionary<_,_>() (fun x -> match cache.TryGetValue(x) with | true, v -> v | _ -> let v = f x cache.Add(x,v) v ) member x.factorial = memo1(fun y-> if (y<=0) then 1 else y*x.factorial(y-1))
Even the internal recursion of x.factorial seems to set up a new 'cache' for each level.
What am I doing wrong, and how can I make this work?