That's quite interesting! I don't have any official information (and I didn't see this documented anywhere), but here are some thoughts on how the
Adapt function might work.
mapi take curried form of a function, which means that the type of the argument is compiled to something like
FSharpFunc<int, FSharpFunc<T, R>>. However, many functions are actually compiled directly as functions of two arguments, so the actual value would typically be
FSharpFunc<int, T, R> which inherits from
FSharpFunc<int, FSharpFunc<T, R>>.
If you call this function (e.g.
f 1 "a") the F# compiler generates something like this:
FSharpFunc<int, string>.InvokeFast<a>(f, 1, "a");
If you look at the
InvokeFast function using Reflector, you'll see that it tests if the function is compiled as the optimized version (
f :? FSharpFunc<int, T, R>). If yes, then it directly calls
Invoke(1, "a") and if not then it needs to make two calls
This check is done each time you call a function passed as an argument (it is probably faster to do the check and then use the optimized call, because that's more common).
Adapt function does is that it converts any function to
FSharpFunc<T1, T2, R> (if the function is not optimized, it creates a wrapper for it, but that's not the case most of the time). The calls to the adapted function will be faster, because they don't need to do the dynamic check every time (the check is done only once inside
So, the summary is that
Adapt could improve the performance if you're calling a function passed as an argument that takes more than 1 argument a large number of times. As with any optimizaions, I wouldn't use this blindly, but it is an interesting thing to be aware of when tuning the performance!
(BTW: Thanks for a very interesting question, I didn't know the compiler does this :-))