What would be the functional programming equivalent of the State design pattern? Or more concretely, how would this Wikipedia example of State design pattern will translate to FP?
This pattern is an example of the use of the State monad, a computational environment tha augments code with state.
Here's an implementation in Haskell.
The two modes of operation of the program
The type of stateful computations with this mode, augmented with a counter.
The write function, a function in the StateM context, changes its behavior based on the stateful mode:
Run the program, launching a stateful computation initially in state A
From the above code, the output of main is:
Note that this is a purely functional solution. There is no mutable or destructive updates in this program. Instead, the state monad threads the desired mode through the computation.
Don't be fooled by the
It takes a string, does some I/O and asks for another string, etc.
This is my favorite encoding of abstract class patterns in OO: abstract class -> type, subclasses -> elements of that type.
in which we can still express this computation, but the sequence of states is fixed and not allowed to depend on input. But let's stick to the original, more lenient type.
And for the "test client":
I don't think there's pure functional equivalent for state pattern. Because pure functional programming doesn't have the concept of state and time. State pattern is intrinsically about state and time. But I think the non-pure functional equivalent exists, it's infinite lazy evaluated stream. You can implement it with C# yield.