Since few days, I'm learning Erlang, using the great book Programming Erlang by Joe Armstrong.
I'm following the chapter about concurrent programming, and, at the end of chapter, there's a little problem to solve:
Write a function start(AnAtom, Fun) to register AnAtom as spawn(Fun). Make sure your program works correctly in the case when two parallel processes simultaneously evaluate start/2. In this case, you must guarantee that one of these processes succeeds and the other fails.
I solved the first part of this problem, making sure that each process will be spawned with a different atom.
About the second part, I'm stuck because, if I understood correctly, I cannot find a way to check if two parallel processes evaluate simultaneously the function
start/2. At first, I thought about a counter checking the number of spawns of the process, but I'm not able to understand how to perform this check. I found something interesting here in this thread (coming from an OOP background, I thought about the Singleton pattern), but I'm not sure if reading and writing a file with a counter is the best way to perform this check. I think there's a simple way to do that.
The code I wrote is below:
-module(probl). -export([start/2,stop/1]). start(Atom,Fun) -> % check here counter value case isUniqueProcess(Times) of % here I'm trying to use a counter, but I'm stuck.. true -> Pid = spawn(fun() -> doSomething(Atom,Fun) end), register(Atom,Pid); false -> io:format("Sorry, no more processes to spawn."), void end. stop(Atom) -> case whereis(Atom) of undefined -> void; Pid -> io:format("Stopped."), Pid ! stop end. isUniqueProcess(Times) -> % here I should increment the counter, but how? if Times =:= 0 -> true; Times > 0 -> false end. doSomething(Atom,Fun) -> receive stop -> void after 15000 -> Fun(), doSomething(Atom,Fun) end.
For me, coming from a strong OOP background, it's not so easy to switch another programming mindset, like it happens in Erlang, and maybe this is the reason of my difficulties. How can I solve this problem?