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I'm not looking to use parameters as a general purpose way to construct Erlang programs--I'm still learning the traditional design principles. I'm also not looking to emulate OOP. My only point here is to make my gen_server calls consistent across server instances. This seems more like fixing a broken abstraction to me. I can imagine a world where the language or OTP made it convenient to use any gen_server instance's api, and that's a world I want to live in.

Thanks to Zed for showing that my primary objective is possible.

Can anyone figure out a way to use parameterized modules on gen_servers? In the following example, let's assume that test_child is a gen_server with one parameter. When I try to start it, all I get is:

42> {test_child, "hello"}:start_link().
** exception exit: undef
     in function  test_child:init/1
        called as test_child:init([])
     in call from gen_server:init_it/6
     in call from proc_lib:init_p_do_apply/3

Ultimately, I'm trying to figure out a way to use multiple named instances of a gen_server. As far as I can tell, as soon as you start doing that, you can't use your pretty API anymore and have to throw messages at your instances with gen_server:call and gen_server:cast. If I could tell instances their names, this problem could be alleviated.

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You want multiple gen_servers using the same callback module, each with a different name? Or multiple gen_servers with the same name? –  Jacob Aug 14 '09 at 23:11
Multiple gen_servers using the same callback module. You can pass start_link a name to register different "instances" with. When you've got a single instance, it seem like it's typical to give it the same name as the module, and then your public API works like: some_module:some_function(). ...but that seems to be just a convenience. If you register the gen_server with a different name, it doesn't work anymore. I'd like to end up with something like: 1> Mod:some_function(). 2> Mod1:some_function(). ...where each variable refers to different instances of the gen_server module –  mwt Aug 15 '09 at 2:51
Or, alternatively, I'd like to know why I shouldn't care about this. Every gen_server intro I've seen sets up an API rather than just using gen_server casts/calls. Being new to Erlang, I expected to be able to easily clone many processes, and I'm surprised that the API feature breaks as soon as you rename your gen_servers. –  mwt Aug 15 '09 at 2:59
Looking at your exception, you forgot to pass your module in its parametrized form to gen_server:start_link. See my answer for an example. –  Zed Aug 15 '09 at 9:40
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4 Answers

I just want to say two things:

  • archaelus explains it correctly. As he says the final way he shows is the recommended way of doing it and does what you expect.

  • never, NEVER, NEVER, NEVER use the form you were trying! It is a left over from the old days which never meant what you intended and is strongly deprecated now.

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@mwt, please consider Robert's points. He's one of the creators of Erlang and he's surely the one every Erlang-newbie should listen to! –  gleber Aug 17 '09 at 8:26
Well, thanks for letting me know. I'll pay particular attention to any comments he makes. :) As to the first point, the order of commenting may have confused things. I can't tell if he's referring to archaelus' last or second to last edit at this point, but I think second to last. If so, this is similar to zed's example. As to point two, I was never going to really use that style anyway. –  mwt Aug 18 '09 at 23:51
I was referring to the last way he showed, the one not using parametrized modules, module good_style. Archaelus also comments that while using parametrized modules works it does quite fit in. Well, even if you never intended to use the style in your example that is the style you used so one must assume that is what you intended. –  rvirding Aug 19 '09 at 1:34
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There are two parts to this answer. The first is that you probably don't want to use paramatized modules until you're quite proficient with Erlang. All they give you is a different way to pass arguments around.

-module(test_module, [Param1]).

some_method() -> Param1.

is equivalent to


some_method(Param1) -> Param1.

The former doesn't buy you much at all, and very little existing Erlang code uses that style.

It's more usual to pass the name argument (assuming you're creating a number of similar gen_servers registered under different names) to the start_link function.

start_link(Name) -> gen_server:start_link({local, Name}, ?MODULE, [Name], []).

The second part to the answer is that gen_server is compatible with paramatized modules:

-module(some_module, [Param1, Param2]).

start_link() -> 
  PModule = ?MODULE:new(Param1, Param2),
  gen_server:start_link(PModule, [], []).

Param1 and Param2 will then be available in all the gen_server callback functions.

As Zed mentions, as start_link belongs to a paramatized module, you would need to do the following in order to call it:

Instance = some_module:new(Param1, Param2),

I find this to be a particularly ugly style - the code that calls some_module:new/n must know the number and order of module parameters. The code that calls some_module:new/n also cannot live in some_module itself. This in turn makes a hot upgrade more difficult if the number or order of the module parameters change. You would have to coordinate loading two modules instead of one (some_module and its interface/constructor module) even if you could find a way to upgrade running some_module code. On a minor note, this style makes it somewhat more difficult to grep the codebase for some_module:start_link uses.

The recommended way to pass parameters to gen_servers is explicitly via gen_server:start_link/3,4 function arguments and store them in the state value you return from the ?MODULE:init/1 callack.


-record(state, {param1, param2}).

start_link(Param1, Param2) ->
  gen_server:start_link(?MODULE, [Param1, Param2], []).

init([Param1, Param2]) ->
  {ok, #state{param1=Param1,param2=Param2}}.

Using this style means that you won't be caught by the various parts of OTP that don't yet fully support paramatized modules (a new and still experimental feature). Also, the state value can be changed while the gen_server instance is running, but module parameters cannot.

This style also supports hot upgrade via the code change mechanism. When the code_change/3 function is called, you can return a new state value. There is no corresponding way to return a new paramatized module instance to the gen_server code.

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I don't see the point of your second part. There are no "static" functions in parametrized modules (I miss them too). You won't be able to call start_link() without a prior call to some_module:new/2. –  Zed Aug 15 '09 at 11:20
Of course you could have a separate module, like some_module_factory, which has your start_link() returning a new parametrized some_module , but then we are too deep into oo style coding... –  Zed Aug 15 '09 at 11:22
I suppose you could create an interface module (that was parametized) that communicated with a non-paramatized gen_server via gen_server:call/2. This would avoid the upgrade problem with gen_server and mean that you pass around the server reference differently (as a paramatized module rather than a function parameter). You'd still be left with the coordinating-two-modules upgrade problem, and I can't recommend this as good style. –  archaelus Aug 16 '09 at 11:19
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I think you shouldn't use this feature this way. Looks like you are going after a OO-like interface to your gen_servers. You are using locally-registered names for this purpose - this add a lot of shared state into your program, which is The Bad Thing. Only crucial and central servers should be registered with register BIF - let all the others be unnamed and managed by some kind of manager on top of them (which should probably be registered under some name).

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what is the difference between the "manager on top of them", and the built-in process registry in terms of functionality? –  Zed Aug 15 '09 at 11:31
The difference is that manager is a specialized process, which does one thing at a time. While built-in process registry is general-purpose registry for central servers, which should be accessed globally (on a node). The chance of name clashes is much higher when using process registry. Moreover AFAIK process registry is not intended to store big number of items - i.e. it is intended for small number of processes registered –  gleber Aug 15 '09 at 13:21
I agree with you gleber and I see similarities with the dependency injection frameworks in the OO world. Dependency injection is used rather than having global static factory methods there, it increases isolation&modularity and makes testing easier. Even crucial and central servers should not be referenced by hard-coded atom names, instead those atoms should be passed into the gen server as a parameter. Parameterized modules would be once approach if they did not have problems I outline. This is why I always use plain ordinary explicit State. Hard coding names is for supervisor behaviors. –  Christian Aug 15 '09 at 14:42
I intend to access the registered names through variables that are passed around as usual. Indeed, there'd be no way for me to guess which atoms currently belonged to a gen_server instance, so there shouldn't be any actual inappropriate sharing going on. –  mwt Aug 15 '09 at 15:28
You can go with independence as far as storing your whole gen_server code in your state, with all your handle functions looking like: handle_cast(Cast, State) -> Fun = State#state.fun, Fun(State, Cast). –  Zed Aug 15 '09 at 15:55
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-module(zed, [Name]).

-export([start_link/0, init/1, handle_cast/2]).

increment() ->
    gen_server:cast(Name, increment).

start_link() ->
    gen_server:start_link({local, Name}, {?MODULE, Name}, [], []).

init([]) ->
    {ok, 0}.

handle_cast(increment, Counter) ->
    NewCounter = Counter + 1,
    io:format("~p~n", [NewCounter]),
    {noreply, NewCounter}.

This module is working fine for me:

Eshell V5.7.2  (abort with ^G)
1> S1 = zed:new(s1).
2> S1:start_link().
3> S1:increment().
4> S1:increment().
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Thanks. I'm going to add this to my project and see if the benefits outweigh the objections brought up in this thread. –  mwt Aug 15 '09 at 15:16
I guess negative votes on this answer should make things clear :) –  gleber Aug 17 '09 at 8:23
I guess we already figured out that you and archaelus are not in favor of parametrized modules, but thanks for having the count :) –  Zed Aug 17 '09 at 9:10
Nope, this is not the case. Parametrized modules are okay :) The problem is that one should not register arbitrary processes with arbitrary names using register in a way resembling object-oriented programming. –  gleber Aug 17 '09 at 19:12
It only bears a superficial resemblance to OOP, IMO. I don't want the names to be global, of course, but I do want my references callable, like the usual way people use gen_servers. I'd be just as happy if this were a language feature. The names will be remapped so the atom table isn't overflowed. The names will only be referenced through variables, rendering their global nature moot for practical purposes. I admit there's an ugliness to it, but there's an ugliness to the fact that multiple gen_servers don't work the same as single ones, isn't there? –  mwt Aug 19 '09 at 0:07
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