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How to fork/clone a process in Erlang, as the fork in Unix?

I have searched a lot but just got nothing.

Maybe the usage looks like this:

case fork() of
  {parent, Pid} ->
  {child, Pid} ->
  {error, Msg} ->

Any ideas?


In order to explain my point better, take the following C code as an example:


Here the return value of fork() is ignored, so the next steps of both the parent process and the child process are the same, which is to execute g().

Can I achieve this in Erlang?

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up vote 1 down vote accepted

As you know, there is generic pattern to implement processes in erlang:

loop( State ) ->
      Message ->
         NewState = process( Message, State ),
         loop( NewState )

In each quant of time process has a State. So if you want to "fork" some process from current - you have to pass specific message for it. Process have to recognize that message and spawn the new process with copy of its current state in spawned process.

I've created example, to illustrate text above:

-module( test ).
-export( [ fork/1, get_state/1, change_state/2 ] ).
-export( [ loop/1 ] ).

loop( State ) ->
                { fork, Sender } ->
                        %% if you want to link with child process
                        %% call spawn_link instead of spawn
                        ClonePid = spawn( ?MODULE, loop, [ State ] ),
                        responseTo( Sender, ClonePid ),
                        loop( State );

                { get_state, Sender } ->
                        responseTo( Sender, { curr_state, State } ),
                        loop( State );

                { change_state, Data, Sender } ->
                        { Response, NewState } = processData( Data, State ),
                        responseTo( Sender, Response ),
                        loop( NewState )

fork( Pid ) ->
        Ref = make_ref(),
        Pid ! { fork, { Ref, self() } },
        get_response( Ref ).

get_state( Pid ) ->
        Ref = make_ref(),
        Pid ! { get_state, { Ref, self() } },
        get_response( Ref ).

change_state( Pid, Data ) ->
        Ref = make_ref(),
        Pid ! { change_state, Data, { Ref, self() } },
        get_response( Ref ).

get_response( Ref ) ->
                { Ref, Message } -> Message

responseTo( { Ref, Pid }, Mes ) ->
        Pid ! { Ref, Mes }.

processData( Data, State ) ->
        %% here comes logic of processing data
        %% and changing process state
        NewState = Data,
        Response = { { old_state, State }, { new_state, NewState } },
        { Response, NewState }.

Lets test it in erlang shell:

1> c(test).

Creating parent process with initial state first_state

2> ParentPid = spawn( test, loop, [ first_state ] ).
3> test:get_state( ParentPid ).

Lets change state of parent process to second_state:

4> test:change_state( ParentPid, second_state ).

Fork new process from parent process:

5> ChildPid = test:fork( ParentPid ).

Check state of forked process (it is the same as in parent process):

6> test:get_state( ChildPid ).
share|improve this answer
Accept this answer since it helps me most. Do you know if there's any approach to clone the control flow as well as the states (data) ? – Xiao Jia Sep 7 '12 at 1:23
@Xiao Jia, I don't know if this is what you really want: but, as I understand - flow control is based on current state of process. So, after forking child process with almost the same state, you may pass it message, in which told him to do something (or do the same things as parent process). So it simulates kind of cloning of flow control. – stemm Sep 7 '12 at 8:02
conceptually that's ok. But I'm trying to write a third-party utility which can actually do forking while hide details from the user. – Xiao Jia Sep 7 '12 at 10:19

(This question was also answered in the erlang-questions mailing list.)

Erlang does not have a 'fork' operation. It has a spawn operation however:

parent_process() ->
  spawn(fun() -> will_be_executed_by_child_process() end),

... where function names show in what context they will be executed. Note that any data passed to the child process will be copied to the new process' heap.

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I think this is different from Unix fork. If you consider the spawn as a fork (I know they are different, just saying the position in the code), will_also_be_executed_by_parent_process(), by the semantics of Unix fork, should be executed by the child process as well. – Xiao Jia Sep 7 '12 at 1:13

There is no fork in Erlang. But you can use one among spawn/1, spawn/2, spawn/3, spawn/4 (see also spawn_link) that are BIFs of erlang see erlang module.

So, for example:


parent_fun() ->
    io:format("this is the parent with pid: ~p~n", [self()]),
    spawn(fun() -> child_fun() end),
    io:format("still in parent process: ~p~n", [self()]).

child_fun() ->
    io:format("this is child process with pid: ~p~n", [self()]).

Execute in erlang shell as:


Note that parent process and child process have different pids.

I strongly suggest you to read: http://learnyousomeerlang.com/the-hitchhikers-guide-to-concurrency

share|improve this answer
Same problem as the answer by @aronisstav. io:format("still in parent process: ~p~n", [self()]) should also be executed by the child process, right? But if you spawn in this way, the control flow are separated. – Xiao Jia Sep 7 '12 at 1:20

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