Erlang logo
Reference Manual
Release Notes
PDF
Top

Kernel
Reference Manual
Version 2.16.2


Expand All
Contract All

Table of Contents

pg2

MODULE

pg2

MODULE SUMMARY

Distributed Named Process Groups

DESCRIPTION

This module implements process groups. The groups in this module differ from the groups in the module pg in several ways. In pg, each message is sent to all members in the group. In this module, each message may be sent to one, some, or all members.

A group of processes can be accessed by a common name. For example, if there is a group named foobar, there can be a set of processes (which can be located on different nodes) which are all members of the group foobar. There are no special functions for sending a message to the group. Instead, client functions should be written with the functions get_members/1 and get_local_members/1 to find out which processes are members of the group. Then the message can be sent to one or more members of the group.

If a member terminates, it is automatically removed from the group.

Warning

This module is used by the disk_log module for managing distributed disk logs. The disk log names are used as group names, which means that some action may need to be taken to avoid name clashes.

DATA TYPES

name() = any()

The name of a process group.

EXPORTS

create(Name :: name()) -> ok

Creates a new, empty process group. The group is globally visible on all nodes. If the group exists, nothing happens.

delete(Name :: name()) -> ok

Deletes a process group.

get_closest_pid(Name) -> pid() | {error, Reason}

Types:

Name = name()
Reason = {no_process, Name} | {no_such_group, Name}

This is a useful dispatch function which can be used from client functions. It returns a process on the local node, if such a process exist. Otherwise, it chooses one randomly.

get_members(Name) -> [pid()] | {error, {no_such_group, Name}}

Types:

Name = name()

Returns all processes in the group Name. This function should be used from within a client function that accesses the group. It is therefore optimized for speed.

get_local_members(Name) ->
                     [pid()] | {error, {no_such_group, Name}}

Types:

Name = name()

Returns all processes running on the local node in the group Name. This function should to be used from within a client function that accesses the group. It is therefore optimized for speed.

join(Name, Pid :: pid()) -> ok | {error, {no_such_group, Name}}

Types:

Name = name()

Joins the process Pid to the group Name. A process can join a group several times; it must then leave the group the same number of times.

leave(Name, Pid :: pid()) -> ok | {error, {no_such_group, Name}}

Types:

Name = name()

Makes the process Pid leave the group Name. If the process is not a member of the group, ok is returned.

which_groups() -> [Name :: name()]

Returns a list of all known groups.

start() -> {ok, pid()} | {error, any()}
start_link() -> {ok, pid()} | {error, any()}

Starts the pg2 server. Normally, the server does not need to be started explicitly, as it is started dynamically if it is needed. This is useful during development, but in a target system the server should be started explicitly. Use configuration parameters for kernel for this.

See Also