View Source Process (Elixir v1.17.1)
Conveniences for working with processes and the process dictionary.
Besides the functions available in this module, the Kernel
module
exposes and auto-imports some basic functionality related to processes
available through the following functions:
Kernel.spawn/1
andKernel.spawn/3
Kernel.spawn_link/1
andKernel.spawn_link/3
Kernel.spawn_monitor/1
andKernel.spawn_monitor/3
Kernel.self/0
Kernel.send/2
While this module provides low-level conveniences to work with processes,
developers typically use abstractions such as Agent
, GenServer
,
Registry
, Supervisor
and Task
for building their systems and
resort to this module for gathering information, trapping exits, links
and monitoring.
Aliases
Aliases are a feature introduced in Erlang/OTP 24. An alias is a way to refer to a PID in order to send messages to it. The advantage of using aliases is that they can be deactivated even if the aliased process is still running. If you send a message to a deactivated alias, nothing will happen. This makes request/response scenarios easier to implement.
You can use alias/0
or alias/1
to set an alias, and then you can send
messages to that alias like you do with PIDs using send/2
. To deactivate
an alias, you can use unalias/1
. If you send a message to a deactivated alias,
nothing will happen.
For example, you could have a process that listens for :ping
messages:
def server do
receive do
{:ping, source_alias} ->
send(source_alias, :pong)
server()
end
end
Now, another process might ping this process:
server = spawn(&server/0)
source_alias = Process.alias()
send(server, {:ping, source_alias})
receive do
:pong -> :pong
end
#=> :pong
If now you deactivate the source_alias
and ping the server again, you
won't receive any response since the server will send/2
the :pong
response
to a deactivated alias.
Process.unalias(source_alias)
send(server, {:ping, source_alias})
receive do
:pong -> :pong
after
1000 -> :timeout
end
#=> :timeout
See also the Process Aliases section of the Erlang reference manual.
Summary
Types
A process destination.
Functions
Creates a process alias.
Creates a process alias.
Tells whether the given process is alive on the local node.
Cancels a timer returned by send_after/3
.
Deletes the given key
from the process dictionary.
Demonitors the monitor identified by the given reference
.
Sends an exit signal with the given reason
to pid
.
Sets the given flag
to value
for the calling process.
Sets the given flag
to value
for the given process pid
.
Returns all key-value pairs in the process dictionary.
Returns the value for the given key
in the process dictionary,
or default
if key
is not set.
Returns all keys in the process dictionary.
Returns all keys in the process dictionary that have the given value
.
Returns the PID of the group leader for the calling process.
Sets the group leader of the given pid
to leader
.
Puts the calling process into a "hibernation" state.
Returns information about the process identified by pid
, or returns nil
if the process
is not alive.
Returns information about the process identified by pid
,
or returns nil
if the process is not alive.
Creates a link between the calling process and the given item (process or port).
Returns a list of PIDs corresponding to all the processes currently existing on the local node.
Starts monitoring the given item
from the calling process.
Starts monitoring the given item
from the calling process.
Stores the given key
-value
pair in the process dictionary.
Reads a timer created by send_after/3
.
Registers the given pid_or_port
under the given name
on the local node.
Returns a list of names which have been registered using register/2
.
Sends a message to the given dest
.
Sends msg
to dest
after time
milliseconds.
Add a descriptive term to the current process.
Sleeps the current process for the given timeout
.
Spawns the given function according to the given options.
Spawns the given function fun
from module mod
, passing the given args
according to the given options.
Explicitly deactivates a process alias.
Removes the link between the calling process and the given item (process or port).
Removes the registered name
, associated with a PID
or a port identifier.
Returns the PID or port identifier registered under name
or nil
if the
name is not registered.
Types
@type alias() :: reference()
An alias returned by alias/0
or alias/1
.
See the module documentation for more information about aliases.
@type alias_opt() :: :explicit_unalias | :reply
A process destination.
A remote or local PID, a local port, a locally registered name, or a tuple in
the form of {registered_name, node}
for a registered name at another node.
@type process_info_result_item() :: {process_info_item(), term()}
@type spawn_opt() :: :link | :monitor | {:monitor, :erlang.monitor_option()} | {:priority, :low | :normal | :high} | {:fullsweep_after, non_neg_integer()} | {:min_heap_size, non_neg_integer()} | {:min_bin_vheap_size, non_neg_integer()} | {:max_heap_size, heap_size()} | {:message_queue_data, :off_heap | :on_heap}
@type spawn_opts() :: [spawn_opt()]
Functions
@spec alias() :: alias()
Creates a process alias.
This is the same as calling alias/1
as alias([:explicit_unalias])
. See
also :erlang.alias/0
.
Inlined by the compiler.
Examples
alias = Process.alias()
Creates a process alias.
See the module documentation for more information about aliases.
See also :erlang.alias/1
.
Inlined by the compiler.
Examples
alias = Process.alias([:reply])
Tells whether the given process is alive on the local node.
If the process identified by pid
is alive (that is, it's not exiting and has
not exited yet) than this function returns true
. Otherwise, it returns
false
.
pid
must refer to a process running on the local node or ArgumentError
is raised.
Inlined by the compiler.
@spec cancel_timer(reference(), options) :: non_neg_integer() | false | :ok when options: [async: boolean(), info: boolean()]
Cancels a timer returned by send_after/3
.
When the result is an integer, it represents the time in milliseconds left until the timer would have expired.
When the result is false
, a timer corresponding to timer_ref
could not be
found. This can happen either because the timer expired, because it has
already been canceled, or because timer_ref
never corresponded to a timer.
Even if the timer had expired and the message was sent, this function does not tell you if the timeout message has arrived at its destination yet.
Inlined by the compiler.
Options
:async
- (boolean) whenfalse
, the request for cancellation is synchronous. Whentrue
, the request for cancellation is asynchronous, meaning that the request to cancel the timer is issued and:ok
is returned right away. Defaults tofalse
.:info
- (boolean) whether to return information about the timer being cancelled. When the:async
option isfalse
and:info
istrue
, then either an integer orfalse
(like described above) is returned. If:async
isfalse
and:info
isfalse
,:ok
is returned. If:async
istrue
and:info
istrue
, a message in the form{:cancel_timer, timer_ref, result}
(whereresult
is an integer orfalse
like described above) is sent to the caller of this function when the cancellation has been performed. If:async
istrue
and:info
isfalse
, no message is sent. Defaults totrue
.
Deletes the given key
from the process dictionary.
Returns the value that was under key
in the process dictionary,
or nil
if key
was not stored in the process dictionary.
Examples
iex> Process.put(:comments, ["comment", "other comment"])
iex> Process.delete(:comments)
["comment", "other comment"]
iex> Process.delete(:comments)
nil
Demonitors the monitor identified by the given reference
.
If monitor_ref
is a reference which the calling process
obtained by calling monitor/1
, that monitoring is turned off.
If the monitoring is already turned off, nothing happens.
See :erlang.demonitor/2
for more information.
Inlined by the compiler.
Examples
pid = spawn(fn -> 1 + 2 end)
ref = Process.monitor(pid)
Process.demonitor(ref)
#=> true
Sends an exit signal with the given reason
to pid
.
The following behavior applies if reason
is any term except :normal
or :kill
:
If
pid
is not trapping exits,pid
will exit with the givenreason
.If
pid
is trapping exits, the exit signal is transformed into a message{:EXIT, from, reason}
and delivered to the message queue ofpid
.
If reason
is the atom :normal
, pid
will not exit (unless pid
is
the calling process, in which case it will exit with the reason :normal
).
If it is trapping exits, the exit signal is transformed into a message
{:EXIT, from, :normal}
and delivered to its message queue.
If reason
is the atom :kill
, that is if Process.exit(pid, :kill)
is called,
an untrappable exit signal is sent to pid
which will unconditionally exit
with reason :killed
.
Inlined by the compiler.
Examples
Process.exit(pid, :kill)
#=> true
@spec flag(:error_handler, module()) :: module()
@spec flag(:max_heap_size, heap_size()) :: heap_size()
@spec flag(:message_queue_data, :off_heap | :on_heap) :: :off_heap | :on_heap
@spec flag(:min_bin_vheap_size, non_neg_integer()) :: non_neg_integer()
@spec flag(:min_heap_size, non_neg_integer()) :: non_neg_integer()
@spec flag(:priority, priority_level()) :: priority_level()
@spec flag(:save_calls, 0..10000) :: 0..10000
@spec flag(:sensitive, boolean()) :: boolean()
@spec flag(:trap_exit, boolean()) :: boolean()
Sets the given flag
to value
for the calling process.
Returns the old value of flag
.
See :erlang.process_flag/2
for more information.
Inlined by the compiler.
@spec flag(pid(), :save_calls, 0..10000) :: 0..10000
Sets the given flag
to value
for the given process pid
.
Returns the old value of flag
.
It raises ArgumentError
if pid
is not a local process.
The allowed values for flag
are only a subset of those allowed in flag/2
,
namely :save_calls
.
See :erlang.process_flag/3
for more information.
Inlined by the compiler.
Returns all key-value pairs in the process dictionary.
Inlined by the compiler.
Returns the value for the given key
in the process dictionary,
or default
if key
is not set.
Examples
# Assuming :locale was not set
iex> Process.get(:locale, "pt")
"pt"
iex> Process.put(:locale, "fr")
nil
iex> Process.get(:locale, "pt")
"fr"
@spec get_keys() :: [term()]
Returns all keys in the process dictionary.
Inlined by the compiler.
Examples
# Assuming :locale was not set
iex> :locale in Process.get_keys()
false
iex> Process.put(:locale, "pt")
nil
iex> :locale in Process.get_keys()
true
Returns all keys in the process dictionary that have the given value
.
Inlined by the compiler.
@spec group_leader() :: pid()
Returns the PID of the group leader for the calling process.
Inlined by the compiler.
Examples
Process.group_leader()
#=> #PID<0.53.0>
Sets the group leader of the given pid
to leader
.
Typically, this is used when a process started from a certain shell should
have a group leader other than :init
.
Inlined by the compiler.
Puts the calling process into a "hibernation" state.
The calling process is put into a waiting state where its memory allocation has been reduced as much as possible, which is useful if the process does not expect to receive any messages in the near future.
See :erlang.hibernate/3
for more information.
Inlined by the compiler.
Returns information about the process identified by pid
, or returns nil
if the process
is not alive.
Use this only for debugging information.
See :erlang.process_info/1
for more information.
@spec info(pid(), process_info_item()) :: process_info_result_item() | nil
@spec info(pid(), [process_info_item()]) :: [process_info_result_item()] | nil
Returns information about the process identified by pid
,
or returns nil
if the process is not alive.
See :erlang.process_info/2
for more information.
Creates a link between the calling process and the given item (process or port).
Links are bidirectional. Linked processes can be unlinked by using unlink/1
.
If such a link exists already, this function does nothing since there can only be one link between two given processes. If a process tries to create a link to itself, nothing will happen.
When two processes are linked, each one receives exit signals from the other
(see also exit/2
). Let's assume pid1
and pid2
are linked. If pid2
exits with a reason other than :normal
(which is also the exit reason used
when a process finishes its job) and pid1
is not trapping exits (see
flag/2
), then pid1
will exit with the same reason as pid2
and in turn
emit an exit signal to all its other linked processes. The behavior when
pid1
is trapping exits is described in exit/2
.
See :erlang.link/1
for more information.
Inlined by the compiler.
@spec list() :: [pid()]
Returns a list of PIDs corresponding to all the processes currently existing on the local node.
Note that if a process is exiting, it is considered to exist but not be
alive. This means that for such process, alive?/1
will return false
but
its PID will be part of the list of PIDs returned by this function.
See :erlang.processes/0
for more information.
Inlined by the compiler.
Examples
Process.list()
#=> [#PID<0.0.0>, #PID<0.1.0>, #PID<0.2.0>, #PID<0.3.0>, ...]
Starts monitoring the given item
from the calling process.
Once the monitored process dies, a message is delivered to the monitoring process in the shape of:
{:DOWN, ref, :process, object, reason}
where:
ref
is a monitor reference returned by this function;object
is either apid
of the monitored process (if monitoring a PID) or{name, node}
(if monitoring a remote or local name);reason
is the exit reason.
If the process is already dead when calling Process.monitor/1
, a
:DOWN
message is delivered immediately.
See "The need for monitoring"
for an example. See :erlang.monitor/2
for more information.
Inlined by the compiler.
Examples
pid = spawn(fn -> 1 + 2 end)
#=> #PID<0.118.0>
Process.monitor(pid)
#=> #Reference<0.906660723.3006791681.40191>
Process.exit(pid, :kill)
#=> true
receive do
msg -> msg
end
#=> {:DOWN, #Reference<0.906660723.3006791681.40191>, :process, #PID<0.118.0>, :noproc}
@spec monitor(pid() | {name, node()} | name, [:erlang.monitor_option()]) :: reference() when name: atom()
Starts monitoring the given item
from the calling process.
This function is similar to monitor/1
, but accepts options to customize how
item
is monitored. See :erlang.monitor/3
for documentation on those
options.
Inlined by the compiler.
Examples
pid =
spawn(fn ->
receive do
{:ping, source_alias} -> send(source_alias, :pong)
end
end)
#=> #PID<0.118.0>
ref_and_alias = Process.monitor(pid, alias: :reply_demonitor)
#=> #Reference<0.906660723.3006791681.40191>
send(pid, {:ping, ref_and_alias})
receive do: msg -> msg
#=> :pong
receive do: msg -> msg
#=> {:DOWN, #Reference<0.906660723.3006791681.40191>, :process, #PID<0.118.0>, :noproc}
Stores the given key
-value
pair in the process dictionary.
The return value of this function is the value that was previously stored
under key
, or nil
in case no value was stored under it.
Examples
# Assuming :locale was not set
iex> Process.put(:locale, "en")
nil
iex> Process.put(:locale, "fr")
"en"
@spec read_timer(reference()) :: non_neg_integer() | false
Reads a timer created by send_after/3
.
When the result is an integer, it represents the time in milliseconds left until the timer will expire.
When the result is false
, a timer corresponding to timer_ref
could not be
found. This can be either because the timer expired, because it has already
been canceled, or because timer_ref
never corresponded to a timer.
Even if the timer had expired and the message was sent, this function does not tell you if the timeout message has arrived at its destination yet.
Inlined by the compiler.
Registers the given pid_or_port
under the given name
on the local node.
name
must be an atom and can then be used instead of the
PID/port identifier when sending messages with Kernel.send/2
.
register/2
will fail with ArgumentError
in any of the following cases:
- the PID/Port is not existing locally and alive
- the name is already registered
- the
pid_or_port
is already registered under a differentname
The following names are reserved and cannot be assigned to processes nor ports:
nil
false
true
:undefined
Examples
Process.register(self(), :test)
#=> true
send(:test, :hello)
#=> :hello
send(:wrong_name, :hello)
** (ArgumentError) argument error
@spec registered() :: [atom()]
Returns a list of names which have been registered using register/2
.
Inlined by the compiler.
Examples
Process.register(self(), :test)
Process.registered()
#=> [:test, :elixir_config, :inet_db, ...]
@spec send(dest, msg, [option]) :: :ok | :noconnect | :nosuspend when dest: dest(), msg: any(), option: :noconnect | :nosuspend
Sends a message to the given dest
.
dest
may be a remote or local PID, a local port, a locally
registered name, or a tuple in the form of {registered_name, node}
for a
registered name at another node.
Inlined by the compiler.
Options
:noconnect
- when used, if sending the message would require an auto-connection to another node the message is not sent and:noconnect
is returned.:nosuspend
- when used, if sending the message would cause the sender to be suspended the message is not sent and:nosuspend
is returned.
Otherwise the message is sent and :ok
is returned.
Examples
iex> Process.send({:name, :node_that_does_not_exist}, :hi, [:noconnect])
:noconnect
@spec send_after(pid() | atom(), term(), non_neg_integer(), [option]) :: reference() when option: {:abs, boolean()}
Sends msg
to dest
after time
milliseconds.
If dest
is a PID, it must be the PID of a local process, dead or alive.
If dest
is an atom, it must be the name of a registered process
which is looked up at the time of delivery. No error is produced if the name does
not refer to a process.
The message is not sent immediately. Therefore, dest
can receive other messages
in-between even when time
is 0
.
This function returns a timer reference, which can be read with read_timer/1
or canceled with cancel_timer/1
.
The timer will be automatically canceled if the given dest
is a PID
which is not alive or when the given PID exits. Note that timers will not be
automatically canceled when dest
is an atom (as the atom resolution is done
on delivery).
Inlined by the compiler.
Options
:abs
- (boolean) whenfalse
,time
is treated as relative to the current monotonic time. Whentrue
,time
is the absolute value of the Erlang monotonic time at whichmsg
should be delivered todest
. To read more about Erlang monotonic time and other time-related concepts, look at the documentation for theSystem
module. Defaults tofalse
.
Examples
timer_ref = Process.send_after(pid, :hi, 1000)
@spec set_label(term()) :: :ok
Add a descriptive term to the current process.
The term does not need to be unique, and in Erlang/OTP 27+ will be shown in
Observer and in crash logs.
This label may be useful for identifying a process as one of multiple in a
given role, such as :queue_worker
or {:live_chat, user_id}
.
Examples
Process.set_label(:worker)
#=> :ok
Process.set_label({:any, "term"})
#=> :ok
@spec sleep(timeout()) :: :ok
Sleeps the current process for the given timeout
.
timeout
is either the number of milliseconds to sleep as an
integer or the atom :infinity
. When :infinity
is given,
the current process will sleep forever, and not
consume or reply to messages.
Use this function with extreme care. For almost all situations
where you would use sleep/1
in Elixir, there is likely a
more correct, faster and precise way of achieving the same with
message passing.
For example, if you are waiting for a process to perform some action, it is better to communicate the progress of such action with messages.
In other words, do not:
Task.start_link(fn ->
do_something()
...
end)
# Wait until work is done
Process.sleep(2000)
But do:
parent = self()
Task.start_link(fn ->
do_something()
send(parent, :work_is_done)
...
end)
receive do
:work_is_done -> :ok
after
# Optional timeout
30_000 -> :timeout
end
For cases like the one above, Task.async/1
and Task.await/2
are
preferred.
Similarly, if you are waiting for a process to terminate, monitor that process instead of sleeping. Do not:
Task.start_link(fn ->
...
end)
# Wait until task terminates
Process.sleep(2000)
Instead do:
{:ok, pid} =
Task.start_link(fn ->
...
end)
ref = Process.monitor(pid)
receive do
{:DOWN, ^ref, _, _, _} -> :task_is_down
after
# Optional timeout
30_000 -> :timeout
end
@spec spawn((-> any()), spawn_opts()) :: pid() | {pid(), reference()}
Spawns the given function according to the given options.
The result depends on the given options. In particular,
if :monitor
is given as an option, it will return a tuple
containing the PID and the monitoring reference, otherwise
just the spawned process PID.
More options are available; for the comprehensive list of available options
check :erlang.spawn_opt/4
.
Inlined by the compiler.
Examples
Process.spawn(fn -> 1 + 2 end, [:monitor])
#=> {#PID<0.93.0>, #Reference<0.18808174.1939079169.202418>}
Process.spawn(fn -> 1 + 2 end, [:link])
#=> #PID<0.95.0>
Spawns the given function fun
from module mod
, passing the given args
according to the given options.
The result depends on the given options. In particular,
if :monitor
is given as an option, it will return a tuple
containing the PID and the monitoring reference, otherwise
just the spawned process PID.
It also accepts extra options, for the list of available options
check :erlang.spawn_opt/4
.
Inlined by the compiler.
Explicitly deactivates a process alias.
Returns true
if alias
was a currently-active alias for current processes,
or false
otherwise.
See the module documentation for more information about aliases.
See also :erlang.unalias/1
.
Inlined by the compiler.
Examples
alias = Process.alias()
Process.unalias(alias)
#=> true
Removes the link between the calling process and the given item (process or port).
If there is no such link, this function does nothing. If pid_or_port
does
not exist, this function does not produce any errors and simply does nothing.
The return value of this function is always true
.
See :erlang.unlink/1
for more information.
Inlined by the compiler.
@spec unregister(atom()) :: true
Removes the registered name
, associated with a PID
or a port identifier.
Fails with ArgumentError
if the name is not registered
to any PID or port.
Inlined by the compiler.
Examples
Process.register(self(), :test)
#=> true
Process.unregister(:test)
#=> true
Process.unregister(:wrong_name)
** (ArgumentError) argument error
Returns the PID or port identifier registered under name
or nil
if the
name is not registered.
See :erlang.whereis/1
for more information.
Examples
Process.register(self(), :test)
Process.whereis(:test)
#=> #PID<0.84.0>
Process.whereis(:wrong_name)
#=> nil