Elixir v1.8.0-rc.1 Task View Source
Conveniences for spawning and awaiting tasks.
Tasks are processes meant to execute one particular action throughout their lifetime, often with little or no communication with other processes. The most common use case for tasks is to convert sequential code into concurrent code by computing a value asynchronously:
task = Task.async(fn -> do_some_work() end)
res = do_some_other_work()
res + Task.await(task)
Tasks spawned with async
can be awaited on by their caller
process (and only their caller) as shown in the example above.
They are implemented by spawning a process that sends a message
to the caller once the given computation is performed.
Besides async/1
and await/2
, tasks can also be
started as part of a supervision tree and dynamically spawned
on remote nodes. We will explore all three scenarios next.
async and await
One of the common uses of tasks is to convert sequential code
into concurrent code with Task.async/1
while keeping its semantics.
When invoked, a new process will be created, linked and monitored
by the caller. Once the task action finishes, a message will be sent
to the caller with the result.
Task.await/2
is used to read the message sent by the task.
There are two important things to consider when using async
:
If you are using async tasks, you must await a reply as they are always sent. If you are not expecting a reply, consider using
Task.start_link/1
detailed below.async tasks link the caller and the spawned process. This means that, if the caller crashes, the task will crash too and vice-versa. This is on purpose: if the process meant to receive the result no longer exists, there is no purpose in completing the computation.
If this is not desired, use
Task.start/1
or consider starting the task under aTask.Supervisor
usingasync_nolink
orstart_child
.
Task.yield/2
is an alternative to await/2
where the caller will
temporarily block, waiting until the task replies or crashes. If the
result does not arrive within the timeout, it can be called again at a
later moment. This allows checking for the result of a task multiple
times. If a reply does not arrive within the desired time,
Task.shutdown/2
can be used to stop the task.
Supervised tasks
It is also possible to spawn a task under a supervisor. The Task
module implements the child_spec/1
function, which allows it to
be started directly under a supervisor by passing a tuple with
a function to run:
Supervisor.start_link([
{Task, fn -> :some_work end}
], strategy: :one_for_one)
However, if you want to invoke a specific module, function and arguments, or give the task process a name, you need to define the task in its own module:
defmodule MyTask do
use Task
def start_link(arg) do
Task.start_link(__MODULE__, :run, [arg])
end
def run(arg) do
# ...
end
end
And then passing it to the supervisor:
Supervisor.start_link([
{MyTask, arg}
], strategy: :one_for_one)
Since these tasks are supervised and not directly linked to
the caller, they cannot be awaited on. start_link/1
, unlike
async/1
, returns {:ok, pid}
(which is the result expecte
by supervisors).
use Task
defines a child_spec/1
function, allowing the
defined module to be put under a supervision tree. The generated
child_spec/1
can be customized with the following options:
:id
- the child specification identifier, defaults to the current module:start
- how to start the child process (defaults to calling__MODULE__.start_link/1
):restart
- when the child should be restarted, defaults to:temporary
:shutdown
- how to shut down the child, either immediately or by giving it time to shut down
Opposite to GenServer
, Agent
and Supervisor
, a Task has
a default :restart
of :temporary
. This means the task will
not be restarted even if it crashes. If you desire the task to
be restarted for non-successful exits, do:
use Task, restart: :transient
If you want the task to always be restarted:
use Task, restart: :permanent
See the "Child specification" section in the Supervisor
module
for more detailed information. The @doc
annotation immediately
preceding use Task
will be attached to the generated child_spec/1
function.
Dynamically supervised tasks
The Task.Supervisor
module allows developers to dynamically
create multiple supervised tasks.
A short example is:
{:ok, pid} = Task.Supervisor.start_link()
task =
Task.Supervisor.async(pid, fn ->
# Do something
end)
Task.await(task)
However, in the majority of cases, you want to add the task supervisor to your supervision tree:
Supervisor.start_link([
{Task.Supervisor, name: MyApp.TaskSupervisor}
], strategy: :one_for_one)
Now you can dynamically start supervised tasks:
Task.Supervisor.start_child(MyApp.TaskSupervisor, fn ->
# Do something
end)
Or even use the async/await pattern:
Task.Supervisor.async(MyApp.TaskSupervisor, fn ->
# Do something
end)
|> Task.await()
Finally, check Task.Supervisor
for other supported operations.
Distributed tasks
Since Elixir provides a Task.Supervisor
, it is easy to use one
to dynamically spawn tasks across nodes:
# On the remote node
Task.Supervisor.start_link(name: MyApp.DistSupervisor)
# On the client
supervisor = {MyApp.DistSupervisor, :remote@local}
Task.Supervisor.async(supervisor, MyMod, :my_fun, [arg1, arg2, arg3])
Note that, when working with distributed tasks, one should use the Task.Supervisor.async/4
function
that expects explicit module, function and arguments, instead of Task.Supervisor.async/2
that
works with anonymous functions. That's because anonymous functions expect
the same module version to exist on all involved nodes. Check the Agent
module
documentation for more information on distributed processes as the limitations
described there apply to the whole ecosystem.
Link to this section Summary
Functions
The Task struct.
Starts a task that must be awaited on.
Starts a task that must be awaited on.
Returns a stream that runs the given function fun
concurrently
on each item in enumerable
.
Returns a stream where the given function (module
and function_name
)
is mapped concurrently on each item in enumerable
.
Awaits a task reply and returns it.
Returns a specification to start a task under a supervisor.
Unlinks and shuts down the task, and then checks for a reply.
Starts a task.
Starts a task.
Starts a process linked to the current process.
Starts a task as part of a supervision tree.
Temporarily blocks the current process waiting for a task reply.
Yields to multiple tasks in the given time interval.
Link to this section Types
Specs
The Task type.
See %Task{}
for information about each field of the structure.
Link to this section Functions
The Task struct.
It contains these fields:
:pid
- the PID of the task process;nil
if the task does not use a task process:ref
- the task monitor reference:owner
- the PID of the process that started the task
Specs
Starts a task that must be awaited on.
fun
must be a zero-arity anonymous function.
This function spawns a process that is linked to and monitored
by the caller process. A Task
struct is returned containing
the relevant information.
Read the Task
module documentation for more information about the
general usage of async/1
and async/3
.
See also async/3
.
Specs
Starts a task that must be awaited on.
A Task
struct is returned containing the relevant information.
Developers must eventually call Task.await/2
or Task.yield/2
followed by Task.shutdown/2
on the returned task.
Read the Task
module documentation for more information about
the general usage of async/1
and async/3
.
Linking
This function spawns a process that is linked to and monitored by the caller process. The linking part is important because it aborts the task if the parent process dies. It also guarantees the code before async/await has the same properties after you add the async call. For example, imagine you have this:
x = heavy_fun()
y = some_fun()
x + y
Now you want to make the heavy_fun()
async:
x = Task.async(&heavy_fun/0)
y = some_fun()
Task.await(x) + y
As before, if heavy_fun/0
fails, the whole computation will
fail, including the parent process. If you don't want the task
to fail then you must change the heavy_fun/0
code in the
same way you would achieve it if you didn't have the async call.
For example, to either return {:ok, val} | :error
results or,
in more extreme cases, by using try/rescue
. In other words,
an asynchronous task should be thought of as an extension of a
process rather than a mechanism to isolate it from all errors.
If you don't want to link the caller to the task, then you
must use a supervised task with Task.Supervisor
and call
Task.Supervisor.async_nolink/2
.
In any case, avoid any of the following:
Setting
:trap_exit
totrue
- trapping exits should be used only in special circumstances as it would make your process immune to not only exits from the task but from any other processes.Moreover, even when trapping exits, calling
await
will still exit if the task has terminated without sending its result back.Unlinking the task process started with
async
/await
. If you unlink the processes and the task does not belong to any supervisor, you may leave dangling tasks in case the parent dies.
Message format
The reply sent by the task will be in the format {ref, result}
,
where ref
is the monitor reference held by the task struct
and result
is the return value of the task function.
Specs
async_stream(Enumerable.t(), (term() -> term()), keyword()) :: Enumerable.t()
Returns a stream that runs the given function fun
concurrently
on each item in enumerable
.
Works the same as async_stream/5
but with an anonymous function instead of a
module-function-arguments tuple. fun
must be a one-arity anonymous function.
Each enumerable
item is passed as argument to the given function fun
and
processed by its own task. The tasks will be linked to the current process,
similarly to async/1
.
Example
Count the codepoints in each string asynchronously, then add the counts together using reduce.
iex> strings = ["long string", "longer string", "there are many of these"]
iex> stream = Task.async_stream(strings, fn text -> text |> String.codepoints() |> Enum.count() end)
iex> Enum.reduce(stream, 0, fn {:ok, num}, acc -> num + acc end)
47
See async_stream/5
for discussion, options, and more examples.
async_stream(enumerable, module, function_name, args, options \\ [])
View Source (since 1.4.0)Specs
async_stream(Enumerable.t(), module(), atom(), [term()], keyword()) :: Enumerable.t()
Returns a stream where the given function (module
and function_name
)
is mapped concurrently on each item in enumerable
.
Each item of enumerable
will be prepended to the given args
and
processed by its own task. The tasks will be linked to an intermediate
process that is then linked to the current process. This means a failure
in a task terminates the current process and a failure in the current process
terminates all tasks.
When streamed, each task will emit {:ok, value}
upon successful
completion or {:exit, reason}
if the caller is trapping exits.
The order of results depends on the value of the :ordered
option.
The level of concurrency and the time tasks are allowed to run can be controlled via options (see the "Options" section below).
Consider using Task.Supervisor.async_stream/6
to start tasks
under a supervisor. If you find yourself trapping exits to handle exits
inside the async stream, consider using Task.Supervisor.async_stream_nolink/6
to start tasks that are not linked to the calling process.
Options
:max_concurrency
- sets the maximum number of tasks to run at the same time. Defaults toSystem.schedulers_online/0
.:ordered
- whether the results should be returned in the same order as the input stream. This option is useful when you have large streams and don't want to buffer results before they are delivered. This is also useful when you're using the tasks for side effects. Defaults totrue
.:timeout
- the maximum amount of time (in milliseconds) each task is allowed to execute for. Defaults to5000
.:on_timeout
- what to do when a task times out. The possible values are::exit
(default) - the process that spawned the tasks exits.:kill_task
- the task that timed out is killed. The value emitted for that task is{:exit, :timeout}
.
Example
Let's build a stream and then enumerate it:
stream = Task.async_stream(collection, Mod, :expensive_fun, [])
Enum.to_list(stream)
The concurrency can be increased or decreased using the :max_concurrency
option. For example, if the tasks are IO heavy, the value can be increased:
max_concurrency = System.schedulers_online() * 2
stream = Task.async_stream(collection, Mod, :expensive_fun, [], max_concurrency: max_concurrency)
Enum.to_list(stream)
If you do not care about the results of the computation, you can run
the stream with Stream.run/1
. Also set ordered: false
, as you don't
care about the order of the results either:
stream = Task.async_stream(collection, Mod, :expensive_fun, [], ordered: false)
Stream.run(stream)
Specs
Awaits a task reply and returns it.
In case the task process dies, the current process will exit with the same reason as the task.
A timeout in milliseconds or :infinity
, can be given with a default value of 5000
. If the
timeout is exceeded, then the current process will exit. If the task process
is linked to the current process which is the case when a task is started with
async
, then the task process will also exit. If the task process is trapping
exits or not linked to the current process, then it will continue to run.
This function assumes the task's monitor is still active or the monitor's
:DOWN
message is in the message queue. If it has been demonitored, or the
message already received, this function will wait for the duration of the
timeout awaiting the message.
This function can only be called once for any given task. If you want
to be able to check multiple times if a long-running task has finished
its computation, use yield/2
instead.
Compatibility with OTP behaviours
It is not recommended to await
a long-running task inside an OTP
behaviour such as GenServer
. Instead, you should match on the message
coming from a task inside your GenServer.handle_info/2
callback. For
more information on the format of the message, see the documentation for
async/1
.
Examples
iex> task = Task.async(fn -> 1 + 1 end)
iex> Task.await(task)
2
Specs
child_spec(term()) :: Supervisor.child_spec()
Returns a specification to start a task under a supervisor.
arg
is passed as the argument to Task.start_link/1
in the :start
field
of the spec.
For more information, see the Supervisor
module,
the Supervisor.child_spec/2
function and the Supervisor.child_spec/0
type.
Specs
Unlinks and shuts down the task, and then checks for a reply.
Returns {:ok, reply}
if the reply is received while shutting down the task,
{:exit, reason}
if the task died, otherwise nil
.
The second argument is either a timeout or :brutal_kill
. In case
of a timeout, a :shutdown
exit signal is sent to the task process
and if it does not exit within the timeout, it is killed. With :brutal_kill
the task is killed straight away. In case the task terminates abnormally
(possibly killed by another process), this function will exit with the same reason.
It is not required to call this function when terminating the caller, unless
exiting with reason :normal
or if the task is trapping exits. If the caller is
exiting with a reason other than :normal
and the task is not trapping exits, the
caller's exit signal will stop the task. The caller can exit with reason
:shutdown
to shut down all of its linked processes, including tasks, that
are not trapping exits without generating any log messages.
If a task's monitor has already been demonitored or received and there is not
a response waiting in the message queue this function will return
{:exit, :noproc}
as the result or exit reason can not be determined.
Specs
Starts a task.
fun
must be a zero-arity anonymous function.
This is only used when the task is used for side-effects (i.e. no interest in the returned result) and it should not be linked to the current process.
Specs
Starts a task.
This is only used when the task is used for side-effects (i.e. no interest in the returned result) and it should not be linked to the current process.
Specs
Starts a process linked to the current process.
fun
must be a zero-arity anonymous function.
This is often used to start the process as part of a supervision tree.
Specs
Starts a task as part of a supervision tree.
Specs
Temporarily blocks the current process waiting for a task reply.
Returns {:ok, reply}
if the reply is received, nil
if
no reply has arrived, or {:exit, reason}
if the task has already
exited. Keep in mind that normally a task failure also causes
the process owning the task to exit. Therefore this function can
return {:exit, reason}
only if
- the task process exited with the reason
:normal
- it isn't linked to the caller
- the caller is trapping exits
A timeout, in milliseconds or :infinity
, can be given with a default value
of 5000
. If the time runs out before a message from
the task is received, this function will return nil
and the monitor will remain active. Therefore yield/2
can be
called multiple times on the same task.
This function assumes the task's monitor is still active or the
monitor's :DOWN
message is in the message queue. If it has been
demonitored or the message already received, this function will wait
for the duration of the timeout awaiting the message.
If you intend to shut the task down if it has not responded within timeout
milliseconds, you should chain this together with shutdown/1
, like so:
case Task.yield(task, timeout) || Task.shutdown(task) do
{:ok, result} ->
result
nil ->
Logger.warn("Failed to get a result in #{timeout}ms")
nil
end
That ensures that if the task completes after the timeout
but before shutdown/1
has been called, you will still get the result, since shutdown/1
is designed to
handle this case and return the result.
Specs
Yields to multiple tasks in the given time interval.
This function receives a list of tasks and waits for their
replies in the given time interval. It returns a list
of two-element tuples, with the task as the first element
and the yielded result as the second. The tasks in the returned
list will be in the same order as the tasks supplied in the tasks
input argument.
Similarly to yield/2
, each task's result will be
{:ok, term}
if the task has successfully reported its result back in the given time interval{:exit, reason}
if the task has diednil
if the task keeps running past the timeout
A timeout, in milliseconds or :infinity
, can be given with a default value
of 5000
.
Check yield/2
for more information.
Example
Task.yield_many/2
allows developers to spawn multiple tasks
and retrieve the results received in a given timeframe.
If we combine it with Task.shutdown/2
, it allows us to gather
those results and cancel the tasks that have not replied in time.
Let's see an example.
tasks =
for i <- 1..10 do
Task.async(fn ->
Process.sleep(i * 1000)
i
end)
end
tasks_with_results = Task.yield_many(tasks, 5000)
results =
Enum.map(tasks_with_results, fn {task, res} ->
# Shut down the tasks that did not reply nor exit
res || Task.shutdown(task, :brutal_kill)
end)
# Here we are matching only on {:ok, value} and
# ignoring {:exit, _} (crashed tasks) and `nil` (no replies)
for {:ok, value} <- results do
IO.inspect(value)
end
In the example above, we create tasks that sleep from 1
up to 10 seconds and return the number of seconds they slept for.
If you execute the code all at once, you should see 1 up to 5
printed, as those were the tasks that have replied in the
given time. All other tasks will have been shut down using
the Task.shutdown/2
call.