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Atoms, tasks and retries
Atom
An :pyatom <taskflow.atom.Atom>
is the smallest unit
in TaskFlow which acts as the base for other classes (its naming was
inspired from the similarities between this type and atoms in the physical
world). Atoms have a name and may have a version. An atom is expected to
name desired input values (requirements) and name outputs (provided
values).
Note
For more details about atom inputs and outputs please visit arguments and results <arguments_and_results>
.
taskflow.atom
Task
A :pytask <taskflow.task.BaseTask>
(derived from an
atom) is a unit of work that can have an execute & rollback sequence
associated with it (they are nearly analogous to functions).
These task objects all derive from :py~taskflow.task.BaseTask
which defines what a task
must provide in terms of properties and methods.
Currently the following provided types of task subclasses are:
- :py
~taskflow.task.Task
: useful for inheriting from and creating your own subclasses. - :py
~taskflow.task.FunctorTask
: useful for wrapping existing functions into task objects.
Note
:py~taskflow.task.FunctorTask
task types can not
currently be used with the worker based engine <workers>
due to the fact
that arbitrary functions can not be guaranteed to be correctly located
(especially if they are lambda or anonymous functions) on the worker
nodes.
Retry
A :pyretry <taskflow.retry.Retry>
(derived from an
atom) is a special unit of work that handles errors, controls flow
execution and can (for example) retry other atoms with other parameters
if needed. When an associated atom fails, these retry units are
consulted to determine what the resolution strategy
should be. The goal is that with this consultation the retry atom will
suggest a strategy for getting around the failure (perhaps by
retrying, reverting a single atom, or reverting everything contained in
the retries associated scope).
Currently derivatives of the :pyretry <taskflow.retry.Retry>
base class must
provide a :py~taskflow.retry.Retry.on_failure
method to determine
how a failure should be handled. The current enumeration(s) that can be
returned from the :py~taskflow.retry.Retry.on_failure
method are defined
in an enumeration class described here:
taskflow.retry.Decision
To aid in the reconciliation process the :pyretry <taskflow.retry.Retry>
base class also
mandates :py~taskflow.retry.Retry.execute
and :py~taskflow.retry.Retry.revert
methods (although subclasses are allowed to define these methods as
no-ops) that can be used by a retry atom to interact with the runtime
execution model (for example, to track the number of times it has been
called which is useful for the :py~taskflow.retry.ForEach
retry subclass).
To avoid recreating common retry patterns the following provided retry subclasses are provided:
- :py
~taskflow.retry.AlwaysRevert
: Always reverts subflow. - :py
~taskflow.retry.AlwaysRevertAll
: Always reverts the whole flow. - :py
~taskflow.retry.Times
: Retries subflow given number of times. - :py
~taskflow.retry.ForEach
: Allows for providing different values to subflow atoms each time a failure occurs (making it possibly to resolve the failure by altering subflow atoms inputs). - :py
~taskflow.retry.ParameterizedForEach
: Same as :py~taskflow.retry.ForEach
but extracts values from storage instead of the :py~taskflow.retry.ForEach
constructor.
Note
They are similar to exception handlers but are made to be more capable due to their ability to dynamically choose a reconciliation strategy, which allows for these atoms to influence subsequent execution(s) and the inputs any associated atoms require.
Examples
import taskflow from taskflow import task from taskflow import retry from taskflow.patterns import linear_flow from taskflow import engines
>>> class EchoTask(task.Task): ... def execute(self, args,*kwargs): ... print(self.name) ... print(args) ... print(kwargs) ... >>> flow = linear_flow.Flow('f1').add( ... EchoTask('t1'), ... linear_flow.Flow('f2', retry=retry.ForEach(values=['a', 'b', 'c'], name='r1', provides='value')).add( ... EchoTask('t2'), ... EchoTask('t3', requires='value')), ... EchoTask('t4'))
In this example the flow f2
has a retry controller
r1
, that is an instance of the default retry controller
:py~taskflow.retry.ForEach
, it accepts a collection of
values and iterates over this collection when each failure occurs. On
each run :py~taskflow.retry.ForEach
retry returns the next value
from the collection and stops retrying a subflow if there are no more
values left in the collection. For example if tasks t2
or
t3
fail, then the flow f2
will be reverted and
retry r1
will retry it with the next value from the given
collection ['a', 'b', 'c']
. But if the task t1
or the task t4
fails, r1
won't retry a flow,
because tasks t1
and t4
are in the flow
f1
and don't depend on retry r1
(so they will
not consult r1
on failure).
>>> class SendMessage(task.Task): ... def execute(self, message): ... print("Sending message: %s" % message) ... >>> flow = linear_flow.Flow('send_message', retry=retry.Times(5)).add( ... SendMessage('sender'))
In this example the send_message
flow will try to
execute the SendMessage
five times when it fails. When it
fails for the sixth time (if it does) the task will be asked to
REVERT
(in this example task reverting does not cause
anything to happen but in other use cases it could).
>>> class ConnectToServer(task.Task): ... def execute(self, ip): ... print("Connecting to %s" % ip) ... >>> server_ips = ['192.168.1.1', '192.168.1.2', '192.168.1.3' ] >>> flow = linear_flow.Flow('send_message', ... retry=retry.ParameterizedForEach(rebind={'values': 'server_ips'}, ... provides='ip')).add( ... ConnectToServer(requires=['ip']))
In this example the flow tries to connect a server using a list (a tuple can also be used) of possible IP addresses. Each time the retry will return one IP from the list. In case of a failure it will return the next one until it reaches the last one, then the flow will be reverted.
Interfaces
taskflow.task
taskflow.retry.Retry
taskflow.retry.History
taskflow.retry.AlwaysRevert
taskflow.retry.AlwaysRevertAll
taskflow.retry.Times
taskflow.retry.ForEach
taskflow.retry.ParameterizedForEach
Hierarchy
taskflow.atom taskflow.task taskflow.retry.Retry taskflow.retry.AlwaysRevert taskflow.retry.AlwaysRevertAll taskflow.retry.Times taskflow.retry.ForEach taskflow.retry.ParameterizedForEach