superstate 1.6.1a1

Robust statechart for configurable automation rules.

Superstate

Robust statechart for configurable automation rules.

How to use

A very simple example taken from specs.

>>> from superstate import StateChart

>>> class SimpleMachine(StateChart):
...     state = {
...         'initial': 'created',
...         'states': [
...             {
...                 'name': 'created',
...                 'transitions': [
...                     {'event': 'queue', 'target': 'waiting'},
...                     {'event': 'cancel', 'target': 'canceled'},
...                 ],
...             },
...             {
...                 'name': 'waiting',
...                 'transitions': [
...                     {'event': 'process', 'target': 'processed'},
...                     {'event': 'cancel', 'target': 'canceled'},
...                 ]
...             },
...             {'name': 'processed'},
...             {'name': 'canceled'},
...         ]
...     }

>>> machine = SimpleMachine()
>>> machine.current_state
'AtomicState(created)'

>>> machine.trigger('queue')
>>> machine.current_state
'AtomicState(waiting)'

>>> machine.trigger('process')
>>> machine.current_state
'AtomicState(processed)'

>>> cancel_machine = SimpleMachine()
>>> cancel_machine.current_state
'AtomicState(created)'

>>> cancel_machine.trigger('cancel')
>>> cancel_machine.current_state
'AtomicState(canceled)'

States

A Superstate state machine must have one initial state and at least one other additional state.

A state may have pre and post callbacks, for running some code on state on_entry and on_exit, respectively. These params can be method names (as strings), callables, or lists of method names or callables.

Transitions

Transitions lead the machine from a state to another. Transitions must have both event, and target parameters. The event is the method that have to be called to launch the transition. The target is the state to which the transition will move the machine. This method is automatically created by the Superstate engine.

A transition can have optional action and cond parameters. action is a method (or callable) that will be called when transition is launched. If parameters are passed to the event method, they are passed to the action method, if it accepts these parameters. cond is a method (or callable) that is called to allow or deny the transition, depending on the result of its execution. Both action and cond can be lists.

The same event can be in multiple transitions, going to different states, having their respective needs as selectors. For the transitions having the same event, only one cond should return a true value at a time.

Install

pip install superstate

Test

tox

Attribution

Superstate is forked from https://github.com/nsi-iff/fluidity created by Rodrigo Manhães.