Python finite-state machines made easy.
- Free software: MIT license
- Documentation: https://python-statemachine.readthedocs.io.
To install Python State Machine, run this command in your terminal:
$ pip install python-statemachine
Define your state machine:
from statemachine import StateMachine, State
class TrafficLightMachine(StateMachine):
green = State('Green', initial=True)
yellow = State('Yellow')
red = State('Red')
slowdown = green.to(yellow)
stop = yellow.to(red)
go = red.to(green)
You can now create an instance:
>>> traffic_light = TrafficLightMachine()
And inspect about the current state:
>>> traffic_light.current_state
State('Green', identifier='green', value='green', initial=True)
>>> traffic_light.current_state == TrafficLightMachine.green == traffic_light.green
True
For each state, there's a dynamically created property in the form is_<state.identifier>
, that
returns True
if the current status matches the query:
>>> traffic_light.is_green
True
>>> traffic_light.is_yellow
False
>>> traffic_light.is_red
False
Query about metadata:
>>> [s.identifier for s in m.states]
['green', 'red', 'yellow']
>>> [t.identifier for t in m.transitions]
['go', 'slowdown', 'stop']
Call a transition:
>>> traffic_light.slowdown()
And check for the current status:
>>> traffic_light.current_state
State('Yellow', identifier='yellow', value='yellow', initial=False)
>>> traffic_light.is_yellow
True
You can't run a transition from an invalid state:
>>> traffic_light.is_yellow
True
>>> traffic_light.slowdown()
Traceback (most recent call last):
...
TransitionNotAllowed: Can't slowdown when in Yellow.
You can also trigger events in an alternative way, calling the run(<transition.identificer>)
method:
>>> traffic_light.is_yellow
True
>>> traffic_light.run('stop')
>>> traffic_light.is_red
True
A state machine can be instantiated with an initial value:
>>> machine = TrafficLightMachine(start_value='red')
>>> traffic_light.is_red
True
If you need to persist the current state on another object, or you're using the
state machine to control the flow of another object, you can pass this object
to the StateMachine
constructor:
>>> class MyModel(object):
... def __init__(self, state):
... self.state = state
...
>>> obj = MyModel(state='red')
>>> traffic_light = TrafficLightMachine(obj)
>>> traffic_light.is_red
True
>>> obj.state
'red'
>>> obj.state = 'green'
>>> traffic_light.is_green
True
>>> traffic_light.slowdown()
>>> obj.state
'yellow'
>>> traffic_light.is_yellow
True
Callbacks when running events:
from statemachine import StateMachine, State
class TrafficLightMachine(StateMachine):
"A traffic light machine"
green = State('Green', initial=True)
yellow = State('Yellow')
red = State('Red')
slowdown = green.to(yellow)
stop = yellow.to(red)
go = red.to(green)
def on_slowdown(self):
print('Calma, lá!')
def on_stop(self):
print('Parou.')
def on_go(self):
print('Valendo!')
>>> stm = TrafficLightMachine()
>>> stm.slowdown()
Calma, lá!
>>> stm.stop()
Parou.
>>> stm.go()
Valendo!
Or when entering/exiting states:
from statemachine import StateMachine, State
class TrafficLightMachine(StateMachine):
"A traffic light machine"
green = State('Green', initial=True)
yellow = State('Yellow')
red = State('Red')
cycle = green.to(yellow) | yellow.to(red) | red.to(green)
def on_enter_green(self):
print('Valendo!')
def on_enter_yellow(self):
print('Calma, lá!')
def on_enter_red(self):
print('Parou.')
>>> stm = TrafficLightMachine()
>>> stm.cycle()
Calma, lá!
>>> stm.cycle()
Parou.
>>> stm.cycle()
Valendo!
Your model can inherited from a custom mixin to auto-instantiate a state machine.
class CampaignMachineWithKeys(StateMachine):
"A workflow machine"
draft = State('Draft', initial=True, value=1)
producing = State('Being produced', value=2)
closed = State('Closed', value=3)
cancelled = State('Cancelled', value=4)
add_job = draft.to.itself() | producing.to.itself()
produce = draft.to(producing)
deliver = producing.to(closed)
cancel = cancelled.from_(draft, producing)
class MyModel(MachineMixin):
state_machine_name = 'CampaignMachineWithKeys'
def __init__(self, **kwargs):
for k, v in kwargs.items():
setattr(self, k, v)
super(MyModel, self).__init__()
def __repr__(self):
return "{}({!r})".format(type(self).__name__, self.__dict__)
model = MyModel(state='draft')
assert isinstance(model.statemachine, campaign_machine)
assert model.state == 'draft'
assert model.statemachine.current_state == model.statemachine.draft
model.statemachine.cancel()
assert model.state == 'cancelled'