advanced-python-homework-2023/turtle/equipment/turtle_device.py
2023-10-26 17:28:48 +03:00

86 lines
3.4 KiB
Python

from turtle import Turtle
from typing import Optional, Collection, Any
from controls.device import SynchronyDevice
from controls.device import TraitDescriptor
from controls.device import ActionDescriptor
from controls.device import DeviceError
import inspect
class TurtleDevice(SynchronyDevice):
def open(self):
self.turtle = Turtle()
self.descriptors = dict(traits=dict(), actions=dict())
super().open()
def close(self):
self.turtle.clear()
super().close()
def trait_descriptors(self) -> Collection[TraitDescriptor]:
return self.get_descriptors()["traits"]
def action_descriptors(self) -> Collection[ActionDescriptor]:
return self.get_descriptors()["actions"]
def __getitem__(self, trait_name: str) -> Optional[Any]:
"""Return logical state of trait `trait_name`."""
return self.descriptors[trait_name]
def read_descriptors(self, arg):
self.descriptors = self.get_descriptors()
return self.descriptors
def read(self, trait_name: str) -> Any:
"""Read physical state of trait `trait_name` from device."""
self.read_descriptors()
return self.descriptors[trait_name]
def write(self, trait_name: str, value: Any) -> bool:
"""Turtle traits are not writable"""
# trait_desc = self.trait_descriptors.get(trait_name)
# if trait_desc.writable:
# return getattr(self.turtle, trait_name)(value)
super().write()
def execute(self, action_name: str, *args, **kwargs):
"""Execute action `action_name`, using `args` and `kwargs` as action argument."""
action = self.get_descriptors()["actions"].get(action_name)
if action:
return getattr(self.turtle, action_name)(*args, **kwargs)
super().execute()
def invalidate(self, trait_name: str):
"""Invalidate logical state of trait `trait_name`"""
if self.trait_descriptors.get(trait_name):
self.trait_descriptors[trait_name] = None
raise DeviceError()
def get_descriptors(self):
descriptors = dict(actions=dict(), traits=dict())
for k, v in self.turtle.__dict__.items():
if not k.startswith("_"):
descriptors["traits"][k] = TraitDescriptor(k,
inspect.getdoc(v),
readable=True,
writable=False)
for m_name, member in inspect.getmembers(Turtle):
if m_name.startswith("_"): continue
if m_name.lower() != m_name: continue
doc = inspect.getdoc(member)
if doc is None: continue
if not inspect.isfunction(member):
descriptors["traits"][m_name] = TraitDescriptor(m_name,
doc,
readable=True,
writable=False)
else:
sig = inspect.signature(member)
params_dict = dict(sig.parameters)
descriptors["actions"][m_name] = ActionDescriptor(m_name,
arguments=params_dict,
info=doc)
return descriptors