controls/device.py

@@ -1,16 +1,15 @@
 from dataclasses import dataclass
 from typing import Optional, Collection, Any
-from abc import ABC, abstractmethod, abstractproperty
+from abc import ABC, abstractmethod
-from enum import Enum
+from enum import Enum, auto
-
 
 class DeviceLifecycleState(Enum):
-    INIT = 0
+    INIT = "init"
-    OPEN = 1
+    OPEN = "open"
-    CLOSE = 2
+    CLOSE = "close"
 
 
-class DeviceError(Exception):
+class DevaceError(Exception):
     pass
 
 
@@ -38,6 +37,7 @@ class ActionDescriptor:
 
 
 class Device(ABC):
+    # TODO(Homework #3)
     _state = DeviceLifecycleState.INIT
 
     @property
@@ -47,11 +47,13 @@ class Device(ABC):
     def close(self):
         self._state = DeviceLifecycleState.CLOSE
 
-    @abstractproperty
+    @property
+    @abstractmethod
     def trait_descriptors(self) -> Collection[TraitDescriptor]:
         pass
 
-    @abstractproperty
+    @property
+    @abstractmethod
     def action_descriptors(self) -> Collection[ActionDescriptor]:
         pass
 
@@ -69,7 +71,7 @@ class SynchronyDevice(Device):
     @abstractmethod
     def execute(self, action_name: str, *args, **kwargs):
         """Execute action `action_name`, using `args` and `kwargs` as action argument."""
-        raise DeviceError
+        pass
 
     @abstractmethod
     def read(self, trait_name: str) -> Any:
@@ -85,3 +87,6 @@ class SynchronyDevice(Device):
     def invalidate(self, trait_name: str):
         """Invalidate logical state of trait `trait_name`"""
         pass
+
+    def close(self):
+        return super().close()

equipment/turtle_device.py

@@ -1,80 +1,73 @@
+import time
 from turtle import Turtle
-from typing import Optional, Collection, Any
+from equipment.device import SynchronyDevice
-from controls.device import *
+from equipment.device import Device
 import inspect
-
+from typing import Optional, Collection, Any
 
 class TurtleDevice(SynchronyDevice):
     def open(self):
-        self.turtle = Turtle()
-        self.descriptors = dict(traits=dict(), actions=dict())
         super().open()
+        self.turtle = Turtle()
 
-    def close(self):
+    def close (self):
-        self.turtle.reset()
         super().close()
+        del self.turtle
         
-    def trait_descriptors(self) -> Collection[TraitDescriptor]:
+    @property
-        return self.get_descriptors()["traits"]
+    def trait_descriptors(self):
+        l = list()
+        for i in inspect.getmembers(TurtleDevice):
+            if not (i[0].startswith("__") or i[0].startswith("_")) and not inspect.isfunction(i[1]):
+                l.append(i[0])
+        return l
 
-    def action_descriptors(self) -> Collection[ActionDescriptor]:
+    @property
-        return self.get_descriptors()["actions"]
+    def action_descriptors(self):
-
+        l = list()
-    def __getitem__(self, trait_name: str) -> Optional[Any]:
+        #print(inspect.getmembers(TurtleDevice))
-        """Return logical state of trait `trait_name`."""
+        #for i in dir(TurtleDevice):
-        return self.descriptors[trait_name]
+        #    # print(type(getattr(TurtleDevice(), i))=='method')
-
+        #    # if not i.startswith("__") and type(getattr(TurtleDevice(), i)) == types.MethodType:
-    def read_descriptors(self, arg):
+        #    if not i.startswith("__") and inspect.isroutine(inspect.getattr_static(TurtleDevice, i)):
-        self.descriptors = self.get_descriptors()
+        #        sig = inspect.signature(getattr(TurtleDevice, i))
-        return self.descriptors
+        #        l.append(i + " " + str(sig))
-
+        #return l
-    def read(self, trait_name: str) -> Any:
+        for i in inspect.getmembers(TurtleDevice):
-        """Read physical state of trait `trait_name` from device."""
+            # print(type(getattr(TurtleDevice, i)))
-        self.read_descriptors()
+            # print(type(getattr(TurtleDevice(), i))=='method')
-        return self.descriptors[trait_name]
+            if not (i[0].startswith("__") or i[0].startswith("_")) and inspect.isfunction(i[1]):
-
+                sig = inspect.signature(getattr(TurtleDevice, i[0]))
-    def write(self, trait_name: str, value: Any) -> bool:
+                l.append(i[0]+str(sig))
-        """Turtle traits are not writable"""
+        return l
-        # 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 self.state == 1:
-        if action:
+            f = getattr(self.turtle, action_name)
-            getattr(self.turtle, action_name)(*args, **kwargs)
+            f(int(*args), **kwargs)
-            return
         else:
-            raise DeviceError("No such action: `{}`".format(action_name))
+            print("It's not opened")
+            self.open()
+            #time.sleep(30)
+            f = getattr(self.turtle, action_name)
+            f(int(*args), **kwargs)
+
+    def read(self, trait_name: str):
+        """Read physical state of trait `trait_name` from device."""
+        return getattr(self.turtle, trait_name)
+
+    def write(self, trait_name: str, value: Any) -> bool:
+        """Pass `value` to trait `trait_name` of device."""
+        setattr(self.turtle, trait_name, value)
 
     def invalidate(self, trait_name: str):
         """Invalidate logical state of trait `trait_name`"""
-        if self.trait_descriptors.get(trait_name):
+        if self.read(trait_name) == self.__getitem__(trait_name):
-            self.trait_descriptors[trait_name] = None
+            print("Everything's okey")
-        raise DeviceError()
-
-    def get_descriptors(self):
-        descriptors = dict(actions=dict(), traits=dict())
-
-        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)
+            print(f"Something went wrong with {trait_name}.")
-                params_dict = dict(sig.parameters)
+
-                descriptors["actions"][m_name] = ActionDescriptor(
+    def __getitem__(self, trait_name: str) -> Optional[Any]:
-                    m_name, arguments=params_dict, info=doc
+        """Return logical state of trait `trait_name`."""
-                )
+        return getattr(self, trait_name)
-        return descriptors

noblocking_turtle_shell.py

@@ -1,76 +1,62 @@
 import cmd
 import threading
-from queue import Queue
+from queue import Empty, Queue
-from turtle import forward
 from equipment.turtle_device import TurtleDevice
+import argparse
+import time
 
 
 class TurtleDeviceThread(threading.Thread):
+    # TODO(Homework 4)
     def __init__(self):
         super().__init__()
         self.device = TurtleDevice()
-
+        self.queue = Queue()
-        self.queue = Queue[tuple]()
+        self.event = Event()
-
-        self.device.open()
-        self.device.execute("speed", 1)
 
     def run(self):
         while True:
-            action, args, kwargs = self.queue.get()
+            try:
-            if action == "exit":
+                item = self.queue.get()
-                self.queue.task_done()
+            except self.queue.Empty:
+                continue
+            else:
+                if (item == 'exit'):
                     break
-            self.device.execute(action, *args, **kwargs)
+                self.device.execute(item[0], item[1:])
                 self.queue.task_done()
-
+    def __message_processing__(self):
-    def add_task(self, action, *args, **kwargs):
+        while True:
-        self.queue.put((action, args, kwargs))
+            new_message = self.queue.get()
-
+            #print(type(new_message))
+            #print(new_message)
+            #print("Name and args of action are {}".format(new_message))
+            self.device.execute(*new_message)
+            #time.sleep(30)
+            self.queue.task_done()
+            if self.event.is_set():
+                break
+    def __message_thread__(self):
+        thread = Thread(target = self.__message_processing__, daemon=True)
+        thread.start()             
 
 class NoBlockingTurtleShell(cmd.Cmd):
-    intro = "Welcome to the turtle shell.   Type help or ? to list commands.\n"
+    intro = 'Welcome to the turtle shell.   Type help or ? to list commands.\n'
-    prompt = "(turtle) "
+    prompt = '(turtle) '
     file = None
 
     def __init__(self, turtle_thread: TurtleDeviceThread):
-        super().__init__()
+        super(NoBlockingTurtleShell, self).__init__()
-        self.turtle_thread = turtle_thread
+        turtle_thread.__message_thread__()
-
-    @property
-    def turtle_device(self):
-        return self.turtle_thread.device
 
     def do_execute(self, arg):
-        command_and_args = arg.split()
+        turtle_thread.queue.put(parse(arg))
-        if len(command_and_args) == 1:
+
-            self.turtle_thread.add_task(command)
+    def do_exit(self, arg):
-            return
+         turtle_thread.event.set()
-        command = command_and_args[0]
-        args = tuple(int(c) if c.isdecimal() else c for c in command_and_args[1:])
-        self.turtle_thread.add_task(command, *args)
 
 
-    def do_forward(self, arg):
+if __name__ == '__main__':
-        'Move the turtle forward by the specified distance:  FORWARD 10'
-        self.do_execute("forward 100")
-    def do_right(self, arg):
-        'Turn turtle right by given number of degrees:  RIGHT 20'
-        self.do_execute("right 100")
-    def do_left(self, arg):
-        'Turn turtle left by given number of degrees:  LEFT 90'
-        self.do_execute("left 100")
-    def do_bye(self, arg):
-        'Stop recording, close the turtle window, and exit:  BYE'
-        print('Thank you for using Turtle')
-        self.turtle_thread.add_task("exit")
-        return True
-
-
-if __name__ == "__main__":
     turtle_thread = TurtleDeviceThread()
-    turtle_thread.daemon = True
+    turtle_thread.start()
-    thread_shell = threading.Thread(target=NoBlockingTurtleShell(turtle_thread).cmdloop)
+    NoBlockingTurtleShell(turtle_thread).cmdloop()
-    thread_shell.start()
-    turtle_thread.run()
-    thread_shell.join()