Ejemplo n.º 1
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def add_journey_request():
    data = flask.request.json
    data['trip_id'] = uuid4().hex
    data['status'] = 'WAIT'
    data['from_location'] = Location(data['start']['latitude'], data['start']['longitude'])
    data['to_location'] = Location(data['end']['latitude'], data['end']['longitude'])
    data['distance_area'] = uniform(0, 2)
    data['position'] = data['from_location']
    Thread(target=add_agent_to_oef, args=(data,)).start()
    return to_json({"trip_id": data['trip_id']})
Ejemplo n.º 2
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 def on_message(self, msg_id: int, dialogue_id: int, origin: str,
                content: bytes):
     data = json.loads(content.decode('utf-8'))
     if 'type' in data and data['type'] == 'location':
         new_loop = asyncio.new_event_loop()
         print('Transport: get msg from origin {}'.format(origin))
         Thread(target=self.update_transport_location,
                args=(origin,
                      Location(data['from_location_latitude'],
                               data['from_location_longitude']),
                      Location(data['to_location_latitude'],
                               data['to_location_longitude']),
                      new_loop)).start()
Ejemplo n.º 3
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    def test_serialization(self, location: Location):
        """Test that serialization and deserialization of Location objects work correctly."""
        actual_location = location
        actual_location_pb = actual_location.to_pb()
        expected_location = Location.from_pb(actual_location_pb)

        assert actual_location == expected_location
Ejemplo n.º 4
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    def from_pb(cls, relation: query_pb2.Query.Relation):
        """
        From the Relation Protobuf object to the associated
        instance of a subclass of Relation.

        :param relation: the Protobuf object that represents the relation constraint.
        :return: an instance of one of the subclasses of Relation.
        """

        relations_from_pb = {
            query_pb2.Query.Relation.GTEQ: GtEq,
            query_pb2.Query.Relation.GT: Gt,
            query_pb2.Query.Relation.LTEQ: LtEq,
            query_pb2.Query.Relation.LT: Lt,
            query_pb2.Query.Relation.NOTEQ: NotEq,
            query_pb2.Query.Relation.EQ: Eq
        }

        relation_class = relations_from_pb[relation.op]
        value_case = relation.val.WhichOneof("value")
        if value_case == "s":
            return relation_class(relation.val.s)
        elif value_case == "b":
            return relation_class(relation.val.b)
        elif value_case == "i":
            return relation_class(relation.val.i)
        elif value_case == "d":
            return relation_class(relation.val.d)
        elif value_case == "l":
            return relation_class(Location.from_pb(relation.val.l))
Ejemplo n.º 5
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    def from_pb(cls, range_pb: query_pb2.Query.Range):
        """
        From the Range Protobuf object to the associated instance of ``Range``.

        :param range_pb: the Protobuf object that represents the range.
        :return: an instance of ``Range`` equivalent to the Protobuf object provided as input.
        """

        range_case = range_pb.WhichOneof("pair")
        if range_case == "s":
            return cls((range_pb.s.first, range_pb.s.second))
        elif range_case == "i":
            return cls((range_pb.i.first, range_pb.i.second))
        elif range_case == "d":
            return cls((range_pb.d.first, range_pb.d.second))
        elif range_case == "l":
            return cls((Location.from_pb(range_pb.l.first), Location.from_pb(range_pb.l.second)))
Ejemplo n.º 6
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    def from_pb(cls, distance_pb: query_pb2.Query.Distance):
        """
        From the ``Distance`` Protobuf object to the associated instance of :class:`~oef.query.Distance`.

        :param distance_pb: the Protobuf object that represents the ``~oef.query.Distance`` constraint.
        :return: an instance of ``~oef.query.Distance``.
        """
        center = Location.from_pb(distance_pb.center)
        distance = distance_pb.distance
        return cls(center, distance)
Ejemplo n.º 7
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def add_transport_agent_to_oef():
    print('Attempt to add transport agent')
    data = {
        'id': uuid4().hex,
        'location': Location(uniform(59.932097364508536, 59.93209736450854),
                             uniform(30.312159061431885, 30.31215906143189)),
        'price_per_km': uniform(1, 3),
        'status': 'WAIT'
    }
    loop = asyncio.new_event_loop()
    asyncio.set_event_loop(loop)
    print('Appear transport agent: ' + str(data))
    add_transport_agent(data)
Ejemplo n.º 8
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    def drive_to_point(self, origin, target_point: Location, transp_status):
        cur_loc = Location(self.data['location_latitude'],
                           self.data['location_longitude'])
        x_diff = target_point.latitude - cur_loc.latitude
        y_diff = target_point.longitude - cur_loc.longitude

        diff_ratio = abs(y_diff / x_diff)

        x_velocity = self.velocity / (1 + diff_ratio)
        y_velocity = x_velocity * diff_ratio

        x_diff_sign = -1 if x_diff < 0 else 1
        y_diff_sign = -1 if y_diff < 0 else 1

        time.sleep(1)

        while abs(cur_loc.latitude - target_point.latitude) >= abs(x_velocity) and \
                abs(cur_loc.longitude - target_point.longitude) >= abs(y_velocity):
            cur_loc = Location(cur_loc.latitude + x_velocity * x_diff_sign,
                               cur_loc.longitude + y_velocity * y_diff_sign)
            # print('Update location of transport to {} {}'.format(cur_loc.latitude, cur_loc.longitude))
            self.send_transp_loc(origin, cur_loc, transp_status)
            time.sleep(1)
        cur_loc = target_point
        self.send_transp_loc(origin, cur_loc, transp_status)
        self.data['location_latitude'] = cur_loc.latitude
        self.data['location_longitude'] = cur_loc.longitude
        if transp_status == 'Getting to trip':
            print("[{0}]: Transport: {1}.".format(self.public_key,
                                                  'Picked up account'))
        else:
            print("[{0}]: Transport: {1}.".format(self.public_key,
                                                  'Trip finished'))
            self.send_message(randint(1, 1e9), randint(1, 1e9), origin,
                              json.dumps({
                                  'type': 'finished'
                              }).encode('utf-8'))
            self.data['state'] = 'WAIT'
            self.search_drivers()
Ejemplo n.º 9
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    def __init__(self, data, *args, **kwargs):
        super(TripAgent, self).__init__(*args, **kwargs)

        self._entity = Entity()
        self._address = Address(self._entity)

        self.data = {
            "account_id": data['account_id'],
            "can_be_driver": data['can_be_driver'],
            "trip_id": data['trip_id'],
            "from_location_latitude": float(data['from_location'].latitude),
            "from_location_longitude": float(data['from_location'].longitude),
            "to_location_latitude": float(data['to_location'].latitude),
            "to_location_longitude": float(data['to_location'].longitude),
            "distance_area": data['distance_area'],
        }
        self.trip_description = Description(self.data, TRIP_DATAMODEL())
        self.data['state'] = 'free'
        self.data['position'] = Location(self.data['from_location_latitude'],
                                         self.data['from_location_longitude'])
        self.data['transp_location'] = None
        self.possible_trips = []
Ejemplo n.º 10
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    def from_pb(cls, set_pb: query_pb2.Query.Set):
        """
        From the Set Protobuf object to the associated instance of a subclass of :class:`~oef.query.Set`.

        :param set_pb: the Protobuf object that represents the set constraint.
        :return: the object of one of the subclasses of :class:`~oef.query.Set`.
        """
        op_from_pb = {
            query_pb2.Query.Set.IN: In,
            query_pb2.Query.Set.NOTIN: NotIn
        }
        set_class = op_from_pb[set_pb.op]
        value_case = set_pb.vals.WhichOneof("values")
        if value_case == "s":
            return set_class(set_pb.vals.s.vals)
        elif value_case == "b":
            return set_class(set_pb.vals.b.vals)
        elif value_case == "i":
            return set_class(set_pb.vals.i.vals)
        elif value_case == "d":
            return set_class(set_pb.vals.d.vals)
        elif value_case == "l":
            locations = [Location.from_pb(loc) for loc in set_pb.vals.l.vals]
            return set_class(locations)
Ejemplo n.º 11
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    def test_not_equal_when_compared_with_different_type(self):
        a_distance = Distance(Location(45.0, 45.0), 1.0)
        not_a_distance = tuple()

        assert a_distance != not_a_distance
Ejemplo n.º 12
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def locations(draw):
    latitude = draw(floats(min_value=-90.0, max_value=90.0))
    longitude = draw(floats(min_value=-180.0, max_value=180.0))
    return Location(latitude, longitude)
Ejemplo n.º 13
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class ChargerAgent(OEFAgent):
    """Class that implements the behaviour of the charger agent."""

    print("\n".join(sys.argv))

    price_kwh = int(sys.argv[1])  #55
    location = Location(float(sys.argv[2]),
                        float(sys.argv[3]))  #52.2057092, 0.1183431)
    bonus = int(sys.argv[6])
    charger_description = Description(
        {
            "price_kilowatt_hour": price_kwh,
            "charger_location": location,
            "charger_available": True,
            "charger_bonus": bonus,
        }, CHARGING_MODEL)

    def __init__(self, *args, **kwargs):
        super(ChargerAgent, self).__init__(*args, **kwargs)

        self._entity = Entity.from_hex(sys.argv[5])
        self._address = Address(self._entity)

        #print(self._address)
        #h = self._address.to_hex()
        #print(h)
        #print(Address(binascii.unhexlify(h)))

    #      with open("./full_contract.etch", "r") as fb:
    #          self._source = fb.read()

    #      self.prepare_contract()

    def prepare_contract(self):
        # Setting API up
        self._api = LedgerApi('ledger', 8000)

        # Need funds to deploy contract
        self._api.sync(self._api.tokens.wealth(self._entity, 5000000))

        # Create contract
        self._contract = SmartContract(self._source)

        # Deploy contract
        self._api.sync(
            self._api.contracts.create(self._entity, self._contract, 2456766))

    def on_cfp(self, msg_id: int, dialogue_id: int, origin: str, target: int,
               query: CFP_TYPES):
        """Send a simple Propose to the sender of the CFP."""
        print("[{0}]: Received CFP from {1}".format(self.public_key, origin))

        # prepare the proposal with a given price.
        proposal = Description({
            "price_kilowatt_hour": self.price_kwh,
            "charger_location": self.location,
            'charger_bonus': self.bonus
        })
        print("[{}]: Sending propose at price: {} location {},{}".format(
            self.public_key, self.price_kwh, self.location.latitude,
            self.location.longitude))
        self.send_propose(msg_id + 1, dialogue_id, origin, target + 1,
                          [proposal])

    def on_accept(self, msg_id: int, dialogue_id: int, origin: str,
                  target: int):
        """Once we received an Accept, send the requested data."""
        print("[{0}]: Received accept from {1}.".format(
            self.public_key, origin))

        # Preparing contract
        # PLACE HOLDER TO PREPARE AND SIGN TRANSACTION
        contract = {
            "address": self._address.to_hex(),
            "value": self.price_kwh,
            "bonus": self.bonus
        }

        # Sending contract
        encoded_data = json.dumps(contract).encode("utf-8")
        print("[{0}]: Sending contract to {1}".format(self.public_key, origin))
        self.send_message(0, dialogue_id, origin, encoded_data)

    def on_decline(self, msg_id: int, dialogue_id: int, origin: str,
                   target: int):
        """Once we received an Decline, send the requested data."""
        print("[{0}]: Received decline from {1}.".format(
            self.public_key, origin))
Ejemplo n.º 14
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    def on_message(self, msg_id: int, dialogue_id: int, origin: str,
                   content: bytes):
        """Extract and print data from incoming (simple) messages."""

        # PLACE HOLDER TO SIGN AND SUBMIT TRANSACTION

        msg = json.loads(content.decode("utf-8"))

        if 'type' not in msg:
            print('unkown type')
            return

        if msg['type'] == 'contract':
            print('Receivied contract from transport')
            return

        # api = LedgerApi('185.91.52.11', 10002)
        # Need funds to deploy contract
        # api.sync(api.tokens.wealth(Address(self), 59000000))
        # msg.action(api, 'endJourney', 2456766, [Address(origin), Address(self)], Address(origin), Address(self), self.data['account_id'],
        #            self.data['can_be_driver'])

        if msg['type'] == 'request':
            print('Trip received request from transport')
            self.send_message(
                msg_id, dialogue_id, origin,
                json.dumps({
                    'type':
                    'location',
                    'from_location_latitude':
                    self.data['from_location_latitude'],
                    'from_location_longitude':
                    self.data['from_location_longitude'],
                    'to_location_latitude':
                    self.data['to_location_latitude'],
                    'to_location_longitude':
                    self.data['to_location_longitude']
                }).encode('utf-8'))
            return

        if msg['type'] == 'location':
            if msg['status'] == 'Trip started':
                self.data['position'] = Location(msg['location_latitude'],
                                                 msg['location_longitude'])
                self.data['transp_location'] = {
                    'latitude': msg['location_latitude'],
                    'longitude': msg['location_longitude']
                }

                print('Agent change location', msg)

                print('Account upd location to {} {}'.format(
                    self.data['position'].latitude,
                    self.data['position'].longitude))
            else:
                print('Transport change location', msg)
                self.data['transp_location'] = {
                    'latitude': msg['location_latitude'],
                    'longitude': msg['location_longitude']
                }

            return

        if msg['type'] == 'finish':
            print('Trip agent unregister')
            self.unregister_agent(randint(1, 1e9))
            self.stop()