Example #1
0
 def reset_world(self):
     agents = self.create_agents()
     pois = self.create_pois()
     self._world = World(self.world_width, self.world_height,
                         self.num_agents, self.num_pois, agents, pois)
     self._agents = self._world.get_agents()
     self._pois = self._world.get_pois()
Example #2
0
def test_apply_cont_actions():
    agents = [Agent((0, 0))]
    world = World(10, 10, 1, 0, agents)
    commands = np.array([np.array([1, 2])])

    world.apply_cont_actions(commands)

    assert np.array_equal(np.array([1, 2]), world.get_agents()[0].get_loc())
Example #3
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def test_get_obs_image_scale():
    agents = [Agent((1.1, 1))]
    pois = [POI((2.5, 1.2))]
    world = World(10, 10, 1, 1, agents, pois)

    img = world.get_obs_image(10)

    assert img[10][11][0] == 1
    assert img[12][25][1] == 1
Example #4
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def test_get_obs_image():
    agents = [Agent((1.1, 1))]
    pois = [POI((2.5, 1.2))]  # Even numbers round up, odd round down
    world = World(10, 10, 1, 1, agents, pois)

    img = world.get_obs_image()

    assert img[1][1][0] == 1
    assert img[1][2][1] == 1
Example #5
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def test_get_local_obs_images():
    agents = [Agent((1.1, 1))]
    pois = [POI((2.5, 1.2))]
    world = World(10, 10, 1, 1, agents, pois)

    imgs = world.get_local_obs_images(3)
    agent_img = imgs[0]

    assert agent_img[1][1][0] == 1  # Observe self
    assert agent_img[1][2][1] == 1  # Observe POI
Example #6
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def test_init_creates_valid_pois():
    world = World(10, 10, 0, 2)
    valid = True
    for p in world.get_pois():
        loc = p.get_loc()
        x, y = loc[0], loc[1]
        valid = valid and x >= 0 and x < 10 and y >= 0 and y < 10

    assert valid
    assert len(world.get_pois()) == 2
Example #7
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def test_init_creates_valid_agents():
    world = World(10, 10, 2, 0)
    valid = True
    for a in world.get_agents():
        loc = a.get_loc()
        x, y = loc[0], loc[1]
        valid = valid and x >= 0 and x < 10 and y >= 0 and y < 10

    assert valid
    assert len(world.get_agents()) == 2
Example #8
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def test_get_obs_states():
    agents = [
        Agent((1, 1)),
        Agent((0, 1.5)),
        Agent((1.5, 0)),
        Agent((0, 0)),
        Agent((1.5, 1.5))
    ]
    pois = [POI((0, 0))]

    world = World(5, 5, 5, 1, agents, pois)

    vec = world.get_obs_states()

    assert vec.shape[0] == 5
    assert vec[0][0] == 1
    assert vec[0][6] == 1 / np.sqrt(2)
Example #9
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 def create_world(self):
     self._world = World(self.world_width, self.world_height,
                         self.num_agents, self.num_pois)
     self._agents = self._world.get_agents()
     self._pois = self._world.get_pois()
Example #10
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class RoverContFeature(gym.Env):
    metadata = {'render.modes': ['human']}

    COLOR = {1: [255, 0, 0], 2: [0, 255, 255], 3: [0, 0, 255]}

    def __init__(self):
        # Set Default values for env. Because gyms can't have arguments, set
        # after construction
        self.world_height = 10
        self.world_width = 10
        self.num_agents = 1
        self.num_pois = 1

        self.time_limit = 10

        # Creates the Space objects used gym
        self.set_observation_space()
        self.set_action_space()

        # Sets internal state for rover domain
        self.create_world()
        self.time_step = 0

        # Env requirements
        self._seed()
        self.reset()
        self.viewer = None

    """ Gym env required functions """

    def _reset(self):
        self.time_step = 0
        self.create_world()
        return self._get_observation()

    def _seed(self, seed=None):
        self.np_random, seed = seeding.np_random(seed)
        return [seed]

    def _step(self, action):
        self._world.apply_cont_actions(action)
        self.time_step += 1

        obs = self._get_observation()
        reward = self._world.get_reward()
        done = self.time_step > self.time_limit

        return obs, reward, done, {}

    def _get_observation(self):
        return self._world.get_obs_states()

    def _render(self, mode='human', close=False):
        from gym.envs.classic_control import rendering
        if close:
            if self.viewer is not None:
                self.viewer.close()
                self.viewer = None
            return

        if self.viewer is None:
            self.screen_width = 600
            self.screen_height = 400

            self.scale_w = self.screen_width / self.world_width
            self.scale_h = self.screen_height / self.world_height
            self.viewer = rendering.Viewer(self.screen_width,
                                           self.screen_height)

        self._render_agents()
        self._render_pois()

        return self.viewer.render(return_rgb_array=mode == 'rgb_array')

    """ Helper functions """

    def create_world(self):
        self._world = World(self.world_width, self.world_height,
                            self.num_agents, self.num_pois)
        self._agents = self._world.get_agents()
        self._pois = self._world.get_pois()

    def set_observation_space(self):
        self._box_low = np.array([0, 0, 0, 0, 0, 0, 0, 0])
        self._box_high = np.array([
            self.num_agents, self.num_agents, self.num_agents, self.num_agents,
            6 * self.num_pois, 6 * self.num_pois, 6 * self.num_pois,
            6 * self.num_pois
        ])

        self._box_one_obs = spaces.Box(self._box_low, self._box_high)

        self._all_boxes = []
        for _ in range(self.num_agents):
            self._all_boxes.append(self._box_one_obs)

        self.observation_space = spaces.Tuple(self._all_boxes)

    def set_action_space(self):
        self._agent_action = spaces.Box(np.array([-1, -1]), np.array([1, 1]))
        self._all_actions = []

        for _ in range(self.num_agents):
            self._all_actions.append(self._agent_action)

        self.action_space = spaces.Tuple(self._all_actions)

    def _render_agents(self):
        from gym.envs.classic_control import rendering
        for agent in self._agents:
            poly = rendering.FilledPolygon(
                self._agent_square(agent, 10, self.scale_w, self.scale_h))
            poly.set_color(self.COLOR[1][0], self.COLOR[1][1],
                           self.COLOR[1][2])
            self.viewer.add_onetime(poly)

    def _render_pois(self):
        from gym.envs.classic_control import rendering
        for poi in self._pois:
            poly = rendering.make_circle()
            trans = (poi.get_loc()[0] * self.scale_w,
                     poi.get_loc()[1] * self.scale_h)
            poly.add_attr(rendering.Transform(translation=trans))
            if poi.visible():
                poly.set_color(self.COLOR[2][0], self.COLOR[2][1],
                               self.COLOR[2][2])
            else:
                poly.set_color(self.COLOR[3][0], self.COLOR[3][1],
                               self.COLOR[3][2])
            self.viewer.add_onetime(poly)

    def _agent_square(self, agent, side, scale_w=1, scale_h=1):
        loc = agent.get_loc()
        sloc = np.array([loc[0] * scale_w, loc[1] * scale_h])
        half = side // 2
        """ Points in CW order """
        points = [
            np.add(sloc, np.array([half, half])),
            np.add(sloc, np.array([half, -half])),
            np.add(sloc, np.array([-half, -half])),
            np.add(sloc, np.array([-half, half]))
        ]

        return points
Example #11
0
def test_apply_cont_actions_mismatch():
    world = World(10, 10, 1, 0)
    commands = np.array([np.array([1, 2]), np.array([4, 3])])

    with pytest.raises(AssertionError):
        world.apply_cont_actions(commands)
Example #12
0
def test_apply_discrete_actions_mismatch():
    world = World(10, 10, 1, 0)
    commands = np.array([1, 5])

    with pytest.raises(AssertionError):
        world.apply_discrete_actions(commands)
Example #13
0
class RoverEnv(gym.Env):
    metadata = {'render.modes': ['human']}

    COLOR = {1: [255, 0, 0], 2: [0, 255, 255], 3: [0, 0, 255]}

    def __init__(self,
                 world_height=10,
                 world_width=10,
                 num_agents=1,
                 num_pois=1,
                 time_limit=20,
                 observation_mode='feature',
                 actions='discrete',
                 image_width=5,
                 image_scale=1):
        """ Rover Domain environment.
        """

        self.world_height = world_height
        self.world_width = world_width
        self.num_agents = num_agents
        self.num_pois = num_pois

        self.time_limit = time_limit

        self.observation_mode = observation_mode
        self.actions = actions
        self.image_width = image_width
        self.image_scale = image_scale

        self.set_observation_space()
        self.set_action_space()

        #self._world = self.reset_world()
        self.create_world()

        self.viewer = None
        self.time_step = 0

        self._seed()
        self.reset()

    def reset_world(self):
        agents = self.create_agents()
        pois = self.create_pois()
        self._world = World(self.world_width, self.world_height,
                            self.num_agents, self.num_pois, agents, pois)
        self._agents = self._world.get_agents()
        self._pois = self._world.get_pois()

    def create_agents(self):
        return np.array([Agent(np.array([3, 4]))])

    def create_pois(self):
        return np.array([POI(np.array([7, 9]))])

    def _seed(self, seed=None):
        self.np_random, seed = seeding.np_random(seed)
        return [seed]

    def step(self, action):
        #assert self.action_space.contains(action), "%r (%s) invalid" % (action, type(action))

        if self.actions == 'continuous':
            self._world.apply_cont_actions(action)
        else:
            self._world.apply_discrete_actions(action)

        self.time_step += 1

        obs = self._get_observation()
        reward = self._world.get_reward()
        done = self.time_step > self.time_limit  #  or not self._world.pois_still_left()

        return obs, reward, done, {}

    def reset(self):
        #self.set_observation_space()
        #self.set_action_space()
        self.time_step = 0
        #self.reset_world()
        self.create_world()

        return self._get_observation()

    def create_world(self):
        self._world = World(self.world_width, self.world_height,
                            self.num_agents, self.num_pois)
        self._agents = self._world.get_agents()
        self._pois = self._world.get_pois()

    def set_observation_space(self):
        if self.observation_mode == 'feature':
            self.set_observation_space_feature()
        elif self.observation_mode == 'image':
            self.set_observation_space_image()

    def set_observation_space_feature(self):
        self._box_low = np.array([0, 0, 0, 0, 0, 0, 0, 0])
        self._box_high = np.array([
            self.num_agents, self.num_agents, self.num_agents, self.num_agents,
            6 * self.num_pois, 6 * self.num_pois, 6 * self.num_pois,
            6 * self.num_pois
        ])

        self._box_one_obs = spaces.Box(self._box_low, self._box_high)

        self._all_boxes = []
        for _ in range(self.num_agents):
            self._all_boxes.append(self._box_one_obs)

        self.observation_space = spaces.Tuple(self._all_boxes)
        print(self.observation_space)

    def set_observation_space_image(self):
        all_images = []
        max_count = max(self.num_pois, self.num_agents)
        for _ in range(self.num_agents):
            single_space = spaces.Box(low=0,
                                      high=max_count,
                                      shape=(self.image_width,
                                             self.image_width, 2))
            all_images.append(single_space)

        self.observation_space = spaces.Tuple(all_images)

    def set_action_space(self):
        if self.actions == 'continuous':
            self._set_action_space_cont()
        elif self.actions == 'discrete':
            self._set_action_space_discrete()

    def _set_action_space_cont(self):
        self._agent_action = spaces.Box(np.array([-1, -1]), np.array([1, 1]))
        self._all_actions = []

        for _ in range(self.num_agents):
            self._all_actions.append(self._agent_action)

        self.action_space = spaces.Tuple(self._all_actions)

    def _set_action_space_discrete(self):
        self._agent_action = spaces.Discrete(8)
        self._all_actions = []

        for _ in range(self.num_agents):
            self._all_actions.append(self._agent_action)

        self.action_space = spaces.Tuple(self._all_actions)

    def render(self, mode='human', close=False):
        from gym.envs.classic_control import rendering
        if close:
            if self.viewer is not None:
                self.viewer.close()
                self.viewer = None
            return

        if self.viewer is None:
            self.screen_width = 600
            self.screen_height = 400

            self.scale_w = self.screen_width / self.world_width
            self.scale_h = self.screen_height / self.world_height
            self.viewer = rendering.Viewer(self.screen_width,
                                           self.screen_height)

        self._render_agents()
        self._render_pois()

        return self.viewer.render(return_rgb_array=mode == 'rgb_array')

    def _render_agents(self):
        from gym.envs.classic_control import rendering
        for agent in self._agents:
            poly = rendering.FilledPolygon(
                self._agent_square(agent, 10, self.scale_w, self.scale_h))
            poly.set_color(self.COLOR[1][0], self.COLOR[1][1],
                           self.COLOR[1][2])
            self.viewer.add_onetime(poly)

    def _render_pois(self):
        from gym.envs.classic_control import rendering
        for poi in self._pois:
            poly = rendering.make_circle()
            trans = (poi.get_loc()[0] * self.scale_w,
                     poi.get_loc()[1] * self.scale_h)
            poly.add_attr(rendering.Transform(translation=trans))
            if poi.visible():
                poly.set_color(self.COLOR[2][0], self.COLOR[2][1],
                               self.COLOR[2][2])
            else:
                poly.set_color(self.COLOR[3][0], self.COLOR[3][1],
                               self.COLOR[3][2])
            self.viewer.add_onetime(poly)

    def _agent_square(self, agent, side, scale_w=1, scale_h=1):
        loc = agent.get_loc()
        sloc = np.array([loc[0] * scale_w, loc[1] * scale_h])
        half = side // 2
        """ Points in CW order """
        points = [
            np.add(sloc, np.array([half, half])),
            np.add(sloc, np.array([half, -half])),
            np.add(sloc, np.array([-half, -half])),
            np.add(sloc, np.array([-half, half]))
        ]

        return points

    def _get_observation(self):
        if self.observation_mode == 'feature':
            obs = self._world.get_obs_states()
            # for i in range(self.num_agents):
            #     obs[i][8] = self.time_limit - self.time_step
            return obs

        elif self.observation_mode == 'image':
            return self._world.get_local_obs_images(self.image_width,
                                                    self.image_scale)