def make_world(self): world = World() # set any world properties first world.dim_c = 2 num_agents = 2 num_adversaries = 1 num_landmarks = 2 # add agents world.agents = [Agent() for i in range(num_agents)] for i, agent in enumerate(world.agents): agent.name = 'agent %d' % i agent.collide = True agent.silent = True agent.max_speed = 2.0 if i < num_adversaries: agent.adversary = True agent.initial_mass = 5.0 else: agent.adversary = False # add landmarks world.landmarks = [Landmark() for i in range(num_landmarks)] for i, landmark in enumerate(world.landmarks): landmark.name = 'landmark %d' % i landmark.collide = False landmark.movable = False # make initial conditions self.reset_world(world) return world
def make_world(self): world = World() # set any world properties first world.dim_c = 2 num_good_agents = 1 num_adversaries = 3 num_agents = num_adversaries + num_good_agents num_landmarks = 2 # add agents world.agents = [Agent() for i in range(num_agents)] for i, agent in enumerate(world.agents): agent.name = 'agent %d' % i agent.collide = True agent.silent = True agent.adversary = True if i < num_adversaries else False agent.size = 0.075 if agent.adversary else 0.05 agent.accel = 3.0 if agent.adversary else 4.0 #agent.accel = 20.0 if agent.adversary else 25.0 agent.max_speed = 1.0 if agent.adversary else 1.3 # add landmarks world.landmarks = [Landmark() for i in range(num_landmarks)] for i, landmark in enumerate(world.landmarks): landmark.name = 'landmark %d' % i landmark.collide = True landmark.movable = False landmark.size = 0.2 landmark.boundary = False # make initial conditions self.reset_world(world) return world
def make_world(self): world = World() # set any world properties first world.dim_c = 2 num_agents = 3 world.num_agents = num_agents num_adversaries = 1 num_landmarks = num_agents - 1 # add agents world.agents = [Agent() for i in range(num_agents)] for i, agent in enumerate(world.agents): agent.name = 'agent %d' % i agent.collide = False agent.silent = True agent.adversary = True if i < num_adversaries else False agent.size = 0.15 # add landmarks world.landmarks = [Landmark() for i in range(num_landmarks)] for i, landmark in enumerate(world.landmarks): landmark.name = 'landmark %d' % i landmark.collide = False landmark.movable = False landmark.size = 0.08 # make initial conditions self.reset_world(world) return world
def make_world(self): world = World() # set any world properties first world.dim_c = 3 num_landmarks = 3 world.collaborative = True # add agents world.agents = [Agent() for i in range(2)] for i, agent in enumerate(world.agents): agent.name = 'agent %d' % i agent.collide = False agent.size = 0.075 # speaker world.agents[0].movable = False # listener world.agents[1].silent = True # add landmarks world.landmarks = [Landmark() for i in range(num_landmarks)] for i, landmark in enumerate(world.landmarks): landmark.name = 'landmark %d' % i landmark.collide = False landmark.movable = False landmark.size = 0.04 # make initial conditions self.reset_world(world) return world
def make_world(self): world = World() # set any world properties first world.dim_c = 4 #world.damping = 1 num_good_agents = 2 num_adversaries = 4 num_agents = num_adversaries + num_good_agents num_landmarks = 1 num_food = 2 num_forests = 2 # add agents world.agents = [Agent() for i in range(num_agents)] for i, agent in enumerate(world.agents): agent.name = 'agent %d' % i agent.collide = True agent.leader = True if i == 0 else False agent.silent = True if i > 0 else False agent.adversary = True if i < num_adversaries else False agent.size = 0.075 if agent.adversary else 0.045 agent.accel = 3.0 if agent.adversary else 4.0 #agent.accel = 20.0 if agent.adversary else 25.0 agent.max_speed = 1.0 if agent.adversary else 1.3 # add landmarks world.landmarks = [Landmark() for i in range(num_landmarks)] for i, landmark in enumerate(world.landmarks): landmark.name = 'landmark %d' % i landmark.collide = True landmark.movable = False landmark.size = 0.2 landmark.boundary = False world.food = [Landmark() for i in range(num_food)] for i, landmark in enumerate(world.food): landmark.name = 'food %d' % i landmark.collide = False landmark.movable = False landmark.size = 0.03 landmark.boundary = False world.forests = [Landmark() for i in range(num_forests)] for i, landmark in enumerate(world.forests): landmark.name = 'forest %d' % i landmark.collide = False landmark.movable = False landmark.size = 0.3 landmark.boundary = False world.landmarks += world.food world.landmarks += world.forests #world.landmarks += self.set_boundaries(world) # world boundaries now penalized with negative reward # make initial conditions self.reset_world(world) return world
def make_world(self): world = World() # add agents world.agents = [Agent() for i in range(1)] for i, agent in enumerate(world.agents): agent.name = 'agent %d' % i agent.collide = False agent.silent = True # add landmarks world.landmarks = [Landmark() for i in range(1)] for i, landmark in enumerate(world.landmarks): landmark.name = 'landmark %d' % i landmark.collide = False landmark.movable = False # make initial conditions self.reset_world(world) return world
def make_world(self): world = World() # set any world properties first world.dim_c = 10 world.collaborative = True # whether agents share rewards # add agents world.agents = [Agent() for i in range(2)] for i, agent in enumerate(world.agents): agent.name = 'agent %d' % i agent.collide = False # add landmarks world.landmarks = [Landmark() for i in range(3)] for i, landmark in enumerate(world.landmarks): landmark.name = 'landmark %d' % i landmark.collide = False landmark.movable = False # make initial conditions self.reset_world(world) return world