def main(): # Process CLI arguments. try: execname, host, port = sys.argv except ValueError: execname = sys.argv[0] print >>sys.stderr, '%s: incorrect number of arguments' % execname print >>sys.stderr, 'usage: %s hostname port' % sys.argv[0] sys.exit(-1) # Connect. #bzrc = BZRC(host, int(port), debug=True) bzrc = BZRC(host, int(port)) bayes = Bayes() constants = bzrc.get_constants() bayes.self_not_obs_given_not_occ(float(constants['truenegative'])) bayes.set_obs_given_occ(float(constants['truepositive'])) agent = Agent(bzrc, bayes) prev_time = time.time() # Run the agent try: while True: time_diff = time.time() - prev_time agent.tick(time_diff) except KeyboardInterrupt: print "Exiting due to keyboard interrupt." bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port, mode = sys.argv
except ValueError:
execname = sys.argv[0]
print >>sys.stderr, '%s: incorrect number of arguments' % execname
print >>sys.stderr, 'usage: %s hostname port [sit|const|wild]' % sys.argv[0]
sys.exit(-1)
bzrc = BZRC(host, int(port))
cur_time = time.time()
agent = PigeonAgent(bzrc, mode, cur_time)
# Run the agent
try:
while True:
cur_time = time.time()
agent.behave(cur_time)
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
agent.stop()
bzrc.close()
def main(self):
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
bzrc = BZRC(host, int(port))
mytanks = bzrc.get_mytanks()
for i in range(len(mytanks)):
if i < 8:
if i < 5:
self.tanks.append(SuperUberAgent(bzrc, mytanks[i], "a"))
else:
self.tanks.append(SuperUberAgent(bzrc, mytanks[i], "d"))
else:
self.tanks.append(
BayesAgent(bzrc, mytanks[i], self.grid, self.obsList))
try:
while True:
self.tick(self.tanks, bzrc)
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent = Agent(bzrc)
prev_time = time.time()
# Run the agent
try:
# initialize all the tanks to 'not turning'
mytanks = bzrc.get_mytanks()
for tank in mytanks:
print tank.index
agent.angleset.append(False)
agent.startangle.append(0)
while True:
time_diff = time.time() - prev_time
prev_time += time_diff
agent.tick(time_diff)
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
# bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent = PFAgent(bzrc)
agent.tick()
plot_single(agent.calculate_obstacles_force, agent.obstacles,
'obstacles.png')
plot_single(agent.calculate_goal_force, agent.obstacles, 'goal.png')
plot_single(agent.calculate_random_force, agent.obstacles, 'random.png')
plot_single(agent.calculate_tangential_force, agent.obstacles,
'tangential.png')
plot_single(agent.get_forces_on_tank, agent.obstacles, 'combined.png')
print("finished")
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >>sys.stderr, '%s: incorrect number of arguments' % execname
print >>sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
# bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
# Create our army
agents = []
index = 0
for tank in range(len(bzrc.get_mytanks())):
agent = StraightLineAgent(bzrc, index)
agents.append(agent)
index += 1
# Run the agent
try:
while True:
for agent in agents:
agent.tick()
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent = Agent(bzrc)
prev_time = time.time()
# Run the agent
try:
while True:
time_diff = time.time() - prev_time
agent.tick(time_diff)
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
# bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
# initialize the visualization stuff
world_size = int(bzrc.get_constants()['worldsize'])
viz = KalmanViz(world_size)
# create our agent (just assume it's the first tank on our team)
agent = KalmanFilterAgent(bzrc, 0, viz)
prev_time = time.time()
# Run the agent
try:
while True:
time_diff = time.time() - prev_time
prev_time = time.time()
agent.tick(time_diff)
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
viz.destroy()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
#print "Running Tyler & Morgan's Super Smart Flag Capturer"
numpy.set_printoptions(precision=3, suppress=True)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent = Agent(bzrc)
prev_time = time.time()
# Run the agent
try:
while True:
new_time = time.time()
time_diff = new_time - prev_time
prev_time = new_time
agent.tick(time_diff)
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent_list = []
for tank in bzrc.get_mytanks():
agent_list.append(DumbAgent(bzrc, tank, time.time()))
move_time = 4
# Run the agent
try:
while True:
cur_time = time.time()
for agent in agent_list:
if agent.is_moving == False and agent.is_rotating == False:
agent.full_throttle(cur_time)
if agent.is_moving == True:
if (cur_time - agent.last_move_time) >= move_time:
agent.stop_tank()
move_time = random.randrange(3, 8)
if agent.is_rotating == False and agent.is_moving == False:
agent.start_left_rotate(cur_time)
if agent.is_rotating == True:
if (cur_time - agent.last_rotate_time) >= 1.5:
agent.stop_tank()
if (cur_time - agent.last_shoot_time) >= agent.shoot_interval:
agent.shoot()
agent.shoot_interval = (random.randrange(2, 3) - .5)
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
for agent in agent_list:
agent.stop_tank()
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port, display = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port fieldToDisplay' % sys.argv[
0]
sys.exit(-1)
bzrc = BZRC(host, int(port))
v = Visualizer(bzrc, display)
v.visualize()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent = Agent(bzrc)
#agent.elapsed_time = prev_time = time.time()
time_diff = 0
#print "Moving Time: %d" % agent.moving_time
# Run the agent
try:
while True:
#print "Elapsed Time: %f" % time_diff
agent.tick(time_diff)
#for flag in agent.flags:
#print flag.x, flag.y, flag.color, flag.poss_color
# time_diff = time.time() - prev_time
# if time.time() - agent.elapsed_time > agent.shooting_time:
# print "Shoot!"
# agent.tick(time_diff, False, True)
# agent.shooting_time = agent.set_shooting_time()
# agent.elapsed_time = time.time()
# if time_diff > agent.moving_time:
# print "Turning 60 degrees."
# if time_diff < agent.moving_time + 0.83:
# agent.tick(time_diff, True, False)
# else:
# agent.moving_time = agent.set_moving_time()
# prev_time = time.time()
# print "Moving Time: %d" % agent.moving_time
# else:
# agent.tick(time_diff, False, False)
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent = Agent(bzrc)
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent = Agent(bzrc)
burn_in = 0
# Run the agent
try:
while True:
#start = time.time()
if agent.tick_count > agent.step_size:
agent.tick_count = 1
if burn_in < agent.burn_in:
burn_in += 1
else:
if check_criterion(agent.step_size, agent.buffer,
agent.tick_count):
agent.fire = True
agent.tick_count = 1
else:
agent.fire = False
agent.tick_count += 1
agent.tick()
#end = time.time()
#diff.append(float(end - start))
#if tick_count == 20:
# print "average time in a tick: %.2f" % (sum(diff)/len(diff))
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >>sys.stderr, '%s: incorrect number of arguments' % execname
print >>sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
# bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
# Set up the occupancy grid and visualization
world_size = int(bzrc.get_constants()['worldsize'])
occupancy_grid = OccupancyGrid(world_size + 1, .97, .1, 50)
viz = GFViz(occupancy_grid, world_size)
# Create our army
agents = []
index = 0
for tank in range(len(bzrc.get_mytanks())-5):
agent = GridFilterAgent(bzrc, occupancy_grid, index)
agents.append(agent)
index += 1
# Run the agent
try:
counter = 0
while True: # TODO: While our occupancy grid isn't "good enough"
for agent in agents:
agent.tick()
if counter % 10 == 0:
viz.update_grid(occupancy_grid.get_grid())
counter += 1
# Our occupancy grid is "good enough", enter an eternal loop so the visualization will be visible
viz.loop_eternally()
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >> sys.stderr, '%s: incorrect number of arguments' % execname
print >> sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
agent = KAgent(bzrc)
init_window(int(agent.constants['worldsize']),
int(agent.constants['worldsize']))
# print 'init complete'
prev_time = time.time()
# Run the agent
try:
global tic
tic = 0
while True:
t = time.time()
time_diff = t - prev_time
prev_time = t
agent.tick(time_diff)
agent.doUpdate()
if (tic == 10):
if (time.time() - agent.aliveTime) > 60:
agent._kalman.resetSigmaT()
agent.aliveTime = time.time()
print 'reset sigmaT'
update_grid(numpy.array(zip(*agent.grid.grid)))
draw_grid()
tic = 0
tic += 1
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >>sys.stderr, '%s: incorrect number of arguments' % execname
print >>sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
# bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
path_finder = PathFinder(bzrc, 0)
remove_old_plot_files()
### Depth First Search Visualizations ###
path = path_finder.get_depth_first_search_path()
plot_single(path, bzrc.get_obstacles(), '../plots/dfs_plots/dfs.png')
snapshots = path_finder.search_snapshots
plot_snapshots(snapshots, "../plots/dfs_plots/dfs", bzrc.get_obstacles())
### Breadth First Search Visualizations ###
path = path_finder.get_breadth_first_search_path()
plot_single(path, bzrc.get_obstacles(), '../plots/bfs_plots/bfs.png')
snapshots = path_finder.search_snapshots
plot_snapshots(snapshots, "../plots/bfs_plots/bfs", bzrc.get_obstacles())
### A* Visualizations ###
path = path_finder.get_a_star_path()
plot_single(path, bzrc.get_obstacles(), '../plots/a_star_plots/a_star.png')
snapshots = path_finder.search_snapshots
plot_snapshots(snapshots, "../plots/a_star_plots/a_star", bzrc.get_obstacles())
print("finished")
bzrc.close()
def main(): # Process CLI arguments. try: execname, host, port = sys.argv except ValueError: execname = sys.argv[0] print >>sys.stderr, '%s: incorrect number of arguments' % execname print >>sys.stderr, 'usage: %s hostname port' % sys.argv[0] sys.exit(-1) # Connect. #bzrc = BZRC(host, int(port), debug=True) bzrc = BZRC(host, int(port)) tanks_per_team = len(bzrc.get_mytanks()) tank_agents = [0] * tanks_per_team # currently this section is hard coded for 10 tanks # ****************************** for i in range(3): #print i tank_agents[i] = KAgent(bzrc, i) for i in range(3,10): tank_agents[i] = PFAgent(bzrc, i) for i in range(10,10): tank_agents[i] = MAgent(bzrc, i) # ****************************** #agent = PFAgent(bzrc) prev_time = time.time() # Run the agent try: while True: time_diff = time.time() - prev_time for agent in tank_agents: agent.tick(time_diff) except KeyboardInterrupt: print "Exiting due to keyboard interrupt." bzrc.close()
def main():
# Process CLI arguments.
try:
execname, host, port = sys.argv
except ValueError:
execname = sys.argv[0]
print >>sys.stderr, '%s: incorrect number of arguments' % execname
print >>sys.stderr, 'usage: %s hostname port' % sys.argv[0]
sys.exit(-1)
# Connect.
#bzrc = BZRC(host, int(port), debug=True)
bzrc = BZRC(host, int(port))
#bzrc = BZRC(host, 35001)
agent = KalmanAgent(bzrc)
prev_time = time.time()
# Run the agent
count = 0
try:
while True:
time_diff = time.time() - prev_time
if(time_diff >= t):
prev_time = time.time()
agent.tick()
count += 1
if (count > 20):
count = 0
agent.Kfilter.reset()
except KeyboardInterrupt:
print "Exiting due to keyboard interrupt."
bzrc.close()
FILENAME = 'fields.gpi'
# Size of the world (one of the "constants" in bzflag):
WORLDSIZE = 800
# How many samples to take along each dimension:
SAMPLES = 25
# Change spacing by changing the relative length of the vectors. It looks
# like scaling by 0.75 is pretty good, but this is adjustable:
VEC_LEN = 0.75 * WORLDSIZE / SAMPLES
# Animation parameters:
ANIMATION_MIN = 0
ANIMATION_MAX = 500
ANIMATION_FRAMES = 50
FLAG_INT = 0
OTHER_TANK = 20
BZRC = BZRC('localhost', 50101)
# print 'got here'
time.sleep(2)
# print 'done sleeping'
mytanks, othertanks, flags, shots = BZRC.get_lots_o_stuff()
f = othertanks[OTHER_TANK]
# commands = []
# command = Command(FLAG_INT, 1,.5, False)
# commands.append(command)
# results = BZRC.do_commands(commands)
# print f.color
# print 'flag x = ' + str(f.x)
# print 'flag y = ' + str(f.y)
########################################################################
# Field and Obstacle Definitions
