Exemplo n.º 1
0
'''
'''
f.clearGoals()
f.clearObstacles()
f.addGoal(370,0) # green flag
f.addObstacle(-100,-100)
'''

f.setupMap4Ls()
#f.setupMapRotatedBoxes()

#f.calculateFields()

f.fastCalculate()

print f.getFast(297, 50), f.getFast(300, 50), f.getFast(303, 50)
print f.getFast(-297, 50), f.getFast(-300, 50), f.getFast(-303, 50)
f.drawFast(True, True, True)

f.goToHome(True)
print f.getFast(297, 50), f.getFast(300, 50), f.getFast(303, 50)
print f.getFast(-297, 50), f.getFast(-300, 50), f.getFast(-303, 50)
f.drawFast(True, True, True)
#
#f.setupMapRotatedBoxes()
#f.fastCalculate()
#f.drawFast(True, True, True)


#print f.queryPosition(0, 100)
Exemplo n.º 2
0
class Agent(object):

    def __init__(self, bzrc):
        self.bzrc = bzrc
        self.field = Field(-400, 400, -400, 400)
        self.field.setupMap4Ls()
        #self.field.setupMapRotatedBoxes()
        self.field.fastCalculate()
        self.constants = self.bzrc.get_constants()
        self.commands = []
        self.prevError = defaultdict(list)
        self.vizualize = True
        self.gotFlag = False
        self.prevLocation = [0, 0]
        self.stuckTimer = time.time()
        self.stuck = False

    def tickAll(self, step):
        '''Some time has passed; decide what to do next'''
        # Get information from the BZRC server
        mytanks, othertanks, flags, shots = self.bzrc.get_lots_o_stuff()
        self.mytanks = mytanks
        self.othertanks = othertanks
        self.flags = flags
        self.shots = shots
        self.enemies = [tank for tank in othertanks if tank.color !=
                self.constants['team']]

        # Reset my set of commands (we don't want to run old commands)
        self.commands = []
        
        # Check to see if the flag has been captured
        for bot in mytanks:
            if not self.gotFlag and bot.flag is not '-':
                self.gotFlag = True
                self.flipFieldToHome()
                
            if self.gotFlag and bot.flag is '-':
                self.gotFlag = False
                self.flipFieldToEnemy()
        
        # Decide what to do with each of my tanks            
        if (time.time() - self.stuckTimer) > 3:
            if bot.x == self.prevLocation[0] and bot.y == self.prevLocation[1]:
                print 'stuck'
                self.stuck = True
            else:
                self.stuck = False
            self.prevLocation = [bot.x, bot.y]
            self.stuckTimer = time.time()
            
        if self.stuck:
            command = Command(bot.index, 1, 1, True)
            self.commands.append(command)
        else:
			for bot in mytanks:
				values = self.calculatePD(bot, step)
				command = Command(bot.index, values[0], values[1], True)
				self.commands.append(command)
            
        # Send the commands to the server
        results = self.bzrc.do_commands(self.commands)
        
    def tickOne(self, step):
        '''Some time has passed; decide what to do next'''
        # Get information from the BZRC server
        mytanks, othertanks, flags, shots = self.bzrc.get_lots_o_stuff()
        self.mytanks = mytanks
        self.othertanks = othertanks
        self.flags = flags
        self.shots = shots
        self.enemies = [tank for tank in othertanks if tank.color !=
                self.constants['team']]

        # Reset my set of commands (we don't want to run old commands)
        self.commands = []

        # Visualize potential field
        if self.vizualize:
            self.field.drawFast(True, True, True)
            self.vizualize = False
            print 'Done with visualization'
        
        # Which tank do you want to control
        bot = mytanks[0]
        #print bot.flag
        
        # Check to see if the flag has been captured
        if not self.gotFlag and bot.flag is not '-':
            print 'set home'
            self.gotFlag = True
            self.flipFieldToHome()
            
        if self.gotFlag and bot.flag is '-':
            self.gotFlag = False
            self.flipFieldToEnemy()
        
        # Decide what to do with one tank of my tanks
        values = self.calculatePD(bot, step)
        
        if (time.time() - self.stuckTimer) > 3:
            if bot.x == self.prevLocation[0] and bot.y == self.prevLocation[1]:
                print 'stuck'
                self.stuck = True
            else:
                self.stuck = False
            self.prevLocation = [bot.x, bot.y]
            self.stuckTimer = time.time()
            
        if self.stuck:
            command = Command(bot.index, 1, 1, True)
            self.commands.append(command)
        else:
            command = Command(bot.index, values[0], values[1], True)
            self.commands.append(command)
            
        # Send the commands to the server
        results = self.bzrc.do_commands(self.commands)

    def calculatePD(self, bot, step):
        # Get the potential field magnitudes in the x and y at the current position
    	pf = self.field.getFast(bot.x, bot.y)
        
        # Tune these or set to zero to manipulate the PD controller
        kProportion = .5
        kDerivative = .002
        
        # Calculate values used in the PD controller formula
        angleReference = numpy.arctan2(pf[1], pf[0])
        angle = angleReference - bot.angle
        errorAtStep =  numpy.arctan2(math.sin(angle),math.cos(angle))                 
        errorPrevStep = 0.0 # Previous error is zero if this is the first calculation.
        
        # Update the previous error to the last saved error if there is one
        if bot.index in self.prevError:
            errorPrevStep = self.prevError[bot.index]
    	
        # This is the PD formula
        angularAtStep = (kProportion * errorAtStep) + (kDerivative * ((errorAtStep - errorPrevStep) / step))
        #print angularAtStep
        if angularAtStep > 1:
            angularAtStep = 1
        if angularAtStep < -1:
            angularAtStep = -1
            
        #print errorAtStep, angularAtStep, pf  
        # Calculates the speed based off the magnitude of the potential field vector
        speedAtStep = 1 - .7 * math.fabs(angularAtStep) #math.sqrt(pf[0]**2 + pf[1]**2)
        #print speedAtStep
        # Save the new error to use in the next iteration
        self.prevError[bot.index] = errorAtStep
                              
        return [speedAtStep, angularAtStep]
    
    def flipFieldToHome(self):
        self.field.goToHome(True)
        #self.field.drawFast(True, True, True)
        
    def flipFieldToEnemy(self):
        self.field.goToHome(False)