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graphicsCrawlerDisplay.py
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graphicsCrawlerDisplay.py
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# graphicsCrawlerDisplay.py
# -------------------------
# Licensing Information: You are free to use or extend these projects for
# educational purposes provided that (1) you do not distribute or publish
# solutions, (2) you retain this notice, and (3) you provide clear
# attribution to UC Berkeley, including a link to http://ai.berkeley.edu.
#
# Attribution Information: The Pacman AI projects were developed at UC Berkeley.
# The core projects and autograders were primarily created by John DeNero
# ([email protected]) and Dan Klein ([email protected]).
# Student side autograding was added by Brad Miller, Nick Hay, and
# Pieter Abbeel ([email protected]).
# graphicsCrawlerDisplay.py
# -------------------------
# Licensing Information: Please do not distribute or publish solutions to this
# project. You are free to use and extend these projects for educational
# purposes. The Pacman AI projects were developed at UC Berkeley, primarily by
# John DeNero ([email protected]) and Dan Klein ([email protected]).
# Student side autograding was added by Brad Miller, Nick Hay, and Pieter
# Abbeel in Spring 2013.
# For more info, see http://inst.eecs.berkeley.edu/~cs188/pacman/pacman.html
import Tkinter
import qlearningAgents
import time
import threading
import sys
import crawler
#import pendulum
import math
from math import pi as PI
robotType = 'crawler'
class Application:
def sigmoid(self, x):
return 1.0 / (1.0 + 2.0 ** (-x))
def incrementSpeed(self, inc):
self.tickTime *= inc
# self.epsilon = min(1.0, self.epsilon)
# self.epsilon = max(0.0,self.epsilon)
# self.learner.setSpeed(self.epsilon)
self.speed_label['text'] = 'Step Delay: %.5f' % (self.tickTime)
def incrementEpsilon(self, inc):
self.ep += inc
self.epsilon = self.sigmoid(self.ep)
self.learner.setEpsilon(self.epsilon)
self.epsilon_label['text'] = 'Exploration Rate: %.3f' % (self.epsilon)
def incrementGamma(self, inc):
self.ga += inc
self.gamma = self.sigmoid(self.ga)
self.learner.setDiscount(self.gamma)
self.gamma_label['text'] = 'Discount: %.3f' % (self.gamma)
def incrementAlpha(self, inc):
self.al += inc
self.alpha = self.sigmoid(self.al)
self.learner.setLearningRate(self.alpha)
self.alpha_label['text'] = 'Learning Rate: %.3f' % (self.alpha)
def __initGUI(self, win):
## Window ##
self.win = win
## Initialize Frame ##
win.grid()
self.dec = -.5
self.inc = .5
self.tickTime = 0.1
## Epsilon Button + Label ##
self.setupSpeedButtonAndLabel(win)
self.setupEpsilonButtonAndLabel(win)
## Gamma Button + Label ##
self.setUpGammaButtonAndLabel(win)
## Alpha Button + Label ##
self.setupAlphaButtonAndLabel(win)
## Exit Button ##
#self.exit_button = Tkinter.Button(win,text='Quit', command=self.exit)
#self.exit_button.grid(row=0, column=9)
## Simulation Buttons ##
# self.setupSimulationButtons(win)
## Canvas ##
self.canvas = Tkinter.Canvas(root, height=200, width=1000)
self.canvas.grid(row=2,columnspan=10)
def setupAlphaButtonAndLabel(self, win):
self.alpha_minus = Tkinter.Button(win,
text="-",command=(lambda: self.incrementAlpha(self.dec)))
self.alpha_minus.grid(row=1, column=3, padx=10)
self.alpha = self.sigmoid(self.al)
self.alpha_label = Tkinter.Label(win, text='Learning Rate: %.3f' % (self.alpha))
self.alpha_label.grid(row=1, column=4)
self.alpha_plus = Tkinter.Button(win,
text="+",command=(lambda: self.incrementAlpha(self.inc)))
self.alpha_plus.grid(row=1, column=5, padx=10)
def setUpGammaButtonAndLabel(self, win):
self.gamma_minus = Tkinter.Button(win,
text="-",command=(lambda: self.incrementGamma(self.dec)))
self.gamma_minus.grid(row=1, column=0, padx=10)
self.gamma = self.sigmoid(self.ga)
self.gamma_label = Tkinter.Label(win, text='Discount: %.3f' % (self.gamma))
self.gamma_label.grid(row=1, column=1)
self.gamma_plus = Tkinter.Button(win,
text="+",command=(lambda: self.incrementGamma(self.inc)))
self.gamma_plus.grid(row=1, column=2, padx=10)
def setupEpsilonButtonAndLabel(self, win):
self.epsilon_minus = Tkinter.Button(win,
text="-",command=(lambda: self.incrementEpsilon(self.dec)))
self.epsilon_minus.grid(row=0, column=3)
self.epsilon = self.sigmoid(self.ep)
self.epsilon_label = Tkinter.Label(win, text='Exploration Rate: %.3f' % (self.epsilon))
self.epsilon_label.grid(row=0, column=4)
self.epsilon_plus = Tkinter.Button(win,
text="+",command=(lambda: self.incrementEpsilon(self.inc)))
self.epsilon_plus.grid(row=0, column=5)
def setupSpeedButtonAndLabel(self, win):
self.speed_minus = Tkinter.Button(win,
text="-",command=(lambda: self.incrementSpeed(.5)))
self.speed_minus.grid(row=0, column=0)
self.speed_label = Tkinter.Label(win, text='Step Delay: %.5f' % (self.tickTime))
self.speed_label.grid(row=0, column=1)
self.speed_plus = Tkinter.Button(win,
text="+",command=(lambda: self.incrementSpeed(2)))
self.speed_plus.grid(row=0, column=2)
def skip5kSteps(self):
self.stepsToSkip = 5000
def __init__(self, win):
self.ep = 0
self.ga = 2
self.al = 2
self.stepCount = 0
## Init Gui
self.__initGUI(win)
# Init environment
if robotType == 'crawler':
self.robot = crawler.CrawlingRobot(self.canvas)
self.robotEnvironment = crawler.CrawlingRobotEnvironment(self.robot)
elif robotType == 'pendulum':
self.robot = pendulum.PendulumRobot(self.canvas)
self.robotEnvironment = \
pendulum.PendulumRobotEnvironment(self.robot)
else:
raise "Unknown RobotType"
# Init Agent
simulationFn = lambda agent: \
simulation.SimulationEnvironment(self.robotEnvironment,agent)
actionFn = lambda state: \
self.robotEnvironment.getPossibleActions(state)
self.learner = qlearningAgents.QLearningAgent(actionFn=actionFn)
self.learner.setEpsilon(self.epsilon)
self.learner.setLearningRate(self.alpha)
self.learner.setDiscount(self.gamma)
# Start GUI
self.running = True
self.stopped = False
self.stepsToSkip = 0
self.thread = threading.Thread(target=self.run)
self.thread.start()
def exit(self):
self.running = False
for i in range(5):
if not self.stopped:
time.sleep(0.1)
try:
self.win.destroy()
except:
pass
sys.exit(0)
def step(self):
self.stepCount += 1
state = self.robotEnvironment.getCurrentState()
actions = self.robotEnvironment.getPossibleActions(state)
if len(actions) == 0.0:
self.robotEnvironment.reset()
state = self.robotEnvironment.getCurrentState()
actions = self.robotEnvironment.getPossibleActions(state)
print 'Reset!'
action = self.learner.getAction(state)
if action == None:
raise 'None action returned: Code Not Complete'
nextState, reward = self.robotEnvironment.doAction(action)
self.learner.observeTransition(state, action, nextState, reward)
def animatePolicy(self):
if robotType != 'pendulum':
raise 'Only pendulum can animatePolicy'
totWidth = self.canvas.winfo_reqwidth()
totHeight = self.canvas.winfo_reqheight()
length = 0.48 * min(totWidth, totHeight)
x,y = totWidth-length-30, length+10
angleMin, angleMax = self.robot.getMinAndMaxAngle()
velMin, velMax = self.robot.getMinAndMaxAngleVelocity()
if not 'animatePolicyBox' in dir(self):
self.canvas.create_line(x,y,x+length,y)
self.canvas.create_line(x+length,y,x+length,y-length)
self.canvas.create_line(x+length,y-length,x,y-length)
self.canvas.create_line(x,y-length,x,y)
self.animatePolicyBox = 1
self.canvas.create_text(x+length/2,y+10,text='angle')
self.canvas.create_text(x-30,y-length/2,text='velocity')
self.canvas.create_text(x-60,y-length/4,text='Blue = kickLeft')
self.canvas.create_text(x-60,y-length/4+20,text='Red = kickRight')
self.canvas.create_text(x-60,y-length/4+40,text='White = doNothing')
angleDelta = (angleMax-angleMin) / 100
velDelta = (velMax-velMin) / 100
for i in range(100):
angle = angleMin + i * angleDelta
for j in range(100):
vel = velMin + j * velDelta
state = self.robotEnvironment.getState(angle,vel)
max, argMax = None, None
if not self.learner.seenState(state):
argMax = 'unseen'
else:
for action in ('kickLeft','kickRight','doNothing'):
qVal = self.learner.getQValue(state, action)
if max == None or qVal > max:
max, argMax = qVal, action
if argMax != 'unseen':
if argMax == 'kickLeft':
color = 'blue'
elif argMax == 'kickRight':
color = 'red'
elif argMax == 'doNothing':
color = 'white'
dx = length / 100.0
dy = length / 100.0
x0, y0 = x+i*dx, y-j*dy
self.canvas.create_rectangle(x0,y0,x0+dx,y0+dy,fill=color)
def run(self):
self.stepCount = 0
self.learner.startEpisode()
while True:
minSleep = .01
tm = max(minSleep, self.tickTime)
time.sleep(tm)
self.stepsToSkip = int(tm / self.tickTime) - 1
if not self.running:
self.stopped = True
return
for i in range(self.stepsToSkip):
self.step()
self.stepsToSkip = 0
self.step()
# self.robot.draw()
self.learner.stopEpisode()
def start(self):
self.win.mainloop()
def run():
global root
root = Tkinter.Tk()
root.title( 'Crawler GUI' )
root.resizable( 0, 0 )
# root.mainloop()
app = Application(root)
def update_gui():
app.robot.draw(app.stepCount, app.tickTime)
root.after(10, update_gui)
update_gui()
root.protocol( 'WM_DELETE_WINDOW', app.exit)
try:
app.start()
except:
app.exit()