def init(self):
"""
Starts/Resets the game to its inital state
"""
self.player = Player(self.AGENT_RADIUS, self.AGENT_COLOR, self.AGENT_SPEED, self.AGENT_INIT_POS, self.width, self.height)
self.good_creep = Creep(
self.CREEP_GOOD['color'],
self.CREEP_GOOD['radius'],
self._rngCreepPos(),
(1,1),
0.0,
1.0,
"GOOD",
self.width,
self.height,
0.0 #jitter
)
self.bad_creep = PuckCreep((self.width, self.height), self.CREEP_BAD, self.screen_dim[0]*0.75, self.screen_dim[1]*0.75)
self.creeps = pygame.sprite.Group()
self.creeps.add(self.good_creep)
self.creeps.add(self.bad_creep)
self.score = 0
self.ticks = 0
self.lives = -1
def init(self):
"""
Starts/Resets the game to its inital state
"""
self.creep_counts = {"GOOD": 0, "BAD": 0}
if self.player is None:
self.player = Player(
self.AGENT_RADIUS, self.AGENT_COLOR,
self.AGENT_SPEED, self.AGENT_INIT_POS,
self.width, self.height
)
else:
self.player.pos = vec2d(self.AGENT_INIT_POS)
self.player.vel = vec2d((0.0, 0.0))
if self.creeps is None:
self.creeps = pygame.sprite.Group()
else:
self.creeps.empty()
for i in range(self.N_CREEPS):
self._add_creep()
self.score = 0
self.ticks = 0
self.lives = -1
def init(self):
"""
Starts/Resets the game to its inital state
"""
self.creep_counts = {"GOOD": 0, "BAD": 0}
if self.player is None:
self.player = Player(
self.AGENT_RADIUS, self.AGENT_COLOR,
self.AGENT_SPEED, self.AGENT_INIT_POS,
self.width, self.height
)
else:
self.player.pos = vec2d(self.AGENT_INIT_POS)
self.player.vel = vec2d((0.0, 0.0))
if self.creeps is None:
self.creeps = pygame.sprite.Group()
else:
self.creeps.empty()
for i in range(self.N_CREEPS):
self._add_creep()
self.score = 0
self.ticks = 0
self.lives = -1
def init(self):
"""
Starts/Resets the game to its inital state
"""
self.creep_counts = { "GOOD":0, "BAD":0 }
self.player = Player(self.AGENT_RADIUS, self.AGENT_COLOR, self.AGENT_SPEED, self.AGENT_INIT_POS, self.width, self.height)
self.player_group = pygame.sprite.Group()
self.player_group.add( self.player )
self.creeps = pygame.sprite.Group()
for i in range(self.N_CREEPS):
self._add_creep()
self.score = 0
self.ticks = 0
self.lives = -1
class WaterWorld(PyGameWrapper):
"""
Based Karpthy's WaterWorld in `REINFORCEjs`_.
.. _REINFORCEjs: https://github.com/karpathy/reinforcejs
Parameters
----------
width : int
Screen width.
height : int
Screen height, recommended to be same dimension as width.
num_creeps : int (default: 3)
The number of creeps on the screen at once.
"""
def __init__(self,
width=48,
height=48,
num_creeps=3):
actions = {
"up": K_w,
"left": K_a,
"right": K_d,
"down": K_s
}
PyGameWrapper.__init__(self, width, height, actions=actions)
self.BG_COLOR = (255, 255, 255)
self.N_CREEPS = num_creeps
self.CREEP_TYPES = ["GOOD", "BAD"]
self.CREEP_COLORS = [(40, 140, 40), (150, 95, 95)]
radius = percent_round_int(width, 0.02)
self.CREEP_RADII = [radius, radius]
self.CREEP_REWARD = [
self.rewards["positive"],
self.rewards["negative"]]
self.CREEP_SPEED = 0.25 * width
self.AGENT_COLOR = (60, 60, 140)
self.AGENT_SPEED = 0.25 * width
self.AGENT_RADIUS = radius
self.AGENT_INIT_POS = (self.width / 2, self.height / 2)
self.creep_counts = {
"GOOD": 0,
"BAD": 0
}
self.dx = 0
self.dy = 0
self.player = None
self.creeps = None
def _handle_player_events(self):
self.dx = 0
self.dy = 0
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
sys.exit()
if event.type == pygame.KEYDOWN:
key = event.key
if key == 117: #u pressed
print("u pressed")
self.ple.display_screen = not self.ple.display_screen
self.ple.force_fps = not self.ple.force_fps
if key == self.actions["left"]:
self.dx -= self.AGENT_SPEED
if key == self.actions["right"]:
self.dx += self.AGENT_SPEED
if key == self.actions["up"]:
self.dy -= self.AGENT_SPEED
if key == self.actions["down"]:
self.dy += self.AGENT_SPEED
def _add_creep(self):
creep_type = self.rng.choice([0, 1])
creep = None
pos = (0, 0)
dist = 0.0
while dist < 1.5:
radius = self.CREEP_RADII[creep_type] * 1.5
pos = self.rng.uniform(radius, self.height - radius, size=2)
dist = math.sqrt(
(self.player.pos.x - pos[0])**2 + (self.player.pos.y - pos[1])**2)
creep = Creep(
self.CREEP_COLORS[creep_type],
self.CREEP_RADII[creep_type],
pos,
self.rng.choice([-1, 1], 2),
self.rng.rand() * self.CREEP_SPEED,
self.CREEP_REWARD[creep_type],
self.CREEP_TYPES[creep_type],
self.width,
self.height,
self.rng.rand()
)
self.creeps.add(creep)
self.creep_counts[self.CREEP_TYPES[creep_type]] += 1
def getGameState(self):
"""
Returns
-------
dict
* player x position.
* player y position.
* player x velocity.
* player y velocity.
* player distance to each creep
"""
state = {
"player_x": self.player.pos.x,
"player_y": self.player.pos.y,
"player_velocity_x": self.player.vel.x,
"player_velocity_y": self.player.vel.y,
"creep_dist": {
"GOOD": [],
"BAD": []
},
"creep_pos": {
"GOOD": [],
"BAD": []
},
"creep_vel": {
"GOOD": [],
"BAD": []
}
}
for c in self.creeps:
dist = math.sqrt((self.player.pos.x - c.pos.x) **
2 + (self.player.pos.y - c.pos.y)**2)
state["creep_dist"][c.TYPE].append(dist)
state["creep_pos"][c.TYPE].append([c.pos.x, c.pos.y])
state["creep_vel"][c.TYPE].append([c.direction.x * c.speed, c.direction.y * c.speed])
return state
def getScore(self):
return self.score
def game_over(self):
"""
Return bool if the game has 'finished'
"""
return (self.creep_counts['GOOD'] == 0)
def init(self):
"""
Starts/Resets the game to its inital state
"""
self.creep_counts = {"GOOD": 0, "BAD": 0}
if self.player is None:
self.player = Player(
self.AGENT_RADIUS, self.AGENT_COLOR,
self.AGENT_SPEED, self.AGENT_INIT_POS,
self.width, self.height
)
else:
self.player.pos = vec2d(self.AGENT_INIT_POS)
self.player.vel = vec2d((0.0, 0.0))
if self.creeps is None:
self.creeps = pygame.sprite.Group()
else:
self.creeps.empty()
for i in range(self.N_CREEPS):
self._add_creep()
self.score = 0
self.ticks = 0
self.lives = -1
def step(self, dt):
"""
Perform one step of game emulation.
"""
dt /= 1000.0
self.screen.fill(self.BG_COLOR)
self.score += self.rewards["tick"]
self._handle_player_events()
self.player.update(self.dx, self.dy, dt)
hits = pygame.sprite.spritecollide(self.player, self.creeps, True)
for creep in hits:
self.creep_counts[creep.TYPE] -= 1
self.score += creep.reward
self._add_creep()
if self.creep_counts["GOOD"] == 0:
self.score += self.rewards["win"]
self.creeps.update(dt)
self.player.draw(self.screen)
self.creeps.draw(self.screen)
class WaterWorld(base.PyGameWrapper):
"""
Based Karpthy's WaterWorld in `REINFORCEjs`_.
.. _REINFORCEjs: https://github.com/karpathy/reinforcejs
Parameters
----------
width : int
Screen width.
height : int
Screen height, recommended to be same dimension as width.
num_creeps : int (default: 3)
The number of creeps on the screen at once.
"""
def __init__(self,
width=48,
height=48,
num_creeps=3):
actions = {
"up": K_w,
"left": K_a,
"right": K_d,
"down": K_s
}
base.PyGameWrapper.__init__(self, width, height, actions=actions)
self.BG_COLOR = (255, 255, 255)
self.N_CREEPS = num_creeps
self.CREEP_TYPES = ["GOOD", "BAD"]
self.CREEP_COLORS = [(40, 140, 40), (150, 95, 95)]
radius = percent_round_int(width, 0.047)
self.CREEP_RADII = [radius, radius]
self.CREEP_REWARD = [
self.rewards["positive"],
self.rewards["negative"]]
self.CREEP_SPEED = 0.25 * width
self.AGENT_COLOR = (60, 60, 140)
self.AGENT_SPEED = 0.25 * width
self.AGENT_RADIUS = radius
self.AGENT_INIT_POS = (self.width / 2, self.height / 2)
self.creep_counts = {
"GOOD": 0,
"BAD": 0
}
self.dx = 0
self.dy = 0
self.player = None
self.creeps = None
def _handle_player_events(self):
self.dx = 0
self.dy = 0
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
sys.exit()
if event.type == pygame.KEYDOWN:
key = event.key
if key == self.actions["left"]:
self.dx -= self.AGENT_SPEED
if key == self.actions["right"]:
self.dx += self.AGENT_SPEED
if key == self.actions["up"]:
self.dy -= self.AGENT_SPEED
if key == self.actions["down"]:
self.dy += self.AGENT_SPEED
def _add_creep(self):
creep_type = self.rng.choice([0, 1])
creep = None
pos = (0, 0)
dist = 0.0
while dist < 1.5:
radius = self.CREEP_RADII[creep_type] * 1.5
pos = self.rng.uniform(radius, self.height - radius, size=2)
dist = math.sqrt(
(self.player.pos.x - pos[0])**2 + (self.player.pos.y - pos[1])**2)
creep = Creep(
self.CREEP_COLORS[creep_type],
self.CREEP_RADII[creep_type],
pos,
self.rng.choice([-1, 1], 2),
self.rng.rand() * self.CREEP_SPEED,
self.CREEP_REWARD[creep_type],
self.CREEP_TYPES[creep_type],
self.width,
self.height,
self.rng.rand()
)
self.creeps.add(creep)
self.creep_counts[self.CREEP_TYPES[creep_type]] += 1
def getGameState(self):
"""
Returns
-------
dict
* player x position.
* player y position.
* player x velocity.
* player y velocity.
* player distance to each creep
"""
state = {
"player_x": self.player.pos.x,
"player_y": self.player.pos.y,
"player_velocity_x": self.player.vel.x,
"player_velocity_y": self.player.vel.y,
"creep_dist": {
"GOOD": [],
"BAD": []
}
}
for c in self.creeps:
dist = math.sqrt((self.player.pos.x - c.pos.x) **
2 + (self.player.pos.y - c.pos.y)**2)
state["creep_dist"][c.TYPE].append(dist)
return state
def getScore(self):
return self.score
def game_over(self):
"""
Return bool if the game has 'finished'
"""
return (self.creep_counts['GOOD'] == 0)
def init(self):
"""
Starts/Resets the game to its inital state
"""
self.creep_counts = {"GOOD": 0, "BAD": 0}
if self.player is None:
self.player = Player(
self.AGENT_RADIUS, self.AGENT_COLOR,
self.AGENT_SPEED, self.AGENT_INIT_POS,
self.width, self.height
)
else:
self.player.pos = vec2d(self.AGENT_INIT_POS)
self.player.vel = vec2d((0.0, 0.0))
if self.creeps is None:
self.creeps = pygame.sprite.Group()
else:
self.creeps.empty()
for i in range(self.N_CREEPS):
self._add_creep()
self.score = 0
self.ticks = 0
self.lives = -1
def step(self, dt):
"""
Perform one step of game emulation.
"""
dt /= 1000.0
self.screen.fill(self.BG_COLOR)
self.score += self.rewards["tick"]
self._handle_player_events()
self.player.update(self.dx, self.dy, dt)
hits = pygame.sprite.spritecollide(self.player, self.creeps, True)
for creep in hits:
self.creep_counts[creep.TYPE] -= 1
self.score += creep.reward
self._add_creep()
if self.creep_counts["GOOD"] == 0:
self.score += self.rewards["win"]
self.creeps.update(dt)
self.player.draw(self.screen)
self.creeps.draw(self.screen)
class PuckWorld(base.Game):
"""
Based Karpthy's PuckWorld in `REINFORCEjs`_.
.. _REINFORCEjs: https://github.com/karpathy/reinforcejs
Parameters
----------
width : int
Screen width.
height : int
Screen height, recommended to be same dimension as width.
"""
def __init__(self,
width=64,
height=64):
actions = {
"up": K_w,
"left": K_a,
"right": K_d,
"down": K_s
}
base.Game.__init__(self, width, height, actions=actions)
self.CREEP_BAD = {
"radius_center": percent_round_int(width, 0.047),
"radius_outer": percent_round_int(width, 0.265),
"color_center": (110, 45, 45),
"color_outer": (150, 95, 95),
"speed": 0.05*width
}
self.CREEP_GOOD = {
"radius": percent_round_int(width, 0.047),
"color": (40, 140, 40)
}
self.AGENT_COLOR = (60, 60, 140)
self.AGENT_SPEED = 0.2*width
self.AGENT_RADIUS = percent_round_int(width, 0.047)
self.AGENT_INIT_POS = (self.AGENT_RADIUS*1.5, self.AGENT_RADIUS*1.5)
self.BG_COLOR = (255, 255, 255)
self.dx = 0
self.dy = 0
self.ticks = 0
def _handle_player_events(self):
self.dx = 0.0
self.dy = 0.0
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.quit()
sys.exit()
if event.type == pygame.KEYDOWN:
key = event.key
if key == self.actions["left"]:
self.dx -= self.AGENT_SPEED
if key == self.actions["right"]:
self.dx += self.AGENT_SPEED
if key == self.actions["up"]:
self.dy -= self.AGENT_SPEED
if key == self.actions["down"]:
self.dy += self.AGENT_SPEED
def getGameState(self):
"""
Gets a non-visual state representation of the game.
Returns
-------
dict
* player x position.
* player y position.
* players x velocity.
* players y velocity.
* good creep x position.
* good creep y position.
* bad creep x position.
* bad creep y position.
See code for structure.
"""
state = {
"player_x": self.player.pos.x,
"player_y": self.player.pos.y,
"player_velocity_x": self.player.vel.x,
"player_velocity_y": self.player.vel.y,
"good_creep_x": self.good_creep.pos.x,
"good_creep_y": self.good_creep.pos.y,
"bad_creep_x": self.bad_creep.pos.x,
"bad_creep_y": self.bad_creep.pos.y
}
return state
def getScore(self):
return self.score
def game_over(self):
"""
Return bool if the game has 'finished'
"""
return False
def _rngCreepPos(self):
r = self.CREEP_GOOD['radius']
x = self.rng.uniform(r*3, self.width-r*2.5)
y = self.rng.uniform(r*3, self.height-r*2.5)
return ( x, y )
def init(self):
"""
Starts/Resets the game to its inital state
"""
self.player = Player(self.AGENT_RADIUS, self.AGENT_COLOR, self.AGENT_SPEED, self.AGENT_INIT_POS, self.width, self.height)
self.good_creep = Creep(
self.CREEP_GOOD['color'],
self.CREEP_GOOD['radius'],
self._rngCreepPos(),
(1,1),
0.0,
1.0,
"GOOD",
self.width,
self.height,
0.0 #jitter
)
self.bad_creep = PuckCreep((self.width, self.height), self.CREEP_BAD, self.screen_dim[0]*0.75, self.screen_dim[1]*0.75)
self.creeps = pygame.sprite.Group()
self.creeps.add(self.good_creep)
self.creeps.add(self.bad_creep)
self.score = 0
self.ticks = 0
self.lives = -1
def step(self, dt):
"""
Perform one step of game emulation.
"""
dt /= 1000.0
self.ticks += 1
self.screen.fill(self.BG_COLOR)
self.score += self.rewards["tick"]
self._handle_player_events()
self.player.update(self.dx, self.dy, dt)
dx = self.player.pos.x-self.good_creep.pos.x
dy = self.player.pos.y-self.good_creep.pos.y
dist_to_good = math.sqrt(dx*dx + dy*dy)
dx = self.player.pos.x-self.bad_creep.pos.x
dy = self.player.pos.y-self.bad_creep.pos.y
dist_to_bad = math.sqrt(dx*dx + dy*dy)
reward = -dist_to_good
if dist_to_bad < self.CREEP_BAD['radius_outer']:
reward += 2.0*(dist_to_bad - self.CREEP_BAD['radius_outer']) / float(self.CREEP_BAD['radius_outer'])
self.score += reward
if self.ticks % 500 == 0:
x,y = self._rngCreepPos()
self.good_creep.pos.x = x
self.good_creep.pos.y = y
ndx = 0.0 if dist_to_bad == 0.0 else dx/dist_to_bad
ndy = 0.0 if dist_to_bad == 0.0 else dy/dist_to_bad
self.bad_creep.update(ndx, ndy, dt)
self.good_creep.update(dt)
self.player.draw(self.screen)
self.creeps.draw(self.screen)
