qzdc00/finalhw.py

## finalhw.py
# implementation of Spaceship - program template for RiceRocks
import simplegui
import math
import random

# globals for user interface
WIDTH = 800
HEIGHT = 600
score = 0
lives = 3
time = 0
started = False
sc = 0

class ImageInfo:
    def __init__(self, center, size, radius = 0, lifespan = None, animated = False):
        self.center = center
        self.size = size
        self.radius = radius
        if lifespan:
            self.lifespan = lifespan
        else:
            self.lifespan = float('inf')
        self.animated = animated

    def get_center(self):
        return self.center

    def get_size(self):
        return self.size

    def get_radius(self):
        return self.radius

    def get_lifespan(self):
        return self.lifespan

    def get_animated(self):
        return self.animated


# art assets created by Kim Lathrop, may be freely re-used in non-commercial projects, please credit Kim

# debris images - debris1_brown.png, debris2_brown.png, debris3_brown.png, debris4_brown.png
#                 debris1_blue.png, debris2_blue.png, debris3_blue.png, debris4_blue.png, debris_blend.png
debris_info = ImageInfo([320, 240], [640, 480])
debris_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/debris2_blue.png")

# nebula images - nebula_brown.png, nebula_blue.png
nebula_info = ImageInfo([400, 300], [800, 600])
nebula_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/nebula_blue.f2013.png")

# splash image
splash_info = ImageInfo([200, 150], [400, 300])
splash_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/splash.png")

# ship image
ship_info = ImageInfo([45, 45], [90, 90], 35)
ship_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/double_ship.png")

# missile image - shot1.png, shot2.png, shot3.png
missile_info = ImageInfo([5,5], [10, 10], 3, 50)
missile_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/shot2.png")

# asteroid images - asteroid_blue.png, asteroid_brown.png, asteroid_blend.png
asteroid_info = ImageInfo([45, 45], [90, 90], 40)
asteroid_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/asteroid_blue.png")

# animated explosion - explosion_orange.png, explosion_blue.png, explosion_blue2.png, explosion_alpha.png
explosion_info = ImageInfo([64, 64], [128, 128], 17, 24, True)
explosion_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/explosion_alpha.png")

# sound assets purchased from sounddogs.com, please do not redistribute
# .ogg versions of sounds are also available, just replace .mp3 by .ogg
soundtrack = simplegui.load_sound("http://commondatastorage.googleapis.com/codeskulptor-assets/sounddogs/soundtrack.mp3")
missile_sound = simplegui.load_sound("http://commondatastorage.googleapis.com/codeskulptor-assets/sounddogs/missile.mp3")
missile_sound.set_volume(.5)
ship_thrust_sound = simplegui.load_sound("http://commondatastorage.googleapis.com/codeskulptor-assets/sounddogs/thrust.mp3")
explosion_sound = simplegui.load_sound("http://commondatastorage.googleapis.com/codeskulptor-assets/sounddogs/explosion.mp3")

# helper functions to handle transformations
def angle_to_vector(ang):
    return [math.cos(ang), math.sin(ang)]

def dist(p, q):
    return math.sqrt((p[0] - q[0]) ** 2 + (p[1] - q[1]) ** 2)


# Ship class
class Ship:

    def __init__(self, pos, vel, angle, image, info):
        self.pos = [pos[0], pos[1]]
        self.vel = [vel[0], vel[1]]
        self.thrust = False
        self.angle = angle
        self.angle_vel = 0
        self.image = image
        self.image_center = info.get_center()
        self.image_size = info.get_size()
        self.radius = info.get_radius()

    def draw(self,canvas):
        if self.thrust:
            canvas.draw_image(self.image, [self.image_center[0] + self.image_size[0], self.image_center[1]] , self.image_size,
                              self.pos, self.image_size, self.angle)
        else:
            canvas.draw_image(self.image, self.image_center, self.image_size,
                              self.pos, self.image_size, self.angle)
        # canvas.draw_circle(self.pos, self.radius, 1, "White", "White")

    def update(self):
        # update angle
        self.angle += self.angle_vel

        # update position
        self.pos[0] = (self.pos[0] + self.vel[0]) % WIDTH
        self.pos[1] = (self.pos[1] + self.vel[1]) % HEIGHT

        # update velocity
        if self.thrust:
            acc = angle_to_vector(self.angle)
            self.vel[0] += acc[0] * .1
            self.vel[1] += acc[1] * .1

        self.vel[0] *= .99
        self.vel[1] *= .99

    def set_thrust(self, on):
        self.thrust = on
        if on:
            ship_thrust_sound.rewind()
            ship_thrust_sound.play()
        else:
            ship_thrust_sound.pause()

    def increment_angle_vel(self):
        self.angle_vel += .05

    def decrement_angle_vel(self):
        self.angle_vel -= .05

    def get_pos(self):
        return self.pos

    def get_radius(self):
        return self.radius

    def shoot(self):
        global missile_group
        forward = angle_to_vector(self.angle)
        missile_pos = [self.pos[0] + self.radius * forward[0], self.pos[1] + self.radius * forward[1]]
        missile_vel = [self.vel[0] + 6 * forward[0], self.vel[1] + 6 * forward[1]]
        missile = Sprite(missile_pos, missile_vel, 0, 0, missile_image, missile_info, missile_sound)
        missile_group.add(missile)


# Sprite class
class Sprite:
    def __init__(self, pos, vel, ang, ang_vel, image, info, sound = None):
        self.pos = [pos[0],pos[1]]
        self.vel = [vel[0],vel[1]]
        self.angle = ang
        self.angle_vel = ang_vel
        self.image = image
        self.image_center = info.get_center()
        self.image_size = info.get_size()
        self.radius = info.get_radius()
        self.lifespan = info.get_lifespan()
        self.animated = info.get_animated()
        self.age = 0
        if sound:
            sound.rewind()
            sound.play()

    def draw(self, canvas):
        canvas.draw_image(self.image, self.image_center, self.image_size,
                          self.pos, self.image_size, self.angle)

    def update(self):
        # update angle
        self.angle += self.angle_vel
        self.age += 1.5

        # update position
        self.pos[0] = (self.pos[0] + self.vel[0]) % WIDTH
        self.pos[1] = (self.pos[1] + self.vel[1]) % HEIGHT

        if self.age >= self.lifespan:
            return True
        else:
            return False

    def get_pos(self):
        return self.pos

    def get_radius(self):
        return self.radius

    def collide(self, other_object):
        if dist(self.get_pos(), other_object.get_pos()) <= (self.get_radius() + other_object.get_radius()):
            return True
        else:
            return False


# key handlers to control ship
def keydown(key):
    if key == simplegui.KEY_MAP['left']:
        my_ship.decrement_angle_vel()
    elif key == simplegui.KEY_MAP['right']:
        my_ship.increment_angle_vel()
    elif key == simplegui.KEY_MAP['up']:
        my_ship.set_thrust(True)
    elif key == simplegui.KEY_MAP['space']:
        my_ship.shoot()

def keyup(key):
    if key == simplegui.KEY_MAP['left']:
        my_ship.increment_angle_vel()
    elif key == simplegui.KEY_MAP['right']:
        my_ship.decrement_angle_vel()
    elif key == simplegui.KEY_MAP['up']:
        my_ship.set_thrust(False)

# process_sprite_group
def process_sprite_group(aset, canvas):
    bset = set([])
    bset = aset
    for objects in bset:
        objects.draw(canvas)
        objects.update()
        if objects.update() == True:
            bset.discard(objects)


# group_collide
def group_collide(aset, other_object):
    bset = set([])
    bset = aset
    remove = set([])
    i = 0
    for obj in bset:
        if obj.collide(other_object) == True:
            bset.discard(obj)
            i = 1

    if i == 0:
        return False
    else:
        return True


# group_group_collide
def group_group_collide(obj1, obj2):
    objects = set([])
    global sc
    for elem in obj2:
        objects = elem
        if group_collide(obj1, elem) == True:
            sc += 1
            obj2.discard(elem)
    return sc


# mouseclick handlers that reset UI and conditions whether splash image is drawn
def click(pos):
    global started
    center = [WIDTH / 2, HEIGHT / 2]
    size = splash_info.get_size()
    inwidth = (center[0] - size[0] / 2) < pos[0] < (center[0] + size[0] / 2)
    inheight = (center[1] - size[1] / 2) < pos[1] < (center[1] + size[1] / 2)
    if (not started) and inwidth and inheight:
        started = True

def draw(canvas):
    global time, started, lives, score

    # animiate background
    time += 1
    wtime = (time / 4) % WIDTH
    center = debris_info.get_center()
    size = debris_info.get_size()
    canvas.draw_image(nebula_image, nebula_info.get_center(), nebula_info.get_size(), [WIDTH / 2, HEIGHT / 2], [WIDTH, HEIGHT])
    canvas.draw_image(debris_image, center, size, (wtime - WIDTH / 2, HEIGHT / 2), (WIDTH, HEIGHT))
    canvas.draw_image(debris_image, center, size, (wtime + WIDTH / 2, HEIGHT / 2), (WIDTH, HEIGHT))

    # restart
    if lives == 0:
        started = False
        score = 0
        lives = 3
        for rocks in rock_group:
            rock_group.discard(rocks)

    #group collide
    if group_collide(rock_group, my_ship) == True:
        lives -= 1

    # group-group collide
    score = group_group_collide(rock_group, missile_group)* 50


    # draw UI
    canvas.draw_text("Lives", [50, 50], 22, "White")
    canvas.draw_text("Score", [680, 50], 22, "White")
    canvas.draw_text(str(lives), [50, 80], 22, "White")
    canvas.draw_text(str(score), [680, 80], 22, "White")

    # draw ship and sprites
    my_ship.draw(canvas)
    process_sprite_group(missile_group, canvas)
    process_sprite_group(rock_group, canvas)

    # update ship and sprites
    my_ship.update()


    # draw splash screen if not started
    if not started:
        canvas.draw_image(splash_image, splash_info.get_center(),
                          splash_info.get_size(), [WIDTH / 2, HEIGHT / 2],
                          splash_info.get_size())


# timer handler that spawns a rock
def rock_spawner():
    global rock_group, rock
    rock_pos = [random.randrange(0, WIDTH), random.randrange(0, HEIGHT)]
    rock_vel = [random.random() * .6 - .3, random.random() * .6 - .3]
    rock_avel = random.random() * .2 - .1
    rock = Sprite(rock_pos, rock_vel, 0, rock_avel, asteroid_image, asteroid_info)
    if len(rock_group) < 12 and started == True and dist(rock.pos, my_ship.pos) >= 200:
        rock_group.add(rock)


# initialize stuff
frame = simplegui.create_frame("Asteroids", WIDTH, HEIGHT)

# initialize ship and two sprites
my_ship = Ship([WIDTH / 2, HEIGHT / 2], [0, 0], 0, ship_image, ship_info)
rock_group = set([])
missile_group = set([])


# register handlers
frame.set_keyup_handler(keyup)
frame.set_keydown_handler(keydown)
frame.set_mouseclick_handler(click)
frame.set_draw_handler(draw)

timer = simplegui.create_timer(1000.0, rock_spawner)

# get things rolling
timer.start()
frame.start()
	# implementation of Spaceship - program template for RiceRocks
	import simplegui
	import math
	import random

	# globals for user interface
	WIDTH = 800
	HEIGHT = 600
	score = 0
	lives = 3
	time = 0
	started = False
	sc = 0

	class ImageInfo:
	def __init__(self, center, size, radius = 0, lifespan = None, animated = False):
	self.center = center
	self.size = size
	self.radius = radius
	if lifespan:
	self.lifespan = lifespan
	else:
	self.lifespan = float('inf')
	self.animated = animated

	def get_center(self):
	return self.center

	def get_size(self):
	return self.size

	def get_radius(self):
	return self.radius

	def get_lifespan(self):
	return self.lifespan

	def get_animated(self):
	return self.animated


	# art assets created by Kim Lathrop, may be freely re-used in non-commercial projects, please credit Kim

	# debris images - debris1_brown.png, debris2_brown.png, debris3_brown.png, debris4_brown.png
	# debris1_blue.png, debris2_blue.png, debris3_blue.png, debris4_blue.png, debris_blend.png
	debris_info = ImageInfo([320, 240], [640, 480])
	debris_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/debris2_blue.png")

	# nebula images - nebula_brown.png, nebula_blue.png
	nebula_info = ImageInfo([400, 300], [800, 600])
	nebula_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/nebula_blue.f2013.png")

	# splash image
	splash_info = ImageInfo([200, 150], [400, 300])
	splash_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/splash.png")

	# ship image
	ship_info = ImageInfo([45, 45], [90, 90], 35)
	ship_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/double_ship.png")

	# missile image - shot1.png, shot2.png, shot3.png
	missile_info = ImageInfo([5,5], [10, 10], 3, 50)
	missile_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/shot2.png")

	# asteroid images - asteroid_blue.png, asteroid_brown.png, asteroid_blend.png
	asteroid_info = ImageInfo([45, 45], [90, 90], 40)
	asteroid_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/asteroid_blue.png")

	# animated explosion - explosion_orange.png, explosion_blue.png, explosion_blue2.png, explosion_alpha.png
	explosion_info = ImageInfo([64, 64], [128, 128], 17, 24, True)
	explosion_image = simplegui.load_image("http://commondatastorage.googleapis.com/codeskulptor-assets/lathrop/explosion_alpha.png")

	# sound assets purchased from sounddogs.com, please do not redistribute
	# .ogg versions of sounds are also available, just replace .mp3 by .ogg
	soundtrack = simplegui.load_sound("http://commondatastorage.googleapis.com/codeskulptor-assets/sounddogs/soundtrack.mp3")
	missile_sound = simplegui.load_sound("http://commondatastorage.googleapis.com/codeskulptor-assets/sounddogs/missile.mp3")
	missile_sound.set_volume(.5)
	ship_thrust_sound = simplegui.load_sound("http://commondatastorage.googleapis.com/codeskulptor-assets/sounddogs/thrust.mp3")
	explosion_sound = simplegui.load_sound("http://commondatastorage.googleapis.com/codeskulptor-assets/sounddogs/explosion.mp3")

	# helper functions to handle transformations
	def angle_to_vector(ang):
	return [math.cos(ang), math.sin(ang)]

	def dist(p, q):
	return math.sqrt((p[0] - q[0]) 2 + (p[1] - q[1]) 2)


	# Ship class
	class Ship:

	def __init__(self, pos, vel, angle, image, info):
	self.pos = [pos[0], pos[1]]
	self.vel = [vel[0], vel[1]]
	self.thrust = False
	self.angle = angle
	self.angle_vel = 0
	self.image = image
	self.image_center = info.get_center()
	self.image_size = info.get_size()
	self.radius = info.get_radius()

	def draw(self,canvas):
	if self.thrust:
	canvas.draw_image(self.image, [self.image_center[0] + self.image_size[0], self.image_center[1]] , self.image_size,
	self.pos, self.image_size, self.angle)
	else:
	canvas.draw_image(self.image, self.image_center, self.image_size,
	self.pos, self.image_size, self.angle)
	# canvas.draw_circle(self.pos, self.radius, 1, "White", "White")

	def update(self):
	# update angle
	self.angle += self.angle_vel

	# update position
	self.pos[0] = (self.pos[0] + self.vel[0]) % WIDTH
	self.pos[1] = (self.pos[1] + self.vel[1]) % HEIGHT

	# update velocity
	if self.thrust:
	acc = angle_to_vector(self.angle)
	self.vel[0] += acc[0] * .1
	self.vel[1] += acc[1] * .1

	self.vel[0] *= .99
	self.vel[1] *= .99

	def set_thrust(self, on):
	self.thrust = on
	if on:
	ship_thrust_sound.rewind()
	ship_thrust_sound.play()
	else:
	ship_thrust_sound.pause()

	def increment_angle_vel(self):
	self.angle_vel += .05

	def decrement_angle_vel(self):
	self.angle_vel -= .05

	def get_pos(self):
	return self.pos

	def get_radius(self):
	return self.radius

	def shoot(self):
	global missile_group
	forward = angle_to_vector(self.angle)
	missile_pos = [self.pos[0] + self.radius * forward[0], self.pos[1] + self.radius * forward[1]]
	missile_vel = [self.vel[0] + 6 * forward[0], self.vel[1] + 6 * forward[1]]
	missile = Sprite(missile_pos, missile_vel, 0, 0, missile_image, missile_info, missile_sound)
	missile_group.add(missile)




	# Sprite class
	class Sprite:
	def __init__(self, pos, vel, ang, ang_vel, image, info, sound = None):
	self.pos = [pos[0],pos[1]]
	self.vel = [vel[0],vel[1]]
	self.angle = ang
	self.angle_vel = ang_vel
	self.image = image
	self.image_center = info.get_center()
	self.image_size = info.get_size()
	self.radius = info.get_radius()
	self.lifespan = info.get_lifespan()
	self.animated = info.get_animated()
	self.age = 0
	if sound:
	sound.rewind()
	sound.play()

	def draw(self, canvas):
	canvas.draw_image(self.image, self.image_center, self.image_size,
	self.pos, self.image_size, self.angle)

	def update(self):
	# update angle
	self.angle += self.angle_vel
	self.age += 1.5

	# update position
	self.pos[0] = (self.pos[0] + self.vel[0]) % WIDTH
	self.pos[1] = (self.pos[1] + self.vel[1]) % HEIGHT

	if self.age >= self.lifespan:
	return True
	else:
	return False

	def get_pos(self):
	return self.pos

	def get_radius(self):
	return self.radius

	def collide(self, other_object):
	if dist(self.get_pos(), other_object.get_pos()) <= (self.get_radius() + other_object.get_radius()):
	return True
	else:
	return False


	# key handlers to control ship
	def keydown(key):
	if key == simplegui.KEY_MAP['left']:
	my_ship.decrement_angle_vel()
	elif key == simplegui.KEY_MAP['right']:
	my_ship.increment_angle_vel()
	elif key == simplegui.KEY_MAP['up']:
	my_ship.set_thrust(True)
	elif key == simplegui.KEY_MAP['space']:
	my_ship.shoot()

	def keyup(key):
	if key == simplegui.KEY_MAP['left']:
	my_ship.increment_angle_vel()
	elif key == simplegui.KEY_MAP['right']:
	my_ship.decrement_angle_vel()
	elif key == simplegui.KEY_MAP['up']:
	my_ship.set_thrust(False)

	# process_sprite_group
	def process_sprite_group(aset, canvas):
	bset = set([])
	bset = aset
	for objects in bset:
	objects.draw(canvas)
	objects.update()
	if objects.update() == True:
	bset.discard(objects)


	# group_collide
	def group_collide(aset, other_object):
	bset = set([])
	bset = aset
	remove = set([])
	i = 0
	for obj in bset:
	if obj.collide(other_object) == True:
	bset.discard(obj)
	i = 1

	if i == 0:
	return False
	else:
	return True



	# group_group_collide
	def group_group_collide(obj1, obj2):
	objects = set([])
	global sc
	for elem in obj2:
	objects = elem
	if group_collide(obj1, elem) == True:
	sc += 1
	obj2.discard(elem)
	return sc




	# mouseclick handlers that reset UI and conditions whether splash image is drawn
	def click(pos):
	global started
	center = [WIDTH / 2, HEIGHT / 2]
	size = splash_info.get_size()
	inwidth = (center[0] - size[0] / 2) < pos[0] < (center[0] + size[0] / 2)
	inheight = (center[1] - size[1] / 2) < pos[1] < (center[1] + size[1] / 2)
	if (not started) and inwidth and inheight:
	started = True

	def draw(canvas):
	global time, started, lives, score

	# animiate background
	time += 1
	wtime = (time / 4) % WIDTH
	center = debris_info.get_center()
	size = debris_info.get_size()
	canvas.draw_image(nebula_image, nebula_info.get_center(), nebula_info.get_size(), [WIDTH / 2, HEIGHT / 2], [WIDTH, HEIGHT])
	canvas.draw_image(debris_image, center, size, (wtime - WIDTH / 2, HEIGHT / 2), (WIDTH, HEIGHT))
	canvas.draw_image(debris_image, center, size, (wtime + WIDTH / 2, HEIGHT / 2), (WIDTH, HEIGHT))

	# restart
	if lives == 0:
	started = False
	score = 0
	lives = 3
	for rocks in rock_group:
	rock_group.discard(rocks)

	#group collide
	if group_collide(rock_group, my_ship) == True:
	lives -= 1

	# group-group collide
	score = group_group_collide(rock_group, missile_group)* 50


	# draw UI
	canvas.draw_text("Lives", [50, 50], 22, "White")
	canvas.draw_text("Score", [680, 50], 22, "White")
	canvas.draw_text(str(lives), [50, 80], 22, "White")
	canvas.draw_text(str(score), [680, 80], 22, "White")

	# draw ship and sprites
	my_ship.draw(canvas)
	process_sprite_group(missile_group, canvas)
	process_sprite_group(rock_group, canvas)

	# update ship and sprites
	my_ship.update()


	# draw splash screen if not started
	if not started:
	canvas.draw_image(splash_image, splash_info.get_center(),
	splash_info.get_size(), [WIDTH / 2, HEIGHT / 2],
	splash_info.get_size())



	# timer handler that spawns a rock
	def rock_spawner():
	global rock_group, rock
	rock_pos = [random.randrange(0, WIDTH), random.randrange(0, HEIGHT)]
	rock_vel = [random.random() * .6 - .3, random.random() * .6 - .3]
	rock_avel = random.random() * .2 - .1
	rock = Sprite(rock_pos, rock_vel, 0, rock_avel, asteroid_image, asteroid_info)
	if len(rock_group) < 12 and started == True and dist(rock.pos, my_ship.pos) >= 200:
	rock_group.add(rock)



	# initialize stuff
	frame = simplegui.create_frame("Asteroids", WIDTH, HEIGHT)

	# initialize ship and two sprites
	my_ship = Ship([WIDTH / 2, HEIGHT / 2], [0, 0], 0, ship_image, ship_info)
	rock_group = set([])
	missile_group = set([])


	# register handlers
	frame.set_keyup_handler(keyup)
	frame.set_keydown_handler(keydown)
	frame.set_mouseclick_handler(click)
	frame.set_draw_handler(draw)

	timer = simplegui.create_timer(1000.0, rock_spawner)

	# get things rolling
	timer.start()
	frame.start()