Skier game

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# Listing_10-1.py

#
Copyright Warren Sande, 2009
#
Released under MIT license http://www.opensource.org/licenses/mit-license.php
#
Version 61 --------------------------- -

# Very simple skiing game.
#
Avoid the trees and pick up flags to get points

import pygame, sys, random

# different images for the skier depending on his direction
skier_images = ["skier_down.png", "skier_right1.png", "skier_right2.png",
"skier_left2.png", "skier_left1.png"]

# class for the skier sprite
class SkierClass(pygame.sprite.Sprite):
def __init__(self):
pygame.sprite.Sprite.
__init__(self)
self.image
= pygame.image.load("skier_down.png ")
self.rect
= self.image.get_rect()
self.rect.center
= [320, 100]
self.angle
= 0

def turn(self, direction):
# load new image and change speed when the skier turns
self.angle = self.angle + direction
if self.angle <-2: self.angle = -2
if self.angle> 2: self.angle = 2
center
= self.rect.center
self.image
= pygame.image.load(skier_images[self.angle])
self.rect
= self.image.get_rect()
self.rect.center
= center
speed
= [self.angle, 6-abs(self.angle) * 2]
return speed

def move(self, speed):
# move the skier right and left
self.rect.centerx = self.rect.centerx + speed[0]
if self.rect.centerx <20: self.rect.centerx = 20
if self.rect.centerx> 620: self.rect.centerx = 620

# class for obstacle sprites (trees and flags)
class ObstacleClass(pygame.sprite.Sprite):
def __init__(self, image_file, location, type):
pygame.sprite.Sprite.
__init__(self) #call Sprite initializer
self.image_file = image_file
self.image
= pygame.image.load(image_file)
self.location
= location
self.rect
= self.image.get_rect()
self.rect.center
= location
self.type
= type
self.passed
= False

def scroll(self, terrainPos):
self.rect.centery
= self.location[1] - terrainPos

# create one "screen" of terrain: 640 x 640 span>
#
use "blocks" of 64 x 64 pixels, so objects aren’t too close together
def create_map(start, end):
obstacles
= pygame.sprite.Group()
locations
= []
gates
= pygame.sprite.Group()
for i in range(10): # 10 obstacles per screen
row = random.randint(start, end)
col
= random.randint(0, 9)
location
= [col * 64 + 20, row * 64 + 20] #center x, y for obstacle
if not (location in locations): # prevent 2 obstacles in the same place
locations.append(location)
type
= random.choice(["tree< span style="color: #800000;">", "flag"])
if type == "tree": img = "< span style="color: #800000;">skier_tree.png"
elif type == "flag": img = "skier_flag.png"
obstacle
= ObstacleClass(img, location, type)
obstacles.add(obstacle)
return obstacles

# redraw the screen, including all sprites
def animate():
screen.fill([
255, 255, 255])
pygame.display.update(obstacles.draw(screen))
screen.blit(skier.image, skier.rect)
screen.blit(score_text, [
10, 10])
pygame.display.flip()

def updateObstacleGroup(map0, map1):
obstacles
= pygame.sprite.Group()
for ob in map0: obstacles.add(ob)
for ob in map1: obstacles.add(ob)
return obstacles

# initialize everything
pygame.init()
screen
= pygame.display.set_mode([640,640])
clock
= pygame.time.Clock()
skier
= SkierClass()
speed
= [0, 6]
map_position
= 0
points
= 0
map0
= create_map(20, 29)
map1
= create_map(10, 19)
activeMap
= 0

# group for all obstacles to do collision detection
obstacles = updateObstacleGroup(map0, map1)

# font object for score
font = pygame.font.Font(None, 50)

# main Pygame event loop
while True:
clock.tick(
30)
for event in pygame.event.get():
if event.type == pygame.QUIT: sys.exit( )
if event.type == pygame.KEYDOWN: # check for key presses
if event.key == pygame.K_LEFT: # left arrow turns left
speed = skier.turn(-1)
elif event.key == pygame.K_RIGHT: #right arrow turns right
speed = skier.turn(1)
skier.move(speed)
map_position
+= speed[1] # scroll the terrain

# manage terrain maps, switch between them,
# and create new terrain at the bottom
if map_position >=640 and activeMap == 0:
activeMap
= 1
map0
= create_map(20, 29)
obstacles
= updateObstacleGroup(map0, map1)
if map_position >=1280 and activeMap == 1 :
activeMap
= 0
for ob in map0:
ob.location[
1] = ob.location[1]-1280 # wrap around to top
map_position = map_position-1280 #
map1 = create_map(10, 19)
obstacles
= updateObstacleGroup(map0, map1)

for obstacle in obstacles:
obstacle.scroll(map_position)

# check for hitting trees or getting flags
hit = pygame.sprite.spritecollide(skier, obstacles, False)
if hit:
if hit[0].type == " tree" and not hit[0].passed: #crashed into tree
points = points-100
skier.image
= pygame.image.load("skier_crash.png ") # crash image
animate()
pygame.time.delay(
1000)
skier.image
= pygame.image.load("skier_down.png ") # resume skiing
skier.angle = 0
speed
= [0, 6]
hit[0].passed
= True
elif hit[0].type == " flag" and not hit[0].passed: # got a flag
points += 10
obstacles.remove(hit[0])
# remove the flag< /span>

score_text
= font.render("Score: < span style="color: #800000;">"
+str(points), 1, (0, 0, 0))
animate()

View Code

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#  Listing_10-1.py

#
Copyright Warren Sande, 2009
#
Released under MIT license http://www.opensource.org/licenses/mit-license.php
#
Version 61 --------------------------- -

# Very simple skiing game.
#
Avoid the trees and pick up flags to get points

import pygame, sys, random

# different images for the skier depending on his direction
skier_images = ["skier_down.png", "skier_right1.png", "skier_right2.png",
"skier_left2.png", "skier_left1.png"]

# class for the skier sprite
class SkierClass(pygame.sprite.Sprite):
def __init__(self):
pygame.sprite.Sprite.
__init__(self)
self.image
= pygame.image.load("skier_down.png ")
self.rect
= self.image.get_rect()
self.rect.center
= [320, 100]
self.angle
= 0

def turn(self, direction):
# load new image and change speed when the skier turns
self.angle = self.angle + direction
if self.angle <-2: self.angle = -2
if self.angle> 2: self.angle = 2
center
= self.rect.center
self.image
= pygame.image.load(skier_images[self.angle])
self.rect
= self.image.get_rect()
self.rect.center
= center
speed
= [self.angle, 6-abs(self.angle) * 2]
return speed

def move(self, speed):
# move the skier right and left
self.rect.centerx = self.rect.centerx + speed[0]
if self.rect.centerx <20: self.rect.centerx = 20
if self.rect.centerx> 620: self.rect.centerx = 620

# class for obstacle sprites (trees and flags)
class ObstacleClass(pygame.sprite.Sprite):
def __init__(self, image_file, location, type):
pygame.sprite.Sprite.
__init__(self) #call Sprite initializer
self.image_file = image_file
self.image
= pygame.image.load(image_file)
self.location
= location
self.rect
= self.image.get_rect()
self.rect.center
= location
self.type
= type
self.passed
= False

def scroll(self, terrainPos):
self.rect.centery
= self.location[1] - terrainPos

# create one "screen" of terrain: 640 x 640 span>
#
use "blocks" of 64 x 64 pixels, so objects aren’t too close together
def create_map(start, end):
obstacles
= pygame.sprite.Group()
locations
= []
gates
= pygame.sprite.Group()
for i in range(10): # 10 obstacles per screen
row = random.randint(start, end)
col
= random.randint(0, 9)
location
= [col * 64 + 20, row * 64 + 20] #center x, y for obstacle
if not (location in locations): # prevent 2 obstacles in the same place
locations.append(location)
type
= random.choice(["tree< span style="color: #800000;">", "flag"])
if type == "tree": img = "< span style="color: #800000;">skier_tree.png"
elif type == "flag": img = "skier_flag.png"
obstacle
= ObstacleClass(img, location, type)
obstacles.add(obstacle)
return obstacles

# redraw the screen, including all sprites
def animate():
screen.fill([
255, 255, 255])
pygame.display.update(obstacles.draw(screen))
screen.blit(skier.image, skier.rect)
screen.blit(score_text, [
10, 10])
pygame.display.flip()

def updateObstacleGroup(map0, map1):
obstacles
= pygame.sprite.Group()
for ob in map0: obstacles.add(ob)
for ob in map1: obstacles.add(ob)
return obstacles

# initialize everything
pygame.init()
screen
= pygame.display.set_mode([640,640])
clock
= pygame.time.Clock()
skier
= SkierClass()
speed
= [0, 6]
map_position
= 0
points
= 0
map0
= create_map(20, 29)
map1
= create_map(10, 19)
activeMap
= 0

# group for all obstacles to do collision detection
obstacles = updateObstacleGroup(map0, map1)

# font object for score
font = pygame.font.Font(None, 50)

# main Pygame event loop
while True:
clock.tick(
30)
for event in pygame.event.get():
if event.type == pygame.QUIT: sys.exit( )
if event.type == pygame.KEYDOWN: # check for key presses
if event.key == pygame.K_LEFT: # left arrow turns left
speed = skier.turn(-1)
elif event.key == pygame.K_RIGHT: #right arrow turns right
speed = skier.turn(1)
skier.move(speed)
map_position
+= speed[1] # scroll the terrain

# manage terrain maps, switch between them,
# and create new terrain at the bottom
if map_position >=640 and activeMap == 0:
activeMap
= 1
map0
= create_map(20, 29)
obstacles
= updateObstacleGroup(map0, map1)
if map_position >=1280 and activeMap == 1 :
activeMap
= 0
for ob in map0:
ob.location[
1] = ob.location[1]-1280 # wrap around to top
map_position = map_position-1280 #
map1 = create_map(10, 19)
obstacles
= updateObstacleGroup(map0, map1)

for obstacle in obstacles:
obstacle.scroll(map_position)

# check for hitting trees or getting flags
hit = pygame.sprite.spritecollide(skier, obstacles, False)
if hit:
if hit[0].type == "tree" and not hit[0].passed: #crashed into tree
points = points - 100
skier.image
= pygame.image.load("skier_crash.png") # crash image
animate()
pygame.time.delay(
1000)
skier.image
= pygame.image.load("skier_down.png") # resume skiing
skier.angle = 0
speed
= [0, 6]
hit[0].passed
= True
elif hit[0].type == "flag" and not hit[0].passed: # got a flag
points += 10
obstacles.remove(hit[0])
# remove the flag

score_text
= font.render("Score: " +str(points), 1, (0, 0, 0))
animate()

View Code

# Listing_10-1.py

#
Copyright Warren Sande, 2009
#
Released under MIT license http://www.opensource.org/licenses/mit-license.php
#
Version 61 ----------------------------

# Very simple skiing game.
#
Avoid the trees and pick up flags to get points

import pygame, sys, random

# different images for the skier depending on his direction
skier_images = ["skier_down.png", "skier_right1.png", "skier_right2.png",
"skier_left2.png", "skier_left1.png"]

# class for the skier sprite
class SkierClass(pygame.sprite.Sprite):
def __init__(self):
pygame.sprite.Sprite.
__init__(self)
self.image
= pygame.image.load("skier_down.png")
self.rect
= self.image.get_rect()
self.rect.center
= [320, 100]
self.angle
= 0

def turn(self, direction):
# load new image and change speed when the skier turns
self.angle = self.angle + direction
if self.angle < -2: self.angle = -2
if self.angle > 2: self.angle = 2
center
= self.rect.center
self.image
= pygame.image.load(skier_images[self.angle])
self.rect
= self.image.get_rect()
self.rect.center
= center
speed
= [self.angle, 6 - abs(self.angle) * 2]
return speed

def move(self, speed):
# move the skier right and left
self.rect.centerx = self.rect.centerx + speed[0]
if self.rect.centerx < 20: self.rect.centerx = 20
if self.rect.centerx > 620: self.rect.centerx = 620

# class for obstacle sprites (trees and flags)
class ObstacleClass(pygame.sprite.Sprite):
def __init__(self, image_file, location, type):
pygame.sprite.Sprite.
__init__(self) #call Sprite initializer
self.image_file = image_file
self.image
= pygame.image.load(image_file)
self.location
= location
self.rect
= self.image.get_rect()
self.rect.center
= location
self.type
= type
self.passed
= False

def scroll(self, terrainPos):
self.rect.centery
= self.location[1] - terrainPos

# create one "screen" of terrain: 640 x 640
#
use "blocks" of 64 x 64 pixels, so objects aren‘t too close together
def create_map(start, end):
obstacles
= pygame.sprite.Group()
locations
= []
gates
= pygame.sprite.Group()
for i in range(10): # 10 obstacles per screen
row = random.randint(start, end)
col
= random.randint(0, 9)
location
= [col * 64 + 20, row * 64 + 20] #center x, y for obstacle
if not (location in locations): # prevent 2 obstacles in the same place
locations.append(location)
type
= random.choice(["tree", "flag"])
if type == "tree": img = "skier_tree.png"
elif type == "flag": img = "skier_flag.png"
obstacle
= ObstacleClass(img, location, type)
obstacles.add(obstacle)
return obstacles

# redraw the screen, including all sprites
def animate():
screen.fill([
255, 255, 255])
pygame.display.update(obstacles.draw(screen))
screen.blit(skier.image, skier.rect)
screen.blit(score_text, [
10, 10])
pygame.display.flip()

def updateObstacleGroup(map0, map1):
obstacles
= pygame.sprite.Group()
for ob in map0: obstacles.add(ob)
for ob in map1: obstacles.add(ob)
return obstacles

# initialize everything
pygame.init()
screen
= pygame.display.set_mode([640,640])
clock
= pygame.time.Clock()
skier
= SkierClass()
speed
= [0, 6]
map_position
= 0
points
= 0
map0
= create_map(20, 29)
map1
= create_map(10, 19)
activeMap
= 0

# group for all obstacles to do collision detection
obstacles = updateObstacleGroup(map0, map1)

# font object for score
font = pygame.font.Font(None, 50)

# main Pygame event loop
while True:
clock.tick(
30)
for event in pygame.event.get():
if event.type == pygame.QUIT: sys.exit()
if event.type == pygame.KEYDOWN: # check for key presses
if event.key == pygame.K_LEFT: # left arrow turns left
speed = skier.turn(-1)
elif event.key == pygame.K_RIGHT: #right arrow turns right
speed = skier.turn(1)
skier.move(speed)
map_position
+= speed[1] # scroll the terrain

# manage terrain maps, switch between them,
# and create new terrain at the bottom
if map_position >=640 and activeMap == 0:
activeMap
= 1
map0
= create_map(20, 29)
obstacles
= updateObstacleGroup(map0, map1)
if map_position >=1280 and activeMap == 1:
activeMap
= 0
for ob in map0:
ob.location[
1] = ob.location[1] - 1280 # wrap around to top
map_position = map_position - 1280 #
map1 = create_map(10, 19)
obstacles
= updateObstacleGroup(map0, map1)

for obstacle in obstacles:
obstacle.scroll(map_position)

# check for hitting trees or getting flags
hit = pygame.sprite.spritecollide(skier, obstacles, False)
if hit:
if hit[0].type == "tree" and not hit[0].passed: #crashed into tree
points = points - 100
skier.image
= pygame.image.load("skier_crash.png") # crash image
animate()
pygame.time.delay(
1000)
skier.image
= pygame.image.load("skier_down.png") # resume skiing
skier.angle = 0
speed
= [0, 6]
hit[0].passed
= True
elif hit[0].type == "flag" and not hit[0].passed: # got a flag
points += 10
obstacles.remove(hit[0])
# remove the flag

score_text
= font.render("Score: " +str(points), 1, (0, 0, 0))
animate()

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