def falling(screen, WIDTH, HEIGHT, clock, difficulty, timer1, mode):
FPS = 60
# Initializing groups
player1 = fallingplayer.player(WIDTH, HEIGHT)
all_players = pygame.sprite.Group()
all_players.add(player1)
all_falling = pygame.sprite.Group()
fallingobj1 = fallingobjects.Fallingobjects(WIDTH, 5,
random.randint(0, WIDTH),
random.randint(0, 1))
all_falling.add(fallingobj1)
# Loads the background
background = pygame.image.load("backgrounds/fallingbackground.png")
draw.info(screen, WIDTH, HEIGHT, 'Score 50 to Move on',
100) # Displays the game info
# Main game loop
runnning = True
while runnning:
clock.tick(FPS)
# Detects if player closes the window
for event in pygame.event.get():
if event.type == pygame.QUIT:
running = False
pygame.quit()
# Randomly spawn a falling object,
# more objects spawn as player score increases
if (random.randrange(0, 100) < difficulty + (player1.score / 10)):
newfallingobj = fallingobjects.Fallingobjects(
WIDTH, random.randint(2,
round(difficulty + player1.score / 10)),
random.randint(0, WIDTH), random.randint(0, 2))
all_falling.add(newfallingobj)
# Displays background
screen.fill(colors.black)
screen.blit(background, (0, 0))
collisions(all_falling, all_players, player1, screen, WIDTH, HEIGHT)
# Updates the objects and players
all_falling.update(5, HEIGHT, all_falling, player1)
all_players.update(WIDTH, HEIGHT)
# Displays player score
draw.displayscore(screen, WIDTH, HEIGHT, player1.score)
# Draw sprites to the screen
all_falling.draw(screen)
all_players.draw(screen)
# Shows the total elapsed time
draw.drawtime(timer1, screen)
pygame.display.flip()
# Detects end game
if player1.score >= 50:
running = False
if mode:
timer1.pause()
draw.drawEnd(screen, WIDTH, HEIGHT, timer1)
else:
draw.drawWin(screen, WIDTH, HEIGHT)
break
def gameMain():
#initialize the randomly selected word to guess
wordToGuessSTRING = wordGuessList[random.randint(0, len(wordGuessList))]
wordToGuess = list(wordToGuessSTRING)
wordToGuess2 = list(wordToGuessSTRING)
print("A word has been chosen...\n")
#initialize variables requireda
errorCount = 0
missedLetters = []
correctLetters = ["_"] * (len(wordToGuess))
#main game start
print(correctLetters)
while correctLetters != wordToGuess: #10 is maximum number of errors until hangman is drawn completely
guess = input("Enter a guess!: ")
# guess = guess.lower
if guess in wordToGuess and guess not in correctLetters:
for c in wordToGuess:
if c == guess:
correctLetters[wordToGuess2.index(guess)] = guess
wordToGuess2[wordToGuess2.index(guess)] = "0"
elif guess in correctLetters:
print("You already guessed that!")
else:
errorCount += 1
missedLetters.append(guess)
if errorCount == 10 or correctLetters == wordToGuess:
break
drawScreen(errorCount, missedLetters, correctLetters)
if errorCount != 10:
print("\n"*30)
print(wordToGuess)
print("CONGRATS! YOU WON!")
else:
print("\n"*30)
draw.drawEnd()
print(wordToGuess)
print("Damn, you lost! Better luck next time.")
def main():
# Variable that controls if the welcome screen in shown
global showTitle
won = False
quit = True
WIDTH = 800
HEIGHT = 600
PLAYER_SIZE = 40
PLAYER_SPEED = 5
FPS = 60
score = 0
pygame.init()
os.environ['SDL_VIDEO_CENTERED'] = '1' # Centers the game screen
# Sets up the game window
screen = pygame.display.set_mode((WIDTH, HEIGHT))
pygame.display.set_caption("Minigame Race")
background = pygame.image.load("Background.png")
# Instantiates a clock
clock = pygame.time.Clock()
running = True
# Starts the music
music()
# Displays the welcome screen upon first launch
if showTitle:
draw.welcomeScreen(WIDTH, HEIGHT, screen)
InMenu = True
# Controls the whole menu
while InMenu:
mode = menu.menu(screen, WIDTH, HEIGHT)
if (mode):
time.sleep(.2)
test.scoredisp('0')
ready = menu.checkPlayerReady(screen, WIDTH, HEIGHT)
time.sleep(.2)
if ready:
draw.countdown(screen, WIDTH, HEIGHT)
InMenu = False
else:
continue
else:
time.sleep(.2)
singlemode = menu.SinglePlayerMode(screen, WIDTH, HEIGHT)
if singlemode:
time.sleep(.2)
ready = menu.checkPlayerReady(screen, WIDTH, HEIGHT)
time.sleep(.2)
if ready:
draw.countdown(screen, WIDTH, HEIGHT)
InMenu = False
else:
continue
else:
choice = menu.minigamechooser(screen, WIDTH, HEIGHT)
print(choice)
if choice == 7:
running = False
quit = True
elif choice == 6:
continue
else:
runMinigame(choice)
running = False
quit = False
# Initiates the player
all_players = pygame.sprite.Group()
player1 = player.Player(WIDTH / 2, HEIGHT / 2, PLAYER_SIZE, PLAYER_SPEED)
all_players.add(player1)
# Draws the gamestations
all_gamestations = drawGamestations()
# Instatiates and starts a timer
timer1 = timer.Timer()
timer1.start()
while running:
# Set the speed of the game
clock.tick(FPS)
# Detects exit
for event in pygame.event.get():
if event.type == pygame.QUIT:
running = False
pygame.quit()
if event.type == pygame.KEYDOWN:
if event.key == K_ESCAPE:
running = False
quit = False
showTitle = False
main()
screen.fill(colors.black)
# Calls update function to do updates
updates(screen, all_players, all_gamestations,
WIDTH, HEIGHT, background, player1)
# Detects collision and determines the numbers of games played
gamesplayed = collision(player1, all_gamestations,
screen, WIDTH, HEIGHT, clock, timer1)
draw.drawtime(timer1, screen)
# This part runs only if in Multiplayer mode
if mode:
if score != player1.score:
# Displays score to arduino
test.scoredisp(player1.score)
score = player1.score
# Detects end game
if gamesplayed == 6:
draw.drawEnd(screen, WIDTH, HEIGHT, timer1)
showTitle = False
quit = False
running = False
main()
if won:
draw.drawlosegame(screen, WIDTH, HEIGHT)
main()
pygame.display.flip()
if quit:
pygame.quit()
def catch(screen, WIDTH, HEIGHT, clock, timer1, mode):
FPS = 60
# Initializes the player and falling objects
# sprite groups
player1 = fallingplayer.player(WIDTH, HEIGHT)
all_players = pygame.sprite.Group()
all_players.add(player1)
all_falling = pygame.sprite.Group()
fallingobj1 = catchobjects.Catchobjects(WIDTH, 10,
random.randint(0, WIDTH),
random.randint(0, 1))
all_falling.add(fallingobj1)
all_bombs = pygame.sprite.Group()
bomb = catchobjects.Bomb(WIDTH, 10, random.randint(0, WIDTH))
all_bombs.add(bomb)
# Loads the background we are going to use
background = pygame.image.load("backgrounds/catchbackground.png")
# Calls the draw.info function which will display to the player information
# on what to do to move on
draw.info(screen, WIDTH, HEIGHT, 'Catch 10 to Move on',
100) # Displays the game info
# Main loop that will run until the end
runnning = True
while runnning:
# Sets the FPS
clock.tick(FPS)
# Detects if player hits X on the window
# and then closes the game if they did
for event in pygame.event.get():
if event.type == pygame.QUIT:
running = False
pygame.quit()
# Algorithm to randomly spawn an enemy
if (random.randrange(0, 100) < 0.75):
# If above is true, create a new object and add it to the group
newfallingobj = catchobjects.Catchobjects(WIDTH,
random.randint(10, 15),
random.randint(0, WIDTH),
random.randint(0, 2))
all_falling.add(newfallingobj)
if (random.randrange(0, 100) < .10):
newbomb = catchobjects.Bomb(WIDTH, random.randint(10, 20),
random.randint(0, WIDTH))
all_bombs.add(newbomb)
# Calls the collision function to detects collision
collisions(all_falling, all_bombs, all_players, player1, screen, WIDTH,
HEIGHT)
# Updates the player and falling object
all_falling.update(5, HEIGHT, all_falling, player1)
all_bombs.update(5, HEIGHT, all_bombs, player1)
all_players.update(WIDTH, HEIGHT)
# Sets the background
screen.fill(colors.black)
screen.blit(background, (0, 0))
# Displays the score in top righ corners
draw.displayscore(screen, WIDTH, HEIGHT, player1.score)
# Once updated, draws sprite groups to the screen
all_falling.draw(screen)
all_players.draw(screen)
all_bombs.draw(screen)
# Displays total run time
draw.drawtime(timer1, screen)
# Flips the displays
pygame.display.flip()
# Detects if player has reached the score limit
if player1.score >= 10:
running = False
if mode: # Detects the mode program was started in
timer1.pause()
# Will tell the player they finished and displays
# their time
draw.drawEnd(screen, WIDTH, HEIGHT, timer1)
else:
# Tells the player the beat the level
draw.drawWin(screen, WIDTH, HEIGHT)
break
def side(screen, WIDTH, HEIGHT, clock, timer1, mode):
FPS = 60
# Initializes the groups of objects
player1 = sideclass.player(WIDTH, HEIGHT)
all_players = pygame.sprite.Group()
all_players.add(player1)
all_enemy = pygame.sprite.Group()
enemy1 = sideclass.Enemy(WIDTH, HEIGHT, 5)
all_enemy.add(enemy1)
# Loads 2 instances of the same background for scrolling
background1 = pygame.image.load("backgrounds/jumpback.jpg")
background2 = pygame.image.load("backgrounds/jumpback.jpg")
# Displays info to the user playing the game
draw.info(screen, WIDTH, HEIGHT, 'Score 15 to Move on', 100)
running = True
move1 = 800
move2 = 0
while running:
clock.tick(FPS)
for event in pygame.event.get():
if event.type == pygame.QUIT:
running = False
pygame.quit()
# Draws the background
screen.fill(colors.black)
screen.blit(background1, (move1, 0))
screen.blit(background2, (move2, 0))
# Randomly spawns enemies
if (random.randrange(0, 100) < 1
and len(all_enemy) < 2) or len(all_enemy) == 0:
enemy = sideclass.Enemy(WIDTH, HEIGHT, random.randint(5, 8))
all_enemy.add(enemy)
# Displays the timer and score
draw.drawtime(timer1, screen)
draw.displayscore(screen, WIDTH, HEIGHT, player1.score)
# Updates player and enemies
all_players.update(WIDTH, HEIGHT)
all_enemy.update(all_enemy, player1)
all_players.draw(screen)
all_enemy.draw(screen)
# Detects collision between enemies and players
collision(all_players, all_enemy, player1, screen, WIDTH, HEIGHT)
# Sees if the player has reached the limit
if player1.score == 15:
if mode: # If in minigame mode
timer1.pause()
draw.drawEnd(screen, WIDTH, HEIGHT, timer1)
else:
draw.drawWin(screen, WIDTH, HEIGHT)
break
# Controls movement of the background to scroll
move1 -= 1
move2 -= 1
if move2 == -800:
move2 = 800
if move1 == -800:
move1 = 800
pygame.display.flip()
def Snake(screen, WIDTH, HEIGHT, clock, timer1, mode):
FPS = 60
# Initializes the sprites
all_players = pygame.sprite.Group()
all_food = pygame.sprite.Group()
all_bad = pygame.sprite.Group()
foodobject = snakeclasses.food(
randint(1, (WIDTH / 40) - 1) * 40,
randint(1, (HEIGHT / 40) - 1) * 40)
player1 = snakeclasses.player(WIDTH, HEIGHT)
badobject = snakeclasses.bad(
randint(1, (WIDTH / 40) - 1) * 40,
randint(1, (HEIGHT / 40) - 1) * 40)
all_bad.add(badobject)
all_food.add(foodobject)
all_players.add(player1)
# Displays info to the player
draw.info(screen, WIDTH, HEIGHT, 'Score 5 to Move on', 100)
running = True
while running:
clock.tick(FPS)
for event in pygame.event.get():
if event.type == pygame.QUIT:
running = False
pygame.quit()
# Detects if player collides with the food
if collision(player1.rect.x, foodobject.rect.x, player1.rect.y,
foodobject.rect.y):
generating = True
# Ensures food doesn't spawn on the obstacle
while generating:
foodobject.rect.x = randint(1, WIDTH / 40 - 1) * 40
foodobject.rect.y = randint(1, HEIGHT / 40 - 1) * 40
for bad in all_bad:
if bad.rect.x != foodobject.rect.x and bad.rect.y != foodobject.rect.y:
generating = False
badobject = snakeclasses.bad(
randint(1, (WIDTH / 40) - 1) * 40,
randint(1, (HEIGHT / 40) - 1) * 40)
all_bad.add(badobject)
player1.score += 1
# Detects collision with the enemy
if enemyCollision(all_players, all_bad):
# Displays loose message then resets the game
draw.drawlosegame(screen, WIDTH, HEIGHT)
for i in all_bad:
all_bad.remove(i)
player1.score = 0
badobject.rect.x = randint(1, (WIDTH / 40) - 1) * 40
badobject.rect.y = randint(1, (HEIGHT / 40) - 1) * 40
while badobject.rect.x == foodobject.rect.x and badobject.rect.y == foodobject.rect.y:
badobject.rect.x = randint(1, (WIDTH / 40) - 1) * 40
badobject.rect.y = randint(1, (HEIGHT / 40) - 1) * 40
all_bad.add(badobject)
# Detects if player reached score limit
if player1.score == 5:
if mode: # If in minigame mode
timer1.pause()
draw.drawEnd(screen, WIDTH, HEIGHT, timer1)
else:
draw.drawWin(screen, WIDTH, HEIGHT)
break
# Updates on the screen
all_players.update(WIDTH, HEIGHT)
screen.fill(colors.black)
draw.displayscore(screen, WIDTH, HEIGHT, player1.score)
all_players.draw(screen)
all_food.draw(screen)
all_bad.draw(screen)
draw.drawtime(timer1, screen)
pygame.display.flip()
pygame.display.set_caption("Minesweeper")
while True:
event = pygame.event.wait()
t = event.type
if t == pygame.QUIT:
sys.exit()
elif t == pygame.MOUSEBUTTONDOWN:
if not g.ended:
y, x = event.pos
button = event.button
tile = g.findTile(x, y)
if button == 3:
tile.toggleFlag()
elif button == 1:
g.openTile(tile)
elif t == pygame.KEYDOWN:
if g.ended:
if event.key == 13:
g.reset()
g.checkWin()
for tile in g:
draw.drawTile(screen, tile)
if g.ended:
draw.drawEnd(screen, g.win, width * 25, height * 25)
pygame.display.flip()
def falling(screen, WIDTH, HEIGHT, clock, difficulty, timer1, mode):
FPS = 60
# Loads the background
background = pygame.image.load("backgrounds/popbackground.jpg")
# Initializes player and balloon groups
player1 = player.Player(WIDTH / 2, HEIGHT / 2, 0, 5)
all_players = pygame.sprite.Group()
all_players.add(player1)
all_objects = pygame.sprite.Group()
obj1 = popobjects.Popobject(
0, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)), 0, 1)
all_objects.add(obj1)
# Displays to the player what their objective is
draw.info(screen, WIDTH, HEIGHT, 'Pop 5 Balloons in 10 Seconds', 75)
# Variable to keep track of time limit
start = 600
runnning = True
while runnning:
clock.tick(FPS)
for event in pygame.event.get():
if event.type == pygame.QUIT:
running = False
pygame.quit()
# Randomly spawns a balloon, if there are no balloons on the screen it will spawn one also
if (random.randrange(0, 100) < 1.5 - player1.score / 100
or len(all_objects) == 0):
comingfrom = random.randint(1, 8)
if comingfrom == 1:
newobj = popobjects.Popobject(
-1, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 0), 1)
elif comingfrom == 2:
newobj = popobjects.Popobject(
random.randint(0, WIDTH), -1,
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 0), 1)
elif comingfrom == 3:
newobj = popobjects.Popobject(
random.randint(0, WIDTH), 601,
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 0), 3)
elif comingfrom == 4:
newobj = popobjects.Popobject(
801, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 0), 3)
elif comingfrom == 5:
newobj = popobjects.Popobject(
-1, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 0), 2)
elif comingfrom == 6:
newobj = popobjects.Popobject(
random.randint(0, WIDTH), 601,
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 0), 2)
elif comingfrom == 7:
newobj = popobjects.Popobject(
801, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 0), 4)
elif comingfrom == 8:
newobj = popobjects.Popobject(
random.randint(0, WIDTH), -1,
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 0), 4)
all_objects.add(newobj)
# Draws the background
screen.fill(colors.black)
screen.blit(background, (0, 0))
# Detects collisions
collisions(all_objects, all_players, player1, screen, WIDTH, HEIGHT)
# Updates objects, dislay score and time
all_objects.update(HEIGHT, WIDTH, all_objects)
all_players.update(WIDTH, HEIGHT)
draw.displayscore(screen, WIDTH, HEIGHT, player1.score)
all_objects.draw(screen)
all_players.draw(screen)
draw.drawtime(timer1, screen)
draw.drawremainingtime(start, screen)
pygame.display.flip()
# Detects if time limit is reached and resets the game if it has been
if start < 0:
start = 600
draw.drawlosepop(all_objects, screen, WIDTH, HEIGHT, timer1)
player1.score = 0
# Detects if the player reached the score within the time limit
if player1.score >= 5 and start > 0:
running = False
if mode:
timer1.pause()
draw.drawEnd(screen, WIDTH, HEIGHT, timer1)
else:
draw.drawWin(screen, WIDTH, HEIGHT)
break
start -= 1
def falling(screen, WIDTH, HEIGHT, clock, difficulty, timer1, mode):
FPS = 60
# Sets the player and enemy sprite groups
player1 = player.Player(WIDTH / 2, HEIGHT / 2, 0, 7)
all_players = pygame.sprite.Group()
all_players.add(player1)
all_objects = pygame.sprite.Group()
obj1 = objectsfordodge.Object(
0, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)), 0, 1)
all_objects.add(obj1)
# Loads the background
background = pygame.image.load("backgrounds/dodgebackground.jpg")
# Displays the info on what to do to the player
draw.info(screen, WIDTH, HEIGHT, 'Score 50 to Move on', 100)
# Main loop
runnning = True
while runnning:
clock.tick(FPS)
# Detects if player has closed the window
for event in pygame.event.get():
if event.type == pygame.QUIT:
running = False
pygame.quit()
# Randomly spawns objects around the screen
if (random.randrange(0, 100) < difficulty + (player1.score / 10)):
comingfrom = random.randint(1, 8)
if comingfrom == 1:
newobj = objectsfordodge.Object(
-1, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 5), 1)
elif comingfrom == 2:
newobj = objectsfordodge.Object(
random.randint(0, WIDTH), -1,
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 5), 1)
elif comingfrom == 3:
newobj = objectsfordodge.Object(
random.randint(0, WIDTH), 601,
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 5), 3)
elif comingfrom == 4:
newobj = objectsfordodge.Object(
801, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 5), 3)
elif comingfrom == 5:
newobj = objectsfordodge.Object(
-1, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 5), 2)
elif comingfrom == 6:
newobj = objectsfordodge.Object(
random.randint(0, WIDTH), 601,
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 5), 2)
elif comingfrom == 7:
newobj = objectsfordodge.Object(
801, random.randint(0, HEIGHT),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 5), 4)
elif comingfrom == 8:
newobj = objectsfordodge.Object(
random.randint(0, WIDTH), -1,
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(2, round(difficulty + player1.score / 10)),
random.randint(0, 5), 4)
# Adds object to the group if it spawns
all_objects.add(newobj)
# Detects collision
collisions(all_objects, all_players, player1, screen, WIDTH, HEIGHT)
# Updates of opbjects
all_objects.update(HEIGHT, WIDTH, all_objects, player1)
all_players.update(WIDTH, HEIGHT)
screen.fill(colors.black)
screen.blit(background, (0, 0))
draw.displayscore(screen, WIDTH, HEIGHT, player1.score)
all_objects.draw(screen)
all_players.draw(screen)
draw.drawtime(timer1, screen)
pygame.display.flip()
# Checks for player win
if player1.score == 50:
running = False
if mode:
timer1.pause()
draw.drawEnd(screen, WIDTH, HEIGHT, timer1)
else:
draw.drawWin(screen, WIDTH, HEIGHT)
break
