def __init__(self):
pygame.init()
pygame.display.set_caption("My Pong Game")
self.screen = pygame.display.set_mode((800, 600))
self.running = True
self.clock = pygame.time.Clock()
self.walls = [Wall((10, 10), 780, 10),
Wall((10, 580), 780,
10)] # Position and dimensions of walls
self.background = pygame.Surface((800, 600))
self.background.fill(pygame.Color("#000000"))
self.ball = Ball((400, 300))
self.font = pygame.font.Font(None, 50)
control_scheme_1 = ControlScheme()
control_scheme_1.up = pygame.K_w
control_scheme_1.down = pygame.K_s
control_scheme_2 = ControlScheme()
control_scheme_2.up = pygame.K_UP
control_scheme_2.down = pygame.K_DOWN
self.bats = [
Bat((10, 200), 10, 100, control_scheme_1),
Bat((780, 200), 10, 100, control_scheme_2)
] # Position and dimensions of paddles, their respective control schemes
self.score = Score(self.font)
def run(pca, function, lb, ub, generations):
alpha_gamma = 0.95
algorithm = Bat(
# Dimension
100,
# Population
100,
# Generations
generations,
# Loudness
0.9,
# Pulse rate
0.9,
# Min. Freq.
0.0,
# Max. Freq.
5.0,
# Lower bound
lb,
# Upper bound
ub,
function,
alpha=0.99,
gamma=0.9,
use_pca=pca,
levy=True)
return_dict = algorithm.run_bats()
print(
f"Best: {return_dict['best']}, values: {return_dict['final_fitness']}")
return return_dict
def create_bat(ai_settings, screen, bats, bat_number, row_number):
bat = Bat(ai_settings, screen)
bat_width = bat.rect.width
bat.x = bat_width + 2 * bat_width * bat_number
bat.rect.x = bat.x
bat.rect.y = bat.rect.height + 2 * bat.rect.height * row_number
bats.add(bat)
def update(*scripts):
"""update scripts"""
if len(scripts) >= 1:
for index in xrange(0, len(scripts)):
bat = Bat(scripts[index])
bat.update()
else:
console('Please use `vimpyre update <script-name>` and try again!')
def install(*scripts):
"""install scripts"""
if scripts.__len__() >= 1:
for index in xrange(0, scripts.__len__()):
bat = Bat(scripts[index])
bat.install()
else:
print('Please use `vimpyre install <script-name>` and try again!')
def install(*scripts):
"""install scripts"""
if len(scripts) >= 1:
for index in xrange(0, len(scripts)):
bat = Bat(scripts[index])
bat.install()
else:
console('Please use `vimpyre install <script-name>` and try again!')
def update(*scripts):
"""update scripts"""
if scripts.__len__() >= 1:
for index in xrange(0, scripts.__len__()):
bat = Bat(scripts[index])
bat.update()
else:
print('Please use `vimpyre update <script-name>` and try again!')
def install(*scripts):
"""install scripts"""
if len(scripts) >= 1:
for index in xrange(0, len(scripts)):
bat = Bat(scripts[index])
bat.install()
else:
console('Please use `vimpyre install <script-name>` and try again!')
def update(*scripts):
"""update scripts"""
if len(scripts) >= 1:
for index in xrange(0, len(scripts)):
bat = Bat(scripts[index])
bat.update()
else:
console('Please use `vimpyre update <script-name>` and try again!')
def browse(*scripts):
"""browse script's homepage in your web browser"""
if len(scripts) >= 1:
for index in xrange(0, len(scripts)):
bat = Bat(scripts[index])
bat.open_homepage()
else:
console('Please use `vimpyre browse <script-name>` and try again!')
def browse(*scripts):
"""browse script's homepage in your web browser"""
if len(scripts) >= 1:
for index in xrange(0, len(scripts)):
bat = Bat(scripts[index])
bat.open_homepage()
else:
console('Please use `vimpyre browse <script-name>` and try again!')
def doremove(self, args):
"""remove scripts"""
scripts = args.scripts
if len(scripts) >= 1:
for index in xrange(0, len(scripts)):
bat = Bat(scripts[index])
bat.remove()
else:
console('Please use `vimpyre remove <script-name>` and try again!')
def __init__(self, *args, **kwargs):
# So instead we explicitly call __init__ for all ancestors.
# The use of *args and **kwargs allows for a clean way to pass arguments,
# with each parent "peeling a layer of the onion".
Superhero.__init__(self, 'anonymous', movie=True,
superpowers=['Wealthy'], *args, **kwargs)
Bat.__init__(self, *args, can_fly=False, **kwargs)
# override the value for the name attribute
self.name = 'Sad Affleck'
def __init__(self, *args, **kwargs):
# Cách điển hình để thừa kế thuộc tính là gọi super
# super(Batman, self).__init__(*args, **kwargs)
# Tuy nhiên với đa thừa kế, super() sẽ chỉ gọi lớp cơ sở tiếp theo trong danh sách MRO.
# Vì thế, ta sẽ gọi cụ thể hàm __init__ của các lớp chả.
# Sử dụng *args và **kwargs cho phép việc truyền đối số gọn gàng hơn,
# trong đó mỗi lớp cha sẽ chịu trách nhiệm cho những phần thuộc về nó
Human.__init__(self, 'anonymous', *args, **kwargs)
Bat.__init__(self, *args, can_fly=False, **kwargs)
# ghi đè giá trị của thuộc tính name
self.name = 'Sad Affleck'
def __init__(self, *args, **kwargs):
# Typically to inherit attributes you have to call super:
#super(Batman, self).__init__(*args, **kwargs)
# However we are dealing with multiple inheritance here, and super()
# only works with the next base class in the MRO list.
# So instead we explicitly call __init__ for all ancestors.
# The use of *args and **kwargs allows for a clean way to pass arguments,
# with each parent "peeling a layer of the onion".
Human.__init__(self, 'anonymous', *args, **kwargs)
Bat.__init__(self, *args, can_fly=False, **kwargs)
# override the value for the name attribute
self.name = 'Sad Affleck'
def __init__(self, *args, **kwargs):
# Обычно для наследования атрибутов необходимо вызывать super:
# super(Batman, self).__init__(*args, **kwargs)
# Однако здесь мы имеем дело с множественным наследованием, а super()
# работает только со следующим базовым классом в списке MRO.
# Поэтому вместо этого мы вызываем __init__ для всех родителей.
# Использование *args и **kwargs обеспечивает чистый способ передачи
# аргументов, когда каждый родитель "очищает слой луковицы".
Superhero.__init__(self, 'анонимный', movie=True,
superpowers=['Богатый'], *args, **kwargs)
Bat.__init__(self, *args, can_fly=False, **kwargs)
# переопределить значение атрибута name
self.name = 'Грустный Бен Аффлек'
def __init__(self, *args, **kwargs):
# Typically to inherit attributes you have to call super:
#super(Batman, self).__init__(*args, **kwargs)
# However we are dealing with multiple inheritance here, and super()
# only works with the next base class in the MRO list.
# So instead we explicitly call __init__ for all ancestors.
# The use of *args and **kwargs allows for a clean way to pass arguments,
# with each parent "peeling a layer of the onion".
Superhero.__init__(self, 'anonymous', movie=True,
superpowers=['Wealthy'], *args, **kwargs)
Bat.__init__(self, *args, can_fly=False, **kwargs)
# override the value for the name attribute
self.name = 'Sad Affleck'
def dosearch(self, args):
"""search script"""
bat = Bat(args.script)
rets = bat.search()
console('=> => Send bats to search vim-scripts ...')
if rets:
for item in rets:
if path.isdir(path.join(VIM_PATH, 'vimpyre', item['name'])):
console('\033[1m%s\033[m => %s \033[1m[installed]\033[m' % (item['name'].encode('utf-8'), item['description'].encode('utf-8')))
else:
console('\033[1m%s\033[m => %s' % (item['name'].encode('utf-8'), item['description'].encode('utf-8')))
else:
console('No such vim-scripts!')
def search(*scripts):
"""search script"""
if len(scripts) > 1:
console('Please search one script name!')
sys.exit(1)
bat = Bat(scripts[0])
rets = bat.search()
console('=> => Send bats to search vim-scripts ...')
if rets:
for item in rets:
if path.isdir(path.join(VIM_PATH, 'vimpyre', item['name'])):
console('\033[1m%s\033[m => %s \033[1m[installed]\033[m' % (item['name'].encode('utf-8'), item['description'].encode('utf-8')))
else:
console('\033[1m%s\033[m => %s' % (item['name'].encode('utf-8'), item['description'].encode('utf-8')))
else:
console('No such vim-scripts!')
def spawn_enemy(self):
map_width = self.map.get_width_map()
map_height = self.map.get_height_map()
y_poz = randint(1, map_height - 2)
x_poz = randint(1, map_width - 2)
if self.map.is_valid_position(x_poz, y_poz):
enemy = Bat(x_poz * config.TILESIZE, y_poz * config.TILESIZE)
self.enemy.append(enemy)
self.objects.append(enemy)
def create_fleet(ai_settings, screen, ship, bats):
bat = Bat(ai_settings, screen)
number_bats_x = get_numbers_bats_x(ai_settings, bat.rect.width)
number_rows = get_numbers_rows(ai_settings, ship.rect.height,
bat.rect.height)
for row_number in range(number_rows):
for bat_number in range(number_bats_x):
create_bat(ai_settings, screen, bats, bat_number, row_number)
def search(*scripts):
"""search script"""
if scripts.__len__() > 1:
print('Please search one script name!')
sys.exit(1)
bat = Bat(scripts[0])
rets = bat.search()
print('=> => Send bats to search vim-scripts ...')
if rets:
for item in rets:
if os.path.exists(VIM_PATH + 'vimpyre/%s' % item['name']):
print('\033[1m%s\033[m => %s \033[1m[installed]\033[m' % (item['name'].encode('utf-8'), item['description'].encode('utf-8')))
else:
print('\033[1m%s\033[m => %s' % (item['name'].encode('utf-8'), item['description'].encode('utf-8')))
else:
print('No such vim-scripts! Please use `vimpyre syncdb` and try again!')
def search(*scripts):
"""search script"""
if len(scripts) > 1:
console('Please search one script name!')
sys.exit(1)
bat = Bat(scripts[0])
rets = bat.search()
console('=> => Send bats to search vim-scripts ...')
if rets:
for item in rets:
if path.isdir(path.join(VIM_PATH, 'vimpyre', item['name'])):
console('\033[1m%s\033[m => %s \033[1m[installed]\033[m' %
(item['name'].encode('utf-8'),
item['description'].encode('utf-8')))
else:
console('\033[1m%s\033[m => %s' %
(item['name'].encode('utf-8'),
item['description'].encode('utf-8')))
else:
console('No such vim-scripts!')
def list_all():
bat = Bat()
bat.list_all()
def syncdb():
bat = Bat()
bat.syncdb()
species = 'Baty'
def __init__(self, can_fly=True):
self.fly = can_fly
# This class also has a say method
def say(self, msg):
msg = '... ... ...'
return msg
# And its own method as well
def sonar(self):
return '))) ... ((('
if __name__ == '__main__':
b = Bat()
print(b.say('hello'))
print(b.fly)
# And yet another class definition that inherits from Superhero and Bat
# superhero.py
from superhero import Superhero
from bat import Bat
# Define Batman as a child that inherits from both Superhero and Bat
class Batman(Superhero, Bat):
def __init__(self, *args, **kwargs):
# Typically to inherit attributes you have to call super:
#super(Batman, self).__init__(*args, **kwargs)
def fight():
fight = True
#PROBABLY CHANGE
opponent = PaintbrushTown.challenger()
if opponent == 'Rocky':
enemy = 'bat'
elif opponent == 'Slander':
enemy = 'rat'
elif opponent == 'Kyle':
enemy = 'caterpillar'
print(opponent,'chooses', enemy,'\b!')
if(enemy == 'bat'):
combatant = Bat()
Bat.work()
elif(enemy == 'caterpillar'):
combatant = Caterpillar()
Caterpillar.work()
elif(enemy == 'rat'):
combatant = Rat()
Rat.work()
time.sleep(1)
while(True):
start,attack, = '0','0'
while start != 'k' and start != 'b' and start != 'm':
start = input('Which bokémon would you like to start with?\n[k = Kennen, b = Belldolpine, m = Meister Beast]\n').lower()
while(fight == True):
#PLAYER TURN
if start == 'k':
print('You have chosen Kennen!')
you = 'Kennen'
pc = Kennen()
elif start == 'b':
print('You have chosen Belldolpine!')
you = 'Belldolpine'
pc = Belldolpine()
elif start == 'm':
print('You have chosen Meister Beast!')
you = 'MeisterBeast'
pc = MeisterBeast()
while attack != 'b' and attack != 's':
attack = input('Would you like to use your basic attack [b] or your special attack [s]\n')
if attack == 'b':
print(you,'does', pc.basicDamage, 'damage to the', enemy)
combatant.takeDamage(pc.basicDamage)
attack = '0'
break
if attack == 's':
print(you, 'does', pc.specialDamage, 'damage to the', enemy)
combatant.takeDamage(pc.specialDamage)
attack = '0'
break
#ENEMY TURN
if(combatant.hp > 0):
time.sleep(1)
print('The', enemy, 'attacks!')
combatant.basicAttack()
print('The', enemy, 'does', combatant.basicAttack(), 'damage to you!')
pc.takeDamage(combatant.damage)
else:
time.sleep(1)
print('The', enemy, 'is knocked unconscious!\nYou have won!\n',opponent,'congradulates you and hands you a badge.')
time.sleep(1)
print('You should take the badge back to Professor Cottonwood so you can go find your parents.')
time.sleep(5)
pc.heal()
fight = False
break
def remove_all():
bat = Bat()
bat.remove_all()
def update_all():
bat = Bat()
bat.update_all()
def init():
bat = Bat()
bat.install_base()
def __init__(self, *args, **kwargs):
# super(Batman, self).__init__(*args, **kwargs) # doesn't work for multiple inheritance
Human.__init__(self, 'anonymous', *args, **kwargs)
Bat.__init__(self, *args, can_fly=False, **kwargs)
self.name = 'Sad Affleck'
SCREENWIDTH = 400
SCREENHEIGHT = 400
background = pygame.image.load("The_Cave_artwork.jpg")
speed = 25
# Open a new window
# The window is defined as (width, height), measured in pixels
size = (SCREENWIDTH, SCREENHEIGHT)
screen = pygame.display.set_mode(size)
pygame.display.set_caption("My Animation")
screen.blit(background, (0, 0))
all_sprites_list = pygame.sprite.Group()
Bat1 = Bat(GREY, 20, 30)
Bat1.rect.x = 200
Bat1.rect.y = 300
Bat2 = Bat(GREY, 20, 30)
Bat2.rect.x = 100
Bat2.rect.y = 300
all_sprites_list.add(Bat1)
all_sprites_list.add(Bat2)
all_bats = pygame.sprite.Group()
all_bats.add(Bat1)
all_bats.add(Bat2)
# This loop will continue until the user exits the game
def doinit(self, args):
"""intialize enviroment"""
bat = Bat()
bat.install_base()
def get_sample_bat_sections():
return {0:Bat(SAMPLE_BAT)}
def update_all():
bat = Bat()
bat.update_all()
def list_installed():
bat = Bat()
bat.list_installed()
species = 'Летучая мышь'
def __init__(self, can_fly=True):
self.fly = can_fly
# В этом классе также есть метод say
def say(self, msg):
msg = '... ... ...'
return msg
# И свой метод тоже
def sonar(self):
return '))) ... ((('
if __name__ == '__main__':
b = Bat()
print(b.say('привет'))
print(b.fly)
# И еще одно определение класса, унаследованное от Superhero и Bat
# superhero.py
from superhero import Superhero
from bat import Bat
# Определите Batman как дочерний класс, унаследованный от Superhero и Bat
class Batman(Superhero, Bat):
def __init__(self, *args, **kwargs):
# Обычно для наследования атрибутов необходимо вызывать super:
# super(Batman, self).__init__(*args, **kwargs)
def remove_all():
bat = Bat()
bat.remove_all()
def main():
pygame.init()
pygame.display.set_caption('Interference')
pygame.key.set_repeat(10, 10) # keypresses to auto-repeat every 10msec
rects = [] # create a list
screen = pygame.display.set_mode((screenwidth, screenheight))
background = Background("assets/level1-stage.gif", [0, 0])
bgsurface = pygame.Surface(screen.get_size())
bgsurface = bgsurface.convert() # speeds up blitting
bgsurface.fill([0, 0, 255]) # set background to blue
# if we only use a portion of the background image, change the first two values here:
bgsurface.blit(
background.image.subsurface(0, 0, screenwidth, screenheight), (0, 0))
screen.blit(bgsurface, (0, 0)) # get the bgsurface onto the screen surface
pygame.display.update() # update the entire display
# instantiate the sprites
ball_sprite = Ball()
bat_sprite = Bat()
# store all sprite rects we create into this list
rects.append(ball_sprite.getrect())
rects.append(bat_sprite.getrect())
balls_group = pygame.sprite.Group(ball_sprite)
characters_group = pygame.sprite.Group(bat_sprite)
while True: # this is a forever loop
ev = pygame.event.poll()
if ev.type == pygame.QUIT:
pygame.quit()
sys.exit(0)
batmoved = 0
if ev.type == KEYDOWN: # button pressed?
if (ev.key == btn_left):
batloc = [-1, 0]
bat_sprite.movepos(batloc)
ball_sprite.accel(-1) # influence ball speed if needed
batmoved = -1
elif (ev.key == btn_right):
batloc = [1, 0]
bat_sprite.movepos(batloc)
ball_sprite.accel(1) # influence ball speed if needed
batmoved = 1
# check for collisions
collide = pygame.sprite.collide_rect(bat_sprite, ball_sprite)
if collide:
ball_sprite.collision(bat_sprite.getrect(), batmoved)
# clear the sprite(s) and then update and redraw them
characters_group.clear(screen, bgsurface)
balls_group.clear(screen, bgsurface)
characters_group.update()
balls_group.update()
characters_group.draw(screen)
balls_group.draw(screen)
pygame.display.update(rects)
def list_installed():
bat = Bat()
bat.list_installed()
from turtle import Turtle, Screen
import time
from bat import Bat
from ball import Ball
from scoreboard import Score
import random
screen = Screen()
screen.setup(width=1200, height=800)
screen.bgcolor("black")
screen.title("My Snake Game")
screen.tracer(0)
game_is_on = True
bat1 = Bat(0)
bat2 = Bat(1)
ball = Ball()
score_right = Score("right")
score_left = Score("left")
screen.listen()
screen.onkeypress(bat1.up, "w")
screen.onkeypress(bat1.down, "s")
screen.onkeypress(bat2.up, "Up")
screen.onkeypress(bat2.down, "Down")
rally = 0
goal_right = 0
goal_left = 0
while game_is_on:
goal = False
screen.update()
time.sleep(0.02)
ball.move()
# Screen object s = Screen() create_screen(s) s.tracer(0) # Turn off animation # Net object n = Turtle() draw_net(n) # Create Score objects player_score = Score((-200, C.HALF_HEIGHT - 100)) ai_score = Score((200, C.HALF_HEIGHT - 100)) # Create bats player_bat = Bat((-C.HALF_WIDTH + 40, randint(-C.HALF_HEIGHT, C.HALF_HEIGHT))) ai_bat = Bat((C.HALF_WIDTH - 40, randint(-C.HALF_HEIGHT, C.HALF_HEIGHT))) # Create Ball object ball = Ball() # Listen for screen events s.listen() # Screen Events # The functions player_bat.move_up and player_bat.move_down are not actually called here. # They are passed to the event handler mainloop() when the "key" is pressed s.onkey(player_bat_up, "Up") s.onkey(player_bat_down, "Down") # MAIN GAME LOOP
def play():
global game_over
#initialize pygame & window
screen = pygame.display.get_surface()
#fill background
bg = pygame.Surface((screen.get_size()))
bg.fill(BG)
bg = bg.convert()
screen.blit(bg, (0, 0))
#initialize scoreboard
score_board = Score(bg)
score_board.game_over = game_over_screen
score_board.win = win_screen
#initialize the wall (bricks)
wall, wall_g = init_wall(score_board)
#initialize the bat
bat = Bat(10)
batsprite = pygame.sprite.RenderPlain(bat)
#initialize the ball
ball = Ball((255, 255, 255), 5, bat, wall, score_board)
ballsprite = pygame.sprite.RenderPlain(ball)
clock = pygame.time.Clock()
pause = False
game.init()
t1 = threading.Thread(target=tutorial, args=())
t1.start()
out_count = 0
while True:
while pause == True:
clock.tick(60)
pygame.mouse.set_visible(True)
pygame.display.flip()
for event in pygame.event.get():
if event.type == KEYDOWN:
if event.key == K_ESCAPE:
bat.movepos = [0,0]
pause = False
game.resume()
game.notify("Game Resumed")
elif event.type == QUIT:
sys.exit(0)
else:
game.handle_pause_event(event)
while game_over == True:
clock.tick(60)
pygame.mouse.set_visible(True)
game.game_over_screen()
pygame.display.flip()
for event in pygame.event.get():
if event.type == QUIT:
sys.exit(0)
else:
game.handle_event(event)
while win == True:
clock.tick(60)
pygame.mouse.set_visible(True)
game.win_screen()
pygame.display.flip()
for event in pygame.event.get():
if event.type == QUIT:
sys.exit(0)
else:
game.handle_win_event(event)
#handle events
while pause == False and game_over == False and win == False:
clock.tick(60) #max frame rate
for event in pygame.event.get():
if event.type == QUIT:
sys.exit(0)
if event.type == KEYDOWN:
if event.key == K_LEFT:
bat.moveleft()
elif event.key == K_RIGHT:
bat.moveright()
elif event.key == K_SPACE:
screen.blit(bg, ball.rect, ball.rect)
ball.shoot()
elif event.key == K_ESCAPE:
pause = True
game.pause()
elif event.type == KEYUP:
if event.key == K_LEFT or event.key == K_RIGHT:
bat.movepos = [0, 0]
elif event.type == MOUSEMOTION:
pygame.mouse.set_visible(False)
x, y = pygame.mouse.get_pos()
bx, by = bat.rect.midtop
if x > screen.get_width()-(bat.width/2):
x = screen.get_width()-(bat.width/2)
elif x < bat.width/2:
x = bat.width/2
screen.blit(bg, bat.rect, bat.rect)
bat.rect.midtop = (x,by)
if not screen.get_rect().contains(ball.rect):
out_count += 1
if out_count >= 10:
score_board.die()
else:
out_count = 0
cols, side = break_wall(ballsprite, wall_g)
if cols:
if side is 'left' or side is 'right':
ball.deflect(1.5)
if side is 'top' or side is 'bottom':
ball.deflect(2.5)
elif side == 'topright' or side == 'topleft':
ball.deflect(1)
elif side == 'bottomright' or side == 'bottomleft':
ball.deflect(1)
else:
ball.deflect(1)
for i in range(len(cols)):
cols[i].destroy()
side = coll_side(ball.area.get_rect(), ball.rect, True, True)
if side == 'top':
score_board.die()
if score_board.updated_level != 0:
print 'speed increased'
ball.increment_speed = 3
if pause == False:
for y in range(5):
for i in range(30):
if wall[y][i].destroyed == False:
screen.blit(bg, wall[y][i].rect, wall[y][i].rect)
#wall[y][i].destroy()
score_board.update()
screen.blit(bg, bat.rect, bat.rect)
screen.blit(bg, ball.rect, ball.rect)
ballsprite.update()
batsprite.update()
ballsprite.draw(screen)
batsprite.draw(screen)
wall_g.draw(screen)
pygame.display.update()
def init():
bat = Bat()
bat.install_base()
species = 'Baty'
def __init__(self, can_fly=True):
self.fly = can_fly
# This class also has a say method
def say(self, msg):
msg = '... ... ...'
return msg
# And its own method as well
def sonar(self):
return '))) ... ((('
if __name__ == '__main__':
b = Bat()
print(b.say('hello'))
print(b.fly)
# And yet another class definition that inherits from Superhero and Bat
# superhero.py
from superhero import Superhero
from bat import Bat
# Define Batman as a child that inherits from both Superhero and Bat
class Batman(Superhero, Bat):
def __init__(self, *args, **kwargs):
# Typically to inherit attributes you have to call super:
# super(Batman, self).__init__(*args, **kwargs)
def doremove_all(self, args):
"""remove all scripts
"""
bat = Bat()
bat.remove_all()
def __init__(self, can_fly=True):
self.fly = can_fly
# This class also has a say method
def say(self, msg):
msg = "... ... ..."
return msg
# And its own method as well
def sonar(self):
return "))) ... ((("
if __name__ == "__main__":
b = Bat()
print(b.say("hello"))
print(b.fly)
# And yet another class definition that inherits from Superhero and Bat
# superhero.py
from superhero import Superhero
from bat import Bat
# Define Batman as a child that inherits from both Superhero and Bat
class Batman(Superhero, Bat):
def __init__(self, *args, **kwargs):
# Typically to inherit attributes you have to call super:
# super(Batman, self).__init__(*args, **kwargs)
# However we are dealing with multiple inheritance here, and super()
def doupdate_all(self, args):
"""update all scripts"""
bat = Bat()
bat.update_all()
def dolist_installed(self, args):
"""list installed scripts"""
bat = Bat()
bat.list_installed()
def __init__(self, can_fly=True):
self.fly = can_fly
# This class also has a say method
def say(self, msg):
msg = '... ... ...'
return msg
# And its own method as well
def sonar(self):
return '))) ... ((('
if __name__ == '__main__':
b = Bat()
print(b.say('hello'))
print(b.fly)
# And yet another class definition that inherits from Superhero and Bat
# superhero.py
from superhero import Superhero
from bat import Bat
# Define Batman as a child that inherits from both Superhero and Bat
class Batman(Superhero, Bat):
def __init__(self, *args, **kwargs):
# Typically to inherit attributes you have to call super:
# super(Batman, self).__init__(*args, **kwargs)
# However we are dealing with multiple inheritance here, and super()
species = 'Baty'
def __init__(self, can_fly=True):
self.fly = can_fly
# instance methods - always receive the current class as the 1st arg
def say(self, msg):
msg = '... ... ...'
return msg
def sonar(self):
return '))) ... ((('
if __name__ == '__main__':
b = Bat()
print(b.say('hello')) # '... ... ...' as msg is overidden in say()
print(b.fly) # 'True'
from human import Human
from bat import Bat
class Batman(Human, Bat):
species = 'Superhero'
def __init__(self, *args, **kwargs):
# super(Batman, self).__init__(*args, **kwargs) # doesn't work for multiple inheritance
Human.__init__(self, 'anonymous', *args, **kwargs)
Bat.__init__(self, *args, can_fly=False, **kwargs)
