def run_game():
'''
运行游戏主程序
:return:
'''
# background_image_filename = 'resources/images/level_1.png' #'/Users/lufan/Python_CODE_03/super_mario_level_01/resources/images/level_1.png'
# 初始化游戏并创建一个屏幕对象
pygame.init()
ai_settings = Settings()
# 创建一个窗口
screen = pygame.display.set_mode(
(ai_settings.screen_width, ai_settings.screen_height))
# 设置窗口标题
pygame.display.set_caption('Super Mario Bros')
# 初始化声音模块
pygame.mixer.init()
# 加载音乐
pygame.mixer.music.load(r"resources/music/death.wav")
# pygame.mixer.music.play()
# 放置Mario
mario = Mario(ai_settings, screen)
marios = Group()
# 敌人
enemy = Enemy(ai_settings, screen)
enemy_shadow = Enemy_shadow(ai_settings, screen)
enemies = Group()
enemies.add(enemy)
enemies.add(enemy_shadow)
marios.add(mario)
'''在这里加上所有的setup函数,设置初始状态'''
ground_group = setup_ground()
pipe_group = setup_pipes()
step_group = setup_steps()
ground_step_pipe_group = pygame.sprite.Group(ground_group, pipe_group,
step_group)
while True:
# 检查音乐流播放,有返回True,没有返回False
# 如果没有音乐流则选择播放
#监视键盘和鼠标事件
gf.check_events(ai_settings, screen, mario)
centerx = mario.update()
# print(centerx)
enemies.update()
'''在这里加入update函数,检测碰撞情况,并将handle_state(marios,enemies)也并入到update函数中'''
gf.handle_state(marios, enemies)
check_mario_x_collisions(mario, ground_step_pipe_group)
check_mario_y_collisions(mario, ground_step_pipe_group)
if mario.rect.y > 180 and (1048 < mario.rect.x < 1080) or (1319 < mario.rect.x < 1372) \
or (2396 < mario.rect.x < 2431) :
mario.rect.y += 1
# if mario.rect.centerx == 393 and mario.rect.bottom > 170:
# mario.rect.centerx = 393
#
# if mario.rect.centerx > 393 and mario.rect.centerx < 428 and mario.rect.bottom > 170:
# mario.rect.bottom = 170
gf.update_screen(ai_settings, screen, mario, enemy, enemy_shadow,
centerx)
#print_maze(lvl_1, []);
def newinput():
stdout.write("\u001b[31mDisease Name: " + disease + "\u001b[37m") #+ str(player.health) + "/4\u001b[37m")
#\u001b[31m
#\u001b[37m
stdout.flush()
player.move_dir = str(readkey())
enemyList = [];
# xx,yy=random_x_y(lvl_1)
# e1 = Enemy(xx,yy, "Einfacher Fiend")
# xx,yy=random_x_y(lvl_1) # 2 different enemies
# e2 = Enemy(xx,yy, random_enemy())
# e1.findPathTo(lvl_1, player.x, player.y);
# enemyList.append(e1);
# enemyList.append(e2)
#enemyList.append(Enemy())
enemyList.append(Enemy(2, 2,enemy_type=random_enemy()));
while True:
os.system("clear")
print_maze(lvl_1,enemyList)
newinput()
player.move(lvl_1)
def add_new_enemy(canvas, enemy_list):
enemy = Enemy(canvas)
enemy.draw_enemy()
enemy_list.append(enemy)
def main():
'''main function of the game'''
if os.name == 'nt':
# System check. App works only on unix system
# Caused by getch function and console clearing
# Can be fixed by implementing msvcrt library
print("This application is meant for unix devices.")
print("Closing the program.")
sleep(2)
forcequit()
player = Player()
args = {
# Define map numbers
'maps': {
0: "menu",
1: "respawn.map",
2: "forest.map",
3: "dungeon.map",
4: "boss.map",
5: "end.map",
},
'map_id': 0,
'board': [],
'current_choice': 1,
'last_input': '',
'direction': None,
'change': 0,
'enemies': [1, True],
'player': player,
'last_pos': '',
}
clear()
while True:
'''main loop of the game'''
clear()
# mapcheck
############################################ MAP MENU ########################################################
if args['map_id'] == 0:
status = display_menu(args)
if status is None:
exit()
elif status[0] == args['maps'][0]:
args['map_id'] = 0
args['current_choice'] = status[1]
args['last_input'] = status[2]
else:
args['map_id'] = status[0]
args['last_pos'] = status[1]
args['board'] = status[2]
############################################ MAP SPAWN ########################################################
elif args['map_id'] == 1:
if args['last_pos'] is None:
args['last_pos'] = (33, 60)
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
# If on certain map stay on that map
# Can be implemented as a standalone function
print_map(args['board'])
user_input = getch()
if user_input == 'p':
clear(24, 80)
break
elif user_input == 'w':
args['direction'] = 0
args['change'] = -1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = change[2]
args['board'] = unfile(args['maps'][change[2]])
args['last_pos'] = None
args['enemies'] = [1, True]
elif user_input == 's':
args['direction'] = 0
args['change'] = 1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
elif user_input == 'a':
args['direction'] = 1
args['change'] = -1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
elif user_input == 'd':
args['direction'] = 1
args['change'] = 1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
elif user_input == 'i':
clear()
inventory(player)
else:
exit()
############################################ MAP FOREST ########################################################
elif args['map_id'] == 2:
enemies_left = 0
print(enemies_left, ' b4')
if args['last_pos'] is None:
args['last_pos'] = (3, 50)
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if args['enemies'][1]:
for i in range(10):
if randint(0, 1):
args['enemies'].append(Enemy(1))
args['enemies'][0] += 1
args['enemies'][args['enemies'][0]].spawn(
args['board'])
args['board'][args['enemies'][
args['enemies'][0]].y_coord][args['enemies'][
args['enemies'][0]].x_coord] = args['enemies'][
args['enemies'][0]].enemy_char
if args['enemies'][0] < 2:
args['enemies'].append(Enemy(1))
args['enemies'][0] += 1
args['enemies'][args['enemies'][0]].spawn(args['board'])
args['board'][args['enemies'][args['enemies'][0]].y_coord][
args['enemies'][args['enemies'][0]].x_coord] = args[
'enemies'][args['enemies'][0]].enemy_char
args['enemies'][1] = False
print_map(args['board'])
user_input = getch()
if user_input == 'p':
clear(24, 80)
break
elif user_input == 'w':
args['direction'] = 0
args['change'] = -1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = args['maps'][change[2]]
elif user_input == 's':
args['direction'] = 0
args['change'] = 1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = args['maps'][change[2]]
elif user_input == 'a':
args['direction'] = 1
args['change'] = -1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = maps[change[2]]
elif user_input == 'd':
args['direction'] = 1
args['change'] = 1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = maps[change[2]]
elif user_input == 'q':
if player.potions > 0:
player.life += player.level * 2
player.potions -= 1
elif user_input == 'i':
clear()
inventory(player)
else:
exit()
for line in args['board']:
if args['enemies'][2].enemy_char in line:
print(line)
enemies_left += 1
print(enemies_left, ' aftr')
if enemies_left == 0:
print("Level clear!")
sleep(1)
args['map_id'] = 1
args['current_choice'] = 1
args['board'] = unfile(args['maps'][1])
args['last_pos'] = None
############################################ MAP DUNGEON ########################################################
elif args['map_id'] == 3:
enemies_left = 0
clear()
if args['last_pos'] is None:
args['last_pos'] = (19, 109)
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if args['enemies'][1]:
args['enemies_left'] = 0
for i in range(15):
if randint(0, 1):
args['enemies'].append(Enemy(2))
args['enemies'][0] += 1
args['enemies'][args['enemies'][0]].spawn(
args['board'])
args['board'][args['enemies'][
args['enemies'][0]].y_coord][args['enemies'][
args['enemies'][0]].x_coord] = args['enemies'][
args['enemies'][0]].enemy_char
if args['enemies'][0] < 2:
args['enemies'].append(Enemy(2))
args['enemies'][0] += 1
args['enemies'][args['enemies'][0]].spawn(args['board'])
args['board'][args['enemies'][args['enemies'][0]].y_coord][
args['enemies'][args['enemies'][0]].x_coord] = args[
'enemies'][args['enemies'][0]].enemy_char
args['enemies'][1] = False
print_map(args['board'])
user_input = getch()
if user_input == 'p':
clear(24, 80)
break
elif user_input == 'w':
args['direction'] = 0
args['change'] = -1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = args['maps'][change[2]]
elif user_input == 's':
args['direction'] = 0
args['change'] = 1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = args['maps'][change[2]]
elif user_input == 'a':
args['direction'] = 1
args['change'] = -1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = maps[change[2]]
elif user_input == 'd':
args['direction'] = 1
args['change'] = 1
change = move(args)
args['last_pos'] = change[0]
args['board'] = change[1]
if change[2] is not None:
args['map_id'] = maps[change[2]]
elif user_input == 'q':
if player.potions > 0:
player.life += player.level * 2
player.potions -= 1
elif user_input == 'i':
clear()
inventory(player)
else:
exit()
for line in args['board']:
if args['enemies'][2].enemy_char in line:
enemies_left += 1
if enemies_left == 0:
print("Level clear!")
sleep(1)
args['map_id'] = 1
args['current_choice'] = 1
args['board'] = unfile(args['maps'][1])
args['last_pos'] = None
if args['player'].life == 0:
clear()
lost()
sleep(3)
args['map_id'] = 0
args['current_choice'] = 1
args['last_pos'] = None
def addEnemy(self, pos):
Enemy(pos, self, self.enemies, self.allsprites)
def create_enemies(canvas, enemy_list):
for i in range(0, 3):
enemy = Enemy(canvas)
enemy.draw_enemy()
enemy_list.append(enemy)
from board import *
from mario import Mario
from enemies import Enemy, Boss
from input import input_to, Get
import os
import sys
from brick import *
from random import randint
from colorama import Fore, Style
b1 = Board(20, 80)
mP = Mario(1)
enList = [Enemy(16, 20, 1),
Enemy(16, 70, 1),
Enemy(16, 120, 1),
Enemy(16, 170, 1),
Enemy(16, 220, 1),
Enemy(16, 270, 1),
Enemy(16, 320, 1),
Enemy(16, 400, 1)]
brickList = []
breakList = []
brickMap = []
breakMap = []
forbidden_list = [i+2 for i in range(10,400,50)]
forbidden_list += [i+1 for i in range(10,400,50)]
def update():
global aPressed, gameMode, bPressed, cPressed, shuttleTimer, enemyTimer, bossTimer
global gameState, scoreCtr, score, highscore, shakeX, bulletCount, health, rockSizes, crystalSizes, enemyShipSizes, bossShipSizes
global upPressed, downPressed, leftPressed, rightPressed, explosionList, explosionFrames
global shuttle, enemyList, bulletList, dropList, bombs, bossList, spaceman, pauseGame
destroyScreen = False
shipHitShuttle = False
# Get screen shake amount (use on all x positions of objects!)
######################################
shakeX = shake.update()
if gameState != STATE_PAUSE:
# Update stars
######################################
for star in starList:
star.update()
# Update rocks
######################################
for boulders in rockList:
boulders.update(rockSizes)
######################################
# Game state
######################################
if gameState == STATE_GAME:
# Update the score for player survival
######################################
scoreCtr += 1
if scoreCtr % 10 == 0:
score += 1
if cPressed:
gameState = STATE_PAUSE
cPressed = False
# Bomb button
######################################
if bPressed:
bPressed = False
if bombs > 0:
bombs -= 1
destroyScreen = True
# Move player
######################################
shipXMove = 0
shipYMove = 0
if upPressed:
shipYMove = -2
if downPressed:
shipYMove = 2
if leftPressed:
shipXMove = -2
if rightPressed:
shipXMove = 2
player.movePlayer(shipXMove, shipYMove)
# Update player ship flames
######################################
for flame in flameList:
flame.update(player.getPlayerPos()[0], player.getPlayerPos()[1] + 20)
# Update drops
######################################
if len(dropList) > 0:
tmpCtr = 0
for dropItem in dropList:
# Delete drop if out of screen
if dropItem.update():
del dropList[tmpCtr]
break
# Check if player is over drop
if detectHit(player.getPlayerPos()[0] + 7, player.getPlayerPos()[1] + 7, dropItem.returnPos()[0] - 2, dropItem.returnPos()[1] - 2, 14):
# Health / green
if dropItem.getType() == 0:
audio.playSfx(sounds.health)
health = 10
# Extra bullet / orange
elif dropItem.getType() == 1:
audio.playSfx(sounds.extraBullet)
if bulletCount == 8:
bulletCount += 1
elif bulletCount < 8:
bulletCount += 2
# Explosion/bonus / blue
else:
audio.playSfx(sounds.bonus)
score += 100
if bombs < 10:
bombs += 1
del dropList[tmpCtr]
break
tmpCtr += 1
# Delete drop object
######################################
if tmpCtr > 0:
gc.collect()
# Check crystal collisions
######################################
if len(crystalList) > 0:
crystalCtr = 0
delCrystal = False
for crystal in crystalList:
crystal.update()
# Has player hit crystal?
if detectHit(player.getPlayerPos()[0] + 7, player.getPlayerPos()[1] + 7, crystal.returnPos()[0], crystal.returnPos()[1], crystal.getSize()):
del crystalList[crystalCtr]
delCrystal = True
score += 50
audio.playSfx(sounds.bonus)
if crystal.returnPos()[1] >= 100:
del crystalList[crystalCtr]
delCrystal = True
# Destroy if player bombed
if destroyScreen:
explosionList.append(Explosion(crystal.returnPos()[0], crystal.returnPos()[1], len(explosionFrames)))
del crystalList[crystalCtr]
delCrystal = True
crystalCtr += 1
if delCrystal:
gc.collect()
# Check to see if new crystals need to be spawned
######################################
if random.getrandbits(7) > 126:
tmpX = random.getrandbits(7)
spdX = random.getrandbits(1)
spdY = random.getrandbits(2)
if spdY == 0:
spdY = 1
crystalId = random.getrandbits(3)
# Only 6 crystals to choose from
if crystalId > 5:
crystalId = 0
crystalList.append(Crystal(tmpX, -20, spdX, spdY, crystalId, crystalSizes[crystalId]))
# Check rock collisions
######################################
for boulders in rockList:
if detectHit(player.getPlayerPos()[0] + 7, player.getPlayerPos()[1] + 7, boulders.returnPos()[0], boulders.returnPos()[1], boulders.getSize()) and not shake.isShaking():
shake.setShake()
explosionList.append(Explosion(boulders.returnPos()[0], boulders.returnPos()[1], len(explosionFrames)))
boulders.resetYPos(rockSizes) # Reset as if it has exploded
health -= 1
audio.playSfx(sounds.explosion01)
if health <= 0:
gameState = STATE_GAMEOVER
audio.playSfx(sounds.gameOver)
# Destroy if player bombed
if destroyScreen:
shake.setShake()
explosionList.append(Explosion(boulders.returnPos()[0], boulders.returnPos()[1], len(explosionFrames)))
boulders.resetYPos(rockSizes)
# Update explosion
######################################
if len(explosionList) > 0:
tmpId = 0
tmpCtr = 0
for explody in explosionList:
tmpId += 1
if explody.getFrame() >= len(explosionFrames):
tmpCtr = tmpId
break
explody.update()
# Delete explosion object
######################################
if tmpCtr > 0:
del explosionList[tmpCtr - 1]
gc.collect()
# Create random shuttle
######################################
if scoreCtr % shuttleTimer == 0:
if random.getrandbits(1) == 1:
shuttle[2] = True
# Update shuttle
######################################
if shuttle[2]:
shuttle[1] += 1
if destroyScreen:
explosionList.append(Explosion(shuttle[0], shuttle[1], len(explosionFrames)))
audio.playSfx(sounds.explosion01)
# Spawn drop
dropList.append(Drop(shuttle[0], shuttle[1]))
# Check if player ship hit shuttle
if detectHit(player.getPlayerPos()[0] + 7, player.getPlayerPos()[1] + 7, shuttle[0], shuttle[1], 10):
explosionList.append(Explosion(shuttle[0], shuttle[1], len(explosionFrames)))
audio.playSfx(sounds.explosion01)
# Spawn drop
dropList.append(Drop(shuttle[0], shuttle[1]))
shipHitShuttle = True
health -= 1
if health <= 0:
gameState = STATE_GAMEOVER
audio.playSfx(sounds.gameOver)
if shuttle[1] > 90 or destroyScreen or shipHitShuttle:
shuttle[2] = False # Hide it
shuttle[1] = -30 # Set y pos to top
shuttle[0] = random.getrandbits(7) # Random x pos
# Update spaceman
######################################
if spaceman[2]:
spcX = 0
spcY = 0
# Check if player caught him
if detectHit(player.getPlayerPos()[0] + 7, player.getPlayerPos()[1] + 7, spaceman[0], spaceman[1], 12):
score += 50
audio.playSfx(sounds.dropItem)
# Reset him
spaceman = [0, 0, False]
# Move him down
if spaceman[0] > -12 and spaceman[0] < 122:
if spaceman[1] > -12 and spaceman[1] < 100:
spcX = random.getrandbits(3)
spcY = random.getrandbits(3)
if spcX < 3:
spcX = -1
else:
spcX = 1
if spcY < 3:
spcY = -1
else:
spcY = 1
spaceman[0] += spcX
spaceman[1] += spcY
# disappear him if needed
if spaceman[0] < 0 or spaceman[0] > 110:
if spaceman[1] < 0 or spaceman[1] > 88:
spaceman = [0, 0, False]
# Then update enemies
######################################
if len(enemyList) > 0:
tmpId = 0
tmpCtr = 0
for en in enemyList:
tmpId += 1
# Check if enemy can shoot
if en.update():
# Horizontal enemy
if en.getSize() == 0:
if en.returnPos()[0] > 0:
bulletList.append(Bullet(en.returnPos()[0] + 4, en.returnPos()[1] + 15, 0, 2, 1))
audio.playSfx(sounds.enemyShot)
# All others
else:
if en.returnPos()[1] > 0:
bulletList.append(Bullet(en.returnPos()[0] + 4, en.returnPos()[1] + 15, -1, 2, 2))
bulletList.append(Bullet(en.returnPos()[0] + 4, en.returnPos()[1] + 15, 1, 2, 2))
audio.playSfx(sounds.enemyShot)
# Is enemy out of the screen yet?
if en.outOfScreen():
tmpCtr = tmpId
break
if destroyScreen:
explosionList.append(Explosion(en.returnPos()[0], en.returnPos()[1], len(explosionFrames)))
# Spawn drop
dropList.append(Drop(en.returnPos()[0], en.returnPos()[1]))
del enemyList[tmpCtr - 1]
# Delete enemy object
######################################
if tmpCtr > 0:
del enemyList[tmpCtr - 1]
gc.collect()
# Create random enemies
######################################
if scoreCtr % enemyTimer == 0:
if len(enemyList) > 3:
enemyListTmp = enemyList[len(enemyList) - 1]
enemyList = [enemyListTmp]
else:
enemyList.append(Enemy())
# Create random bosses
######################################
if len(bossList) > 0:
tmpId = 0
tmpCtr = 0
for boss in bossList:
tmpId += 1
bossId = boss.getId()
bossX = boss.returnPos()[0]
bossY = boss.returnPos()[1]
# Check if enemy can shoot
if boss.update():
# Horizontal enemy
if boss.getId() == 0 or boss.getId() == 2:
if boss.returnPos()[0] > 0:
bulletList.append(Bullet(bossX + (bossShipSizes[bossId] // 2), bossY + 17, 0, 2, bossId + 1))
audio.playSfx(sounds.enemyShot)
# All others
else:
if boss.returnPos()[1] > 0:
bulletList.append(Bullet(bossX + (bossShipSizes[bossId] // 2), bossY + 17, -1, 2, bossId + 1))
bulletList.append(Bullet(bossX + (bossShipSizes[bossId] // 2), bossY + 17, 1, 2, bossId + 1))
audio.playSfx(sounds.enemyShot)
# Is enemy out of the screen yet?
if boss.outOfScreen():
tmpCtr = tmpId
break
if destroyScreen:
explosionList.append(Explosion(boss.returnPos()[0], boss.returnPos()[1], len(explosionFrames)))
# Spawn drop
dropList.append(Drop(boss.returnPos()[0], boss.returnPos()[1]))
del bossList[tmpCtr - 1]
# Delete enemy object
######################################
if tmpCtr > 0:
del bossList[tmpCtr - 1]
gc.collect()
# Create random bosses
######################################
if scoreCtr % bossTimer == 0:
if len(bossList) > 1:
bossListTmp = bossList[len(bossList) - 1]
bossList = [bossListTmp]
else:
bossList.append(Boss())
# Fire button
######################################
if aPressed:
aPressed = False
if bulletCount > 0:
bulletList.append(Bullet(player.getPlayerPos()[0] + 5, player.getPlayerPos()[1], 0, -3, 0))
bulletCount -= 1
audio.playSfx(sounds.playerShot)
# Update bullet positions
######################################
if len(bulletList) > 0:
tmpId = 0
tmpCtr = 0
for bul in bulletList:
tmpId += 1
bullX = bul.returnPos()[0] + 3
bullY = bul.returnPos()[1] + 2
bullId = bul.getId()
# Check bullet collisions
######################################
# Check against shuttle
if detectHit(bullX, bullY, shuttle[0], shuttle[1], 10) and bullId == 0:
explosionList.append(Explosion(shuttle[0], shuttle[1], len(explosionFrames)))
# Spawn drop
dropList.append(Drop(shuttle[0], shuttle[1]))
# Spawn spaceman
spaceman[0] = shuttle[0]
spaceman[1] = shuttle[1]
spaceman[2] = True
# Reset shuttle
shuttle[2] = False # Hide it
shuttle[1] = -20 # Set y pos to top
shuttle[0] = random.getrandbits(7) # Random x pos
tmpCtr = tmpId # Kill this bullet
audio.playSfx(sounds.explosion01) # Explosion
break
# Check against enemies
######################################
tmpId2 = 0
tmpCtr2 = 0
for en in enemyList:
tmpId2 += 1
enX = en.returnPos()[0]
enY = en.returnPos()[1]
if detectHit(bullX, bullY, enX, enY, enemyShipSizes[en.getSize()]) and bullId == 0:
explosionList.append(Explosion(enX, enY, len(explosionFrames)))
tmpCtr = tmpId # Kill this bullet
tmpCtr2 = tmpId2 # Kill this enemy
audio.playSfx(sounds.explosion01) # Explosion
# Spawn drop
dropList.append(Drop(enX, enY))
break
# Delete enemy object
######################################
if tmpCtr2 > 0:
del enemyList[tmpCtr2 - 1]
# Check against bosses
######################################
tmpId3 = 0
tmpCtr3 = 0
for boss in bossList:
tmpId3 += 1
bossId = boss.getId()
bossX = boss.returnPos()[0]
bossY = boss.returnPos()[1]
if detectHit(bullX, bullY, bossX, bossY, bossShipSizes[bossId]) and bullId == 0:
explosionList.append(Explosion(bossX + (bossShipSizes[bossId] // 2), bossY + 10, len(explosionFrames)))
tmpCtr = tmpId # Kill this bullet
# Check boss hitpoints
if boss.getHitPoints() > 0:
boss.addHitPoint(1)
else:
tmpCtr3 = tmpId3 # Kill this boss
audio.playSfx(sounds.explosion01) # Explosion
# Spawn drop
dropList.append(Drop(bossX + (bossShipSizes[bossId] // 2), bossY + 10))
break
# Delete boss object
######################################
if tmpCtr3 > 0:
del bossList[tmpCtr3 - 1]
# Check against rocks
######################################
for boulders in rockList:
boulderX = boulders.returnPos()[0]
boulderY = boulders.returnPos()[1]
if detectHit(bullX, bullY, boulderX, boulderY, boulders.getSize()) and bullId == 0:
explosionList.append(Explosion(boulderX, boulderY, len(explosionFrames)))
tmpCtr = tmpId # Kill this bullet
boulders.resetYPos(rockSizes) # Reset as if it has exploded
audio.playSfx(sounds.explosion01) # Explosion
break
# Check against player
######################################
if detectHit(bullX, bullY, player.getPlayerPos()[0], player.getPlayerPos()[1], 16) and not shake.isShaking() and bullId != 0:
shake.setShake()
explosionList.append(Explosion(player.getPlayerPos()[0] + 7, player.getPlayerPos()[1] + 7, len(explosionFrames)))
audio.playSfx(sounds.explosion01) # Explosion
health -= 1
if health <= 0:
gameState = STATE_GAMEOVER
audio.playSfx(sounds.gameOver) # Explosion
# Check if bullet is out of screen bounds
######################################
if bul.update():
tmpCtr = tmpId
break
# Delete bullet object
######################################
if tmpCtr > 0:
del bulletList[tmpCtr - 1]
gc.collect()
# Slowly speed up object timers to make game harder over time
######################################
if scoreCtr % 80 == 0:
if enemyTimer > 100:
enemyTimer -= 1
if bossTimer > 200:
bossTimer -=1
######################################
# PAUSE
######################################
if gameState == STATE_PAUSE:
if cPressed:
cPressed = False
gameState = STATE_GAME
######################################
# Game over state
######################################
if gameState == STATE_GAMEOVER:
# Save score if more than highscore
if score > highscore:
updateScore("save", score)
highscore = score
if cPressed:
cPressed = False
gameState = STATE_MENU
def __init__(self):
## sets dimension of the screen and the background
pygame.init()
self.w = 900
self.h = 600
self.screen = pygame.display.set_mode((self.w, self.h),
pygame.FULLSCREEN)
self.background = pygame.image.load("background.png")
## creates all the objects and lists needed for the game
self.player = Player(self.w, self.h, self.background)
self.shooter = Shooter(self.player.x, self.player.y, self.player.d)
self.shield = Shield(self.player.x, self.player.y, self.player.d)
self.generator = Generator(self.player.x, self.player.y, self.player.d)
self.bullet = Bullet(self.shooter.x, self.shooter.y,
self.shooter.image_rotation)
self.enemies = [Enemy(self.w, self.h)]
self.enemies_2 = []
self.counter_enemies_2_dead = 0
self.collectible = Collectible(self.w, self.h)
self.ray = Ray(self.w, self.h)
## loads energy image and sets its default value
self.energy_5 = pygame.image.load("energy_5.png")
self.energy = 100
## sets all default values
self.points = 0
self.killed_big_enemies = 0
self.killed_small_enemies = 0
self.rays_collected = 0
self.collectibles_collected = 0
## initializes fonts and creates the first text
font = pygame.font.SysFont("comic", 64)
self.font = pygame.font.SysFont("arial", 10)
text = font.render("Click to play", True, (255, 255, 255))
## loads sound
self.sound = pygame.mixer.Sound("blip.wav")
## sets timer and default timer variables
self.clock = pygame.time.Clock()
self.timer = 0
self.seconds = 0
self.minutes = 0
## manages beginning screen and first inputs
beginning = True
while beginning:
self.screen.fill((0, 0, 0))
self.screen.blit(text, ((self.w / 2) - 150, (self.h / 2) - 64))
for event in pygame.event.get():
if event.type == pygame.QUIT:
pygame.display.quit()
if event.type == pygame.MOUSEBUTTONUP:
beginning = False
self.screen.blit(self.background, (0, 0))
self.screen.blit(self.player.images[1],
(self.player.x, self.player.y))
self.screen.blit(self.shooter.image,
(self.shooter.x, self.shooter.y))
self.running()
pygame.display.update()
def running(self):
while True:
## manages time
time_passed = self.clock.tick(30)
time_seconds = time_passed / 1000.
self.timer += 1
self.seconds += 0.03
if self.seconds >= 60:
self.minutes += 1
self.seconds = 0
## gets all the inputs and calls function related to each input
for event in pygame.event.get():
if event.type == pygame.KEYUP:
if event.key == pygame.K_ESCAPE:
pygame.display.quit()
if event.key == pygame.K_a:
self.shield.index -= 1
if self.shield.index == -5:
self.shield.index = -1
elif event.key == pygame.K_j:
self.shield.index += 1
if self.shield.index == 4:
self.shield.index = 0
elif event.key == pygame.K_l:
self.generator.index += 1
if self.generator.index == 4:
self.generator.index = 0
elif event.key == pygame.K_s:
self.generator.index -= 1
if self.generator.index == -5:
self.generator.index = -1
key = pygame.key.get_pressed()
if key[pygame.K_UP]:
self.player.moves_up(time_seconds)
self.player.index = 0
if key[pygame.K_DOWN]:
self.player.moves_down(time_seconds)
self.player.index = 1
if key[pygame.K_LEFT]:
self.player.moves_left(time_seconds)
self.player.index = 2
if key[pygame.K_RIGHT]:
self.player.moves_right(time_seconds)
self.player.index = 3
## blits the background
self.screen.blit(self.background, (0, 0))
## manages energy and prints it
if self.energy >= 100:
self.energy = 100
if self.energy <= 10:
self.sound.play()
if self.energy <= 0:
self.collectible.finished = True
for n in xrange(0, self.energy / 5):
self.screen.blit(self.energy_5, (self.w - 35 - 10 * n, 4))
## manages the text (points and time)
text = self.font.render(
(str(self.minutes) + ":" + str(self.seconds)), True,
(255, 255, 255))
self.screen.blit(text, (10, 10))
text = self.font.render(("Points: " + str(self.points)), True,
(255, 255, 255))
self.screen.blit(text, (440, 10))
## manages collectibles
self.collectible.blit_check(self.background, self.timer)
if self.collectible.blit:
self.screen.blit(self.collectible.image,
(self.collectible.x, self.collectible.y))
self.collectible_rect = pygame.Rect(self.collectible.x,
self.collectible.y, 20, 20)
## manages player and collision with collectible
self.screen.blit(self.player.images[self.player.index],
(self.player.x, self.player.y))
self.player_rect = pygame.Rect(self.player.x, self.player.y, 40,
40)
if self.collectible.blit:
if self.player_rect.colliderect(self.collectible_rect):
i = self.collectible.index
self.collectible = Collectible(self.w, self.h)
self.collectible.index = i
self.points += 100
self.collectibles_collected += 1
## manages bullet, checks hits with walls
self.bullet.moves(self.shooter.x, self.shooter.y)
if self.bullet.rotate:
self.bullet.rotates(time_seconds)
self.screen.blit(self.bullet.rotated_image,
self.bullet.image_draw_pos)
self.bullet.check_shot()
if self.bullet.shot:
self.energy -= 5
if self.bullet.shot:
self.screen.blit(self.bullet.rotated_image,
(self.bullet.x, self.bullet.y))
self.bullet.hits_borders(self.background)
if self.bullet.hits_bg:
self.bullet = Bullet(self.shooter.x, self.shooter.y,
self.shooter.image_rotation)
self.bullet_rect = pygame.Rect(self.bullet.x, self.bullet.y, 4, 10)
## manages generator
self.generator.moves(self.player.x, self.player.y, self.player.d)
self.screen.blit(self.generator.images[self.generator.index],
(self.generator.x, self.generator.y))
generator_rect = pygame.Rect(self.generator.x, self.generator.y,
self.generator.w, self.generator.h)
## manages shooter
self.shooter.moves(self.player.x, self.player.y, self.player.d)
self.shooter.rotates(time_seconds)
self.screen.blit(self.shooter.rotated_image,
self.shooter.image_draw_pos)
## manages shield
self.shield.moves(self.player.x, self.player.y, self.player.d)
self.screen.blit(self.shield.images[self.shield.index],
(self.shield.x, self.shield.y))
shield_rect = pygame.Rect(self.shield.x, self.shield.y,
self.shield.w, self.shield.h)
## manages big enemies one by one, checks collisions with bullets, shield and tank
for n in xrange(0, len(self.enemies)):
enemy = self.enemies[n]
enemy.moves(time_seconds)
enemy.bounces(self.background)
if enemy.error:
self.enemies[n] = Enemy(self.w, self.h)
self.screen.blit(enemy.image, (enemy.x, enemy.y))
enemy_rect = pygame.Rect(enemy.x, enemy.y, enemy.d, enemy.d)
if enemy_rect.colliderect(self.bullet_rect):
self.bullet = Bullet(self.shooter.x, self.shooter.y,
self.shooter.image_rotation)
self.enemies_2.append(Enemy_2(enemy.x, enemy.y))
self.enemies_2.append(Enemy_2(enemy.x, enemy.y))
self.enemies_2.append(Enemy_2(enemy.x, enemy.y))
enemy.alive = False
self.points += 10
self.killed_big_enemies += 1
elif enemy_rect.colliderect(shield_rect):
enemy.reverse()
self.energy -= 5
elif enemy_rect.colliderect(self.player_rect):
enemy.reverse()
self.energy -= 10
if (self.timer == 30 * 5
or self.timer == 30 * 10) and len(self.enemies) <= 2:
self.enemies.append(Enemy(self.w, self.h))
## temporary list to manage the elimination of some enemies
l = []
for n in xrange(0, len(self.enemies)):
enemy = self.enemies[n]
if enemy.alive:
l.append(self.enemies[n])
self.enemies = l
## manages small enemies one by one, checks collision with bullets, shield and tank
for n in xrange(0, len(self.enemies_2)):
enemy_2 = self.enemies_2[n]
enemy_2.moves(time_seconds)
enemy_2.bounces(self.background)
if enemy.error:
self.enemies_2[n] = Enemy_2(self.w, self.h)
self.screen.blit(enemy_2.image, (enemy_2.x, enemy_2.y))
enemy_2_rect = pygame.Rect(enemy_2.x, enemy_2.y, enemy_2.d,
enemy_2.d)
if enemy_2_rect.colliderect(self.player_rect):
enemy_2.reverse()
self.energy -= 10
elif enemy_2_rect.colliderect(shield_rect):
enemy_2.reverse()
self.energy -= 5
elif enemy_2_rect.colliderect(self.bullet_rect):
self.bullet = Bullet(self.shooter.x, self.shooter.y,
self.shooter.image_rotation)
enemy_2.alive = False
self.counter_enemies_2_dead += 1
self.points += 10
self.killed_small_enemies += 1
## temporary list to manage the elimination of some enemies
l = []
for n in xrange(0, len(self.enemies_2)):
enemy_2 = self.enemies_2[n]
if enemy_2.alive:
l.append(self.enemies_2[n])
self.enemies_2 = l
if self.counter_enemies_2_dead == 3:
self.counter_enemies_2_dead = 0
self.enemies.append(Enemy(self.w, self.h))
## manages rays of energy and collision with generator and tank and manages life time
self.ray.moves(time_seconds)
self.ray.bounces(self.background)
self.screen.blit(self.ray.image, (self.ray.x, self.ray.y))
ray_rect = pygame.Rect(self.ray.x, self.ray.y, self.ray.d,
self.ray.d)
if ray_rect.colliderect(generator_rect):
self.ray.check_caught()
if self.ray.caught:
self.ray = Ray(self.w, self.h)
self.energy += 20
self.points += 10
self.rays_collected += 1
else:
self.ray.reverse()
if ray_rect.colliderect(self.player_rect):
self.ray.reverse()
if self.timer >= 30*15 and self.timer <= 30*15.01 or \
self.timer >= 30*30 and self.timer <= 30*30.01 or \
self.timer >= 30*45 and self.timer <= 30*45.01 or \
self.timer >= 30*60 and self.timer <= 30*60.01 or \
self.timer >= 30*75 and self.timer <= 30*75.01 or \
self.timer >= 30*90 and self.timer <= 30*90.01 or \
self.timer >= 30*105 and self.timer <= 30*105.01 or \
self.timer >= 30*120 and self.timer <= 30*120.01:
self.ray = Ray(self.w, self.h)
## manages the end of the loop
if self.collectible.finished == True:
pygame.display.quit()
self.end()
pygame.display.update()
ship = Spaceship(ship_img, screen_width//2 - ship_width//2, screen_height-50, ship_width, ship_height, 5)
# set up list of enemies
enemies_list_1 = []
enemies_list_2 = []
enemies_list_3 = []
start_x = 50
increment = 50
speed = 2
score_1 = 10
score_2 = 20
score_3 = 30
# create lists for every lvl enemy
for i in range(10):
enemies_list_3.append(Enemy(enemy3, start_x, 50, enemy_width, enemy_height, speed, score_3))
enemies_list_2.append(Enemy(enemy2, start_x, 90, enemy_width, enemy_height, speed, score_2))
enemies_list_2.append(Enemy(enemy2, start_x, 130, enemy_width, enemy_height, speed, score_2))
enemies_list_1.append(Enemy(enemy1, start_x, 170, enemy_width, enemy_height, speed, score_1))
enemies_list_1.append(Enemy(enemy1, start_x, 210, enemy_width, enemy_height, speed, score_1))
start_x += increment
# create list of shields to draw on screen
shield_list = []
shield_x = 60
shield_y = screen_height - 150
shield_increment = screen_width // 4
for i in range(4):
from base_entity import Entity, Dragon
from heroes import PlayerCharacter, Warrior
from enemies import Enemy, Troll, Mage
from equipment import LightArmor, HeavyArmor, Cap
player = PlayerCharacter("Mighty Joe", 100, 50, 10, 10, 10, 10, 10)
enemy = Enemy("Gooloff", 50, 20, 9, 9, 9, 9, 9)
player.physical_attack([enemy])
print(enemy._current_hp)
mini_troll = Troll("Jerk", 47, 0, 8, 8, 8, 8, 8)
mini_troll.shriek()
print(" Name = {} Strength = {}, Max HP = {}".format(mini_troll._name,
mini_troll._strength,
mini_troll._max_hp))
mage1 = Mage("Evelyn", 80, 45, 6, 6, 12, 11, 6)
mage1.focus()
mage1.boost(mini_troll)
conan = Warrior("Conan", 100, 50, 10, 10, 10, 10, 10)
print("{}'s Current Strength = {}, Defense = {}, Mind = {}".format(
conan._name, conan._strength, conan._defense, conan._mind))
(conan.ability())
#Testing Armor and Cap Functions
knights_armor = HeavyArmor()
knights_armor.up_defense(conan)
knights_armor.up_strength(conan)
guards_armor = LightArmor()
def main():
""" Main Program """
pygame.init()
#Défini les dimensions
size = [constants.SCREEN_WIDTH,
constants.SCREEN_HEIGHT] #[nom_du_fichier.VARIABLE]
screen = pygame.display.set_mode(size)
#Titre de la fenetre
pygame.display.set_caption("The pudi pudi quest")
# Créer le joueur en important le fichier (voir importations)
player = Player()
enemies = Enemy()
# Police
font = pygame.font.SysFont("calibri", 48)
# Créer les niveaux (listes)
level_list = []
level_list.append(levels.Level_01(player))
# Met en player le niveau actuel
current_level_no = 0
current_level = level_list[current_level_no]
active_sprite_list = pygame.sprite.Group()
player.level = current_level
player.rect.x = 492
player.rect.y = 1342
active_sprite_list.add(player)
enemies.rect.x = 300
enemies.rect.y = 600
active_sprite_list.add(enemies)
#Relais permettant le maintien de la boucle tant que la variable est False
gameExit = False
# Temps du raffraichissement de l'écran (voir FPS)
clock = pygame.time.Clock()
score_text = font.render("Score: ", True, constants.WHITE)
screen.blit(score_text, (5, 5))
#Musique d'ambiance
pygame.mixer.music.load("data/sound/ambiance.mp3")
pygame.mixer.music.play(-1)
# -------- Programme : MAIN LOOP -----------
#Main
while not gameExit:
for event in pygame.event.get(
): # Quand l'utilisation fait quelque chose
if event.type == pygame.QUIT: # Si il clique sur 'Fermer'
gameExit = True # La variable relais prends la valeur True et permet la sortie
#Quand l'utilisateur appuie sur une touche
if event.type == pygame.KEYDOWN:
if event.key == pygame.K_ESCAPE: # Touche echap
gameExit = True
if event.key == pygame.K_LEFT:
player.go_left()
if event.key == pygame.K_RIGHT:
player.go_right()
if event.key == pygame.K_UP:
player.jump()
#Quand l'utilisateur relâche la touche
if event.type == pygame.KEYUP:
if event.key == pygame.K_LEFT:
player.stop()
if event.key == pygame.K_RIGHT:
player.stop()
# Update le joueur
active_sprite_list.update()
# Affiche tous les items du niveau
current_level.update()
# Mvt caméra si le joueur va à droite (ici nul)
if player.rect.x >= 0: #car on veut aucun décallage (sinon on met 500)
diff = player.rect.x - 350 # on peut mettre (constants.SCREEN_WIDTH/2)
player.rect.x = 350 # milieu de l'écran
current_level.shift_world(-diff)
# Mvt caméra si le joueur va à gauche (ici nul)
if player.rect.x <= 0:
diff = 350 - player.rect.x #(constants.SCREEN_WIDTH/2)
player.rect.x = 350 #mileu de l'écran
current_level.shift_world(diff)
if player.rect.y <= 200:
diff = player.rect.y - 350
player.rect.y = 350
currentb_level.shift_world_y(-diff)
if player.rect.y >= 200:
diff = 350 - player.rect.y #(constants.SCREEN_WIDTH/2)
player.rect.y = 350 #mileu de l'écran
current_level.shift_world_y(diff)
# ALL CODE TO DRAW SHOULD GO BELOW THIS COMMENT
current_level.draw(screen)
active_sprite_list.draw(screen)
# ALL CODE TO DRAW SHOULD GO ABOVE THIS COMMENT
# FPS : limités à 60
FPS = constants.FPS
clock.tick(FPS)
# Update pygame de tout se qu'on a écrit
pygame.display.flip()
# Sortie du programme
pygame.quit()
[0,0,1,0,0,1,0,0,1,0,0,1,0,0]
]
# General graphics
livesImg = graphics.g_player.lives
numbers = [graphics.g_numbers.n0, graphics.g_numbers.n1, graphics.g_numbers.n2, graphics.g_numbers.n3, graphics.g_numbers.n4, graphics.g_numbers.n5, graphics.g_numbers.n6, graphics.g_numbers.n7, graphics.g_numbers.n8, graphics.g_numbers.n9]
impImages = [graphics.g_imps.imp0_0, graphics.g_imps.imp1_0, graphics.g_imps.imp2_0, graphics.g_imps.imp3_0, graphics.g_imps.imp4_0, graphics.g_imps.imp5_0]
levelImages = [[graphics.g_tiles.tile01, graphics.g_teleporters.tele01], [graphics.g_tiles.tile02, graphics.g_teleporters.tele02], [graphics.g_tiles.tile03, graphics.g_teleporters.tele03], [graphics.g_tiles.tile04, graphics.g_teleporters.tele04], [graphics.g_tiles.tile05, graphics.g_teleporters.tele05], [graphics.g_tiles.tile06, graphics.g_teleporters.tele06]]
bullet = graphics.g_enemies.bullet
# Init classes
instructions = Interface()
bg = Background(0, 0)
player = Player(0, 2, -12, 106)
audio = Audio(g_sound)
lvlEnemies = Enemy(0, -20, -20, 0, 0)
bonusItem.append(Drops(-20, -20, 0))
aLevel = Levels([levelMaps[random.getrandbits(4)], levelMaps[random.getrandbits(4)], levelMaps[random.getrandbits(4)], levelMaps[random.getrandbits(4)], levelMaps[random.getrandbits(4)]])
levelImps = Imps(-20, -20, impImages[0], 0)
flashText = Text(1, 1, "", True, -5)
tmpImpId = random.getrandbits(2)
impId = tmpImpId + random.getrandbits(2)
if impId > 5:
impId = 5
#############################################
def update():
global gameState, levelComplete, movePlayerX, impsOnScreen, impId, rndLevel, bonusItem, playerLives, bonusItemDropRate, score, aLevel, tmpImpId
global cheatsOn, flashPlayer, flashText, freezeTimer, freezeTimerMax, freezeEnemies, bulletVisible, bulletX, bulletY, bulletDir, bulletSpeed, warpPlayed
# Randomize imps during splash
pygame.draw.rect(screen, red, (mouse_rect.x, mouse_rect.y, tank_icon.get_width(), tank_icon.get_height(),))
else:
pygame.draw.rect(screen, green,
(mouse_rect.x, mouse_rect.y, tank_icon.get_width(), tank_icon.get_height(),))
screen.blit(tank_icon_nobg, (mouse_rect.x, mouse_rect.y))
if picked_tack:
if red_bg:
screen.blit(tack_icon_red, (mouse_rect.x, mouse_rect.y))
else:
screen.blit(tack_icon, (mouse_rect.x, mouse_rect.y))
shoot_count = 0
speed = 1 # increased for speed motion.
hostiles = [Enemy(i * 3, 170, 7, 1) for i in range(7)]
buildings = []
snipers = []
picked_tank = False
picked_tack = False
picked_sniper = False
mouse_counter = 0
red_bg = False # red background if can't place defenses, else green
while True:
clock.tick(60 * speed)
for event in pygame.event.get():
if event.type == pygame.QUIT: # if X button is pressed on the app
pygame.quit()
sys.exit()
def move_down(player, enemies):
'''function in charge of movig character up an down'''
enemies_left = enemies[0]
for element in enemies:
try:
if element.x_coord == last[1] and element.y_coord == (last[0] +
change):
enemy = element
except AttributeError:
pass
try:
if board[last[0] + change][last[1]] == ' ':
# movement only on floor that is " "
board[last[0] + change][last[1]] = character
board[last[0]][last[1]] = " "
return True
elif board[last[0] + change][last[1]] == '0':
#here goes the things that sage wants to say
if player.if_sage == False:
player.if_sage = sage()
else:
shop(player)
return False
elif board[last[0] +
change][last[1]] == Colors.portal + '$' + Colors.end:
board[last[0]][last[1]] = " "
output = 2
return (True, output)
elif board[last[0] +
change][last[1]] == Colors.portal + '*' + Colors.end:
if player.level >= 2:
board[last[0]][last[1]] = ' '
output = 3
return (True, output)
else:
return False
elif board[last[0] +
change][last[1]] == Colors.portal + '^' + Colors.end:
from enemies import Enemy
enemy = Enemy(3)
fight(player, enemy)
from win import wingame as win
#win()
elif '<' in board[last[0] + change][last[1]]:
fight(player, enemy)
if enemy.life == 0:
board[enemy.y_coord][
enemy.x_coord] = Colors.money + 'o' + Colors.end
args['enemies'][0] -= 1
player.enemies_killed += 1
return False
elif 'o' in board[last[0] + change][last[1]]:
player.gold += enemy.level * randint(1, 10)
board[last[0] + change][last[1]] = character
board[last[0]][last[1]] = ' '
return True
elif board[last[0] + change][last[1]] == '=':
if doors():
board[last[0] + change][last[1]] = ' '
return False
else:
idle()
return False
except IndexError:
idle()
return False
def setUp(self):
self.enemy = Enemy(health=100, mana=100, damage=20)
def main():
""" Main Program """
#pygame.init()
#main_menu()
# Set the height and width of the screen
size = [constants.SCREEN_WIDTH, constants.SCREEN_HEIGHT]
screen = pygame.display.set_mode(size)
pygame.display.set_caption("Danga")
### Main score song we pause for debug
song = pygame.mixer.Sound("sounds/danga.wav")
song.play(-1)
score = 0
# Create the player
player = Player()
player_shot = None
# Create the enemy
enemy = Enemy()
enemies = pygame.sprite.Group()
npcs = pygame.sprite.Group()
#Prepare for enemy_shots
enemy_shots = pygame.sprite.Group()
npc = Npc()
# Create all the levels
level_list = []
level_list.append(levels.Level_01(player))
level_list.append(levels.Level_02(player))
# Set the current level
current_level_no = 0
current_level = level_list[current_level_no]
active_sprite_list = pygame.sprite.Group()
player.level = current_level
enemy.level = current_level
npc.level = current_level
player.rect.x = 340
player.rect.y = constants.SCREEN_HEIGHT - player.rect.height
active_sprite_list.add(player)
enemy.rect.x = constants.SCREEN_WIDTH - enemy.rect.width
enemy.rect.y = 0 #constants.SCREEN_HEIGHT - enemy.rect.height
active_sprite_list.add(enemy)
enemies.add(enemy)
npc.rect.x = constants.SCREEN_WIDTH - enemy.rect.width
npc.rect.y = 0 #constants.SCREEN_HEIGHT - enemy.rect.height
#aggiungiano un NPC ?
#active_sprite_list.add(npc)
#npcs.add(npc)
#Loop until the user clicks the close button.
done = False
# Used to manage how fast the screen updates
clock = pygame.time.Clock()
# -------- Main Program Loop -----------
while not done:
for event in pygame.event.get(): # User did something
if event.type == pygame.QUIT: # If user clicked close
done = True # Flag that we are done so we exit this loop
if event.type == pygame.KEYDOWN:
if event.key == pygame.K_LEFT:
player.go_left()
if event.key == pygame.K_RIGHT:
player.go_right()
if event.key == pygame.K_UP:
player.jump()
if event.key == pygame.K_SPACE:
player.yell()
if event.key == pygame.K_LCTRL:
#shots.append(Shot(player.rect.center, player.direction))
player_shot = Shot(player.rect.center, player.direction)
active_sprite_list.add(player_shot)
#if event.key == pygame.K_RCTRL:
#shots.append(EnemyShot(enemy.rect.center))
#active_sprite_list.add(EnemyShot(enemy.rect.center, player))
if event.type == pygame.KEYUP:
if event.key == pygame.K_LEFT and player.change_x < 0:
player.stop()
if event.key == pygame.K_RIGHT and player.change_x > 0:
player.stop()
### ENEMY SHOTS
time_now = pygame.time.get_ticks()
#print (str(time_now - enemy.last_shot))
if time_now - enemy.last_shot > 1500:
current_shot = EnemyShot(enemy.rect.center, player)
enemy_shots.add(current_shot)
active_sprite_list.add(current_shot)
enemy.last_shot = time_now
#draw_text('COLLIDE!', font40, constants.WHITE, int( constants.SCREEN_WIDTH / 2 - 100), int( constants.SCREEN_HEIGHT / 2 + 50))
### MAIN COLLISION (Player Shot)
if player_shot:
if pygame.sprite.collide_rect(player_shot, enemy):
#print("COLLIDE")
explosion = Explosion(enemy.rect.centerx, enemy.rect.centery, 4)
active_sprite_list.add(explosion)
score += 10
### MAIN COLLISION (Enemy Shot)
if pygame.sprite.collide_rect(current_shot, player):
#print("COLLIDE")
explosion = DeathExplosion(player.rect.centerx, player.rect.centery, 4)
active_sprite_list.add(explosion)
player.shield = player.shield -3
### SHIELD, DEATH, LIVES AND GAME OVER
if player.shield <= 0:
player_die_sound.play()
death_explosion = DeathExplosion(player.rect.centerx, player.rect.centery, 4)
active_sprite_list.add(death_explosion)
# running = False ## GAME OVER 3:D
player.hide()
player.lives -= 1
player.shield = 100
## if player died and the explosion has finished, end game
if player.lives == 0 and not death_explosion.alive():
done = True
#draw_text(screen, "GAME OVER", 30, constants.SCREEN_WIDTH/2, constants.SCREEN_HEIGHT/2)
### SPRITE UPDATES
# Update the player.
active_sprite_list.update()
# Update items in the level
current_level.update()
### PLAYER SCREEN LIMITS
# print ('x:'+str(player.rect.x))
# print ('y:'+str(player.rect.y))
# If the player gets near the right side, shift the world left (-x)
if player.rect.x >= 500:
diff = player.rect.x - 500
player.rect.x = 500
current_level.shift_world(-diff)
# If the player gets near the left side, shift the world right (+x)
if player.rect.x <= 120:
diff = 120 - player.rect.x
player.rect.x = 120
current_level.shift_world(diff)
# If the player gets to the end of the level, go to the next level
current_position = player.rect.x + current_level.world_shift
if current_position < current_level.level_limit:
player.rect.x = 120
if current_level_no < len(level_list)-1:
current_level_no += 1
current_level = level_list[current_level_no]
player.level = current_level
### DRAWS
# ALL CODE TO DRAW SHOULD GO BELOW THIS COMMENT
current_level.draw(screen)
active_sprite_list.draw(screen)
draw_text(screen, str(score), 18, constants.SCREEN_WIDTH / 2, 10) ## 10px down from the screen
#draw_shield_bar(screen, 5, 5, 100)
draw_shield_bar(screen, 5, 5, player.shield)
# Draw lives
draw_lives(screen, constants.SCREEN_WIDTH - 100, 5, player.lives, player_mini_img)
# ALL CODE TO DRAW SHOULD GO ABOVE THIS COMMENT
# Limit to 60 frames per second
clock.tick(60)
# Go ahead and update the screen with what we've drawn.
pygame.display.flip()
game_over()
main_menu()
from room import Room
from player import Player
from items import Item
import time
from enemies import Enemy
from battle_sequence import Battle
items = {'dagger' : Item("Basic Dagger", "Just a basic dagger. Can be used to cause minimal damage. 10-15 dmg dealt.")}
room = Room("Practice Room", """This room is a practice room, its contents being a mobile wooden dummy and the player.
its purpose is to test out the battle_sequence function.""")
enemy = Enemy("Wooden Dummy")
player = Player("Player Dummy", room, inventory=[items['dagger']])
# print(enemy.name)
# print(enemy.health)
# print(player.name)
# print(player.health)
# player.print_inventory()
test_battle = Battle(player, enemy)
test_battle.main_battle_loop()