def __init__(self, parent):
self.parent = parent
globalvars.asdf = 0
##some key vars, the works
self.lagcount = 0
#a little hack so that the background works nicer
self.background = globalvars.screen
#make the rectlist to handle dirty updating
self.updaterects = []
#background object
self.bgstars = BackgroundManager()
##make the lists to handle various sprites
self.list_enemys = EnemyManager()
self.player_list = pygame.sprite.RenderUpdates()
self.list_allie_shots = pygame.sprite.OrderedUpdates()
self.enemy_shots = pygame.sprite.RenderUpdates()
self.token_list = pygame.sprite.RenderUpdates()
##make a new stage object
self.stage = Stage(self, self.list_enemys, self.player_list,
self.enemy_shots, self.list_allie_shots)
#self.setup_events()
self.new_display()
def __init__(self,parent): self.parent=parent globalvars.asdf = 0 ##some key vars, the works self.lagcount=0 #a little hack so that the background works nicer self.background=globalvars.screen #make the rectlist to handle dirty updating self.updaterects=[] #background object self.bgstars=BackgroundManager() ##make the lists to handle various sprites self.list_enemys=EnemyManager() self.player_list=pygame.sprite.RenderUpdates() self.list_allie_shots=pygame.sprite.OrderedUpdates() self.enemy_shots=pygame.sprite.RenderUpdates() self.token_list=pygame.sprite.RenderUpdates() ##make a new stage object self.stage=Stage(self,self.list_enemys,self.player_list,self.enemy_shots,self.list_allie_shots) #self.setup_events() self.new_display()
def runGame():
# Initialize game and create a window
pg.init()
# create a new object using the settings class
setting = Settings()
# creaete a new object from pygame display
screen = pg.display.set_mode((setting.screenWidth, setting.screenHeight))
# intro
intro.introimages()
# set window caption using settings obj
pg.display.set_caption(setting.windowCaption)
bMenu = ButtonMenu(screen)
bMenu.addButton("play", "PLAY")
bMenu.addButton("menu", "MENU")
bMenu.addButton("twoPlay", "2PVS")
bMenu.addButton("settings", "SETTINGS")
bMenu.addButton("invert", "INVERT")
bMenu.addButton("about", "ABOUT")
bMenu.addButton("quit", "QUIT")
bMenu.addButton("grey", "GREY")
bMenu.addButton("red", "RED")
bMenu.addButton("blue", "BLUE")
bMenu.addButton("retry", "RETRY")
bMenu.addButton("hard", "HARD")
bMenu.addButton("normal", "NORMAL")
mainMenuButtons = ["play", "about", "settings", "quit"] # delete "twoPlay"
playMenuButtons = ["grey", "red", "blue", "menu", "quit"]
levelMenuButtons = ["hard", "normal", "quit"]
mainGameButtons = ["play", "menu", "quit"]
aboutButtons = ["menu", "quit"]
settingsMenuButtons = ["menu", "invert", "quit"]
bgManager = BackgroundManager(screen)
bgManager.setFillColor((0, 0, 0))
bgManager.addBackground(
"universe_1", "gfx/backgrounds/stars_back.png", 0, 1)
bgManager.addBackground(
"universe_1", "gfx/backgrounds/stars_front.png", 0, 1.5)
bgManager.selectBackground("universe_1")
# Create an instance to stor game stats
stats = GameStats(setting)
sb = Scoreboard(setting, screen, stats)
# Make a ship
ship = Ship(setting, screen)
# Ships for two player
ship1 = Ship(setting, screen)
ship2 = Ship(setting, screen)
# make a group of items to store
items = Group()
# make a group of bullets to store
bullets = Group()
charged_bullets = Group()
eBullets = Group()
setting.explosions = Explosions()
# Make an alien
aliens = Group()
gf.createFleet(setting, stats, screen, ship, aliens)
pg.display.set_icon(pg.transform.scale(ship.image, (32, 32)))
bgImage = pg.image.load('gfx/title_c.png')
bgImage = pg.transform.scale(
bgImage, (setting.screenWidth, setting.screenHeight))
bgImageRect = bgImage.get_rect()
aboutImage = pg.image.load('gfx/About_modify2.png')
aboutImage = pg.transform.scale(
aboutImage, (setting.screenWidth, setting.screenHeight))
aboutImageRect = aboutImage.get_rect()
# plays bgm
pg.mixer.music.load('sound_bgms/galtron.mp3')
pg.mixer.music.set_volume(0.25)
pg.mixer.music.play(-1)
rungame = True
sounds.stage_clear.play()
# Set the two while loops to start mainMenu first
while rungame:
# Set to true to run main game loop
bMenu.setMenuButtons(mainMenuButtons)
while stats.mainMenu:
if not stats.gameActive and stats.paused:
setting.initDynamicSettings()
stats.resetStats()
##stats.gameActive = True
# Reset the alien and the bullets
aliens.empty()
bullets.empty()
eBullets.empty()
# Create a new fleet and center the ship
gf.createFleet(setting, stats, screen, ship, aliens)
ship.centerShip()
mm.checkEvents(setting, screen, stats, sb, bMenu,
ship, aliens, bullets, eBullets)
mm.drawMenu(setting, screen, sb, bMenu, bgImage, bgImageRect)
bMenu.setMenuButtons(levelMenuButtons)
while stats.levelMenu:
lm.checkEvents(setting, screen, stats, sb, bMenu,
ship, aliens, bullets, eBullets)
lm.drawMenu(setting, screen, sb, bMenu, bgImage, bgImageRect)
bMenu.setMenuButtons(playMenuButtons)
while stats.playMenu:
pm.checkEvents(setting, screen, stats, sb, bMenu,
ship, aliens, bullets, eBullets)
pm.drawMenu(setting, screen, sb, bMenu)
bMenu.setMenuButtons(mainGameButtons)
while stats.mainGame:
# Game functions
gf.checkEvents(setting, screen, stats, sb, bMenu, ship, aliens,
bullets, eBullets, charged_bullets) # Check for events
# Reset Game
if gf.reset == 1:
gf.reset = 0
pg.register_quit(runGame())
if stats.gameActive:
gf.updateAliens(setting, stats, sb, screen, ship,
aliens, bullets, eBullets) # Update aliens
gf.updateBullets(setting, screen, stats, sb, ship, aliens, bullets,
eBullets, charged_bullets, items) # Update collisions
gf.updateItems(setting, screen, stats, sb, ship,
aliens, bullets, eBullets, items)
ship.update(bullets, aliens) # update the ship
# Update the screen
gf.updateScreen(setting, screen, stats, sb, ship, aliens,
bullets, eBullets, charged_bullets, bMenu, bgManager, items)
bMenu.setMenuButtons(aboutButtons)
bMenu.setPos(None, 500)
while stats.mainAbout:
About.checkEvents(setting, screen, stats, sb,
bMenu, ship, aliens, bullets, eBullets)
About.drawMenu(setting, screen, sb, bMenu,
aboutImage, aboutImageRect)
while stats.twoPlayer:
tp.checkEvents(setting, screen, stats, sb, bMenu,
bullets, aliens, eBullets, ship1, ship2)
if stats.gameActive:
ship1.update(bullets, aliens)
ship2.update(bullets, aliens)
tp.updateBullets(setting, screen, stats, sb,
ship1, ship2, aliens, bullets, eBullets, items)
tp.updateScreen(setting, screen, stats, sb, ship1,
ship2, aliens, bullets, eBullets, bMenu, items)
bMenu.setMenuButtons(settingsMenuButtons)
while stats.settingsMenu:
sm.checkEvents1(setting, screen, stats, sb, bMenu,
ship, aliens, bullets, eBullets)
sm.drawMenu(setting, screen, sb, bMenu)
while stats.mainGame:
if rungame == True:
print("test")
class Gamelolz:
#This is the __init__
#its important.
def __init__(self, parent):
self.parent = parent
globalvars.asdf = 0
##some key vars, the works
self.lagcount = 0
#a little hack so that the background works nicer
self.background = globalvars.screen
#make the rectlist to handle dirty updating
self.updaterects = []
#background object
self.bgstars = BackgroundManager()
##make the lists to handle various sprites
self.list_enemys = EnemyManager()
self.player_list = pygame.sprite.RenderUpdates()
self.list_allie_shots = pygame.sprite.OrderedUpdates()
self.enemy_shots = pygame.sprite.RenderUpdates()
self.token_list = pygame.sprite.RenderUpdates()
##make a new stage object
self.stage = Stage(self, self.list_enemys, self.player_list,
self.enemy_shots, self.list_allie_shots)
#self.setup_events()
self.new_display()
def new_display(self):
self.side_panel = pygame.sprite.RenderUpdates()
self.points = Points()
self.side_panel.add(self.points)
self.health = Health()
self.healthbar = HealthBar(self.health)
self.livesbar = LivesBar(self.health, self.healthbar)
self.side_panel.add(self.healthbar)
self.side_panel.add(self.health)
self.side_panel.add(self.livesbar)
#clears all the variables
def clear_vars(self):
self.leftkeydown = 0
self.rightkeydown = 0
self.points.set_points(0)
globalvars.x = 400
globalvars.y = globalvars.WIN_RESY - 60
self.stage.set_stage(0)
self.list_enemys.empty()
self.list_allie_shots.empty()
self.player_list.empty()
self.enemy_shots.empty()
print "Game Restarted"
def register_inputs(self):
import defaultinputs
defaultinputs.setup(self.inputmanager, self)
#define function to draw player ship on X, Y plane
def pship(self):
self.player_list.clear(globalvars.surface, self.background)
self.updaterects += self.player_list.draw(globalvars.surface)
#Define function to move the enemy ship
def emove(self):
self.list_enemys.clear(globalvars.surface, self.background)
self.updaterects += self.list_enemys.draw(globalvars.surface)
#So i'm trying out having the program check for collisions, instead of the enemy objects
#i think i might switch to the objects, but still keep this function just hand the computing to the object
#seems most efficient
def test_collision(self):
todie = ecollision.groupcollide(self.list_enemys,
self.list_allie_shots, 0, 0,
ecollision.BOTTOM)
#todie=pygame.sprite.groupcollide(self.list_enemys, self.list_allie_shots,0,0)
#print todie
for enemy, bullet in todie.iteritems():
bullet.set_hit(1)
enemy.hit(bullet.damage)
self.points.add_points(1)
for q in pygame.sprite.spritecollide(self.player, self.enemy_shots, 0):
#for q in ecollision.spritecollide(self.player, self.enemy_shots,0,ecollision.TOP):
#print "ZOMFG SHOTZORZ"
self.player.set_hit(q.damage)
self.enemy_shots.remove(q)
#if self.token_list:
# for token in ecollision.spritecollide(self.player, self.token_list,0, ecollision.TOP):
# print token
#if there are no enemys left, go to the next stage
def check_done(self):
if not globalvars.asdf % 20 and not self.list_enemys: #the %20 lets it wait a fraction of a second
self.stage.next_stage()
#checks to see if we can expand the ranges of the bots so its nice and.... umm... nice.
def check_rows(self):
if globalvars.asdf % 20 == 0:
self.list_enemys.check_enemy_rows()
#major hack just to get this thing playable..... sorry
def again(self):
if self.player.health <= 0:
return False
return True
#this is called if the player shoots... to be honest i dont know why this is a function
def pshoot(self, **args):
self.player.shoot()
#draws the bullet.... duh. come on dude.
def drawbullets(self):
#for x in self.list_allie_shots:
#x.draw()
self.list_allie_shots.clear(globalvars.surface, self.background)
self.enemy_shots.clear(globalvars.surface, self.background)
self.updaterects += self.list_allie_shots.draw(globalvars.surface)
self.updaterects += self.enemy_shots.draw(globalvars.surface)
#...
def drawsidepanel(self):
if globalvars.asdf % 5 == 0:
self.side_panel.update()
self.side_panel.clear(globalvars.surface, self.background)
self.updaterects += self.side_panel.draw(globalvars.surface)
#dont ask why i made this a function, i made draw<asdf> for everythign else
#so figured id make this too
def drawtokens(self):
if self.token_list:
self.token_list.clear(globalvars.surface, self.background)
self.updaterects += self.token_list.draw(globalvars.surface)
#goes through all the arrays and makes each of them move 1 space, simple and easy yet it deserves a comment...
def tick(self):
self.bgstars.update()
self.list_allie_shots.update()
self.list_enemys.update()
self.enemy_shots.update()
self.token_list.update()
self.player.update()
######################
#heres a bunch of metafunctions
#i break it up so its really easy to add new features
#like if we ant a counter? add something to check() and draw()
#all of these are called once per frame
def check(self):
self.check_done()
self.test_collision()
self.check_rows()
self.list_enemys.shoot(self.stage.enemyodds)
def draw(self):
self.updaterects += self.bgstars.draw()
self.updaterects += self.bgstars.clear()
self.drawbullets()
self.pship()
self.emove()
self.drawsidepanel()
self.drawtokens()
#does just what it sounds like.....
def clear_screen(self):
globalvars.surface.fill(globalvars.bgcolor)
pygame.display.flip()
#for debugging info mostly... No entirely
def dispvars(self):
print "The Enemy Array size is:", len(self.list_enemys.sprites())
print "The Player Shot Array size is:", len(
self.list_allie_shots.sprites())
print "The Enemy Shot Array size is:", len(self.enemy_shots.sprites())
#does lots and lots of stuff, it really needs to be cleaned up
def input(self, events):
self.inputmanager.check(events)
def mousemove(self, parent, event):
tempx = pygame.mouse.get_pos()[0] - parent.player.rect.width / 2
## Just to make sure we don't get the ship way out there:
if tempx > globalvars.xmax: #if its outside the globalvars.window, just stick it as far as possible
parent.player.move(globalvars.xmax, globalvars.y)
elif tempx < globalvars.xmin:
parent.player.move(globalvars.xmin, globalvars.y)
elif abs(
tempx - globalvars.x
) > globalvars.smooth_scroll_var1: #smooth scrolling if the mouse gets far from the ship
parent.player.move(
parent.player.get_pos().left +
(tempx - parent.player.get_pos().left) /
globalvars.smooth_scroll_var2, globalvars.y)
else: #if it gets down to this point,
#we've passed all sanity checks so just move it
parent.player.move(tempx, globalvars.y)
##################################################################################################################
#pretty simple
def start(self):
self.clear_vars()
self.player = Player(self.player_list, self.token_list,
Gun(self.list_allie_shots, Bullet))
self.player_list.add(self.player)
self.player.set_pos(globalvars.x, globalvars.y)
self.health.link_sprite(self.player)
self.inputmanager = self.parent.inputmanager
self.register_inputs()
self.loop()
#Yeah see this one does all of the work
def loop(self):
#start loop
while self.again():
#refresh self.background...needs to be done once in a while
if globalvars.asdf >= globalvars.REFRESH_TIME:
#self.clear_screen()
globalvars.asdf = 0
globalvars.asdf += 1
#check everythign and see if changes need to be made
self.check()
#move everything 1
self.tick()
#initiate input function
self.input(pygame.event.get())
#draw everything
self.draw()
#applies the smart screen updating
#globalvars.surface.set_alpha(150,pygame.RLEACCEL) ......dont ask why
#globalvars.surface2.blit(globalvars.surface,globalvars.surfacerect)
pygame.display.update(self.updaterects)
self.updaterects = []
#pauses and waits
self.time = globalvars.clock.get_time()
if self.time > globalvars.FPS:
timeittook = globalvars.clock.tick(globalvars.FPS -
(self.time -
globalvars.FPS))
print "Lag at frame %s\t%sms" % (globalvars.asdf, self.time)
else:
timeittook = globalvars.clock.tick(globalvars.FPS)
def __init__(self, app, screen):
# tock started out random, but now is an important variable.
# It is a frames count, used for periodic updates on certain
# frames.
self.p_max_health = 5
self.won = False
self.won_msg = "WINNER!"
self.particle_ban = False
self.wait_stop_count = -1 # -1 means do not count
self.wait_stop_max = 120 # wait this many frames after decay
# before showing menu
self.tock = 0
self.stage_e_bullet_odds = 15
self.mouse_rect = None
self.temp_rect = None
self.app = app
self.screen = screen
self.app.music_name = "intro.ogg"
# self.app.continue_music()
if self.app.settings['music']:
# self.app.music_loaded = self.app.music_name
# pygame.mixer.music.load(self.app.resource_find(
# self.music_name))
# pygame.mixer.music.play() # plays once PLUS repeats param
pass
left_border = 50
right_border = 50
w, h = screen.get_size()
self.world_rect = pygame.Rect(left_border, 0,
w-right_border-left_border, h)
self.bg = BackgroundManager(self.world_rect)
# Yay spritegroups! They make the world go round, and iterate.
# Basically each visible game object resides in its own special
# spritegroup & then all one needs to do is go through these &
# call functions & stuff.
# It makes sense in here *points to brain*
self.p_swarm = Swarm(self.world_rect)
self.particles = Swarm(self.world_rect)
self.explosion_images = self.app.load_seq('ex-medium')
self.shield_hit_images = self.app.load_seq('shield_hit-tiny')
self.damage_images = self.app.load_seq('ex-tiny')
# Load player sprite as image list.
self.p_unit_images = self.app.load_seq('pship')
# self.p_unit_images = []
# self.p_unit_images.append(self.load_file('pship.png'))
# self.p_unit_images.append(self.load_file('pship1.png'))
# self.p_unit_images.append(self.load_file('pship2.png'))
# self.p_unit_images.append(self.load_file('pship3.png'))
# Load enemy ship image.
self.e_ship_image = self.load_file('eship.png')
if self.app.settings['sounds']:
self.p_shoot_sound = self.app.load_file('p-weapon0.wav',
file_type='sound')
self.p_shoot_sound.set_volume(.3)
self.e_ex_sound = self.app.load_file('e-ex.wav',
file_type='sound')
self.p_ex_sound = self.app.load_file('p-ex.wav',
file_type='sound')
self.e_damage_sound = self.app.load_file('e-damage.wav',
file_type='sound')
self.e_shield_sound = self.app.load_file('e-shield.wav',
file_type='sound')
self.p_shield_sound = self.app.load_file('p-shield.wav',
file_type='sound')
self.p_damage_sound = self.app.load_file('p-damage.wav',
file_type='sound')
print("loaded sounds...")
self.menus = None
self.tock = 0
self.lagcount = 0
self.leftkeydown = 0
self.rightkeydown = 0
# self.enemylist = [] # list of dirty rects
self.swarm = Swarm(self.world_rect,
shoot_odds=self.stage_e_bullet_odds)
self.stage = Stage(self.swarm, self.p_swarm)
self.p_shot_image = self.load_file('p-laser.png')
self.e_shot_image = self.load_file('e-laser.png')
self.p_bullet_swarm = Swarm(self.world_rect)
self.e_bullet_swarm = Swarm(self.world_rect)
# self.bullet_width = 10
self.hud_rect = pygame.Rect(0, 0, 5, 150)
self.hud = Hud()
self.hud.generate_blip('player.score', 100,
fg_color=(255,243,207),
text_color=(192,180,180),
caption="SCORE")
self.hud.generate_blip('player.health', self.p_max_health,
fg_color=(0,255,42),
text_color=(192,180,180),
caption="SHIELD")
self.statcounter = self.hud.get_blip('player.score')
class World:
# This is the __init__
# its important.
def __init__(self, app, screen):
# tock started out random, but now is an important variable.
# It is a frames count, used for periodic updates on certain
# frames.
self.p_max_health = 5
self.won = False
self.won_msg = "WINNER!"
self.particle_ban = False
self.wait_stop_count = -1 # -1 means do not count
self.wait_stop_max = 120 # wait this many frames after decay
# before showing menu
self.tock = 0
self.stage_e_bullet_odds = 15
self.mouse_rect = None
self.temp_rect = None
self.app = app
self.screen = screen
self.app.music_name = "intro.ogg"
# self.app.continue_music()
if self.app.settings['music']:
# self.app.music_loaded = self.app.music_name
# pygame.mixer.music.load(self.app.resource_find(
# self.music_name))
# pygame.mixer.music.play() # plays once PLUS repeats param
pass
left_border = 50
right_border = 50
w, h = screen.get_size()
self.world_rect = pygame.Rect(left_border, 0,
w-right_border-left_border, h)
self.bg = BackgroundManager(self.world_rect)
# Yay spritegroups! They make the world go round, and iterate.
# Basically each visible game object resides in its own special
# spritegroup & then all one needs to do is go through these &
# call functions & stuff.
# It makes sense in here *points to brain*
self.p_swarm = Swarm(self.world_rect)
self.particles = Swarm(self.world_rect)
self.explosion_images = self.app.load_seq('ex-medium')
self.shield_hit_images = self.app.load_seq('shield_hit-tiny')
self.damage_images = self.app.load_seq('ex-tiny')
# Load player sprite as image list.
self.p_unit_images = self.app.load_seq('pship')
# self.p_unit_images = []
# self.p_unit_images.append(self.load_file('pship.png'))
# self.p_unit_images.append(self.load_file('pship1.png'))
# self.p_unit_images.append(self.load_file('pship2.png'))
# self.p_unit_images.append(self.load_file('pship3.png'))
# Load enemy ship image.
self.e_ship_image = self.load_file('eship.png')
if self.app.settings['sounds']:
self.p_shoot_sound = self.app.load_file('p-weapon0.wav',
file_type='sound')
self.p_shoot_sound.set_volume(.3)
self.e_ex_sound = self.app.load_file('e-ex.wav',
file_type='sound')
self.p_ex_sound = self.app.load_file('p-ex.wav',
file_type='sound')
self.e_damage_sound = self.app.load_file('e-damage.wav',
file_type='sound')
self.e_shield_sound = self.app.load_file('e-shield.wav',
file_type='sound')
self.p_shield_sound = self.app.load_file('p-shield.wav',
file_type='sound')
self.p_damage_sound = self.app.load_file('p-damage.wav',
file_type='sound')
print("loaded sounds...")
self.menus = None
self.tock = 0
self.lagcount = 0
self.leftkeydown = 0
self.rightkeydown = 0
# self.enemylist = [] # list of dirty rects
self.swarm = Swarm(self.world_rect,
shoot_odds=self.stage_e_bullet_odds)
self.stage = Stage(self.swarm, self.p_swarm)
self.p_shot_image = self.load_file('p-laser.png')
self.e_shot_image = self.load_file('e-laser.png')
self.p_bullet_swarm = Swarm(self.world_rect)
self.e_bullet_swarm = Swarm(self.world_rect)
# self.bullet_width = 10
self.hud_rect = pygame.Rect(0, 0, 5, 150)
self.hud = Hud()
self.hud.generate_blip('player.score', 100,
fg_color=(255,243,207),
text_color=(192,180,180),
caption="SCORE")
self.hud.generate_blip('player.health', self.p_max_health,
fg_color=(0,255,42),
text_color=(192,180,180),
caption="SHIELD")
self.statcounter = self.hud.get_blip('player.score')
def load_file(self, name):
return self.app.load_file(name)
def on_exit(self):
print("on_exit...")
# Clears all the variables
def clear_vars(self):
# print("clear_vars: world_rect: " + str(self.world_rect))
self.p_start_x = self.world_rect.width / 2
self.p_start_y = self.world_rect.height - 60
self.bend_y = float(self.p_start_y)
# print("clear_vars: p_start_y: " + str(self.p_start_y))
self.bend_rate = 0.02
self.leftkeydown = 0
self.rightkeydown = 0
if self.p_unit is not None:
self.hud.set_blip_value('player.health', self.p_unit.health)
else:
print("WARNING: clear_vars failed to set bar since no" +
" player unit exists")
self.statcounter.set_val(0)
self.stage.set_stage_number(-1) # hax
self.stage_e_bullet_odds = 100
self.swarm.empty()
self.p_bullet_swarm.empty()
self.p_swarm.empty()
self.particles.empty()
self.e_bullet_swarm.empty()
# Define function to draw player ship on X, Y plane
def draw_player_units(self):
self.p_swarm.draw(self.screen)
# Define function to move the enemy ship
def emove(self):
self.swarm.draw(self.screen) # use spritegroup draw method
# Draws all the enemys you ask it
def generate_enemies(self):
print("generating enemies...")
# Some recursive loops:
xmin = self.world_rect.left
xmax = self.world_rect.right
ymin = self.world_rect.top
stage_data = self.stage.get_data()
self.e_ship_image = self.app.load_file(stage_data['e']+".png")
enemy_width, enemy_height = self.e_ship_image.get_size()
enemy_spacing_x = 15
enemy_spacing_y = 10
init_enemy_speed = 3
angle = -90 # cartesian
self.app.music_name = stage_data['music']
# if self.app.music_name == 'intro.ogg':
# self.app.continue_music() # force song change
e_max_health = stage_data['e_h']
for enemycol in range(stage_data['x_e_count']):
# Now for the rows
for enemyrow in range(stage_data['y_e_count']):
# Make a new enemy object:
new_enemy = Entity(self.app,
'eship', [self.e_ship_image],
init_enemy_speed, angle,
self.swarm, e_max_health,
self.explosion_images, self.particles,
ai_enable=True,
value=stage_data['e_h'],
ex_sound=self.e_ex_sound)
new_enemy.set_xy(
xmin +
enemycol * (enemy_width +
enemy_spacing_x),
ymin +
enemyrow * (enemy_height +
enemy_spacing_y) - 150
)
new_enemy.set_range(
xmin +
enemycol * (enemy_width +
enemy_spacing_x),
xmax -
(stage_data['x_e_count'] - enemycol) *
(enemy_height +
enemy_spacing_x)
)
# Now add the temp enemy to the array and we're good to
# go
self.swarm.add(new_enemy)
# So I'm trying out having the program check for collisions, instead
# of the enemy objects i think i might switch to the objects, but
# still keep this function just hand the computing to the object
def test_collision(self):
part_speed = 1
part_angle = -90
part_health = 1
e_hit = pygame.sprite.groupcollide(self.swarm,
self.p_bullet_swarm,
0, 0)
for sprite, bullets in e_hit.items():
# print("removed " + str(bullet)
for bullet in bullets:
was_alive = sprite.get_is_alive()
prev_health = sprite.health
if sprite.get_is_alive():
sprite.set_hit(1)
damage = prev_health - sprite.health
poof = self.shield_hit_images
temper_sound = self.e_shield_sound
if damage > 0:
poof = self.damage_images
temper_sound = self.e_damage_sound
if not was_alive:
break
point = pygame.sprite.collide_mask(sprite,
bullet)
if ((point is not None) and
(not self.particle_ban)):
particle = Entity(self.app, 'particle',
poof,
part_speed,
part_angle, self.particles,
part_health,
None,
None,
anim_done_remove=True,
temper_sound=temper_sound)
particle.temper = 1 # start particle death
x1, y1 = sprite.get_pos() # top left
x = x1 + point[0] - particle.rect.width / 2
y = y1 + point[1] - particle.rect.height / 2
particle.set_xy(x, y)
self.particles.add(particle)
if not sprite.get_is_alive():
points = sprite.take_value() # only once & if health 0
if points > 0:
self.statcounter.add_value(points)
self.p_bullet_swarm.remove(bullets)
p_hit = pygame.sprite.groupcollide(self.p_swarm,
self.e_bullet_swarm,
0, 0)
for sprite, bullets in p_hit.items():
for bullet in bullets:
was_alive = sprite.get_is_alive()
prev_health = sprite.health
if sprite.get_is_alive():
sprite.set_hit(1)
damage = prev_health - sprite.health
poof = self.shield_hit_images
temper_sound = self.p_shield_sound
if damage > 0:
poof = self.damage_images
temper_sound = self.p_damage_sound
self.hud.set_blip_value('player.health',
self.p_unit.health)
# New in pygame 1.8.0:
point = pygame.sprite.collide_mask(sprite, bullet)
if not was_alive:
break
if (point is not None) and (not self.particle_ban):
particle = Entity(self.app, 'particle',
poof,
part_speed,
part_angle, self.particles,
part_health,
None,
None,
anim_done_remove=True,
temper_sound=temper_sound)
particle.temper = 1 # start particle death
x1, y1 = sprite.get_pos() # top left
x = x1 + point[0] - particle.rect.width / 2
y = y1 + point[1] - particle.rect.height / 2
particle.set_xy(x, y)
self.particles.add(particle)
# if pygame.sprite.spritecollideany(self.p_unit,
# self.e_bullet_swarm):
# self.p_unit.set_hit(1)
# self.hud.set_blip_value('player.health',
# self.p_unit.health)
# if there are no enemys left, go to the next stage
def check_done(self):
if not self.swarm:
if self.stage.is_last_stage():
if not self.won:
self.won = True # TODO: make ending screen
# self.app.music_name = 'victory.ogg'
# if self.app.music_name == 'intro.ogg':
# self.app.continue_music() # force song change
self.app.music_name = None # stop repeating
self.app.check_music() # apply None to loop
self.app.queue_music('victory.ogg', 1)
if not self.won:
self.stage.next_stage()
if self.stage_e_bullet_odds > 15:
self.stage_e_bullet_odds -= 15
self.generate_enemies()
# checks to see if we can expand the ranges of the bots so its nice
# and.... umm... nice.
def check_rows(self):
if self.tock % 20 == 0:
# simple sorting algorithm to find the highest values
xmin = self.world_rect.left
xmax = self.world_rect.right
highest = xmin
lowest = xmax
for enemy in self.swarm:
if enemy.get_range()[1] > highest:
highest = enemy.get_range()[1]
if enemy.get_range()[0] < lowest:
lowest = enemy.get_range()[0]
highest = xmax - highest
lowest = lowest - xmin
if highest != 0 or lowest != 0:
# makes things |--| this much more efficient
for enemy in self.swarm:
erange = enemy.get_range()
enemy.set_range(erange[0]-lowest,
erange[1]+highest)
# major hack just to get this thing playable..... sorry
def again(self):
if self.hud.get_blip_value('player.health') <= 0:
self.particle_ban = True
if self.p_unit.get_is_decayed():
self.particle_ban = True
# also wait for particles to finish for prettier ending
if len(self.particles) < 1:
if self.wait_stop_count < 0:
print("player unit decayed, counting down to menu")
self.wait_stop_count = 0
# return False
if self.wait_stop_count >= 0:
self.wait_stop_count += 1
if self.wait_stop_count > self.wait_stop_max:
return False
if self.won:
if self.wait_stop_count < 0:
print("won game, counting down to menu")
self.wait_stop_count = 0
return True
# this is called if the player initiates shooting
def pshoot(self):
# sx = self.p_unit.rect.centerx -
# self.p_shot_image.rect.width / 2
# sy = self.p_unit.rect.top +
# self.p_shot_image.rect.height * .75
if self.p_unit.get_is_alive():
self.p_unit.shoot(self.p_shot_image,
self.p_bullet_swarm)
# self.p_unit.shoot_from(self.p_shot_image,
# self.p_bullet_swarm,
# sx, sy, self.p_unit.angle)
def draw_bullets(self):
self.p_bullet_swarm.draw(self.screen)
self.e_bullet_swarm.draw(self.screen)
def draw_hud(self):
if self.tock % 5 == 0:
self.hud.update()
self.hud.draw(self.screen)
# Goes through all the objects and makes each of them move as
# necessary
def tick(self):
self.bend_y += self.bend_rate
bend_max = 5.0
if self.bend_rate < 0.0:
self.bend_rate -= .02
else:
self.bend_rate += .02
if ((self.bend_y > self.p_start_y + bend_max) or
(self.bend_y < self.p_start_y)):
if self.bend_rate < 0.0:
self.bend_rate = .02
self.bend_y = float(self.p_start_y)
else:
self.bend_rate = -.02
self.bend_y = float(self.p_start_y) + bend_max
self.p_unit.set_xy(self.p_unit.get_pos()[0],
int(self.bend_y+.5))
self.p_bullet_swarm.update()
self.swarm.update()
self.e_bullet_swarm.update()
######################
# Here are a bunch of metafunctions.
# I break it up so its really easy to add new features,
# like if we ant a counter? add something to check() and draw().
# All of these are called once per frame.
def check(self):
self.check_done()
self.test_collision()
self.check_rows()
self.bg.update()
if self.p_unit.get_is_alive():
self.swarm.shoot(self.e_shot_image, self.e_bullet_swarm)
self.p_unit.update()
for particle in self.particles:
particle.update()
def draw(self):
self.screen.fill(self.bg.bg_color)
# if self.world_rect is not None:
# self.screen.fill((64, 64, 64), self.world_rect)
self.bg.draw(self.screen)
self.draw_bullets()
self.draw_player_units()
self.emove()
self.particles.draw(self.screen)
self.draw_hud()
# if self.p_unit is not None:
# if self.p_unit.rect is not None:
# self.screen.fill((128, 128, 128), self.p_unit.rect)
# if self.mouse_rect is not None:
# self.screen.fill((255, 255, 255), self.mouse_rect)
# if self.temp_rect is not None:
# self.screen.fill((128, 0, 0), self.temp_rect)
# does just what it sounds like.....
def clear_screen(self):
self.screen.fill(self.bg.bg_color)
# pygame.display.flip()
# for debugging info mostly
def dispvars(self):
print("The Enemy SpriteGroup size is:" +
str(len(self.swarm.sprites())))
print("The Player Bullet Array size is:" +
str(len(self.p_bullet_swarm.sprites())))
print("The Enemy Bullet Array size is:" +
str(len(self.e_bullet_swarm.sprites())))
# does lots and lots of stuff, it really needs to be cleaned up
def process_events(self, events):
# print("input: self.p_unit.rect: " + str(self.p_unit.rect))
xmin = self.world_rect.left
xmax = self.world_rect.right
smooth_scroll_var1 = 10
smooth_scroll_var2 = 2
pygame.event.pump() # redraw Window so OS knows not frozen
self.app.check_music()
pause_menu_strings = ["RESUME", "ABOUT", "HELP", "EXIT"]
if self.won:
pause_menu_strings.insert(0, self.won_msg)
for event in events:
if event.type == QUIT:
self.on_exit()
sys.exit(0)
if event.type == pygame.MOUSEMOTION:
pygame.event.get()
prev_pos = self.p_unit.get_pos()
tempx = (pygame.mouse.get_pos()[0] -
self.p_unit.rect.width / 2)
# *Just to make sure we don't get the ship way out:
if tempx + self.p_unit.rect.width > xmax:
# if its outside the world,
# just stick it as far as possible
self.p_unit.set_xy(xmax - self.p_unit.rect.width,
prev_pos[1])
elif tempx < xmin:
self.p_unit.set_xy(xmin, prev_pos[1])
elif abs(tempx-self.p_start_x) > \
smooth_scroll_var1:
# smooth scrolling if the mouse gets far
# from the ship
self.p_unit.set_xy(
prev_pos[0] +
(tempx-prev_pos[0]) /
smooth_scroll_var2,
prev_pos[1])
else:
# if it gets down to this point,
# we've passed all sanity checks so just move it
self.p_unit.set_xy(tempx, prev_pos[1])
elif event.type == pygame.MOUSEBUTTONDOWN:
self.pshoot()
elif event.type == pygame.KEYDOWN:
if event.key == pygame.K_q:
self.menus.show_dialog(pause_menu_strings)
if event.key == pygame.K_p:
self.menus.show_dialog(pause_menu_strings)
if event.key == pygame.K_ESCAPE:
self.menus.show_dialog(pause_menu_strings)
# keyboard controls
if event.key == pygame.K_LEFT:
self.leftkeydown = 1
if event.key == pygame.K_RIGHT:
self.rightkeydown = 1
if event.key == pygame.K_SPACE:
self.pshoot()
elif event.type == pygame.KEYUP:
if event.key == pygame.K_LEFT:
self.leftkeydown = 0
if event.key == pygame.K_RIGHT:
self.rightkeydown = 0
elif event.type == pygame.USEREVENT:
if event.code == pygame.USEREVENT_DROPFILE:
print("Tried to open file on MacOS (this should" +
" never happen:")
print(" " + str(event))
else: # should be event.code 0
self.app.continue_music()
print("music queue ended in game:")
if event.code != 0:
print("unknown USEREVENT event.code: " +
str(event.code))
if self.leftkeydown:
self.p_unit.move_one(-1, self.world_rect)
if self.rightkeydown:
self.p_unit.move_one(1, self.world_rect)
pygame.event.clear()
####################################################################
def start(self, menus):
self.won = False
self.particle_ban = False
self.wait_stop_count = -1 # -1 means do not count down to menu
self.menus = menus
p_speed = 10
self.p_unit = Entity(self.app, 'pship', self.p_unit_images,
p_speed, 90.0,
self.p_swarm, self.p_max_health,
self.explosion_images,
self.particles,
ex_sound = self.p_ex_sound)
self.p_unit.shoot_sound = self.p_shoot_sound
print("Clearing vars...")
self.clear_vars() # does reset player unit (p_unit) position
self.p_swarm.add(self.p_unit)
self.p_unit.set_xy(self.p_start_x, self.p_start_y)
print("Starting main event loop...")
self.loop()
# Yeah see this one does all of the work
def loop(self):
# Start loop
REFRESH_TIME = self.app.get_fps() * 3
while (not self.menus.get_bool('exit')) and (self.again()):
# Refresh screen periodically
if self.tock >= REFRESH_TIME:
# self.clear_screen()
self.tock = 0
self.tock += 1
# Check everythign and see if changes need to be made
self.check()
# Draw bullets
self.draw()
# Move everything
self.tick()
# Initiate input function
self.process_events(pygame.event.get())
# applies the smart screen updating
pygame.display.update()
# TODO: ? pygame.display.update(self.enemylist)
# self.enemylist = []
# Pauses and waits
timeittook = self.app.clock.tick(self.app.get_fps())
speedButtons = ["fast","middle","slow"]
<<<<<<< HEAD
<<<<<<< HEAD
>>>>>>> 78ecfa2143bfd3ecfc66c1265fc3edf149138738
=======
settingsMenuButtons = ["menu", "invert","speed setting","quit"]
speedButtons = ["fast","middle","slow","menu"]
>>>>>>> f85a50e374a3ee9445353e8a5660e311f34dfb26
=======
settingsMenuButtons = ["menu", "invert","speed setting","quit"]
speedButtons = ["fast","middle","slow","menu"]
>>>>>>> 1846737c17430f275f0bb7158e3868892f9209d5
bgManager = BackgroundManager(screen)
bgManager.setFillColor((0, 0, 0))
bgManager.addBackground("universe_1", "gfx/backgrounds/stars_back.png", 0, 1)
bgManager.addBackground("universe_1", "gfx/backgrounds/stars_front.png", 0, 1.5)
bgManager.selectBackground("universe_1")
# Create an instance to stor game stats
stats = GameStats(setting)
sb = Scoreboard(setting, screen, stats)
# Make a ship
ship = Ship(setting, screen)
# Ships for two player
ship1 = Ship(setting, screen)
ship2 = Ship(setting, screen)
class Gamelolz:
#This is the __init__
#its important.
def __init__(self,parent):
self.parent=parent
globalvars.asdf = 0
##some key vars, the works
self.lagcount=0
#a little hack so that the background works nicer
self.background=globalvars.screen
#make the rectlist to handle dirty updating
self.updaterects=[]
#background object
self.bgstars=BackgroundManager()
##make the lists to handle various sprites
self.list_enemys=EnemyManager()
self.player_list=pygame.sprite.RenderUpdates()
self.list_allie_shots=pygame.sprite.OrderedUpdates()
self.enemy_shots=pygame.sprite.RenderUpdates()
self.token_list=pygame.sprite.RenderUpdates()
##make a new stage object
self.stage=Stage(self,self.list_enemys,self.player_list,self.enemy_shots,self.list_allie_shots)
#self.setup_events()
self.new_display()
def new_display(self):
self.side_panel= pygame.sprite.RenderUpdates()
self.points=Points()
self.side_panel.add(self.points)
self.health=Health()
self.healthbar=HealthBar(self.health)
self.livesbar=LivesBar(self.health,self.healthbar)
self.side_panel.add(self.healthbar)
self.side_panel.add(self.health)
self.side_panel.add(self.livesbar)
#clears all the variables
def clear_vars(self):
self.leftkeydown=0
self.rightkeydown=0
self.points.set_points(0)
globalvars.x=400
globalvars.y=globalvars.WIN_RESY-60
self.stage.set_stage(0)
self.list_enemys.empty()
self.list_allie_shots.empty()
self.player_list.empty()
self.enemy_shots.empty()
print "Game Restarted"
def register_inputs(self):
import defaultinputs
defaultinputs.setup(self.inputmanager,self)
#define function to draw player ship on X, Y plane
def pship(self):
self.player_list.clear(globalvars.surface,self.background)
self.updaterects+=self.player_list.draw(globalvars.surface)
#Define function to move the enemy ship
def emove(self):
self.list_enemys.clear(globalvars.surface, self.background)
self.updaterects+=self.list_enemys.draw(globalvars.surface)
#So i'm trying out having the program check for collisions, instead of the enemy objects
#i think i might switch to the objects, but still keep this function just hand the computing to the object
#seems most efficient
def test_collision(self):
todie=ecollision.groupcollide(self.list_enemys, self.list_allie_shots,0,0,ecollision.BOTTOM)
#todie=pygame.sprite.groupcollide(self.list_enemys, self.list_allie_shots,0,0)
#print todie
for enemy,bullet in todie.iteritems():
bullet.set_hit(1)
enemy.hit(bullet.damage)
self.points.add_points(1)
for q in pygame.sprite.spritecollide(self.player, self.enemy_shots,0):
#for q in ecollision.spritecollide(self.player, self.enemy_shots,0,ecollision.TOP):
#print "ZOMFG SHOTZORZ"
self.player.set_hit(q.damage)
self.enemy_shots.remove(q)
#if self.token_list:
# for token in ecollision.spritecollide(self.player, self.token_list,0, ecollision.TOP):
# print token
#if there are no enemys left, go to the next stage
def check_done(self):
if not globalvars.asdf%20 and not self.list_enemys: #the %20 lets it wait a fraction of a second
self.stage.next_stage()
#checks to see if we can expand the ranges of the bots so its nice and.... umm... nice.
def check_rows(self):
if globalvars.asdf % 20==0:
self.list_enemys.check_enemy_rows()
#major hack just to get this thing playable..... sorry
def again(self):
if self.player.health <= 0:
return False
return True
#this is called if the player shoots... to be honest i dont know why this is a function
def pshoot(self,**args):
self.player.shoot()
#draws the bullet.... duh. come on dude.
def drawbullets(self):
#for x in self.list_allie_shots:
#x.draw()
self.list_allie_shots.clear(globalvars.surface,self.background)
self.enemy_shots.clear(globalvars.surface,self.background)
self.updaterects+=self.list_allie_shots.draw(globalvars.surface)
self.updaterects+=self.enemy_shots.draw(globalvars.surface)
#...
def drawsidepanel(self):
if globalvars.asdf%5==0:
self.side_panel.update()
self.side_panel.clear(globalvars.surface,self.background)
self.updaterects+=self.side_panel.draw(globalvars.surface)
#dont ask why i made this a function, i made draw<asdf> for everythign else
#so figured id make this too
def drawtokens(self):
if self.token_list:
self.token_list.clear(globalvars.surface,self.background)
self.updaterects+=self.token_list.draw(globalvars.surface)
#goes through all the arrays and makes each of them move 1 space, simple and easy yet it deserves a comment...
def tick(self):
self.bgstars.update()
self.list_allie_shots.update()
self.list_enemys.update()
self.enemy_shots.update()
self.token_list.update()
self.player.update()
######################
#heres a bunch of metafunctions
#i break it up so its really easy to add new features
#like if we ant a counter? add something to check() and draw()
#all of these are called once per frame
def check(self):
self.check_done()
self.test_collision()
self.check_rows()
self.list_enemys.shoot(self.stage.enemyodds)
def draw(self):
self.updaterects+=self.bgstars.draw()
self.updaterects+=self.bgstars.clear()
self.drawbullets()
self.pship()
self.emove()
self.drawsidepanel()
self.drawtokens()
#does just what it sounds like.....
def clear_screen(self):
globalvars.surface.fill(globalvars.bgcolor)
pygame.display.flip()
#for debugging info mostly... No entirely
def dispvars(self):
print "The Enemy Array size is:",len(self.list_enemys.sprites())
print "The Player Shot Array size is:",len(self.list_allie_shots.sprites())
print "The Enemy Shot Array size is:",len(self.enemy_shots.sprites())
#does lots and lots of stuff, it really needs to be cleaned up
def input(self, events):
self.inputmanager.check(events)
def mousemove(self,parent,event):
tempx=pygame.mouse.get_pos()[0]-parent.player.rect.width/2
## Just to make sure we don't get the ship way out there:
if tempx > globalvars.xmax: #if its outside the globalvars.window, just stick it as far as possible
parent.player.move(globalvars.xmax,globalvars.y)
elif tempx < globalvars.xmin:
parent.player.move(globalvars.xmin,globalvars.y)
elif abs(tempx-globalvars.x) > globalvars.smooth_scroll_var1: #smooth scrolling if the mouse gets far from the ship
parent.player.move(parent.player.get_pos().left+(tempx-parent.player.get_pos().left)/globalvars.smooth_scroll_var2,globalvars.y)
else: #if it gets down to this point,
#we've passed all sanity checks so just move it
parent.player.move(tempx,globalvars.y)
##################################################################################################################
#pretty simple
def start(self):
self.clear_vars()
self.player=Player(self.player_list,self.token_list,Gun(self.list_allie_shots,Bullet))
self.player_list.add(self.player)
self.player.set_pos(globalvars.x,globalvars.y)
self.health.link_sprite(self.player)
self.inputmanager=self.parent.inputmanager
self.register_inputs()
self.loop()
#Yeah see this one does all of the work
def loop(self):
#start loop
while self.again():
#refresh self.background...needs to be done once in a while
if globalvars.asdf>=globalvars.REFRESH_TIME:
#self.clear_screen()
globalvars.asdf=0
globalvars.asdf+=1
#check everythign and see if changes need to be made
self.check()
#move everything 1
self.tick()
#initiate input function
self.input(pygame.event.get())
#draw everything
self.draw()
#applies the smart screen updating
#globalvars.surface.set_alpha(150,pygame.RLEACCEL) ......dont ask why
#globalvars.surface2.blit(globalvars.surface,globalvars.surfacerect)
pygame.display.update(self.updaterects)
self.updaterects=[]
#pauses and waits
self.time= globalvars.clock.get_time()
if self.time > globalvars.FPS:
timeittook=globalvars.clock.tick(globalvars.FPS-(self.time-globalvars.FPS))
print "Lag at frame %s\t%sms"%(globalvars.asdf,self.time)
else:
timeittook=globalvars.clock.tick(globalvars.FPS)
