def __init__(self, game):
self.bg_list = [
constants.load_image("main_bg1.jpg").convert(),
constants.load_image("main_bg2.jpg").convert(),
constants.load_image("main_bg3.jpg").convert()
]
self.bg_no = 0
self.bg = self.bg_list[0]
self.speaker = models.Speaker(screen, 700, 20,
constants.MUSIC_LIST[constants.MAIN])
self.gamejolt = models.Gj(screen, 55, 30)
new_key = models.MenuItem("newgame_text.png", True, (295, 209),
(275, 185))
con_key = models.MenuItem("continue_text.png", False, (300, 305),
(275, 280), True)
high_score = models.MenuItem("high_score_text.png", False, (295, 398),
(275, 375))
ex_key = models.MenuItem("exit_text.png", False, (350, 490),
(275, 470))
self.menu = models.Menu(screen, [new_key, con_key, high_score, ex_key])
self.cursor = Display.cursor
self.game = game
self.title = constants.load_image("tetris.png")
pygame.time.set_timer(25, 500)
def __init__(self):
self.bg_list = [constants.load_image("main_bg1.jpg").convert(), constants.load_image("main_bg2.jpg").convert(), constants.load_image("main_bg3.jpg").convert()]
self.bg_no = 0
self.bg = self.bg_list[0]
back_key = models.MenuItem("back_text.png", False, (335,500), (275,480) )
self.menu = models.Menu(screen, [ back_key ])
self.cursor = Display.cursor
self.score_block_img = constants.load_image("score_block.png")
pygame.time.set_timer(25, 500)
def __init__(self):
self.bg_list = [
constants.load_image("main_bg1.jpg").convert(),
constants.load_image("main_bg2.jpg").convert(),
constants.load_image("main_bg3.jpg").convert()
]
self.bg_no = 0
self.bg = self.bg_list[0]
back_key = models.MenuItem("back_text.png", False, (335, 500),
(275, 480))
self.menu = models.Menu(screen, [back_key])
self.cursor = Display.cursor
self.score_block_img = constants.load_image("score_block.png")
pygame.time.set_timer(25, 500)
def __init__(self, **options):
""" Options: x, y, font, color, restricted, maxlength, prompt """
self.options = Config(options, ['x', '0'], ['y', '0'], ['font', 'pygame.font.Font(None, 32)'],
['color', '(0,0,0)'], ['restricted', '\'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789!"#$%&\\\'()*+,-./:;<=>?@[\]^_`{|}~\''],
['maxlength', '-1'], ['prompt1', '\'\''], ['prompt2', '\'\''])
self.x = self.options.x; self.y = self.options.y
self.font = self.options.font
self.color = self.options.color
self.restricted = self.options.restricted
self.maxlength = self.options.maxlength
self.prompt1 = self.options.prompt1
self.prompt2 = self.options.prompt2
self.values = ['','']
self.no = 0
self.shifted = False
self.box = [constants.load_image("text_box.png"), constants.load_image("text_box2.png")]
def __init__(self, game):
self.bg_list = [constants.load_image("main_bg1.jpg").convert(), constants.load_image("main_bg2.jpg").convert(), constants.load_image("main_bg3.jpg").convert()]
self.bg_no = 0
self.bg = self.bg_list[0]
self.speaker = models.Speaker(screen, 700, 20, constants.MUSIC_LIST[constants.MAIN])
self.gamejolt = models.Gj(screen, 55, 30)
new_key = models.MenuItem("newgame_text.png", True, (295,209), (275, 185) )
con_key = models.MenuItem("continue_text.png", False, (300,305), (275, 280), True )
high_score = models.MenuItem("high_score_text.png", False, (295,398), (275, 375) )
ex_key = models.MenuItem("exit_text.png", False, (350,490), (275,470) )
self.menu = models.Menu(screen, [ new_key, con_key, high_score, ex_key ])
self.cursor = Display.cursor
self.game = game
self.title = constants.load_image("tetris.png")
pygame.time.set_timer(25, 500)
def __init__(self, model):
self.character_bg = load_image(MISC, 'character')
self.name = 'choose'
self.model = model
self.bg = pygame.image.load(os.path.join(BGS, 'choose.png'))
imgs = load_animation('marker', 4)
self.marker = Animation(imgs, 400)
gold_opts = [1] * 4
val = 1
while val < model.game_state['gold']:
gold_opts.append(int(val))
val *= 1.8
gold_opts = gold_opts[-3:]
gold_opts.append(model.game_state['gold'])
self.gold_opts = gold_opts
self.step = 0
self.choices = [
{ 'name' : 'small', 'method' : self.gold},
{ 'name' : 'medium', 'method' : self.gold},
{ 'name' : 'large', 'method' : self.gold},
{ 'name' : 'all_in', 'method' : self.gold},
]
self.choice = 0
self.current_bet = 0
self.current_hero = 0
model.boss = Enemy(enemy_type = 'boss', level = model.game_state['level'])
model.boss.loot = []
model.boss.hp = model.game_state['hp']
model.boss.defense = model.game_state['defense']
def __init__(self, file, btn_high,text_pos, btn_pos, disabled = False):
self.text = constants.load_image(file)
self.text_position = text_pos
self.btn_position = btn_pos
self.disabled = disabled
if btn_high :
self.btn = MenuItem.highlighted_btn
else:
self.btn = MenuItem.btn
def __init__(self, model):
self.character_bg = load_image(MISC, 'character')
self.name = 'dungeon'
self.bg = pygame.image.load(os.path.join(BGS,'dungeon.png'))
self.treasure = load_image(MISC, 'treasure')
self.path_img = load_image(MISC, 'path')
self.field = [
'##################',
'#................#',
'#................#',
'#................#',
'#......##........#',
'#......##........#',
'#................#',
'#................#',
'#................#',
'##################']
self.enemies = {}
self.spawn = (16,8)
self.divel_pos = (1,1)
self.inactive_minions = []
for i in range(1, 10):
self.inactive_minions.append(Enemy(level=randrange(1, 5)))
self.heroes = []
self.start_time = pygame.time.get_ticks()
self.model = model
self.choice = 0
self.old_msg = []
self.pos = (1,1)
self.treasure_pos = (1,1)
self.divel = load_image(MISC, 'enemy_boss')
self.console_messages = []
self.show_minions = False
self.add_hero()
self.chosen_inactive = 0
self.chosen_item = 0
self.items = model.game_state['inventory']
self.bet = 10
def __init__(self, model): self.character_bg = load_image(MISC, 'character') self.name = 'post' self.model = model #self.gained_gold = model.game_state['gained_gold'] #model.game_state['gold'] = model.game_state['gold'] + self.gained_gold s = model.game_state self.bg = pygame.image.load(os.path.join(BGS, 'choose.png'))
def __init__(self):
self.speaker = models.Speaker(screen, 615, 290, constants.MUSIC_LIST[constants.NEW])
self.bg = constants.load_image("game_bg.jpg").convert()
self.block1 = constants.load_image("block1.png")
self.block2 = constants.load_image("block2.png")
self.block3 = constants.load_image("block3.png")
self.next_text = constants.load_image("next_text.png")
self.cursor = Display.cursor
self.score_text = constants.load_image("score.png")
self.block_controler = models.BlockControler()
self.block_controler.initiate()
self.puase_img = constants.load_image("puase.png")
self.lost_img = constants.load_image("lost.png")
self.status = None
def __init__(self, **options):
""" Options: x, y, font, color, restricted, maxlength, prompt """
self.options = Config(options, ['x', '0'], ['y', '0'], [
'font', 'pygame.font.Font(None, 32)'
], ['color', '(0,0,0)'], [
'restricted',
'\'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789!"#$%&\\\'()*+,-./:;<=>?@[\]^_`{|}~\''
], ['maxlength', '-1'], ['prompt1', '\'\''], ['prompt2', '\'\''])
self.x = self.options.x
self.y = self.options.y
self.font = self.options.font
self.color = self.options.color
self.restricted = self.options.restricted
self.maxlength = self.options.maxlength
self.prompt1 = self.options.prompt1
self.prompt2 = self.options.prompt2
self.values = ['', '']
self.no = 0
self.shifted = False
self.box = [
constants.load_image("text_box.png"),
constants.load_image("text_box2.png")
]
def __init__(self):
self.speaker = models.Speaker(screen, 615, 290,
constants.MUSIC_LIST[constants.NEW])
self.bg = constants.load_image("game_bg.jpg").convert()
self.block1 = constants.load_image("block1.png")
self.block2 = constants.load_image("block2.png")
self.block3 = constants.load_image("block3.png")
self.next_text = constants.load_image("next_text.png")
self.cursor = Display.cursor
self.score_text = constants.load_image("score.png")
self.block_controler = models.BlockControler()
self.block_controler.initiate()
self.puase_img = constants.load_image("puase.png")
self.lost_img = constants.load_image("lost.png")
self.status = None
def __init__(self, hero_type, level):
self.generator = NameGen('name_gen_file.txt')
self.name = self.generate_name(hero_type) + " (Lvl " + str(level) + ")"
self.level = level
if hero_type == 'fighter':
self.small_img = load_image(CHARACTERS, 'small_fighter')
self.hp = level * 3 + randrange(0, level)
self.max_hp = self.hp
self.defense = level*1.5
self.loot = []
self.gold = random.randrange(1, level*2)
self.hero_type = hero_type
self.pos = (16, 8)
self.path = deque()
class MenuItem():
dis = prepare_alpha(constants.load_image("button_disable.png"), 200)
highlighted_btn = prepare_alpha(constants.load_image("highlighted_button.png"), 200)
btn = prepare_alpha(constants.load_image("button.png"), 200)
def __init__(self, file, btn_high,text_pos, btn_pos, disabled = False):
self.text = constants.load_image(file)
self.text_position = text_pos
self.btn_position = btn_pos
self.disabled = disabled
if btn_high :
self.btn = MenuItem.highlighted_btn
else:
self.btn = MenuItem.btn
def draw(self, screen):
screen.blit(self.btn, self.btn_position)
screen.blit(self.text, self.text_position)
if self.disabled :
screen.blit(MenuItem.dis, self.btn_position)
def unhighlight(self):
self.btn = MenuItem.btn
def highlight(self):
self.btn = MenuItem.highlighted_btn
def disable(self):
self.disabled = True
def enable(self):
self.disabled = False
def hover(self, x, y):
if self.disabled :
return False
size = self.btn.get_rect().size
pos = self.btn_position
return (x >= pos[0] and x <= pos[0] + size[0] and
y >= pos[1] and y <= pos[1] + size[1])
class Display():
cursor = constants.load_image("cursor1.png")
def __init__(self):
pass
def left_mousebtn(self):
pass
def key_down(self):
pass
def key_up(self):
pass
def key_right(self):
pass
def key_left(self):
pass
def key_enter(self):
pass
def key_down_upd(self):
pass
def draw(self):
pass
def logic(self):
pass
def key_esc(self):
pass
def timer_event(self):
pass
def p_key(self):
pass
def speaker_event(self):
pass
def update_music(self):
pass
def __init__(self, level, enemy_type = None):
self.name = enemy_type
self.level = level
self.loot = []
cands = []
for e in enemy_data:
if e['minlvl'] <= level and e['maxlvl'] >= level:
cands.append(e)
random.shuffle(cands)
enemy = cands[0]
self.img = load_image(MISC, 'enemy_' + enemy['name'])
self.hp = level * pow(2, enemy['hp'])
self.maxhp = self.hp
self.defense = level*enemy['def']
self.loot.append(Loot('gold', random.randrange(1, level*enemy['rich'])))
dmga = randrange(level*enemy['attack'], level*pow(enemy['attack'], 2))
dmgb = randrange(level*enemy['attack'], level*pow(enemy['attack'], 2))
self.mindmg = min(dmga, dmgb)
self.maxdmg = max(dmga, dmgb) + 1
self.name = enemy['name']
def __init__(self, model):
self.name = 'town'
if not hasattr(model, 'game_state') or model.game_state is None:
model.game_state = GameData.gen_new_player()
self.character_bg = load_image(MISC, 'character')
model.places = {'places' : ['store', 'dungeons', 'something']}
model.target_selection = target_selection = 0
self.model = model
self.bg = pygame.image.load(os.path.join(BGS, 'town.png'))
self.marker = pygame.image.load(os.path.join(MISC, 'menu_choice.png'))
path = os.path.join(SOUND, 'cozy_melacholy.wav')
song = pygame.mixer.Sound(path)
model.song = song
if PLAY_SOUND:
model.song.play(loops=-1)
self.choices = [
{ 'name' : 'start dungeon', 'method' : self.start_dungeon},
{ 'name' : 'shop', 'method' : self.shop},
{ 'name' : 'train', 'method' : self.train},
{ 'name' : 'exit', 'method' : self.exit},
]
self.choice = 0
imgs = load_animation('marker', 4)
self.marker = Animation(imgs, 400)
self.cave_text = pygame.image.load(os.path.join(MISC, 'cave_text.png'))
self.shop_text = pygame.image.load(os.path.join(MISC, 'shop_text.png'))
self.workout_text = pygame.image.load(os.path.join(MISC, 'workout_text.png'))
self.main_menu = pygame.image.load(os.path.join(MISC, 'main_menu_text.png'))
game_key_repeat()
elif display.screen_no == constants.CONTINUE and current_display != display_game :
current_display = display_game
current_display.update_music()
game_key_repeat()
if display.screen_no == constants.SCORE and current_display != display_score :
current_display = display_score
elif display.screen_no == constants.EXIT:
done = True
# --- Game logic should go here
current_display.logic()
display.screen.fill(constants.OFF_WHITE)
current_display.draw()
if fail > 0:
display.screen.blit(constants.load_image("failed.png"), (285,550))
fail -= 1
pygame.display.flip()
# --- Limit to 60 frames per second
clock.tick(60)
pygame.quit()
current_display = display_game
current_display.update_music()
game_key_repeat()
elif display.screen_no == constants.CONTINUE and current_display != display_game:
current_display = display_game
current_display.update_music()
game_key_repeat()
if display.screen_no == constants.SCORE and current_display != display_score:
current_display = display_score
elif display.screen_no == constants.EXIT:
done = True
# --- Game logic should go here
current_display.logic()
display.screen.fill(constants.OFF_WHITE)
current_display.draw()
if fail > 0:
display.screen.blit(constants.load_image("failed.png"), (285, 550))
fail -= 1
pygame.display.flip()
# --- Limit to 60 frames per second
clock.tick(60)
pygame.quit()
class Gj():
logo = constants.load_image("gj_logo.png")
btn = constants.load_image("gj_b1.png")
btnh = constants.load_image("gj_b2.png")
ov = constants.load_image("ov1.png")
def __init__(self, screen, x, y):
self.screen = screen
self.x_logo = x
self.y_logo = y
self.x_btn = x-30
self.y_btn = y+70
self.font = constants.load_font("LithosPro", 20)
self.y_t = self.y_btn+10
d = shelve.open('info')
try :
self.user, self.token = d['user']
except:
self.user, self.token = ('','')
d.close()
self.api = gjapi.GameJoltTrophy(self.user, self.token, constants.GAME_ID, constants.PRIVATE_KEY)
#if self.api.authenticateUser():
#self.logged = True
#self.api.openSession()
#self.btn = Gj.btnh
#self.text = self.font.render(self.user, 1, constants.BLACK)
#pygame.time.set_timer(27, 35000)
#else:
self.logged = False
self.btn = Gj.btn
self.text = self.font.render("Offline", 1, constants.BLACK)
_thread.start_new_thread(self.login, (self.user, self.token))
self.opened = False
options = {'x':150, 'y':200, 'font':self.font, 'color':constants.DLIGHT_BLUE,
'maxlength':25, 'prompt1':"Username: "******"Token: "}
self.txtbx = eztext.Input(**options)
self.tip1 = self.font.render("- Tab to switch between text boxes", 1, constants.OFF_WHITE)
self.tip2 = self.font.render("- Enter to login", 1, constants.OFF_WHITE)
self.tip3 = self.font.render("- Esc to go back", 1, constants.OFF_WHITE)
def draw(self):
self.x_t = self.x_btn+60-self.text.get_rect().size[0]/2
self.screen.blit(Gj.logo, (self.x_logo,self.y_logo))
self.screen.blit(self.btn, (self.x_btn, self.y_btn))
self.screen.blit(self.text, (self.x_t, self.y_t ))
if self.opened:
self.screen.blit(Gj.ov, (0,0))
self.screen.fill(constants.BLACK, [150,400, 500, 70])
self.screen.blit(self.tip1, (160, 405 ))
self.screen.blit(self.tip2, (160, 425 ))
self.screen.blit(self.tip3, (160, 445 ))
self.txtbx.draw(self.screen)
def logic(self, events):
self.txtbx.update(events)
def key_enter(self):
self.user, self.token = self.txtbx.get_text()
_thread.start_new_thread(self.login, (self.user, self.token))
def login(self, user, token):
self.api.changeUsername(user)
self.api.changeUserToken(token)
if self.api.authenticateUser():
d = shelve.open('info')
d['user'] = (user, token)
d.close()
self.api.openSession()
self.logged = True
self.opened = False
self.btn = Gj.btnh
self.text = self.font.render(self.user, 1, constants.BLACK)
pygame.time.set_timer(27, 35000)
else:
pygame.event.post(pygame.event.Event(28))
def check_mouse(self, pos):
x, y = pos
x2, y2 = Gj.btn.get_rect().size
con1 = x > self.x_btn
con2 = x <= self.x_btn + x2
con3 = y > self.y_btn
con4 = y <= self.y_btn + y2
if con1 and con2 and con3 and con4 :
self.click()
def click(self):
if self.logged:
self.logged = False
d = shelve.open('info')
d['user'] = ('', '')
d.close()
self.btn = Gj.btn
self.text = self.font.render("Offline", 1, constants.BLACK)
else:
self.opened = True
class Speaker():
active = [constants.load_image("speaker1.png"), constants.load_image("speaker2.png")]
mute = constants.load_image("speaker3.png")
def __init__(self, screen, x, y, music):
self.screen = screen
self.x_pos = x
self.y_pos = y
self.music = music
d = shelve.open('info')
try:
self.playing = d['sound']
except:
self.playing = True
d.close()
self.img_no = 0
if self.playing:
self.img = Speaker.active[0]
#self.update_music()
pygame.time.set_timer(26, 500)
else:
self.img = Speaker.mute
def draw(self):
self.screen.blit(self.img, (self.x_pos,self.y_pos))
def logic(self):
pass
def check_mouse(self, pos):
x, y = pos
x2, y2 = Speaker.mute.get_rect().size
con1 = x > self.x_pos
con2 = x <= self.x_pos + x2
con3 = y > self.y_pos
con4 = y <= self.y_pos + y2
if con1 and con2 and con3 and con4 :
self.click()
def update_music(self):
d = shelve.open('info')
try:
self.playing = d['sound']
except:
pass
d.close()
if self.playing:
self.img = Speaker.active[0]
pygame.mixer.music.load(self.music)
pygame.mixer.music.play(-1)
pygame.time.set_timer(26, 500)
else:
self.img = Speaker.mute
pygame.mixer.music.stop()
def click(self):
self.playing = not self.playing
d = shelve.open('info')
d['sound'] = self.playing
d.close()
self.update_music()
def timer(self):
if self.playing:
self.img_no = (self.img_no + 1) % 2
self.img = Speaker.active[self.img_no]
pygame.time.set_timer(26, 500)
class Block():
# Frames for explosion animation
explode_img = [constants.load_image("frame8.png").convert(), constants.load_image("frame7.png").convert(),
constants.load_image("frame6.png").convert(), constants.load_image("frame5.png").convert(),
constants.load_image("frame4.png").convert(), constants.load_image("frame3.png").convert(),
constants.load_image("frame2.png").convert(), constants.load_image("frame1.png").convert() ]
def __init__(self, x, y, img, y_spd, s = False):
self.x_pos = x
self.y_pos = y
self.img = img
self.y_spd = y_spd
self.ori_spd = y_spd
self.special = s
# Check if the block entered the playing area or not yet
def drawable(self):
return self.y_pos >= y_low_limit
# Bilt the block to screen
def draw(self, screen, x = None, y = None):
if x == None :
x = self.x_pos
if y == None :
y = self.y_pos
screen.blit(self.img, [x, y])
# Update block's position using it's speed
def update_pos(self):
self.y_pos += self.y_spd
# Change block's speed
def update_speed(self, y):
self.y_spd = y
# Restore the original speed given to the block at it's creation
def restore_speed(self):
self.y_spd = self.ori_spd
# Stop the block
def stop(self):
self.update_speed(0)
# Draw the block with a frame of the explosion
def explode(self,screen, n):
screen.blit(Block.explode_img[n], [self.x_pos, self.y_pos])
# Move the block one step right
def move_right(self):
self.x_pos += x_s
# Move the block one step left
def move_left(self):
self.x_pos -= x_s
# Get X position of the block
def get_x(self):
return self.x_pos
# Get Y position of the block
def get_y(self):
return self.y_pos
# Set the position of X
def set_x(self, x):
self.x_pos = x
# Change X's position with a magnitude
def trans_x(self, x):
self.x_pos += x
# Set the position of Y
def set_y(self, y):
self.y_pos = y
# Change Y's position with a magnitude
def trans_y(self, y):
self.y_pos += y
class BlockObject():
# Images used to create blocks
i_block1 = constants.load_image("i_block.png").convert()
j_block1 = constants.load_image("j_block.png").convert()
o_block1 = constants.load_image("o_block.png").convert()
z_block1 = constants.load_image("z_block.png").convert()
t_block1 = constants.load_image("t_block.png").convert()
sp_block1 = constants.load_image("special_block.png").convert()
# Block objects images for instant blit on the screen
next_block = [constants.load_image("i_next.png").convert(), constants.load_image("j_next.png"),
constants.load_image("o_next.png").convert(), constants.load_image("z_next.png"),
constants.load_image("t_next.png"), constants.load_image("special_block.png").convert()]
def __init__(self):
self.next_list = []
self.moving_list = []
self.variation = None
self.rtype = None
self.ntype = None
self.special = None
# Mapping functions to spawn objects using type and variation of the object
self.dic = {0: {0:self.add_i_v1, 1:self.add_i_v2 ,2:self.add_i_v1 ,3:self.add_i_v2},
1: {0:self.add_j_v1, 1:self.add_j_v2 ,2:self.add_j_v3 ,3:self.add_j_v4},
2: {0:self.add_o, 1:self.add_o, 2:self.add_o, 3:self.add_o},
3: {0:self.add_z_v1, 1:self.add_z_v2 ,2:self.add_z_v1 ,3:self.add_z_v2},
4: {0:self.add_t_v1, 1:self.add_t_v2 ,2:self.add_t_v3 ,3:self.add_t_v4}}
# Mapping functions to help replace variotaions
self.pos = {0: self.get_i, 1: self.get_j, 2: self.get_o, 3: self.get_z, 4: self.get_t}
# This current moving object is taken from the 'previous' next object, the next object
# gets a new random object
def new_object(self):
# Spawn a special block object with 1/2o chance
if random.randint(0,20) == 20:
self.rtype = self.ntype
self.ntype = 5
self.variation = 0
self.moving_list = self.next_list
self.next_list = [Block( x_midpoint, y_low_limit , BlockObject.sp_block1, speed)]
# Spawn a typical block object
else:
temp = random.randint(0, 4)
self.rtype = self.ntype
self.ntype = temp
self.variation = 0
self.moving_list = self.next_list
self.next_list = self.dic[self.ntype][0]()
self.special = (self.rtype == 5)
# Functions to add 'I' Blocks and it's vartiations
def add_i_v1(self, x= x_midpoint, y= y_low_limit - y_s):
blocks = [0,0,0,0]
for i in range(4):
blocks[i] = Block( x, y -(i*y_s) , BlockObject.i_block1, speed)
return blocks
def add_i_v2(self, x = (x_midpoint - (2 * x_s) ), y= y_low_limit):
blocks = [0,0,0,0]
for i in range(4):
blocks[i] = Block( x + (i * x_s), y, BlockObject.i_block1, speed)
return blocks
# Functions to add 'J' Blocks and it's vartiations
def add_j_v1(self, x = x_midpoint - x_s, y = y_low_limit - y_s):
blocks = [0,0,0,0]
blocks[0] = Block( x , y, BlockObject.j_block1, speed)
for i in range(3):
blocks[i+1] = Block( x + x_s , y-(i*y_s), BlockObject.j_block1, speed)
return blocks
def add_j_v2(self, x = x_midpoint - x_s, y = y_low_limit - y_s):
blocks = [0,0,0,0]
for i in range(3):
blocks[i] = Block( x + (i* x_s) , y, BlockObject.j_block1, speed)
blocks[3] = Block( x , y - y_s, BlockObject.j_block1, speed)
return blocks
def add_j_v3(self, x = x_midpoint - x_s, y = y_low_limit - y_s):
blocks = [0,0,0,0]
for i in range(3):
blocks[i] = Block( x , y-(i*y_s), BlockObject.j_block1, speed)
blocks[3] = Block( x + x_s , y - 2 * y_s, BlockObject.j_block1, speed)
return blocks
def add_j_v4(self, x = x_midpoint - x_s, y = y_low_limit - y_s):
blocks = [0,0,0,0]
for i in range(3):
blocks[i+1] = Block( x - (i* x_s) , y, BlockObject.j_block1, speed)
blocks[0] = Block( x , y+y_s, BlockObject.j_block1, speed)
return blocks
# Functions to add 'O' Blocks and no variations OBVIOUSLY
def add_o(self, x = x_midpoint , y = y_low_limit - y_s):
blocks = [0,0,0,0]
blocks[0] = Block( x , y, BlockObject.o_block1, speed)
blocks[1] = Block( x - x_s , y, BlockObject.o_block1, speed)
blocks[2] = Block( x , y - y_s, BlockObject.o_block1, speed)
blocks[3] = Block( x - x_s , y - y_s, BlockObject.o_block1, speed)
return blocks
# Functions to add 'Z' Blocks and it's vartiations
def add_z_v1(self, x = x_midpoint , y = y_low_limit - y_s):
blocks = [0,0,0,0]
blocks[0] = Block( x + x_s , y, BlockObject.z_block1, speed)
blocks[1] = Block( x , y, BlockObject.z_block1, speed)
blocks[2] = Block( x , y - y_s, BlockObject.z_block1, speed)
blocks[3] = Block( x - x_s, y - y_s, BlockObject.z_block1, speed)
return blocks
def add_z_v2(self, x = x_midpoint , y = y_low_limit - y_s):
blocks = [0,0,0,0]
blocks[0] = Block( x , y, BlockObject.z_block1, speed)
blocks[1] = Block( x , y - y_s, BlockObject.z_block1, speed)
blocks[2] = Block( x + x_s, y - y_s, BlockObject.z_block1, speed)
blocks[3] = Block( x + x_s, y - 2*y_s, BlockObject.z_block1, speed)
return blocks
# Functions to add 'T' Blocks and it's vartiations
def add_t_v1(self, x = x_midpoint , y = y_low_limit - y_s):
blocks = [0,0,0,0]
blocks[0] = Block( x , y, BlockObject.t_block1, speed)
blocks[1] = Block( x , y - y_s, BlockObject.t_block1, speed)
blocks[2] = Block( x - x_s, y - y_s, BlockObject.t_block1, speed)
blocks[3] = Block( x + x_s, y - y_s, BlockObject.t_block1, speed)
return blocks
def add_t_v2(self, x = x_midpoint , y = y_low_limit - y_s):
blocks = [0,0,0,0]
blocks[0] = Block( x , y, BlockObject.t_block1, speed)
blocks[1] = Block( x , y - y_s, BlockObject.t_block1, speed)
blocks[2] = Block( x , y - 2*y_s, BlockObject.t_block1, speed)
blocks[3] = Block( x - x_s, y - y_s, BlockObject.t_block1, speed)
return blocks
def add_t_v3(self, x = x_midpoint , y = y_low_limit - y_s):
blocks = [0,0,0,0]
blocks[0] = Block( x , y, BlockObject.t_block1, speed)
blocks[1] = Block( x + x_s, y, BlockObject.t_block1, speed)
blocks[2] = Block( x - x_s, y, BlockObject.t_block1, speed)
blocks[3] = Block( x , y - y_s, BlockObject.t_block1, speed)
return blocks
def add_t_v4(self, x = x_midpoint , y = y_low_limit - y_s):
blocks = [0,0,0,0]
blocks[0] = Block( x , y, BlockObject.t_block1, speed)
blocks[1] = Block( x , y - y_s, BlockObject.t_block1, speed)
blocks[2] = Block( x , y - 2*y_s, BlockObject.t_block1, speed)
blocks[3] = Block( x + x_s, y - y_s, BlockObject.t_block1, speed)
return blocks
# Update the positions of the current moving object
def update(self):
for b in self.moving_list:
b.update_pos()
# Return the list of the blocks of the current moving object
def get_list(self):
return self.moving_list
# Stop the object,
#if it had already crossed a line bring it back and STOP IT
def stop(self):
for b in self.moving_list :
b.stop()
def transfer(self, x, y):
for b in self.moving_list:
b.trans_y(y)
b.trans_x(x)
# Blit an image of the next coming object in the 'Next' Area
def draw_next(self, screen):
img = BlockObject.next_block[self.ntype]
s = img.get_rect().size
x = 650 - s[0]/2
y = 175 - s[1]/2
screen.blit(img , [x , y])
# Cuased by the down arrow key
# Makes the object move faster
def move_down(self):
for b in self.moving_list:
b.update_speed(speed*5)
# Cuased by releasing the down arrow key
# Makes the objects move at it's own pace, peacefully
def restore_spd(self):
for b in self.moving_list:
b.restore_speed()
# Move object one step right
def move_right(self):
for b in self.moving_list:
b.move_right()
# Move object one step left
def move_left(self):
for b in self.moving_list:
b.move_left()
# Cuased by up arrow key
# Try to transform object into next variation, pass results to Controler
def change_v(self):
if self.special:
return (self.moving_list, self.variation)
pos = self.pos[self.rtype]()
v = (self.variation + 1) % 4
l = self.dic[self.rtype][v](*pos)
return (l,v)
# If it's cool with the controler, it's cool with me!
def ok(self, l, v):
self.variation = v
self.moving_list = l
# Helper for I's transformations
def get_i(self):
if self.variation == 0 or self.variation == 2 :
x = self.moving_list[0].get_x() - 2 * x_s
y = self.moving_list[0].get_y()
else:
x = self.moving_list[0].get_x() + 2 * x_s
y = self.moving_list[3].get_y()
return (x, y)
# Helper for J's transformations
def get_j(self):
if self.variation == 0:
x = self.moving_list[0].get_x() - x_s
y = self.moving_list[0].get_y()
elif self.variation == 1:
x = self.moving_list[0].get_x() + 2 * x_s
y = self.moving_list[0].get_y()
elif self.variation == 2:
x = self.moving_list[0].get_x() + x_s
y = self.moving_list[0].get_y()
elif self.variation == 3:
x = self.moving_list[0].get_x() - 2 * x_s
y = self.moving_list[0].get_y()
return (x, y)
# Do nothing, just make O objects feel not so deficient
def get_o(self):
return (self.moving_list[0].get_x(), self.moving_list[0].get_y())
# Helper for Z's transformations
def get_z(self):
if self.variation == 0 or self.variation == 2 :
x = self.moving_list[3].get_x() + x_s
y = self.moving_list[0].get_y()
else:
x = self.moving_list[0].get_x()
y = self.moving_list[0].get_y()
return (x, y)
# Just like O's Helper
def get_t(self):
return (self.moving_list[0].get_x(), self.moving_list[0].get_y())
