def __init__(self):
self.sm = SpriteManager()
self.button_new_game = Button(352, 0, 96, 23, sprite=self.sm.sprites['new_game_button'], callback=self.start_new_game)
self.button_load_game = Button(378, 23, 44, 23, sprite=self.sm.sprites['load_button'], callback=self.load_game)
self.button_exit = Button(378, 46, 41, 23, sprite=self.sm.sprites['exit_button'], callback=self.exit_game)
self.version_label = Label(0, 580, "Version 0.1")
event_manager.event_manager.add_listener(event_manager.MESSAGE_MOUSE_UP, self)
def init(self, game):
btn_inv = Button((globals.VIEW_OFFSET[0], globals.WINDOW_HEIGHT - 100), 'Inventory')
btn_inv.on_click = self.open_inventory
self.add_entity(btn_inv)
self.add_entity(Label((globals.VIEW_OFFSET[0], globals.WINDOW_HEIGHT - 40), 'Status'), 'lbl_status')
self.add_entity(Label((globals.VIEW_OFFSET[0] + 150, 10)), 'lbl_hunger')
self.add_entity(Label((globals.WINDOW_WIDTH - 200, 10)), 'lbl_tod')
def create_library_list(self):
y = 80
for category in SelectMusic.CATEGORIES:
library_option_button = Button(Rect(40, y, 240, 40),
34,
Label.LEFT,
text=category)
library_option_button.on_tapped.connect(self.select_library_option)
self.add_child(library_option_button)
y += 80
def drawAdditionalContent(self, data, appendButtons=[]):
self.allSprites = []
text = Text(text="Player %s Win!" % (data + 1),
fontSize=50,
alignment=CENTER_MIDDLE,
location=(self.pageSize[POS_X]/2, self.pageSize[POS_Y]/4),
basePoint=self.popUpPageBasePoint)
self.allSprites.append(text)
for appendButton in appendButtons:
buttonSprite = Button(appendButton["func"],
buttonSize=(150, 40),
text=appendButton["name"],
fontSize=30,
location=(self.pageSize[POS_X] if appendButton["location"][POS_X] == PARENT_SIZE_WIDTH else appendButton["location"][POS_X],
self.pageSize[POS_Y] if appendButton["location"][POS_Y] == PARENT_SIZE_HEIGHT else appendButton["location"][POS_Y]),
alignment=appendButton["alignment"],
basePoint=self.popUpPageBasePoint)
buttonSprite.listen(appendButton["listener"])
self.allSprites.append(buttonSprite)
def __init__(self, parent=None):
super().__init__()
button = QPushButton('Me!')
strip = QHBoxLayout()
strip.setAlignment(Qt.AlignTop)
self.setLayout(strip)
strip.addWidget(Button())
verticalSpacer = QSpacerItem(20, 40, QSizePolicy.Expanding,
QSizePolicy.Minimum)
strip.addItem(verticalSpacer)
def generate_rooms(self):
checkbox_empty_image = Image('checkbox_empty',
filename='checkbox_empty.png')
checkbox_filled_image = Image('checkbox_filled',
filename='checkbox_filled.png')
members = self.sonos.group_members
y = 80
for zone in self.sonos.potential_members:
select_room_button = Button(Rect(60, y, 280, 30),
34,
Label.LEFT,
image=checkbox_empty_image,
checked_image=checkbox_filled_image,
text=zone)
select_room_button.on_tapped.connect(self.select_room)
self.add_child(select_room_button)
self.room_buttons.append(select_room_button)
y += 60
if zone in members:
# this zone is already a member
select_room_button.checked = True
def __init__(self, scroller, target, width=1280, height=720):
super().__init__(57, 67, 63, 0, width=width, height=height)
picDir = '../res/popup_resources/choose_hero_popup.png'
self.scroller = scroller
self.opacity = 0
self.target = target
self.image = pyglet.image.load(picDir)
self.spr = cocos.sprite.Sprite(self.image, position=(640,360))
self.backButton = Button(1070,627, '../res/popup_resources/exit_button.png',self,self.hide)
self.backButton.setHasHighlight('../res/popup_resources/exit_button_h.png')
self.highlight = False
self.onHover = False
self.highlight = True
self.add(self.backButton,1)
self.add(self.spr,0)
self.spr.do(Hide())
self.backButton.spr.do(Hide())
def __init__(self, sonos):
ModalScene.__init__(self, sonos.current_zone)
self.sonos = sonos
in_party_mode = Sonos.in_party_mode()
##### Party Mode On Button #####
icon_party_on_image = Image('icon_party_on',
filename='icon_party_on.png')
self.party_on_button = Button(Rect(270, 20, 30, 30),
image=icon_party_on_image)
self.party_on_button.hidden = in_party_mode
self.party_on_button.on_tapped.connect(self.group_all)
self.add_child(self.party_on_button)
##### Party Mode Off Button #####
icon_party_off_image = Image('icon_party_off',
filename='icon_party_off.png')
self.party_off_button = Button(Rect(270, 20, 30, 30),
image=icon_party_off_image)
self.party_off_button.on_tapped.connect(self.group_none)
self.party_off_button.hidden = not in_party_mode
self.add_child(self.party_off_button)
##### Done Button #####
self.done_button = Button(Rect(20, 430, 280, 40), 40, text='Done')
self.done_button.on_tapped.connect(self.done)
self.add_child(self.done_button)
self.room_buttons = []
self.unchanged = True
self.layout()
self.generate_rooms()
def init(self, game):
cell = game.hex_map.get_cell(globals.CAMERA_ROW, globals.CAMERA_COLUMN)
cursor = EditorObject(cell)
self.add_entity(cursor)
ico = Icon((globals.VIEW_OFFSET[0], globals.WINDOW_HEIGHT - 100), tile_back=blue, data='water')
ico.on_click = self.on_icon_selected
self.add_entity(ico)
ico = Icon((globals.VIEW_OFFSET[0] + 40, globals.WINDOW_HEIGHT - 100), tile_back=green, data='grass')
ico.on_click = self.on_icon_selected
self.add_entity(ico)
ico = Icon((globals.VIEW_OFFSET[0] + 80, globals.WINDOW_HEIGHT - 100), tile_back=yellow, data='sand')
ico.on_click = self.on_icon_selected
self.add_entity(ico)
btn = Button((globals.VIEW_OFFSET[0], globals.WINDOW_HEIGHT - 50), 'Save')
btn.on_click = self.on_save_map
self.add_entity(btn)
btn = Button((globals.VIEW_OFFSET[0] + 150, globals.WINDOW_HEIGHT - 50), 'Load')
btn.on_click = self.on_load_map
self.add_entity(btn)
def __init__(self, title):
Scene.__init__(self)
self.background_color = colors.MODAL
# Title label
self.title_label = Label(Rect(50, 20, 220, 40), title, 40,
colors.WHITE)
self.add_child(self.title_label)
##### Back Button #####
icon_back_image = Image('icon_back', filename='icon_back.png')
self.back_button = Button(Rect(20, 20, 30, 30), image=icon_back_image)
self.back_button.on_tapped.connect(self.back)
self.add_child(self.back_button)
self.layout()
def generate_room_list(self):
''' Generates a list of rooms/zones
If a room is a zone coordinator and has members in its group,
it will be displayed first with all its members appended to it
with commas'''
y = 80
for zone in Sonos.get_zone_groups():
if zone["is_coordinator"]:
button_text = zone["name"]
for member in zone["members"]:
button_text += ", {}".format(member)
room_button = Button(Rect(20, y, 280, 40),
30,
text=button_text)
room_button.on_tapped.connect(self.change_room)
self.add_child(room_button)
y += 60
def create_items(self):
# Clean up any old buttons before addings new ones
for button in self.list_buttons:
button.remove()
self.update_list_navigation()
y = 0
for index, item in enumerate(self.items):
if index >= self.list_index and index < (self.list_index +
self.per_page):
item_button = Button(Rect(40, y, 240, 30),
30,
Label.LEFT,
text=item)
item_button.on_tapped.connect(self.select_item)
self.add_child(item_button)
self.list_buttons.append(item_button)
y += 50
def fill_widgets(player, widgets, config, game_state):
# Fills the needed widgets on the screen depending the current game state.
# Fill inventory full of widgets based on the items in the inventory.
if game_state == GameState.show_inventory:
x = int(config['window_width'] / 2) - 35
y = 25
color = config['button']['inventory']['item']['default']
selected_color = config['button']['inventory']['item']['selected']
for item in player.alive.inventory.items:
text = '%s - %s' % (item.name, item.quantity)
widgets.append(
Button(x,
y,
text,
color,
selected_color,
item.action,
attached=item))
y += 6
def __init__(self) -> None:
self.name = "enter your name"
self.letter = "A"
self.buttons = []
self.move_timer = 0
self.plate = pygame.Surface((300 * s.scale, 300 * s.scale))
self.game_over = Text("Name change", (255, 255, 255), 30,
Position(s.WIN_W // 2, s.WIN_H // 4))
self.name_text = Text(self.name, (255, 255, 255), 30,
Position(s.WIN_W // 2, s.WIN_H * 2 // 4))
self.press_a_btn = Text(
"A to select letter",
(255, 255, 255),
15,
Position(s.WIN_W // 2, s.WIN_H * 3 // 4),
)
self.press_start_btn = Text(
"Start to confirm",
(255, 255, 255),
15,
Position(s.WIN_W // 2, s.WIN_H * 3 // 4 + 15),
)
self.press_b_btn = Text(
"B to clear letter",
(255, 255, 255),
15,
Position(s.WIN_W // 2, s.WIN_H * 3 // 4 + 30),
)
x0 = 0
y0 = 0
for letter in LETTERS:
x = x0 * 15 * s.scale + 90 * s.scale
y = y0 * 20 * s.scale + 75 * s.scale
self.buttons.append(
Button(letter, letter, 14, Position(x, y), self.plate))
x0 += 1
if x0 == 9:
x0 = 0
y0 += 1
# Values start maxed out
tree_parameters = {
'pos': ((WINDOW_WIDTH - 400) / 2 + 400, WINDOW_HEIGHT),
'angle': 90,
'tick': 15,
'vel': 10,
'number': 14,
'division_ratio': 2,
'division_angle': 90,
'divide_angles': True,
'divide_distance': True,
'fruits': False
}
buttons = {
'button_reset': Button((50, WINDOW_HEIGHT - 125, 300, 75), 'Reset', outline_width=4),
'button_hide': Button((415, 25, 25, 25), '<', size=30, outline_width=2)
}
sliders = {
'slider_number': Slider((50, WINDOW_HEIGHT - 225, 300, 75), 'Divisions', tree_parameters['number']),
'slider_division_ratio': Slider((50, WINDOW_HEIGHT - 350, 300, 75), 'Division Ratio', tree_parameters['division_ratio']),
'slider_division_angle': Slider((50, WINDOW_HEIGHT - 475, 300, 75), 'Division Angle', tree_parameters['division_angle'])
}
checkboxes = {
'checkbox_divide_angles': CheckBox((50, 200), 'Divide Angles'),
'checkbox_divide_distance': CheckBox((50, 125), 'Divide Distance'),
'checkbox_fruits': CheckBox((50, 50), "Spawn 'Fruits'")
}
def __init__(self, director, state):
self.director = director
self.state = state
self.dna = GameBackground('../res/main_game_backgrounds/main.png')
# self.bg = GameBackground('../res/main_game_backgrounds/background.png')
super().__init__()
self.save_dir = 'profiles/save.json'
if self.state == 'newgame':
self.profile = Profile()
else:
self.profile = Profile() if not os.path.exists(
self.save_dir) else Profile.read_save(self.save_dir)
self.popups = {}
self.shown_popup = None
# for name in os.
self.popups['finish_helicase'] = cocos.sprite.Sprite(
pyglet.image.load('../res/popups/finish_helicase.png'),
position=(640, 360))
self.popups['fail_helicase'] = cocos.sprite.Sprite(
pyglet.image.load('../res/popups/fail_helicase.png'),
position=(640, 360))
self.popups['finish_pp'] = cocos.sprite.Sprite(
pyglet.image.load('../res/popups/finish_pp.png'),
position=(640, 360))
self.popups['fail_pp'] = cocos.sprite.Sprite(
pyglet.image.load('../res/popups/fail_pp.png'),
position=(640, 360))
self.popups['finish_ligase'] = cocos.sprite.Sprite(
pyglet.image.load('../res/popups/finish_ligase.png'),
position=(640, 360))
self.popups['fail_ligase'] = cocos.sprite.Sprite(
pyglet.image.load('../res/popups/fail_ligase.png'),
position=(640, 360))
for pop in self.popups.values():
self.add(pop, 4)
pop.do(Hide())
self.case = self.profile.information['case']
self.pos = [600, 0]
self.life_num = self.profile.get_lives()
print('new life number', self.life_num)
self.lives = cocos.sprite.Sprite(
pyglet.image.load('../res/lives_' + str(self.life_num) + '.png'),
position=(224, 637))
self.scroller = cocos.layer.ScrollingManager()
self.MGLayer = MainGameLayer(self.director, self.scroller, self,
self.case, self.profile, self.dna)
back_button = Button(1199, 658, '../res/back_button.png', self,
self.back)
back_button.setHasHighlight('../res/back_button_h.png')
left_button = Button(1050, 90, '../res/BUTTON LEFT.png', self,
self.set_pos_left)
left_button.setHasHighlight('../res/BUTTON LEFT HIGHLIGHTED.png')
right_button = Button(1190, 90, '../res/BUTTON RIGHT.png', self,
self.set_pos_right)
right_button.setHasHighlight('../res/BUTTON RIGHT HIGHLIGHTED.png')
self.add(back_button, z=1)
self.add(left_button, z=1)
self.add(right_button, z=1)
self.add(self.lives, z=1)
self.scroller.add(self.MGLayer, z=0)
self.add(self.scroller, z=0)
# initial view position
self.scroller.set_focus(*self.pos)
def __init__(self, sonos):
Scene.__init__(self)
self.sonos = sonos
self.firstLoad = True
########## SETUP UI ##########
self.background_color = colors.NAVY
# Select Music
select_music_image = Image('select_music',filename='select_music.png')
self.select_music_button = Button(Rect(20,20,30,30),image=select_music_image)
self.select_music_button.on_tapped.connect(self.select_music_modal)
self.add_child(self.select_music_button)
# Current Room
self.room_label = Label(Rect(50,24,220,30),self.sonos.current_zone_label,30,colors.WHITE)
self.add_child(self.room_label)
# Select Room
select_room_image = Image('select_room',filename='select_room.png')
self.select_room_button = Button(Rect(270,20,30,30),image=select_room_image)
self.select_room_button.on_tapped.connect(self.select_room_modal)
self.add_child(self.select_room_button)
# Album Art
self.empty_album_image = Image('empty_album',filename='empty_album_art.png')
self.tv_album_image = Image('tv_album_art',filename='tv_album_art.png')
self.album_art_view = ImageView(Rect(80,72,160,160),self.empty_album_image)
self.add_child(self.album_art_view)
# Track Title
self.track_label = Label(Rect(20,256,280,30),"",36, colors.WHITE)
self.add_child(self.track_label)
# Artist
self.artist_label = Label(Rect(20,296,280,20),"",24, colors.GRAY)
self.add_child(self.artist_label)
# Album
self.album_label = Label(Rect(20,321,280,20),"",24, colors.GRAY)
self.add_child(self.album_label)
##### Play Button #####
play_track_img = Image('play_track',filename='play_track.png')
play_track_disabled_img = Image('play_track_disabled',filename='play_track_disabled.png')
self.play_button = Button(Rect(130,360,60,60),image=play_track_img, disabled_image=play_track_disabled_img)
#Touch Handler
self.play_button.on_tapped.connect(self.play)
self.add_child(self.play_button)
##### Pause Button #####
pause_track_img = Image('pause_track',filename='pause_track.png')
self.pause_button = Button(Rect(130,360,60,60),image=pause_track_img)
self.pause_button.hidden = True
#Touch Handler
self.pause_button.on_tapped.connect(self.pause)
self.add_child(self.pause_button)
##### Previous Track #####
previous_track_img = Image('previous_track',filename='previous_track.png')
previous_track_disabled_img = Image('previous_track_disabled',filename='previous_track_disabled.png')
self.previous_button = Button(Rect(65,370,40,40),image=previous_track_img, disabled_image=previous_track_disabled_img)
#Touch Handler
self.previous_button.on_tapped.connect(self.previous)
self.add_child(self.previous_button)
##### Next Track #####
next_track_img = Image('next_track',filename='next_track.png')
next_track_disabled_img = Image('next_track_disabled',filename='next_track_disabled.png')
self.next_button = Button(Rect(215,370,40,40),image=next_track_img,disabled_image=next_track_disabled_img)
#Touch Handler
self.next_button.on_tapped.connect(self.next)
self.add_child(self.next_button)
##### Volume Down Button #####
volume_down_img = Image('volume_down',filename='volume_down.png')
self.volume_down_button = Button(Rect(92,438,30,30),image=volume_down_img)
#Touch Handler
self.volume_down_button.on_tapped.connect(self.volume_down)
self.add_child(self.volume_down_button)
##### Volume On Button #####
volume_on_img = Image('volume_on',filename='volume_on.png')
self.volume_on_button = Button(Rect(147,440,26,26),image=volume_on_img)
#Touch Handler
self.volume_on_button.on_tapped.connect(self.mute)
self.add_child(self.volume_on_button)
##### Volume Mute Button #####
volume_mute_img = Image('volume_mute',filename='volume_mute.png')
self.volume_mute_button = Button(Rect(147,440,26,26),image=volume_mute_img)
self.volume_mute_button.hidden = True
#Touch Handler
self.volume_mute_button.on_tapped.connect(self.unmute)
self.add_child(self.volume_mute_button)
# Volume Level Label
self.volume_label = Label(Rect(30,447,40,30),"",20, colors.GRAY)
self.add_child(self.volume_label)
##### Volume Up Button #####
volume_up_img = Image('volume_up',filename='volume_up.png')
self.volume_up_button = Button(Rect(197,438,30,30),image=volume_up_img)
#Touch Handler
self.volume_up_button.on_tapped.connect(self.volume_up)
self.add_child(self.volume_up_button)
##### Group Rooms Button #####
group_rooms_img = Image('group_rooms',filename='group_rooms.png')
self.group_rooms_button = Button(Rect(270,440,26,26),image=group_rooms_img)
#Touch Handler
self.group_rooms_button.on_tapped.connect(self.group_rooms_modal)
self.add_child(self.group_rooms_button)
# Layout the scene
self.layout()
# Keep hidden until everything has loaded
self.hidden = True
########## END SETUP UI ##########
# Listen for all changes to the current zone
self.sonos.listen_for_zone_changes(self.zone_state_changed)
class MiniGame2(cocos.scene.Scene):
# init
def __init__(self, director, victory_action, fail_action):
self.director = director
# self.mainGameLayer = mainGameLayer
self.victory_action = victory_action
self.fail_action = fail_action
super().__init__()
bg = GameBackground('../res/minigame2/minigame2_background.png')
self.pos = [1280, 720]
self.youre_next = cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/popup.png'), position=(255,330))
self.youre_next.do(Hide())
self.click_anywhere = Button(640,360,'../res/minigame1/finish_level_button.png', self, self.assign_next)
self.click_anywhere.disable()
self.arrow_down = Button(550,560,'../res/minigame2/arrow_sprite_sheet.png', self, self.victory_action, isSpriteSheet=True, speed=0.125)
self.add(self.arrow_down, 4)
self.dp1 = cocos.sprite.Sprite(pyglet.image.load('../res/Profile_picture/Polymerase_Active_Agent.png'), position=(811,665))
# self.dp1 = Button(850,665, '../res/Profile_picture/Helicase_Active_Agent.png', self, self.back, toAdjust=True)
self.dp2 = cocos.sprite.Sprite(pyglet.image.load('../res/Profile_picture/Primase_Active_Agent.png'), position=(350,665))
# self.dp = Button(350,665, '../res/Profile_picture/Helicase_Active_Agent.png', self, self.back, toAdjust=True)
self.add(self.dp2, 11)
self.add(self.dp1, 11)
self.platform = cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/buttons/platform.png'), position=(620,94))
# self.platform = Button(640,360,'../res/minigame2/buttons/platform.png', self, self.back, toAdjust=True)
self.add(self.platform, 1)
self.buttons = {}
self.next_turn = False
self.bases = [ 'a' if x == 0 else
't' if x == 1 else
'c' if x == 2 else
'g' if x == 3 else
'b' for x in [random.randrange(0,4) for i in range(0,20)]]
# self.is_num = len(self.bases)-1
# if index in range(0,5):
# sug.do(Hide())
# self.sugar = cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/sugar.png'), position=(2000,2000))
self.do_list = [(34, 348),
(106, 307),
(224, 295),
(303, 364),
(417, 414),
(536, 459),
(654, 388),
(751, 279),
(871, 320),
(956, 392),
(1076, 444),
(1200, 384)
]
# self.position_sugar(self.sugar, self.do_list[3], self.do_list[4])
# self.add(self.sugar, z=11)
# self.do_list.reverse()
self.game_counter = 0
self.alive_nucleotides = 5
self.buffer = 0
self.buttons['back'] = Button(78,666, '../res/main_left.png', self, self.back)
self.buttons['back'].setHasHighlight('../res/main_left_h.png')
self.characters = {}
self.characters['primase'] = Button(64,75, '../res/minigame2/primase_smol.png', self, self.back)
self.characters['polymerase'] = Button(190,75, '../res/minigame2/polymerase_smol.png', self, self.back)
self.popup_anchor = (640,360)
self.buttons['A'] = Button(476,90,'../res/minigame2/buttons/a.png', self, self.put_a)
self.buttons['A'].setHasClicked('../res/minigame2/buttons/a_p.png')
self.buttons['T'] = Button(576,90,'../res/minigame2/buttons/t.png', self, self.put_t)
self.buttons['T'].setHasClicked('../res/minigame2/buttons/t_p.png')
self.buttons['C'] = Button(676,90,'../res/minigame2/buttons/c.png', self, self.put_c)
self.buttons['C'].setHasClicked('../res/minigame2/buttons/c_p.png')
self.buttons['G'] = Button(776,90,'../res/minigame2/buttons/g.png', self, self.put_g)
self.buttons['G'].setHasClicked('../res/minigame2/buttons/g_p.png')
self.buttons['P'] = Button(630,90,'../res/minigame2/buttons/p.png', self, self.put_p)
self.buttons['P'].setHasClicked('../res/minigame2/buttons/p_p.png')
self.dna = []
for num, base in enumerate(self.bases):
temp = Button(2000,2000, '../res/minigame2/nucleotide_'+base+'.png', self, self.back)
temp.identity = base
temp.setHasInactive('../res/minigame2/nucleotide_hide.png')
self.dna.append(temp)
self.interval_sugars = [cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/upper_sugar.png'), position=(2000,2000)) for i in range(0,19)]
for index, sug in enumerate(self.interval_sugars):
self.add(sug, 1)
sug.do(Hide())
self.reconfigure_dna(init=True)
# for index, nucleotide in enumerate(self.dna):
# print('dddd')
# if not index == 19:
# self.position_sugar(self.interval_sugars[index], self.dna[index].spr.position, nucleotide.spr.position)
for key, button in self.buttons.items():
self.add(button, 2)
if not key in ['P','back']:
button.do(Hide())
button.disable()
for character in self.characters.values():
self.add(character, 3)
for nucleotide in self.dna:
self.add(nucleotide, 2)
self.add(bg, 0)
self.add(self.youre_next, 4)
self.add(self.click_anywhere, 4)
# methods
def back(self):
self.director.pop()
print("select stage back")
def activate_nucleobuttons(self):
for key, button in self.buttons.items():
if key in ['A','T','C','G']:
button.opacity = 0
button.enable()
button.do(Show()+FadeIn(0.125))
elif key in ['P']:
button.do(FadeOut(0.125)+Hide())
button.disable()
def position_sugar(self, sugar, block_coord, block2_coord,show=False, up=True):
# angle_of_rotate = -math.degrees(math.atan2((block2_coord[1]-block_coord[1]),(block2_coord[0]-block_coord[0])))
sugar.do(MoveTo(((block_coord[0]+block2_coord[0])/2, (block_coord[1]+block2_coord[1])/2), 0.5))
sugar.do(RotateTo(-math.degrees(math.atan2((block2_coord[1]-block_coord[1]),(block2_coord[0]-block_coord[0]))), 0.5)+Show())
def immediate_position_sugar(self, sugar, block_coord, block2_coord,show=False, up=True):
# angle_of_rotate = -math.degrees(math.atan2((block2_coord[1]-block_coord[1]),(block2_coord[0]-block_coord[0])))
sugar.do(MoveTo(((block_coord[0]+block2_coord[0])/2, (block_coord[1]+block2_coord[1])/2), 0)+Show())
sugar.do(RotateTo(-math.degrees(math.atan2((block2_coord[1]-block_coord[1]),(block2_coord[0]-block_coord[0]))), 0))
def put_a(self):
print('a')
self.put_block('a')
def put_t(self):
print('T')
self.put_block('t')
def put_c(self):
print('C')
self.put_block('c')
def put_g(self):
print('G')
self.put_block('g')
def put_p(self):
print('p')
self.put_block('p')
def assign_next(self):
print('assign next')
self.next_turn = False
self.youre_next.do(FadeOut(0.125)+Hide())
self.activate_nucleobuttons()
self.click_anywhere.disable()
def put_block(self, letter):
if self.game_counter < len(self.bases):
imgDir = ''
self.button_to_assign = self.dna[self.game_counter]
if self.next_turn:
self.youre_next.opacity = 0
self.youre_next.do(Show()+FadeIn(0.125))
self.click_anywhere.enable()
return
elif self.game_counter > 9:
self.img_to_assign='../res/minigame2/nucleotide_'+self.dna[self.game_counter].identity+letter+'.png'
self.characters['polymerase'].work((536, 459), self.change_button_sprite, self.check_victory)
else:
self.img_to_assign='../res/minigame2/nucleotide_primer_'+self.dna[self.game_counter].identity+'.png'
self.throw_ball(self.characters['primase'].spr.get_rect().center, (536, 459), self.change_button_sprite)
if self.alive_nucleotides < 11:
self.alive_nucleotides += 1
else:
self.buffer += 1
self.game_counter += 1
if self.game_counter == 10:
self.next_turn = True
self.reconfigure_dna()
else:
self.back()
# print(self.game_counter)
def check_victory(self):
if self.game_counter >= len(self.bases):
self.victory_action()
def change_button_sprite(self):
try:
self.button_to_assign.spr.image = pyglet.image.load(self.img_to_assign)
except Exception as e:
self.fail_action()
def reconfigure_dna(self, init=False):
if init:
tempindex = self.alive_nucleotides
for index, nucleotide in enumerate(self.dna):
if index > self.alive_nucleotides:
return
else:
nucleotide.set_position(*self.do_list[tempindex])
nucleotide.enable()
if not tempindex == 0:
self.immediate_position_sugar(self.interval_sugars[index],self.do_list[tempindex],self.do_list[tempindex-1])
tempindex -= 1
else:
th.start_new_thread(self.wait_thread_reconfigure, ())
def throw_ball(self, throw_position, target_position, effect):
ball = cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/ball.png'), position=throw_position)
self.add(ball)
act = MoveTo(target_position, 0.5)+CallFunc(effect)+Hide()
ball.do(act)
def wait_thread_reconfigure(self):
time.sleep(0.5)
tempindex = self.alive_nucleotides # is the index of the position of the sprites
# self.buffer
maxx = self.alive_nucleotides+self.buffer
minn = self.buffer
for index, nucleotide in enumerate(self.dna):
if not index in range(minn, maxx+1):
nucleotide.disable()
nucleotide.shift(2000,2000)
try:
# pass
self.position_sugar(self.interval_sugars[index],[2000,2000],[2000,2000])
except Exception as e:
# raise e
print('lmao')
# print('disabled')
else:
if not nucleotide.enabled:
nucleotide.enable()
# print('enabled')
if nucleotide.spr.position == (2000,2000):
nucleotide.shift_then_show(*self.do_list[tempindex])
else:
nucleotide.shift(*self.do_list[tempindex])
# print(index)
# print(nucleotide.spr.position)
# print(self.dna[index+1].spr.position)
if not tempindex == 0:
if self.do_list[tempindex][0] > 654:
# print('lampas naaa')
temp_coord = [self.do_list[tempindex][0],self.do_list[tempindex][1]]
temp_coord[1] = temp_coord[1]+60
temp_coord2 = [nucleotide.spr.position[0], nucleotide.spr.position[1]]
temp_coord2[1] = temp_coord2[1]+60
self.position_sugar(self.interval_sugars[index],temp_coord,temp_coord2)
elif self.do_list[tempindex][0] > 536:
temp_coord = [self.do_list[tempindex][0],self.do_list[tempindex][1]]
temp_coord[1] = temp_coord[1]+60
self.position_sugar(self.interval_sugars[index],temp_coord,nucleotide.spr.position)
else:
# try:
self.position_sugar(self.interval_sugars[index],self.do_list[tempindex],nucleotide.spr.position)
tempindex -= 1
def __init__(self, director, victory_action, fail_action):
self.director = director
# self.mainGameLayer = mainGameLayer
self.victory_action = victory_action
self.fail_action = fail_action
super().__init__()
bg = GameBackground('../res/minigame2/minigame2_background.png')
self.pos = [1280, 720]
self.youre_next = cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/popup.png'), position=(255,330))
self.youre_next.do(Hide())
self.click_anywhere = Button(640,360,'../res/minigame1/finish_level_button.png', self, self.assign_next)
self.click_anywhere.disable()
self.arrow_down = Button(550,560,'../res/minigame2/arrow_sprite_sheet.png', self, self.victory_action, isSpriteSheet=True, speed=0.125)
self.add(self.arrow_down, 4)
self.dp1 = cocos.sprite.Sprite(pyglet.image.load('../res/Profile_picture/Polymerase_Active_Agent.png'), position=(811,665))
# self.dp1 = Button(850,665, '../res/Profile_picture/Helicase_Active_Agent.png', self, self.back, toAdjust=True)
self.dp2 = cocos.sprite.Sprite(pyglet.image.load('../res/Profile_picture/Primase_Active_Agent.png'), position=(350,665))
# self.dp = Button(350,665, '../res/Profile_picture/Helicase_Active_Agent.png', self, self.back, toAdjust=True)
self.add(self.dp2, 11)
self.add(self.dp1, 11)
self.platform = cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/buttons/platform.png'), position=(620,94))
# self.platform = Button(640,360,'../res/minigame2/buttons/platform.png', self, self.back, toAdjust=True)
self.add(self.platform, 1)
self.buttons = {}
self.next_turn = False
self.bases = [ 'a' if x == 0 else
't' if x == 1 else
'c' if x == 2 else
'g' if x == 3 else
'b' for x in [random.randrange(0,4) for i in range(0,20)]]
# self.is_num = len(self.bases)-1
# if index in range(0,5):
# sug.do(Hide())
# self.sugar = cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/sugar.png'), position=(2000,2000))
self.do_list = [(34, 348),
(106, 307),
(224, 295),
(303, 364),
(417, 414),
(536, 459),
(654, 388),
(751, 279),
(871, 320),
(956, 392),
(1076, 444),
(1200, 384)
]
# self.position_sugar(self.sugar, self.do_list[3], self.do_list[4])
# self.add(self.sugar, z=11)
# self.do_list.reverse()
self.game_counter = 0
self.alive_nucleotides = 5
self.buffer = 0
self.buttons['back'] = Button(78,666, '../res/main_left.png', self, self.back)
self.buttons['back'].setHasHighlight('../res/main_left_h.png')
self.characters = {}
self.characters['primase'] = Button(64,75, '../res/minigame2/primase_smol.png', self, self.back)
self.characters['polymerase'] = Button(190,75, '../res/minigame2/polymerase_smol.png', self, self.back)
self.popup_anchor = (640,360)
self.buttons['A'] = Button(476,90,'../res/minigame2/buttons/a.png', self, self.put_a)
self.buttons['A'].setHasClicked('../res/minigame2/buttons/a_p.png')
self.buttons['T'] = Button(576,90,'../res/minigame2/buttons/t.png', self, self.put_t)
self.buttons['T'].setHasClicked('../res/minigame2/buttons/t_p.png')
self.buttons['C'] = Button(676,90,'../res/minigame2/buttons/c.png', self, self.put_c)
self.buttons['C'].setHasClicked('../res/minigame2/buttons/c_p.png')
self.buttons['G'] = Button(776,90,'../res/minigame2/buttons/g.png', self, self.put_g)
self.buttons['G'].setHasClicked('../res/minigame2/buttons/g_p.png')
self.buttons['P'] = Button(630,90,'../res/minigame2/buttons/p.png', self, self.put_p)
self.buttons['P'].setHasClicked('../res/minigame2/buttons/p_p.png')
self.dna = []
for num, base in enumerate(self.bases):
temp = Button(2000,2000, '../res/minigame2/nucleotide_'+base+'.png', self, self.back)
temp.identity = base
temp.setHasInactive('../res/minigame2/nucleotide_hide.png')
self.dna.append(temp)
self.interval_sugars = [cocos.sprite.Sprite(pyglet.image.load('../res/minigame2/upper_sugar.png'), position=(2000,2000)) for i in range(0,19)]
for index, sug in enumerate(self.interval_sugars):
self.add(sug, 1)
sug.do(Hide())
self.reconfigure_dna(init=True)
# for index, nucleotide in enumerate(self.dna):
# print('dddd')
# if not index == 19:
# self.position_sugar(self.interval_sugars[index], self.dna[index].spr.position, nucleotide.spr.position)
for key, button in self.buttons.items():
self.add(button, 2)
if not key in ['P','back']:
button.do(Hide())
button.disable()
for character in self.characters.values():
self.add(character, 3)
for nucleotide in self.dna:
self.add(nucleotide, 2)
self.add(bg, 0)
self.add(self.youre_next, 4)
self.add(self.click_anywhere, 4)
class StartMenuState:
def __init__(self):
self.sm = SpriteManager()
self.button_new_game = Button(352, 0, 96, 23, sprite=self.sm.sprites['new_game_button'], callback=self.start_new_game)
self.button_load_game = Button(378, 23, 44, 23, sprite=self.sm.sprites['load_button'], callback=self.load_game)
self.button_exit = Button(378, 46, 41, 23, sprite=self.sm.sprites['exit_button'], callback=self.exit_game)
self.version_label = Label(0, 580, "Version 0.1")
event_manager.event_manager.add_listener(event_manager.MESSAGE_MOUSE_UP, self)
def process(self):
video.clean()
self.button_new_game.draw(video.screen)
self.button_load_game.draw(video.screen)
self.button_exit.draw(video.screen)
self.version_label.draw(video.screen)
video.flip()
def process_message(self, pos_x, pos_y, button):
self.button_new_game.is_pressed(pos_x, pos_y, button)
self.button_load_game.is_pressed(pos_x, pos_y, button)
self.button_exit.is_pressed(pos_x, pos_y, button)
def start_new_game(self):
event_manager.event_manager.purge()
state = GlobalMapState()
state.new_game()
application.push_state(state)
def load_game(self):
event_manager.event_manager.purge()
state = GlobalMapState()
state.load_game(from_start_menu=True)
application.push_state(state)
def exit_game(self):
application.running = False
def __init__(self, application):
gtk.ScrolledWindow.__init__(self)
self.observer = Observer()
self.objects = dict()
from canvas import Canvas
self.canvas = Canvas(application)
self.set_policy(gtk.POLICY_NEVER, gtk.POLICY_AUTOMATIC)
properties = gtk.VBox()
self.add_with_viewport(properties)
self.group = gtk.SizeGroup(gtk.SIZE_GROUP_HORIZONTAL)
#---START-------------------------------------------------------
button = Button(_("General properties"))
properties.pack_start(button, False, False)
form = Form("general", self)
button.add(form)
form.add_section(_("Units"))
entry = gtk.combo_box_new_text()
entry.append_text(CENTIMETERS)
entry.append_text(MILLIMETERS)
entry.append_text(DOTS)
entry.append_text(INCHES)
entry.set_active(1)
form.add_entry(_("Preferred linear unit"), entry, "linear-unit")
entry = gtk.combo_box_new_text()
entry.append_text(DEGREES)
entry.append_text(RADIANS)
entry.set_active(1)
form.add_entry(_("Preferred angular unit"), entry, "angular-unit")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Document properties"))
properties.pack_start(button, False, False)
form = Form("document", self)
button.add(form)
form.add_section(_("Size"))
entry = LinearEntry()
form.add_entry(_("Width"), entry, "width")
entry = LinearEntry()
form.add_entry(_("Height"), entry, "height")
form.add_section(_("Margins"))
entry = LinearEntry()
form.add_entry(_("Top"), entry, "top-margin")
entry = LinearEntry()
form.add_entry(_("Bottom"), entry, "bottom-margin")
entry = LinearEntry()
form.add_entry(_("Left"), entry, "left-margin")
entry = LinearEntry()
form.add_entry(_("Right"), entry, "right-margin")
form.add_section(_("Config"))
entry = LinearEntry()
form.add_entry(_("Grid size"), entry, "grid-size")
entry = LinearEntry()
form.add_entry(_("Guides size"), entry, "guides-size")
entry = gtk.CheckButton(_("Show margins"))
form.add_entry(None, entry, "margins-active")
entry = gtk.CheckButton(_("Show guides"))
form.add_entry(None, entry, "guides-active")
entry = gtk.CheckButton(_("Show grid"))
form.add_entry(None, entry, "grid-active")
entry = gtk.CheckButton(_("Enable snap"))
form.add_entry(None, entry, "snap")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Line properties"))
self.objects["Line"] = button
properties.pack_start(button, False, False)
form = SizedObjectForm("line", self)
button.add(form)
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Box properties"))
self.objects["Box"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("box", self)
button.add(form)
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Rounded box properties"))
self.objects["Rounded"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("rounded", self)
button.add(form)
form.add_section(_("Shape"))
entry = LinearEntry()
entry.set_value(0)
form.add_entry(_("Radius"), entry, "radius")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Text properties"))
self.objects["Text"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("text", self)
button.add(form)
form.add_section(_("Format"))
entry = gtk.FontButton()
entry.connect("font-set", self.change_font)
form.add_entry(_("Font"), entry, "font")
entry = gtk.CheckButton(_("Preserve aspect"))
entry.connect("toggled", self.preserve)
form.add_entry(None, entry, "preserve")
form.add_section(_("Text"))
entry = TextPad(application)
self.disconnect_handler = entry.buffer.connect("changed", self.changed)
entry.connect("cursor-moved", self.cursor_moved)
form.add_entry(None, entry, "text")
#---END---------------------------------------------------------
#---START--------ARC properties-----------------------------------------------
button = Button(_("Arc properties"))
self.objects["Arc"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("arc", self)
button.add(form)
form.add_section(_("Angle"))
self.angle_start = AngularEntry()
form.add_entry(_("Start Angle"), self.angle_start, "start")
self.angle_start.spin.connect("value-changed", self.change_angle_start)
self.angle_stop = AngularEntry()
form.add_entry(_("Stop Angle"), self.angle_stop, "stop")
self.angle_stop.spin.connect("value-changed", self.change_angle_stop)
form.add_section(_("Other"))
self.closed_btn = gtk.CheckButton()
form.add_entry(_("Closed Arc"), self.closed_btn, "closed")
self.closed_btn.connect("toggled", self.close_arc)
self.closed_at_centre_btn = gtk.CheckButton()
self.closed_at_centre_btn.set_active(1)
form.add_entry(_("Closed Arc at Centre"), self.closed_at_centre_btn,
"closed-at-centre")
self.closed_at_centre_btn.connect("toggled", self.close_at_centre_arc)
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Table properties"))
self.objects["Table"] = button
properties.pack_start(button, False, False)
form = PositionedObjectForm("table", self)
button.add(form)
form.add_section(_("Spacing"))
entry = LinearEntry()
entry.set_value(0)
form.add_entry(_("Vertical"), entry, "vertical-spacing")
entry = LinearEntry()
entry.set_value(0)
form.add_entry(_("Horizontal"), entry, "horizontal-spacing")
form.add_section(_("Size"))
entry = LinearEntry()
entry.set_value(1)
entry.connect("value-changed", self.set_table_columns)
form.add_entry(_("Columns"), entry, "columns")
entry = LinearEntry()
entry.set_value(5)
entry.connect("value-changed", self.set_table_rows)
form.add_entry(_("Rows"), entry, "rows")
form.add_section(_("Color"))
entry = gtk.ColorButton()
form.add_entry(_("Stroke"), entry, "stroke")
entry = gtk.ColorButton()
form.add_entry(_("Fill"), entry, "fill")
form.add_section(_("Format"))
entry = gtk.FontButton()
entry.connect("font-set", self.set_table_font)
form.add_entry(_("Font"), entry, "font")
form.add_section(_("Columns"))
entry = ColumnsEditor()
entry.add_column()
entry.connect("width-edited", self.set_table_column_width)
entry.connect("title-edited", self.set_table_column_title)
form.add_entry(None, entry, "columns-editor")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Barcode properties"))
self.objects["BarCode"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("barcode", self)
button.add(form)
form.add_section(_("Barcode"))
entry = gtk.combo_box_new_text()
entry.connect("changed", self.changed_barcode_type)
for type in sorted(barcodes, key=lambda type: barcodes[type]):
entry.append_text(type)
form.add_entry(_("Type"), entry, "type")
entry = gtk.Entry()
entry.connect("changed", self.changed_barcode_code)
form.add_entry(_("Code"), entry, "code")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Image properties"))
self.objects["Image"] = button
properties.pack_start(button, False, False)
form = SizedObjectForm("image", self)
button.add(form)
form.add_section(_("Image"))
def update_preview(dialog, preview):
filename = dialog.get_preview_filename()
try:
pixbuf = gtk.gdk.pixbuf_new_from_file_at_size(filename, 128,
128)
preview.set_from_pixbuf(pixbuf)
have_preview = True
except:
have_preview = False
dialog.set_preview_widget_active(have_preview)
dialog = gtk.FileChooserDialog(title="Source image file",
#parent = self,
action=gtk.FILE_CHOOSER_ACTION_OPEN,
buttons=(
gtk.STOCK_CANCEL, gtk.RESPONSE_REJECT,
gtk.STOCK_OPEN, gtk.RESPONSE_ACCEPT),
backend=None)
preview = gtk.Image()
dialog.set_preview_widget(preview)
dialog.connect("update-preview", update_preview, preview)
#dialog.set_transient_for(self)
dialog.set_default_response(gtk.RESPONSE_OK)
def add_filter(dialog, name, pattern, type=None):
filter = gtk.FileFilter()
filter.set_name(name)
if type:
filter.add_mime_type(type)
filter.add_pattern(pattern)
dialog.add_filter(filter)
add_filter(dialog, "PNG files", "*.png", "image/png")
add_filter(dialog, "JPG files", "*.jpg", "image/jpg")
add_filter(dialog, "All files", "*")
dialog.connect("file-activated", self.changed_image_file)
entry = gtk.FileChooserButton(dialog)
form.add_entry(_("Image file"), entry, "file", True)
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Chart properties"))
self.objects["Chart"] = button
properties.pack_start(button, False, False)
form = SizedObjectForm("chart", self)
button.add(form)
form.add_section(_("Chart"))
entry = gtk.combo_box_new_text()
entry.connect("changed", self.changed_chart_type)
for type in sorted(chart_types, key=lambda type: chart_types[type]):
entry.append_text(type)
form.add_entry(_("Type"), entry, "type")
#---END---------------------------------------------------------
fill = gtk.Label("\n")
properties.add(fill)
class AlienInvasion:
"""Overall class to manage game assets and behavior."""
def __init__(self):
"""Initialize the game, and create game resources."""
pygame.init()
self.settings = Settings()
self.screen = pygame.display.set_mode(
(self.settings.screen_width, self.settings.screen_height))
# Full screen
# self.screen = pygame.display.set_mode((0,0), pygame.FULLSCREEN)
# self.settings.screen_width = self.screen.get_rect().width
# self.settings.screen_height = self.screen.get_rect().height
pygame.display.set_caption("Alien Invasion")
# Create an instance to store game statistics, and create a scoreboard.
self.stats = GameStats(self)
self.sb = Scoreboard(self)
self.ship = Ship(self)
self.bullets = pygame.sprite.Group()
self.aliens = pygame.sprite.Group()
self._create_fleet()
self._start_event_handler()
# MAke the play button
self.play_button = Button(self, "Play")
def _start_event_handler(self):
"""Start event handler"""
self.event_handler = EventHandler()
self._add_accepted_event_types()
self._add_accepted_key_down_type()
self._add_accepted_key_up_type()
def _add_accepted_event_types(self):
"""Add available event types"""
self.event_handler.register_types({
pygame.QUIT:
EventType(sys.exit, False),
pygame.KEYDOWN:
EventType(self._check_keydown_events, True),
pygame.KEYUP:
EventType(self._check_keyup_events, True),
pygame.MOUSEBUTTONDOWN:
EventType(self._check_play_button, False),
})
def _add_accepted_key_down_type(self):
self.event_handler.register_key_down_actions({
pygame.K_RIGHT:
self.ship.move_right,
pygame.K_LEFT:
self.ship.move_left,
pygame.K_UP:
self.ship.move_up,
pygame.K_DOWN:
self.ship.move_down,
pygame.K_SPACE:
self._fire_bullet,
pygame.K_q:
sys.exit,
})
def _add_accepted_key_up_type(self):
self.event_handler.register_key_up_actions({
pygame.K_RIGHT:
self.ship.stop_move_right,
pygame.K_LEFT:
self.ship.stop_move_left,
pygame.K_UP:
self.ship.stop_move_up,
pygame.K_DOWN:
self.ship.stop_move_down,
})
def run_game(self):
"""Start the main loop for the game."""
while True:
self._check_events()
if self.stats.game_active:
self.ship.update()
self._update_bullets()
self._update_aliens()
self._update_screen()
def _update_bullets(self):
"""Update position of bullets and get rid of old bullets"""
# Update bullets position
self.bullets.update()
self._clear_bullets()
self._check_bullet_alien_collisions()
def _check_bullet_alien_collisions(self):
"""Respond to bullet-alien collisions."""
# Remove any bullets and aliens that have collided.
collisions = pygame.sprite.groupcollide(self.bullets,
self.aliens,
dokilla=True,
dokillb=True)
if collisions:
for aliens in collisions.values():
self.stats.score += self.settings.alien_points * len(aliens)
self.sb.prep_score()
self.sb.check_high_score()
if not self.aliens:
# Destroy existing bullets and create new fleet
self.bullets.empty()
self._create_fleet()
self.settings.increase_speed()
# Increase level.
self.stats.level += 1
self.sb.prep_level()
def _clear_bullets(self):
"""Get rid of bullets that have disappeared."""
for b in self.bullets.copy():
if b.rect.bottom <= 0:
self.bullets.remove(b)
def _update_screen(self):
"""Update images on the screen, and flip to the new screen."""
# Redraw the screen during each pass though the loop
self.screen.fill(self.settings.bg_color)
self.ship.blitme()
for b in self.bullets.sprites():
b.draw_bullet()
self.aliens.draw(self.screen)
# Draw the score information.
self.sb.show_score()
# Draw the play button if the game is inactive
if not self.stats.game_active:
self.play_button.draw_button()
# Make the most recently drawn screen visible.
pygame.display.flip()
def _check_events(self):
"""Respond to key presses and mouse events"""
for event in pygame.event.get():
self.event_handler.execute_event(event)
def _check_keyup_events(self, event):
"""Respond to key releases."""
self.event_handler.execute_key_up(event.key)
def _check_keydown_events(self, event):
"""Respond to key presses."""
self.event_handler.execute_key_down(event.key)
def _fire_bullet(self):
"""Create a new bullet and add it to the bullets group"""
if len(self.bullets) < self.settings.bullets_allowed:
new_bullet = Bullet(self)
self.bullets.add(new_bullet)
def _create_fleet(self):
"""Create the fleet of aliens"""
alien_height, number_aliens_x = self._get_alien_height_and_number_of_aliens_per_line(
)
number_rows = self._get_number_of_rows_of_aliens_based_on_alien_height(
alien_height)
# Create the full fleet of aliens
for row in range(number_rows):
for alien_number in range(number_aliens_x):
self._creat_alien(alien_number, row)
def _get_number_of_rows_of_aliens_based_on_alien_height(
self, alien_height):
"""Base on screen height and alien height, calculate how many line of aliens we can have."""
ship_height = self.ship.rect.height
available_space_y = (self.settings.screen_height - (3 * alien_height) -
ship_height)
number_rows = available_space_y // (2 * alien_height)
return number_rows
def _get_alien_height_and_number_of_aliens_per_line(self):
"""
Get alien size, calculate the number of aliens that fit in one row
and return the height of alien and the number.
"""
alien = Alien(self)
alien_width, alien_height = alien.rect.size
available_space_x = self.settings.screen_width - (2 * alien_width)
number_aliens_x = available_space_x // (2 * alien_width)
return alien_height, number_aliens_x
def _creat_alien(self, alien_number, row_number):
"""Create an alien and place it in the row."""
alien = Alien(self)
alien_width, alien_height = alien.rect.size
alien.x = alien_width + 2 * alien_width * alien_number
alien.rect.x = alien.x
alien.rect.y = alien_height + 2 * alien_height * row_number
self.aliens.add(alien)
def _update_aliens(self):
"""
Check if the fleet is at an edge, then update the positions of all aliens in the fleet
"""
self._check_fleet_edges()
self.aliens.update()
# Look for alien-ship collisions.
if pygame.sprite.spritecollideany(self.ship, self.aliens):
self._ship_hit()
# Look for aliens hitting the bottom of the screen
self._check_aliens_bottom()
def _check_fleet_edges(self):
"""Respond appropriately if any aliens have reached and edge."""
for alien in self.aliens.sprites():
if alien.check_edges():
self._change_fleet_direction()
break
def _change_fleet_direction(self):
"""Drop the entire fleet and change the fleet's direction."""
for alien in self.aliens.sprites():
alien.rect.y += self.settings.fleet_drop_speed
self.settings.fleet_direction *= -1
def _ship_hit(self):
"""Respond to the ship being hit by an alien."""
if self.stats.ships_left > 0:
# Decrement ships_left.
self.stats.ships_left -= 1
self.sb.prep_ships()
# Get rid of any remaining aliens and bullets.
self.aliens.empty()
self.bullets.empty()
# Create a new fleet and center the ship.
self._create_fleet()
self.ship.center_ship()
# Pause
sleep(0.5)
else:
self.stats.game_active = False
pygame.mouse.set_visible(True)
def _check_aliens_bottom(self):
"""Check if any aliens have reached the bottom of the screen."""
screen_rect = self.screen.get_rect()
for alien in self.aliens.sprites():
if alien.rect.bottom >= screen_rect.bottom:
# Treat this the same as if the ship got hit.
self._ship_hit()
break
def _check_play_button(self):
"""Start a new game when the player clicks Play."""
mouse_pos = pygame.mouse.get_pos()
button_clicked = self.play_button.rect.collidepoint(mouse_pos)
if button_clicked and not self.stats.game_active:
# Reset the game settings
self.settings.initialize_dynamic_settings()
# Reset the game statistics
self.stats.reset_stats()
self.stats.game_active = True
self.sb.prep_score()
self.sb.prep_level()
self.sb.prep_ships()
# Get rid of any remaining aliens and bullets
self.aliens.empty()
self.bullets.empty()
# Create a new fleet and center the ship
self._create_fleet()
self.ship.center_ship()
# Hide the mouse cursor.
pygame.mouse.set_visible(False)
def __init__(self, application):
gtk.ScrolledWindow.__init__(self)
self.observer = Observer()
self.objects = dict()
from canvas import Canvas
self.canvas = Canvas(application)
self.set_policy(gtk.POLICY_NEVER, gtk.POLICY_AUTOMATIC)
properties = gtk.VBox()
self.add_with_viewport(properties)
self.group = gtk.SizeGroup(gtk.SIZE_GROUP_HORIZONTAL)
#---START-------------------------------------------------------
button = Button(_("General properties"))
properties.pack_start(button, False, False)
form = Form("general", self)
button.add(form)
form.add_section(_("Units"))
entry = gtk.combo_box_new_text()
entry.append_text(CENTIMETERS)
entry.append_text(MILLIMETERS)
entry.append_text(DOTS)
entry.append_text(INCHES)
entry.set_active(1)
form.add_entry(_("Preferred linear unit"), entry, "linear-unit")
entry = gtk.combo_box_new_text()
entry.append_text(DEGREES)
entry.append_text(RADIANS)
entry.set_active(1)
form.add_entry(_("Preferred angular unit"), entry, "angular-unit")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Document properties"))
properties.pack_start(button, False, False)
form = Form("document", self)
button.add(form)
form.add_section(_("Size"))
entry = LinearEntry()
form.add_entry(_("Width"), entry, "width")
entry = LinearEntry()
form.add_entry(_("Height"), entry, "height")
form.add_section(_("Margins"))
entry = LinearEntry()
form.add_entry(_("Top"), entry, "top-margin")
entry = LinearEntry()
form.add_entry(_("Bottom"), entry, "bottom-margin")
entry = LinearEntry()
form.add_entry(_("Left"), entry, "left-margin")
entry = LinearEntry()
form.add_entry(_("Right"), entry, "right-margin")
form.add_section(_("Config"))
entry = LinearEntry()
form.add_entry(_("Grid size"), entry, "grid-size")
entry = LinearEntry()
form.add_entry(_("Guides size"), entry, "guides-size")
entry = gtk.CheckButton(_("Show margins"))
form.add_entry(None, entry, "margins-active")
entry = gtk.CheckButton(_("Show guides"))
form.add_entry(None, entry, "guides-active")
entry = gtk.CheckButton(_("Show grid"))
form.add_entry(None, entry, "grid-active")
entry = gtk.CheckButton(_("Enable snap"))
form.add_entry(None, entry, "snap")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Line properties"))
self.objects["Line"] = button
properties.pack_start(button, False, False)
form = SizedObjectForm("line", self)
button.add(form)
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Box properties"))
self.objects["Box"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("box", self)
button.add(form)
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Rounded box properties"))
self.objects["Rounded"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("rounded", self)
button.add(form)
form.add_section(_("Shape"))
entry = LinearEntry()
entry.set_value(0)
form.add_entry(_("Radius"), entry, "radius")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Text properties"))
self.objects["Text"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("text", self)
button.add(form)
form.add_section(_("Format"))
entry = gtk.FontButton()
entry.connect("font-set", self.change_font)
form.add_entry(_("Font"), entry, "font")
entry = gtk.CheckButton(_("Preserve aspect"))
entry.connect("toggled", self.preserve)
form.add_entry(None, entry, "preserve")
form.add_section(_("Text"))
entry = TextPad(application)
self.disconnect_handler = entry.buffer.connect("changed", self.changed)
entry.connect("cursor-moved", self.cursor_moved)
form.add_entry(None, entry, "text")
#---END---------------------------------------------------------
#---START--------ARC properties-----------------------------------------------
button = Button(_("Arc properties"))
self.objects["Arc"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("arc", self)
button.add(form)
form.add_section(_("Angle"))
self.angle_start = AngularEntry()
form.add_entry(_("Start Angle"), self.angle_start, "start")
self.angle_start.spin.connect("value-changed", self.change_angle_start)
self.angle_stop = AngularEntry()
form.add_entry(_("Stop Angle"), self.angle_stop, "stop")
self.angle_stop.spin.connect("value-changed", self.change_angle_stop)
form.add_section(_("Other"))
self.closed_btn = gtk.CheckButton()
form.add_entry(_("Closed Arc"), self.closed_btn, "closed")
self.closed_btn.connect("toggled", self.close_arc)
self.closed_at_centre_btn = gtk.CheckButton()
self.closed_at_centre_btn.set_active(1)
form.add_entry(_("Closed Arc at Centre"), self.closed_at_centre_btn,
"closed-at-centre")
self.closed_at_centre_btn.connect("toggled", self.close_at_centre_arc)
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Table properties"))
self.objects["Table"] = button
properties.pack_start(button, False, False)
form = PositionedObjectForm("table", self)
button.add(form)
form.add_section(_("Spacing"))
entry = LinearEntry()
entry.set_value(0)
form.add_entry(_("Vertical"), entry, "vertical-spacing")
entry = LinearEntry()
entry.set_value(0)
form.add_entry(_("Horizontal"), entry, "horizontal-spacing")
form.add_section(_("Size"))
entry = LinearEntry()
entry.set_value(1)
entry.connect("value-changed", self.set_table_columns)
form.add_entry(_("Columns"), entry, "columns")
entry = LinearEntry()
entry.set_value(5)
entry.connect("value-changed", self.set_table_rows)
form.add_entry(_("Rows"), entry, "rows")
form.add_section(_("Color"))
entry = gtk.ColorButton()
form.add_entry(_("Stroke"), entry, "stroke")
entry = gtk.ColorButton()
form.add_entry(_("Fill"), entry, "fill")
form.add_section(_("Format"))
entry = gtk.FontButton()
entry.connect("font-set", self.set_table_font)
form.add_entry(_("Font"), entry, "font")
form.add_section(_("Columns"))
entry = ColumnsEditor()
entry.add_column()
entry.connect("width-edited", self.set_table_column_width)
entry.connect("title-edited", self.set_table_column_title)
form.add_entry(None, entry, "columns-editor")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Barcode properties"))
self.objects["BarCode"] = button
properties.pack_start(button, False, False)
form = ColorizedObjectForm("barcode", self)
button.add(form)
form.add_section(_("Barcode"))
entry = gtk.combo_box_new_text()
entry.connect("changed", self.changed_barcode_type)
for type in sorted(barcodes, key=lambda type: barcodes[type]):
entry.append_text(type)
form.add_entry(_("Type"), entry, "type")
entry = gtk.Entry()
entry.connect("changed", self.changed_barcode_code)
form.add_entry(_("Code"), entry, "code")
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Image properties"))
self.objects["Image"] = button
properties.pack_start(button, False, False)
form = SizedObjectForm("image", self)
button.add(form)
form.add_section(_("Image"))
def update_preview(dialog, preview):
filename = dialog.get_preview_filename()
try:
pixbuf = gtk.gdk.pixbuf_new_from_file_at_size(
filename, 128, 128)
preview.set_from_pixbuf(pixbuf)
have_preview = True
except:
have_preview = False
dialog.set_preview_widget_active(have_preview)
dialog = gtk.FileChooserDialog(
title="Source image file",
#parent = self,
action=gtk.FILE_CHOOSER_ACTION_OPEN,
buttons=(gtk.STOCK_CANCEL, gtk.RESPONSE_REJECT, gtk.STOCK_OPEN,
gtk.RESPONSE_ACCEPT),
backend=None)
preview = gtk.Image()
dialog.set_preview_widget(preview)
dialog.connect("update-preview", update_preview, preview)
#dialog.set_transient_for(self)
dialog.set_default_response(gtk.RESPONSE_OK)
def add_filter(dialog, name, pattern, type=None):
filter = gtk.FileFilter()
filter.set_name(name)
if type:
filter.add_mime_type(type)
filter.add_pattern(pattern)
dialog.add_filter(filter)
add_filter(dialog, "PNG files", "*.png", "image/png")
add_filter(dialog, "JPG files", "*.jpg", "image/jpg")
add_filter(dialog, "All files", "*")
dialog.connect("file-activated", self.changed_image_file)
entry = gtk.FileChooserButton(dialog)
form.add_entry(_("Image file"), entry, "file", True)
#---END---------------------------------------------------------
#---START-------------------------------------------------------
button = Button(_("Chart properties"))
self.objects["Chart"] = button
properties.pack_start(button, False, False)
form = SizedObjectForm("chart", self)
button.add(form)
form.add_section(_("Chart"))
entry = gtk.combo_box_new_text()
entry.connect("changed", self.changed_chart_type)
for type in sorted(chart_types, key=lambda type: chart_types[type]):
entry.append_text(type)
form.add_entry(_("Type"), entry, "type")
#---END---------------------------------------------------------
fill = gtk.Label("\n")
properties.add(fill)
def __init__(self, director, victory_action, fail_action):
self.director = director
# self.mainGameLayer = mainGameLayer
self.victory_action = victory_action
self.fail_action = fail_action
super().__init__()
bg = GameBackground('../res/minigame3/minigame3_background.png')
bg2 = GameBackground('../res/minigame3/nearplane.png')
self.bg3 = cocos.sprite.Sprite(
pyglet.image.load('../res/minigame3/longcloud.png'),
position=(640, 360))
self.pos = [1280, 720]
self.dp = cocos.sprite.Sprite(pyglet.image.load(
'../res/Profile_picture/Ligase_Active_Agent.png'),
position=(350, 665))
# self.dp = Button(350,665, '../res/Profile_picture/Helicase_Active_Agent.png', self, self.back, toAdjust=True)
self.add(self.dp, 11)
self.buttons = {}
# self.buttons['boi'] = Button(640,360, '../res/boi.png', self, self.back, isSpriteSheet=True)
# self.do_list.reverse()
self.game_counter = 0
self.alive_nucleotides = 5
self.buffer = 0
self.objects_hit = 0
self.missed = 0
self.buttons['back'] = Button(53, 666, '../res/main_left.png', self,
self.back)
self.buttons['back'].setHasHighlight('../res/main_left_h.png')
self.strand = [
'a' if x == 0 else
't' if x == 1 else 'c' if x == 2 else 'g' if x == 3 else 'b'
for x in [random.randrange(0, 4) for i in range(0, 60)]
]
# self.land_blocks = {}
self.dna = []
anchor = [0, 0]
for base in self.strand:
block = Button(1236 + anchor[0], 162 + anchor[1],
'../res/minigame3/block_' + base + '.png', self,
self.back)
block.move_right_inf()
self.dna.append(block)
anchor = [anchor[0] - 120, anchor[1]]
# self.counter_strand = 'atcgabctgagcbtagcbtagbctagbctagbctag'
self.counter_strand = [
'a' if x == 't' else
'g' if x == 'c' else 'c' if x == 'g' else 't' if x == 'a' else 'b'
for x in self.strand
]
# self.num_to_random = [x for x in ]
self.num_to_random = 20
# counter = self.num_to_random
self.rand_list = random.sample(range(7, len(self.strand)),
self.num_to_random)
self.rand_list.sort()
# self.rand_list.reverse()
# self.blank_counter_strand = ['b' if index in self.rand_list else x for index, x in enumerate(self.counter_strand)]
self.counter_dna = []
self.ammo = []
anchor = [0, 0]
for index, base in enumerate(self.counter_strand):
# print('yo')
# if not base == 'b':
block = Button(1200 + anchor[0], 83 + anchor[1],
'../res/minigame3/block_' + base + '.png', self,
self.back)
block.move_right_inf()
self.counter_dna.append(block)
anchor = [anchor[0] - 120, anchor[1]]
if index in self.rand_list:
block.spr.do(Hide())
print('ammo index', index)
self.ammo.append(
'a' if self.strand[index] == 't' else 'g' if self.
strand[index] == 'c' else 'c' if self.strand[index] ==
'g' else 't' if self.strand[index] == 'a' else 'b')
self.dna.reverse()
# self.counter_dna.reverse()
# self.ammo.reverse()
self.deployed_ammo = 0
self.ammo_blocks = []
# anchor = [0,0]
for index, base in enumerate(self.ammo):
# print('yo')
# if not base == 'b':
block = Button(970, 549, '../res/minigame3/block_' + base + '.png',
self, self.back)
block.target_hit_action = self.hit_object
block.target_miss_action = self.missed_object
block.spr.do(Hide())
# block.move_right_inf()
self.ammo_blocks.append(block)
# self.ammo_blocks.reverse()
self.characters = {}
self.characters['squirrelboi'] = Button(
970, 549, '../res/minigame3/squirrelboi.png', self, self.back)
# self.characters['squirrelboi'] = Button(970,549,'../res/minigame3/squirrelboi.png', self, self.back)
self.characters['squirrelboi'].move_up_and_down()
for button in self.buttons.values():
self.add(button, 5)
for block in self.dna:
self.add(block, 1)
self.counter_dna.reverse()
for block in self.counter_dna:
self.add(block, 2)
self.counter_dna.reverse()
for block in self.ammo_blocks:
self.add(block, 1)
for block in self.characters.values():
self.add(block, 3)
# for nucleotide in self.dna:
# self.add(nucleotide, 2)
self.add(bg, 0)
self.add(self.bg3, 1)
self.add(bg2, 3)
self.add(Bomb_Deployer(self, self.deployed))
self.bg3.do(Repeat(MoveBy((10, 0), 1)))
th.start_new_thread(self.endgame_checker, ())
def __init__(self, director, victory_action, fail_action, strand=None):
self.director = director
self.victory_action = victory_action
self.fail_action = fail_action
super().__init__()
self.finish_level_pictures = {}
# self.finish_level_pictures['0']=cocos.
for i in range(0,5):
self.finish_level_pictures[str(i)] = cocos.sprite.Sprite(pyglet.image.load('../res/minigame1/End/'+str(i)+'.png'), position=(640,360))
# bg = GameBackground('../res/minigame1/end/click anywhere to continue.png')
self.dp = Button(350,665, '../res/Profile_picture/Helicase_Active_Agent.png', self, self.victory_action)
self.add(self.dp, 11)
self.accomplished_targets = 0
self.target_eliminated = False
self.bg_index = 0
self.completed = False
self.victory = False
self.img_to_assign = pyglet.image.load('../res/minigame1/punch.png')
self.to_clean = []
self.buttons = {}
self.buttons['back'] = Button(53,666, '../res/main_left.png', self, self.back)
self.buttons['back'].setHasHighlight('../res/main_left_h.png')
self.finish_button = Button(640, 360, '../res/minigame1/finish_level_button.png', self, self.next_image)
self.finish_button.disable()
# if strand == None:
# self.strand = list('a') # defines the left strand
# else:
# self.strand = strand
self.strand = [ 'a' if x == 0 else
't' if x == 1 else
'c' if x == 2 else
'g' if x == 3 else
'b' for x in [random.randrange(0,4) for i in range(0,20)]]
self.strand.reverse()
self.counter_strand = [ 'a' if x == 't' else
't' if x == 'a' else
'c' if x == 'g' else
'g' if x == 'c' else
'b' for x in self.strand]
print('strand', self.strand)
self.game_counter = len(self.strand)-1
print('counter_strand', self.counter_strand)
self.backgrounds = []
for index, base in enumerate(self.strand):
bg_pair = [cocos.sprite.Sprite(pyglet.image.load('../res/minigame1/left_'+base+'.png'),position=(640,360)),
cocos.sprite.Sprite(pyglet.image.load('../res/minigame1/right_'+self.counter_strand[index]+'.png'),position=(640,360))]
self.backgrounds.append(bg_pair)
self.add(bg_pair[0], 1)
self.add(bg_pair[1], 1)
self.targets = []
for base in self.strand:
for i in range(0,3):
random_coordinate = (random.randint(200, 1080), random.randint(200, 520))
target = Button(*random_coordinate, '../res/minigame1/TARGET.png', self, self.target_clicked, isSpriteSheet=True)
target.hide()
self.targets.append(target)
self.add(target,3)
for button in self.buttons.values():
self.add(button, 2)
self.ad = Arm_Deployer(self,self.back)
self.add(self.ad,4)
# self.add(self.finish_level_pictures[0],0)
for i in range(4,-1,-1):
self.add(self.finish_level_pictures[str(i)],0)
self.add(self.finish_button,0)
# th.start_new_thread(self.run_game, ())
self.generate_target()
def update_buttons(self, b_press=set()):
b_size = (150, 60)
b_press_up_color = (0, 200, 0)
b_press_down_color = (0, 100, 0)
if "b_play" in b_press:
b_color = b_press_down_color
else:
b_color = b_press_up_color
b_play = Button(tag="b_play",
text="Play",
font=self.files.get_font(40),
text_color=(255, 255, 255),
img_file_str=self.files.get_button_img_str(),
b_color=b_color,
position=(self.screen_size[0] // 2 - b_size[0] // 2,
self.screen_size[1] // 2.5),
size=b_size,
rotate=0)
b_size = (150, 40)
b_press_up_color = (0, 200, 0)
b_press_down_color = (0, 100, 0)
if "b_scores" in b_press:
b_color = b_press_down_color
else:
b_color = b_press_up_color
b_scores = Button(tag="b_scores",
text="Highscores",
font=self.files.get_font(30),
text_color=(255, 255, 255),
img_file_str=self.files.get_button_img_str(),
b_color=b_color,
position=(self.screen_size[0] // 2 - b_size[0] // 2,
self.screen_size[1] // 1.8),
size=b_size,
rotate=0)
b_size = (110, 35)
b_press_up_color = (150, 0, 0)
b_press_down_color = (50, 0, 0)
if "b_quit" in b_press:
b_color = b_press_down_color
else:
b_color = b_press_up_color
b_quit = Button(tag="b_quit",
text="Quit",
font=self.files.get_font(30),
text_color=(255, 255, 255),
img_file_str=self.files.get_button_img_str(),
b_color=b_color,
position=(self.screen_size[0] // 2 - b_size[0] // 2,
self.screen_size[1] // 1.4),
size=b_size,
rotate=0)
self.buttons.add(b_play)
self.buttons.add(b_scores)
self.buttons.add(b_quit)
self.all_sprites.add(self.buttons)
class InventoryLayer(cocos.layer.ColorLayer):
is_event_handler = False
# init
def __init__(self, scroller, target, width=1280, height=720):
super().__init__(57, 67, 63, 0, width=width, height=height)
picDir = '../res/inventory.png'
self.scroller = scroller
self.opacity = 0
self.target = target
self.image = pyglet.image.load(picDir)
self.spr = cocos.sprite.Sprite(self.image, position=(640, 360))
self.backButton = Button(1070, 627, '../res/inventory_back.png', self,
self.hide)
self.backButton.setHasHighlight('../res/inventory_back_h.png')
self.highlight = False
self.onHover = False
self.highlight = True
self.add(self.backButton, 1)
self.add(self.spr, 0)
self.spr.do(Hide())
self.backButton.spr.do(Hide())
# self.target.unshow()
# setters/getters
def setHasHighlight(self, picDir):
self.highlight = True
def setTarget(self, target):
self.target = target
# methods
def on_mouse_motion(self, x, y, dx, dy):
pass
# x,y = self.scroller.screen_to_world(x,y)
# if (not self.onHover) and self.target.contains(x,y):
# self.onHover = True
# if self.highlight:
# self.opacity = 70
# # self.spr.do(Show())
# elif self.onHover and (not self.target.contains(x,y)):
# self.onHover = False
# if self.highlight:
# self.opacity = 0
# self.spr.do(Hide())
def on_mouse_press(self, x, y, button, mod):
# if self.onHover:
# self.spr.do(Show())
pass
def show(self):
InventoryLayer.is_event_handler = True
self.opacity = 70
self.spr.do(Show())
self.backButton.spr.do(Show())
def hide(self):
InventoryLayer.is_event_handler = False
self.opacity = 0
self.spr.do(Hide())
self.backButton.spr.do(Hide())
def setSprite(self, img):
self.spr.image = img
def init(self, game):
btn_inv = Button((globals.VIEW_OFFSET[0], globals.WINDOW_HEIGHT - 100), 'Start')
btn_inv.on_click = self.start_game
self.add_entity(btn_inv)
class MiniGame1(cocos.scene.Scene):
# init
def __init__(self, director, victory_action, fail_action, strand=None):
self.director = director
self.victory_action = victory_action
self.fail_action = fail_action
super().__init__()
self.finish_level_pictures = {}
# self.finish_level_pictures['0']=cocos.
for i in range(0,5):
self.finish_level_pictures[str(i)] = cocos.sprite.Sprite(pyglet.image.load('../res/minigame1/End/'+str(i)+'.png'), position=(640,360))
# bg = GameBackground('../res/minigame1/end/click anywhere to continue.png')
self.dp = Button(350,665, '../res/Profile_picture/Helicase_Active_Agent.png', self, self.victory_action)
self.add(self.dp, 11)
self.accomplished_targets = 0
self.target_eliminated = False
self.bg_index = 0
self.completed = False
self.victory = False
self.img_to_assign = pyglet.image.load('../res/minigame1/punch.png')
self.to_clean = []
self.buttons = {}
self.buttons['back'] = Button(53,666, '../res/main_left.png', self, self.back)
self.buttons['back'].setHasHighlight('../res/main_left_h.png')
self.finish_button = Button(640, 360, '../res/minigame1/finish_level_button.png', self, self.next_image)
self.finish_button.disable()
# if strand == None:
# self.strand = list('a') # defines the left strand
# else:
# self.strand = strand
self.strand = [ 'a' if x == 0 else
't' if x == 1 else
'c' if x == 2 else
'g' if x == 3 else
'b' for x in [random.randrange(0,4) for i in range(0,20)]]
self.strand.reverse()
self.counter_strand = [ 'a' if x == 't' else
't' if x == 'a' else
'c' if x == 'g' else
'g' if x == 'c' else
'b' for x in self.strand]
print('strand', self.strand)
self.game_counter = len(self.strand)-1
print('counter_strand', self.counter_strand)
self.backgrounds = []
for index, base in enumerate(self.strand):
bg_pair = [cocos.sprite.Sprite(pyglet.image.load('../res/minigame1/left_'+base+'.png'),position=(640,360)),
cocos.sprite.Sprite(pyglet.image.load('../res/minigame1/right_'+self.counter_strand[index]+'.png'),position=(640,360))]
self.backgrounds.append(bg_pair)
self.add(bg_pair[0], 1)
self.add(bg_pair[1], 1)
self.targets = []
for base in self.strand:
for i in range(0,3):
random_coordinate = (random.randint(200, 1080), random.randint(200, 520))
target = Button(*random_coordinate, '../res/minigame1/TARGET.png', self, self.target_clicked, isSpriteSheet=True)
target.hide()
self.targets.append(target)
self.add(target,3)
for button in self.buttons.values():
self.add(button, 2)
self.ad = Arm_Deployer(self,self.back)
self.add(self.ad,4)
# self.add(self.finish_level_pictures[0],0)
for i in range(4,-1,-1):
self.add(self.finish_level_pictures[str(i)],0)
self.add(self.finish_button,0)
# th.start_new_thread(self.run_game, ())
self.generate_target()
# methods
def back(self):
# self.victory = False
# self.completed = True
self.director.pop()
print("select stage back")
def next_image(self):
# pass
if not self.bg_index == 4:
self.finish_level_pictures[str(self.bg_index)].do(FadeOut(1))
self.bg_index += 1
else:
self.finish_level()
def finish_level(self):
# self.victory = True
# self.completed = True
# self.director.pop()
print("finished_level")
self.victory_action()
def fail_level(self):
# self.dire
self.fail_action()
def generate_target(self):
self.current_target = self.targets[self.accomplished_targets]
self.current_target.show()
def target_clicked(self):
print('clkiecked')
# self.cuurspr.do()
self.accomplished_targets += 1
self.target_eliminated = True
self.to_clean.append(self.current_target)
self.current_target.spr.do(CallFunc(self.change_button_sprite)+CallFunc(self.next_background))
self.current_target.disable()
if self.game_counter >= 0:
self.generate_target()
else:
self.finish_button.enable()
def next_background(self):
if self.accomplished_targets%3 == 0:
print('next bg')
bg_pair = self.backgrounds[self.game_counter]
bg_pair[0].do(MoveBy((-640,0),1))
bg_pair[1].do(MoveBy((640,0),1)+CallFunc(self.clean))
for button in self.to_clean:
button.spr.do(MoveBy((640 * (-1 if button.spr.position[0] < 640 else 1),0),1))
for obj in bg_pair: self.to_clean.append(obj)
self.game_counter -= 1
# def change_s
def clean(self):
for obj in self.to_clean:
self.remove(obj)
self.to_clean = []
def change_button_sprite(self):
try:
self.current_target.spr.image = self.img_to_assign
self.current_target.x -= 125
except Exception as e:
print(e)
def update_pop_ups(self, tag: str, b_press=set()):
"""Renderöi pop-up ikkunat näkyville tagin perusteella. Myös sen napit.
Args:
tag (str): mikä pop-up ikkuna halutaan näkyville.
b_press (set(str), valinnainen): Renderöi kaikki setissä olevat napit painetuiksi.
"""
size = (350, 250)
x = (self.screen_size[0] - size[0]) // 2
y = (self.screen_size[1] - size[1]) // 2
restart_pop = Tile(0, x, y, color=(100, 100, 100))
restart_pop.color = (230, 200, 200)
restart_pop.image = pg.transform.scale(restart_pop.img, size)
self.pop_ups.add(restart_pop)
# Buttons:
margin = 15
b_size = (90, 35)
if "b_yes" in b_press:
b_color = (0, 100, 0)
else:
b_color = (0, 200, 0)
b_yes = Button(tag="b_yes",
text="Yes",
text_color=(240, 240, 240),
img_file_str=self.files.get_button_img_str(),
b_color=b_color,
position=(x + size[0] // 2 - b_size[0] * 1.5 + 20,
y + size[1] // 1.5),
size=b_size,
rotate=0)
if "b_no" in b_press:
b_color = (100, 0, 0)
else:
b_color = (200, 0, 0)
b_no = Button(tag="b_no",
text="No",
text_color=(240, 240, 240),
img_file_str=self.files.get_button_img_str(),
b_color=b_color,
position=(x + size[0] // 2 + b_size[0] * .5 - 20,
y + size[1] // 1.5),
size=b_size,
rotate=0)
self.pop_up_buttons.add(b_yes)
self.pop_up_buttons.add(b_no)
# Text:
x = x + margin
y = y + margin
s = ""
if tag == "restart":
s = "Are you sure you want restart?"
elif tag == "menu":
s = "Return to the main menu?"
text = Text(s, x, y, 25, (255, 255, 255), size[0] - margin * 2, 40,
(100, 100, 100))
self.pop_ups.add(text)
def update_buttons(self, b_press=set()):
"""Renderöi kaikki napit ja nappien värin vaihdon
Args:
b_press (set(str), valinnainen): Renderöi kaikki setissä olevat napit painetuiksi.
"""
b_size = 70
x = self.m_x + self.cell_size * self.game.get_size()
y = self.cell_size * self.game.get_size()
b_press_up_color = (0, 0, 220)
b_press_down_color = (0, 0, 100)
y_margin = 30
if "b_up" in b_press:
b_color = b_press_down_color
else:
b_color = b_press_up_color
b_up = Button(
tag="b_up",
text=None,
text_color=None,
img_file_str=self.files.get_button_up_img_str(),
b_color=b_color,
position=((((self.screen_size[0] - x) // 2) + x) - (b_size // 2),
(self.m_y + y // 2) - b_size * 1.5 + y_margin),
size=(b_size, b_size),
rotate=0)
if "b_down" in b_press:
b_color = b_press_down_color
else:
b_color = b_press_up_color
b_down = Button(tag="b_down",
text=None,
text_color=None,
img_file_str=self.files.get_button_up_img_str(),
b_color=b_color,
position=((((self.screen_size[0] - x) // 2) + x) -
(b_size // 2), (self.m_y + y // 2) -
b_size * 1.5 + b_size * 2 + y_margin),
size=(b_size, b_size),
rotate=180)
if "b_right" in b_press:
b_color = b_press_down_color
else:
b_color = b_press_up_color
b_right = Button(
tag="b_right",
text=None,
text_color=None,
img_file_str=self.files.get_button_up_img_str(),
b_color=b_color,
position=((((self.screen_size[0] - x) // 2) + x) - (b_size // 2) +
b_size,
(self.m_y + y // 2) - b_size * 1.5 + b_size + y_margin),
size=(b_size, b_size),
rotate=-90)
if "b_left" in b_press:
b_color = b_press_down_color
else:
b_color = b_press_up_color
b_left = Button(tag="b_left",
text=None,
text_color=None,
img_file_str=self.files.get_button_up_img_str(),
b_color=b_color,
position=((((self.screen_size[0] - x) // 2) + x) -
(b_size // 2) - b_size, (self.m_y + y // 2) -
b_size * 1.5 + b_size + y_margin),
size=(b_size, b_size),
rotate=90)
self.buttons.add(b_up)
self.buttons.add(b_down)
self.buttons.add(b_right)
self.buttons.add(b_left)
if "b_restart" in b_press:
b_color = (100, 0, 0)
else:
b_color = (200, 0, 0)
b_restart = Button(tag="b_restart",
text="Restart",
text_color=(240, 240, 240),
img_file_str=self.files.get_button_img_str(),
b_color=b_color,
position=((((self.screen_size[0] - x) // 2) + x) -
(90 // 2) - 90 // 1.5, self.m_y),
size=(90, 35),
rotate=0)
if "b_menu" in b_press:
b_color = (100, 0, 0)
else:
b_color = (200, 0, 0)
b_menu = Button(tag="b_menu",
text="Menu",
text_color=(240, 240, 240),
img_file_str=self.files.get_button_img_str(),
b_color=b_color,
position=((((self.screen_size[0] - x) // 2) + x) -
(90 // 2) + 90 // 1.5, self.m_y),
size=(90, 35),
rotate=0)
self.buttons.add(b_restart)
self.buttons.add(b_menu)
self.all_sprites.add(self.buttons)
def process(self):
# Load Image
slitherPosterImg = utility.loadImage("2017_slither_poster")
slitherPosterImg = utility.resizeImage(slitherPosterImg, (800, 600))
slitherPosterRect = slitherPosterImg.get_rect()
slitherPosterRect.center = SCREEN_MID
# Load Sound
introBMG = utility.loadSound("BGM")
introBMG.set_volume(0.3)
# event
mEventDistributor = pygameEventDistributor(GAME_INTRO_LISTENING_EVENT)
mEventDistributor.listen(
Request("GameIntro_quit", self._quit, addtionalTarget=pygame.QUIT))
mTickEventHandler = tickEventHandler.TickEventHandler(
mEventDistributor)
# button settings
buttonSize = (150, 40)
fontSize = 30
padding_x = 150
padding_y = 150
# make button
player1Btn = Button(self.returnP1HS,
text="1 player",
alignment=BOTTOM_LEFT,
location=(0 + padding_x,
SCREEN_HEIGHT - padding_y),
buttonSize=buttonSize,
fontSize=fontSize)
player1Btn.listen(mTickEventHandler)
player2Btn = Button(self.returnP2C,
text="2 players",
alignment=BOTTOM_RIGHT,
location=(SCREEN_WIDTH - padding_x,
SCREEN_HEIGHT - padding_y),
buttonSize=buttonSize,
fontSize=fontSize)
player2Btn.listen(mTickEventHandler)
quitBtn = Button(self._quit,
text="quit",
alignment=BOTTOM_MIDDLE,
location=(SCREEN_WIDTH / 2, SCREEN_HEIGHT),
buttonSize=buttonSize,
fontSize=fontSize,
backgroundColor=RED)
quitBtn.listen(mTickEventHandler)
# make text
title = Text(color=BLUE,
text="Slither Game by Enjoeyland",
fontSize=40,
location=(SCREEN_WIDTH / 2, SCREEN_HEIGHT / 4),
alignment=TOP_MIDDLE)
# merge(make intro page)
groupIntro = pygame.sprite.Group()
groupIntro.add(player1Btn)
groupIntro.add(player2Btn)
groupIntro.add(quitBtn)
groupIntro.add(title)
utility.playSound(introBMG, loops=PLAY_INFINITELY)
while self.__changedGameState == None:
mEventDistributor.distribute()
self.screen.fill(SCREEN_BACKGROUND)
self.screen.blit(slitherPosterImg, (0, 0))
groupIntro.update()
groupIntro.draw(self.screen)
pygame.display.update()
pygame.time.Clock().tick(10)
introBMG.fadeout(2)
return self.__changedGameState
