def __init__(self, screen):
self.screen = screen
self.font = py.font.Font(None, 32)
self.font_title = pygame.font.SysFont(None, 65)
self.text_title = self.font_title.render("Tennis Game!", True, BLACK)
self.clock = pygame.time.Clock()
self.background = pygame.image.load(
r'C:\Users\berta\PycharmProjects\pythonProject\TennisGameProjectSecondTry\main\background.png'
)
self.fps_cap = 30
self.button_1 = pw.Button(self.screen,
WIDTH_MENU / 2 - 270,
500,
100,
100,
text='Start',
fontSize=30,
margin=20,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0),
radius=10,
onClick=start_the_game)
self.button_2 = pw.Button(self.screen,
WIDTH_MENU / 2 + 270,
500,
100,
100,
text='Quit!',
fontSize=30,
margin=20,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0),
radius=10,
onClick=quit_the_game)
def __init__(self, master, button_kwargs):
super().__init__(master, (0, 0), master.surface.get_size(), color=(0, 0, 0, 128))
self.game_state = Game_state()
self.button_resume = pygame_widgets.Button(self, (710, 320), (500, 100), text="Resume", **button_kwargs)
self.button_resume.add_handler(E_BUTTON_BUMPED, button_wrapper(self.button_resume_click))
self.button_resume.set(shortcut_key=K_SPACE)
self.button_menu = pygame_widgets.Button(self, (710, 420), (500, 100), text="Main menu", **button_kwargs)
self.button_restart = pygame_widgets.Button(self, (710, 520), (500, 100), text="Restart", **button_kwargs)
self.button_restart.set(shortcut_key=K_RETURN)
self.button_options = pygame_widgets.Button(self, (710, 670), (500, 100), text="Options", **button_kwargs)
self.button_options.add_handler(E_BUTTON_BUMPED, button_wrapper(self.button_options_click))
self.button_exit = pygame_widgets.Button(self, (710, 770), (500, 100), text="Exit", **button_kwargs)
self.button_exit.add_handler(E_BUTTON_BUMPED, button_wrapper(master.quit))
self.button_exit.set(shortcut_key=K_F4)
self.disconnect()
def __init__(self, auto1):
# инициализация окна
pygame.init()
self.auto = auto1
self.FPS = pygame.time.Clock()
self.screen = pygame.display.set_mode((self.width, self.height))
self.bg = pygame.image.load("background.bmp")
pygame.display.set_caption('Naval')
self.running = True
self.need_exit = False
self.exit_button = pw.Button(self.screen,
self.offset_x_exit_game,
self.offset_y_buttons,
80,
self.gauge,
text='Выход',
fontSize=18,
margin=2,
inactiveColour=(136, 149, 216),
pressedColour=(136, 255, 216),
radius=5,
onClick=lambda: self.exit_pressed())
self.new_button = pw.Button(self.screen,
self.offset_x_new_game,
self.offset_y_buttons,
80,
self.gauge,
text='Заново',
fontSize=18,
margin=2,
inactiveColour=(136, 149, 216),
pressedColour=(136, 255, 216),
radius=5,
onClick=lambda: self.restart_pressed())
self.auto_button = pw.Button(self.screen,
self.offset_x_auto,
self.offset_y_buttons,
80,
self.gauge,
text='Авто',
fontSize=18,
margin=2,
inactiveColour=(136, 149, 216),
pressedColour=(136, 255, 216),
radius=5,
onClick=lambda: self.auto_pressed())
self.new_game()
def setup ():
# %% crete pygame window
Window_size = [0,0]
Window_size [0] = 256*4
Window_size [1] = 256+80
screen = pygame.display.set_mode( Window_size )
screen.fill((128,128,128))
update_view (screen,1,sum(number_of_im))
#%% input widgets
global slider_first_frame
slider_first_frame = pw.Slider(
screen, 25, 256 + 20, 200, 10, min = 1, max = sum(number_of_im),step = 1,initial = 1)
global text_first
text_first = pw.TextBox(
screen ,25, 256 + 35, 60, 40, fontSize=24)
text_first.draw()
slider_first_frame.draw()
global slider_last_frame
slider_last_frame = pw.Slider(
screen, 1024-256+25, 256 + 20, 200, 10, min = 1, max = sum(number_of_im),step = 1,initial = sum(number_of_im))
global text_last
text_last = pw.TextBox(
screen ,1024-256+25, 256 + 35, 60, 40, fontSize=24)
text_last.draw()
slider_last_frame.draw()
global button_done
button_done = pw.Button(
screen, 512 - 25, 256 +20, 50, 40, text='done',
fontSize=22, margin=10,
inactiveColour=(128, 200, 128),
pressedColour=(0, 255, 0), radius=20,
onClick=lambda: Set_done_cmd(False))
pygame.display.update()
return screen
def draw_board(the_board, swapSide, randomSwap):
pygame.init()
pygame.display.set_caption("Play the chess game")
colors = [(255, 255, 255), (0, 255, 0)] # Set up colors [white, green]
n = len(the_board) # This is an NxN chess board.
surface_sz = 480 # Proposed physical surface size.
sq_sz = surface_sz // n # sq_sz is length of a square.
print(sq_sz)
# surface_sz = n * sq_sz # Adjust window to exactly fit n squares.
x_offset_of_Board = 150
y_offset_of_Board = 150
board_field_names = generateFieldNames(n, swapSide)
blackFigures, whiteFigures = initFigures()
surface = pygame.display.set_mode((800, 650))
colorOfTheSurface = (0, 0, 0)
surface.fill(colorOfTheSurface)
myFont = pygame.font.SysFont("Courier", 50, bold=True)
mySmallFont = pygame.font.SysFont("Courier", 20, bold=True)
return_to_menu = pw.Button(surface,
10,
550,
130,
65,
text='Back',
fontSize=20,
margin=20,
inactiveColour=(100, 100, 100),
pressedColour=(255, 0, 0),
radius=14,
onClick=lambda: print('Click'))
fieldForUser = generateFieldForUser(
board_field_names) # initialization a first quest for user
chessBoard = chessboardSquareNotation(n, sq_sz, x_offset_of_Board,
y_offset_of_Board,
generateFieldNames(n, swapSide),
swapSide)
the_text = mySmallFont.render(generateText(""), True, (255, 255, 255),
colorOfTheSurface)
textWithPoints = mySmallFont.render(generateText(""), True,
(255, 255, 255), colorOfTheSurface)
userPoints = 0
insertFiguresIntoChessboard(whiteFigures,
blackFigures,
surface,
chessBoard,
sq_size=n)
while True:
# surface.blit(backgroundIMG, (0,0))
return_to_menu.draw()
# Draw a fresh background (a blank chess board)
for row in range(n): # Draw each row of the board.
c_indx = row % 2 # Change starting color on each row
for col in range(n): # Run through cols drawing squares
the_square = (col * sq_sz + x_offset_of_Board,
row * sq_sz + y_offset_of_Board, sq_sz, sq_sz)
surface.fill(colors[c_indx], the_square)
c_indx = (c_indx + 1) % 2
insertFiguresIntoChessboard(whiteFigures,
blackFigures,
surface,
chessBoard,
sq_size=n)
newText = myFont.render("Where is: " + generateText(fieldForUser),
True, (255, 255, 255), colorOfTheSurface)
surface.blit(newText, (200, 80))
ev = pygame.event.poll()
if ev.type == pygame.MOUSEBUTTONDOWN:
if ev.button is 1: # 1- left button of the mouse
pos = pygame.mouse.get_pos()
pos_of_click = ev.dict['pos']
if pos_of_click[0] >= return_to_menu.getX(
) and pos_of_click[0] < return_to_menu.getX(
) + return_to_menu.width and pos_of_click[
1] >= return_to_menu.getY() and pos_of_click[
1] < return_to_menu.getY() + return_to_menu.height:
return userPoints
if pos_of_click[0] >= x_offset_of_Board and pos_of_click[
0] < x_offset_of_Board + surface_sz and pos_of_click[
1] >= y_offset_of_Board and pos_of_click[
1] < y_offset_of_Board + surface_sz:
print(pos_of_click)
field_name = getNameOfField(board_field_names,
pos_of_click,
x_offset_of_Board,
y_offset_of_Board, sq_sz)
if field_name == fieldForUser:
the_text = mySmallFont.render(
generateText("Passed: " + field_name), True,
(255, 255, 255), colorOfTheSurface)
userPoints += 1
textWithPoints = mySmallFont.render(
generateText("Points: " + str(userPoints)), True,
(255, 255, 255), colorOfTheSurface)
if randomSwap is False:
print(swapSide)
board_field_names = generateFieldNames(n, swapSide)
chessBoard = chessboardSquareNotation(
n, sq_sz, x_offset_of_Board, y_offset_of_Board,
board_field_names, swapSide)
fieldForUser = generateFieldForUser(
board_field_names)
else:
board_field_names = generateFieldNames(
n, bool(random.randint(0, 1)))
chessBoard = chessboardSquareNotation(
n, sq_sz, x_offset_of_Board, y_offset_of_Board,
board_field_names, swapSide)
fieldForUser = generateFieldForUser(
board_field_names)
else:
the_text = mySmallFont.render(
generateText("This is:" + field_name), True,
(255, 255, 255), colorOfTheSurface)
surface.blit(the_text, (645, 550))
return userPoints
insertFiguresIntoChessboard(whiteFigures,
blackFigures,
surface,
chessBoard,
sq_size=n)
surface.blit(textWithPoints, (645, 500))
surface.blit(the_text, (645, 550))
pygame.display.flip() # displaying pygame window
# Set font/text for coins
font = pygame.font.SysFont('arial', 20)
def updateCoins(coins=0):
text = font.render('Coins: {}'.format(coins), True, BLACK)
screen.blit(text, [10, (GRID_SIZE+GRID_MARGIN) * GRID_NUM + GRID_MARGIN * 2, BOARD_SIZE, SCORE_HEIGHT])
def updateResult(msg):
text = font.render(msg, True, BLACK)
screen.blit(text, [10, (GRID_SIZE+GRID_MARGIN) * GRID_NUM + GRID_MARGIN * 10, BOARD_SIZE, SCORE_HEIGHT])
def drawCoin(rect):
coin = pygame.transform.scale(pygame.image.load('./coin.jpg'),(GRID_SIZE,GRID_SIZE))
screen.blit(coin, rect)
# Restart button
restart = pw.Button(
screen, GRID_SIZE * (GRID_NUM-3), (GRID_SIZE+GRID_MARGIN) * GRID_NUM + GRID_MARGIN * 4, 90, 30, text='Restart',
fontSize=20, margin=10, inactiveColour=GREEN, pressedColour=BLUE, radius=5,
onClick=lambda: start())
# Quit button
quit = pw.Button(
screen, GRID_SIZE * (GRID_NUM-1), (GRID_SIZE+GRID_MARGIN) * GRID_NUM + GRID_MARGIN * 4, 50, 30, text='Quit',
fontSize=20, margin=10, inactiveColour=GREEN, pressedColour=BLUE, radius=5,
onClick=lambda: exit())
def start():
# Create board and players
board = Board(GRID_NUM, RATIO)
searcher = Player("Searcher", 0, 0,"./searcher.png",3,3)
monster = Player("Monster", GRID_NUM-1, GRID_NUM-1,"./monster.jpg",BOARD_SIZE-50,BOARD_SIZE-50)
board.board[searcher.row][searcher.col].players.append(searcher.name)
board.board[monster.row][monster.col].players.append(monster.name)
def __init__(self, pos, size, parent_surface, **kargs):
super().__init__(pos, size, parent_surface)
self._widget = pygame_widgets.Button(parent_surface, *pos, *size,
**kargs)
plt.close('all')
pog.init() # pygame stuff
window = pog.display.set_mode((w, h), DOUBLEBUF)
screen = pog.display.get_surface()
screen = pog.display.set_mode((w, h))
titleText = pogW.TextBox(window, (1080-450)/2, 15, 450, 25, fontSize=15)
surf = None
lbSlider = pogW.Slider(window, 650, 150, 300, 10, min=0, max=10, step=0.1) # interactive sliders and stuff in the program
nSlider = pogW.Slider(window, 650, 250, 300, 10, min=0, max=10, step=1)
lbText = pogW.TextBox(window, 650, 110, 150, 25, fontSize=15) # lambda text
nText = pogW.TextBox(window, 650, 210, 200, 25, fontSize=15) # n text
pText = pogW.TextBox(window, 75, 77, 200, 25, fontSize=15) # player text
dataB = pogW.Button(window, 100, 650, 200, 50, text='Random Graph', margin=2, onClick=clickPlot)
pog.display.set_caption('aiyah bruh')
pog.display.flip()
plotToScreen(X, data[dataInd], globalN)
run = True
while run: # actions to run throughout the program: update the screen if lambda or num. features is changed or if the dataset is changed (basically when the user interacts with the window)
if pastLb != globalLb or pastN != globalN: # window only does normal equation if the parameters update since normal equation is computationally expensive
plotToScreen(X, data[dataInd], globalN)
#frameNum = 0
time.sleep(0.01) # max framerate is 100 FPS
events = pog.event.get()
screen.fill(bgCol) # white BG color
screen.blit(surf, (0, 30)) # render plt plot on surface to PyGame window
def __init__(self, results):
self.results = results
self.screen = pg.display.set_mode((640, 480))
self.font = pg.font.Font(None, 32)
self.input_boxes = [
pg.Rect(150, 50, 140, 32),
pg.Rect(150, 100, 140, 32),
pg.Rect(150, 150, 140, 32)
]
self.color_inactive = pg.Color('lightskyblue3')
self.color_active = pg.Color('dodgerblue2')
self.color = [
self.color_inactive,
self.color_inactive,
self.color_inactive
]
self.labels_text_for_input_boxes = [
'min: ',
'max: ',
'quantity: '
]
self.active = [False, False, False]
self.text = ['', '', '']
self.done = False
self.checkboxes = [
Checkbox(
self.screen, 150, 230,
caption='Random initial order', color=self.color_inactive,
text_offset=(125, 0), font_color=self.color_inactive,
font_size=32
),
Checkbox(
self.screen, 150, 270,
caption='Descending initial order', color=self.color_inactive,
text_offset=(140, 0), font_color=self.color_inactive,
font_size=32
),
Checkbox(
self.screen, 150, 310,
caption='Ascending initial order', color=self.color_inactive,
text_offset=(135, 0), font_color=self.color_inactive,
font_size=32
)
]
self.checkboxes[0].checked = True
self.buttons = [
pw.Button(
self.screen, 150, 400, 100, 50, text='Run one sample',
fontSize=18,
inactiveColour=self.color_inactive,
pressedColour=self.color_active,
onClick=lambda: self.loading(True)
),
pw.Button(
self.screen, 290, 400, 100, 50, text='Run benchmark',
fontSize=18,
inactiveColour=self.color_inactive,
pressedColour=self.color_active,
onClick=lambda: self.loading(False)
)
]
def setup(self):
## setups images
self.update_disp_image_data()
self.px = pygame.surfarray.make_surface(self.disp_data)
image_size = self.px.get_rect()[2:]
Window_size = image_size
Window_size[0] = Window_size[0] + 400
Window_size[1] = Window_size[1] + 5
self.screen = pygame.display.set_mode(Window_size)
self.screen.fill((128, 128, 128))
self.screen.blit(self.px, self.px.get_rect())
self.button_done = pw.Button(self.screen,
Window_size[0] - 400 + 50,
5,
100,
50,
text='Done',
fontSize=22,
margin=10,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: self.Set_done_cmd(False))
self.button_done.draw()
self.slider_threshold = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
110,
150,
10,
min=0,
max=1,
step=.05,
initial=0.5)
self.slider_threshold.draw()
self.text_threshold = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
60,
50,
40,
fontSize=24)
self.text_threshold.draw()
text_threshold_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 60,
50,
60,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_threshold_describe.setText('Threshold')
text_threshold_describe.draw()
self.slider_min_dist = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
180,
150,
10,
min=1,
max=100,
step=1,
initial=20)
self.slider_min_dist.draw()
self.text_min_dist = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
130,
50,
40,
fontSize=24)
self.text_min_dist.draw()
text_min_dist_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 60,
120,
60,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_min_dist_describe.setText('Minimum Distance ')
text_min_dist_describe.draw()
self.slider_SVM = pw.Slider(self.screen,
Window_size[0] - 400 + 225,
60,
150,
10,
min=.00,
max=1,
step=0.01,
initial=0.5)
self.slider_SVM.draw()
self.text_SVM = pw.TextBox(self.screen,
Window_size[0] - 400 + 200,
10,
60,
40,
fontSize=24)
self.text_SVM.draw()
text_SVM_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 260,
0,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_SVM_describe.setText('SVM limit')
text_SVM_describe.draw()
self.slider_gauss = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
320,
150,
10,
min=0,
max=10,
step=1,
initial=1)
self.slider_gauss.draw()
self.text_gauss = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
270,
60,
40,
fontSize=24)
self.text_gauss.draw()
text_gauss_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 60,
260,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_gauss_describe.setText('# Gauss')
text_gauss_describe.draw()
if self.number_of_frames == 1:
self.number_of_frames = 2
self.slider_frame_number = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
450,
150,
10,
min=0,
max=self.number_of_frames - 1,
step=1,
initial=0)
self.slider_frame_number.draw()
self.text_frame_number = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
400,
60,
40,
fontSize=24)
self.text_frame_number.draw()
text_frame_number_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 60,
390,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_frame_number_describe.setText('Frame Number')
text_frame_number_describe.draw()
self.button_train = pw.Button(self.screen,
Window_size[0] - 400 + 250,
100,
100,
50,
text='Train',
fontSize=22,
margin=10,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: self.Set_train_cmd(True))
self.button_train.draw()
self.slider_custom_SVM = pw.Slider(self.screen,
Window_size[0] - 400 + 225,
210,
150,
10,
min=.05,
max=1,
step=0.02,
initial=0.5)
self.slider_custom_SVM.draw()
self.text_custom_SVM = pw.TextBox(self.screen,
Window_size[0] - 400 + 200,
160,
60,
40,
fontSize=24)
self.text_custom_SVM.draw()
text_custom_SVM_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 260,
170,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_custom_SVM_describe.setText('Custom SVM limit')
text_custom_SVM_describe.draw()
self.slider_window_size = pw.Slider(self.screen,
Window_size[0] - 400 + 225,
300,
150,
10,
min=8,
max=64,
step=2,
initial=32)
self.slider_window_size.draw()
self.text_window_size = pw.TextBox(self.screen,
Window_size[0] - 400 + 200,
250,
60,
40,
fontSize=24)
self.text_window_size.draw()
text_window_size_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 260,
260,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_window_size_describe.setText('window size')
text_window_size_describe.draw()
def main():
global game_state, window, main_menu_buttons, counter, label_info, pause_menu, gamefield
Textures.load()
best_score = get_best()
game_state = Game_state()
Game_state.update = game_state_update
window = pygame_widgets.Window(flags=FULLSCREEN,
bg_color=Textures.window,
fps=constants.FPS)
window.add_handler(KEYDOWN,
lambda e: restart(game_state.mode) if e.key == K_RETURN
and game_state.state in ['win', 'gameover'] else None,
self_arg=False,
delay=1)
window.add_handler(KEYDOWN, pause, self_arg=False)
window.add_handler(QUIT,
lambda: set_best(best_score),
self_arg=False,
event_arg=False)
window.add_handler(KEYDOWN,
lambda e: screenshot() if e.key == K_F2 else None,
self_arg=False)
# window.add_handler(constants.E_STATE_CHANGED,
# lambda e: restart(None) if e.key == 'mode' and e.new_value is None else None, self_arg=False)
window.handlers[QUIT].reverse()
window.add_handler(constants.E_GAME_FINISHED,
lambda: set_best(best_score),
self_arg=False,
event_arg=False)
window.add_handler(constants.E_STATE_CHANGED,
info,
self_arg=True,
event_arg=True)
# button_exit = pygame_widgets.Button(window, (0, 18), (100, 17), text="Exit")
# button_exit.add_handler(E_BUTTON_BUMPED, button_wrapper(window.quit))
BUTTON_KWARGS = Args(
font_name='TrebuchetMS',
font_size=50,
bold=True,
font_color=THECOLORS['white'],
bg_normal=THECOLORS['transparent'],
bg_mouseover=button_bg(THECOLORS['transparent'], THECOLORS['red'], 10),
bg_pressed=button_bg(THECOLORS['transparent'], THECOLORS['red4'], 10),
cursor_mouseover=pygame_widgets.auxiliary.cursors.hand,
cursor_pressed=pygame_widgets.auxiliary.cursors.hand)[1]
main_menu_buttons = [
pygame_widgets.Button(window, (710, 350), (500, 100),
text="Original",
**BUTTON_KWARGS),
pygame_widgets.Button(window, (710, 450), (500, 100),
text="Test",
**BUTTON_KWARGS),
pygame_widgets.Button(window, (710, 600), (500, 100),
text="Options",
**BUTTON_KWARGS),
pygame_widgets.Button(window, (710, 700), (500, 100),
text="Exit",
**BUTTON_KWARGS),
]
for button in main_menu_buttons[:-2]:
button.add_handler(E_BUTTON_BUMPED,
button_wrapper(button_mode_click, self_arg=True))
main_menu_buttons[-2].add_handler(E_BUTTON_BUMPED,
button_wrapper(button_options_click))
main_menu_buttons[-1].add_handler(E_BUTTON_BUMPED,
button_wrapper(window.quit))
counter = Live_counter(window, (0, 36))
label_info = pygame_widgets.Label(window,
visible=False,
font="trebuchet_ms",
font_size=60,
alignment_x=1,
alignment_y=1,
font_color=THECOLORS['white'],
bold=True,
italic=True)
label_score = pygame_widgets.Label(window, (0, 72),
auto_res=True,
font_color=THECOLORS['yellow'],
bold=True,
text="Score: 0")
label_best = pygame_widgets.Label(window, (0, 90),
auto_res=True,
font_color=THECOLORS['yellow'],
bold=True,
text=f"Best: {best_score}")
pause_menu = Pause_menu(window, BUTTON_KWARGS)
pause_menu.button_menu_click = pause_button_menu_click
pause_menu.button_restart_click = pause_button_restart_click
gamefield = None
while True:
# window.handle_events(*event.get())
for event in pygame.event.get():
if event.type == ACTIVEEVENT and event.state in (
2, 7
) and game_state.mode is not None and game_state.state == 'playing':
pause_menu.activate()
else:
window.handle_event(event)
label_score.set(text=f"Score: {game_state.points}")
if game_state.points > best_score:
best_score = game_state.points
label_best.set(text=f"Best: {best_score}")
window.update_display()
pygame_widgets.new_loop()
elif 'wikipedia'in query:
speak('searching wikipedia')
query=query.replace('wikipedia','')
result=wikipedia.summary(query,2)
text(result,green,0,400)
speak(result)
elif 'open youtube'in query:
webbrowser.open('https://www.youtube.com')
elif 'open google'in query:
webbrowser.open('https://www.google.com')
elif 'open facebook'in query:
webbrowser.open('https://www.facebook.com')
elif 'open twitter'in query:
webbrowser.open('https://www.twitter.com')
button=pw.Button(display,393,460,60,90,text="Init(:)",fontsize=3,margin=20,inactivecolor=(50,50,50),pressedcolor=(255,255,255),radius=150,onClick=lambda:mainloop())
while True:
display.blit(pygame.transform.scale(background,(800,600)),(0,0))
display.blit(pygame.transform.scale(terminal,(200,200)),(0,400))
display.blit(pygame.transform.scale(jarvis,(500,500)),(180,100))
pygame.display.update()
event=pygame.event.get()
for event in event:
if event.type==QUIT:
quit()
sys.exit()
display.update()
button.listen(event)
button.draw()
font = pygame.font.SysFont('tahoma', 30)
views = ['sat', 'map', 'sat,skl']
now = 0
def change_view():
global now
now = (now + 1) % 3
write_image()
button_play = pygame_widgets.Button(screen,
125,
320,
300,
50,
text='Изменить тип',
fontSize=50,
inactiveColour=(255, 204, 219),
pressedColour=(255, 204, 219),
onClick=change_view,
textColour=(0, 0, 0),
hoverColour=(255, 204, 219),
font=font,
textHAlign='centre')
write_image()
fps = 50
clock = pygame.time.Clock()
while True:
events = pygame.event.get()
for i in events:
if i.type == pygame.QUIT:
os.remove('map.png')
pygame.quit()
def draw_board(the_board):
pygame.init()
pygame.display.set_caption("Play the chess game")
colors = [(255, 255, 255), (0, 255, 0)] # Set up colors [white, green]
n = len(the_board) # This is an NxN chess board.
surface_sz = 480 # Proposed physical surface size.
sq_sz = surface_sz // n # sq_sz is length of a square.
print(sq_sz)
# surface_sz = n * sq_sz # Adjust window to exactly fit n squares.
x_offset_of_Board = 150
y_offset_of_Board = 150
board_field_names = generateFieldNames(n)
blackFigures, whiteFigures = initFigures()
surface = pygame.display.set_mode((800, 650))
colorOfTheSurface = (0, 0, 0)
surface.fill(colorOfTheSurface)
return_to_menu = pw.Button(surface,
10,
550,
130,
65,
text='Back',
fontSize=20,
margin=20,
inactiveColour=(100, 100, 100),
pressedColour=(255, 0, 0),
radius=14,
onClick=lambda: print('Click'))
chessBoard = chessboardSquareNotation(n, sq_sz, x_offset_of_Board,
y_offset_of_Board,
generateFieldNames(n))
white_position, black_position, figurePos = insertFiguresIntoChessboard(
whiteFigures, blackFigures, surface, chessBoard, sq_size=n)
print(white_position)
print(black_position)
print(figurePos)
move = 0
while True:
return_to_menu.draw()
# Draw a fresh background (a blank chess board)
for row in range(n): # Draw each row of the board.
c_indx = row % 2 # Change starting color on each row
for col in range(n): # Run through cols drawing squares
the_square = (col * sq_sz + x_offset_of_Board,
row * sq_sz + y_offset_of_Board, sq_sz, sq_sz)
surface.fill(colors[c_indx], the_square)
c_indx = (c_indx + 1) % 2
# insertFiguresIntoChessboard(whiteFigures, blackFigures, surface, chessBoard, sq_size=n)
ev = pygame.event.poll()
if ev.type == pygame.MOUSEBUTTONDOWN:
if ev.button is 1: # 1- left button of the mouse
pos = pygame.mouse.get_pos()
pos_of_click = ev.dict['pos']
if pos_of_click[0] >= return_to_menu.getX(
) and pos_of_click[0] < return_to_menu.getX(
) + return_to_menu.width and pos_of_click[
1] >= return_to_menu.getY() and pos_of_click[
1] < return_to_menu.getY() + return_to_menu.height:
break
elif pos_of_click[0] >= x_offset_of_Board and pos_of_click[
0] < x_offset_of_Board + surface_sz and pos_of_click[
1] >= y_offset_of_Board and pos_of_click[
1] < y_offset_of_Board + surface_sz:
field_name = getNameOfField(board_field_names,
pos_of_click,
x_offset_of_Board,
y_offset_of_Board, sq_sz)
print(field_name)
clickInFieldToMoveFigure(pos_of_click[0], pos_of_click[1],
field_name, figurePos)
if move == 0:
insertFiguresIntoChessboard(whiteFigures,
blackFigures,
surface,
chessBoard,
sq_size=n)
else:
newChessboardLayout(whiteFigures,
blackFigures,
surface,
chessBoard,
sq_size=n)
pygame.display.flip() # displaying pygame window
def setup(Frame,Refence_dict):
im = Frame
im = (im - (np.min(im)))
im = 255 * (im / np.max(im))
clahe = cv2.createCLAHE(clipLimit=2.0, tileGridSize=(8,8))
im = clahe.apply(im.astype(np.uint8))
w, h = im.shape
ret = np.empty((w, h, 3), dtype=np.uint8)
ret[:, :, 2] = im
ret[:, :, 1] = im
ret[:, :, 0] = im
px = pygame.surfarray.make_surface(ret)
image_size = px.get_rect()[2:]
Window_size = image_size
Window_size [0] = Window_size [0] + 200
Window_size [1] = Window_size [1] + 5
screen = pygame.display.set_mode( Window_size )
screen.fill((128,128,128))
screen.blit(px, px.get_rect())
global button_done
button_done = pw.Button(
screen, Window_size [0] - 200 + 50, 80, 100, 50, text='Done',
fontSize=22, margin=10,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0), radius=20,
onClick=lambda: Set_done_cmd(False) )
global button_redo
button_redo = pw.Button(
screen, Window_size [0] - 200 + 50, 10, 100, 50, text='Redo',
fontSize=22, margin=10,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0), radius=20,
onClick=lambda: Set_redo_cmd(True))
global slider_contrast
slider_contrast= pw.Slider(
screen, Window_size [0] - 200 + 25, 150, 150, 10, min = 0, max = 511,step = 1)
global text_contrast
text_contrast = pw.TextBox(
screen, Window_size [0] - 200 + 25, 170, 60, 40, fontSize=24)
text_contrast_describe = pw.TextBox(
screen, Window_size [0] - 200 + 85, 170, 100, 40, fontSize=16,
borderColour=(128, 128, 128),colour=(128, 128, 128))
text_contrast_describe.setText('Contrast')
text_contrast_describe.draw()
global slider_brightness
slider_brightness= pw.Slider(
screen, Window_size [0] - 200 + 25, 230, 150, 10, min = 0, max = 511, step = 1)
global text_brightness
text_brightness = pw.TextBox(
screen, Window_size [0] - 200 + 25, 250, 60, 40, fontSize=24)
text_brightness_describe = pw.TextBox(
screen, Window_size [0] - 200 + 85, 250, 100, 40, fontSize=16,
borderColour=(128, 128, 128),colour=(128, 128, 128))
text_brightness_describe.setText('Brightness')
text_brightness_describe.draw()
global text_frame_number
text_frame_number = pw.TextBox(
screen, Window_size [0] - 200 + 25, 430, 60, 40, fontSize=24)
if len(Refence_dict)!= 1:
global slider_frame_number
slider_frame_number= pw.Slider(
screen, Window_size [0] - 200 + 25, 410, 150, 10, min = 0, max = len(Refence_dict)-1, step = 1,initial = 1)
text_frame_describe = pw.TextBox(
screen, Window_size [0] - 200 + 85, 430, 100, 40, fontSize=16,
borderColour=(128, 128, 128),colour=(128, 128, 128))
text_frame_describe.setText('Frame Number')
text_frame_describe.draw()
slider_contrast.draw()
slider_brightness.draw()
text_contrast.draw()
text_brightness.draw()
button_done.draw()
button_redo.draw()
if len(Refence_dict)!= 1:
text_frame_number.draw()
slider_frame_number.draw()
return screen, px
def setup(self):
## setups images
self.update_disp_image_data()
self.update_disp_image_label()
SHOW_IMG = np.concatenate([self.disp_data, self.disp_Label], axis=0)
self.px = pygame.surfarray.make_surface(SHOW_IMG)
image_size = self.px.get_rect()[2:]
Window_size = image_size
Window_size[0] = Window_size[0] + 400
Window_size[1] = Window_size[1] + 5
self.screen = pygame.display.set_mode(Window_size)
self.screen.fill((128, 128, 128))
self.screen.blit(self.px, self.px.get_rect())
self.button_done = pw.Button(self.screen,
Window_size[0] - 400 + 50,
5,
100,
50,
text='Done',
fontSize=22,
margin=10,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: self.Set_done_cmd(False))
self.button_done.draw()
self.slider_x = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
110,
150,
10,
min=0,
max=100,
step=1)
self.slider_x.draw()
self.text_x = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
60,
100,
40,
fontSize=24)
self.text_x.draw()
text_x_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 100,
50,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_x_describe.setText('X tilt')
text_x_describe.draw()
self.slider_y = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
180,
150,
10,
min=0,
max=100,
step=1)
self.slider_y.draw()
self.text_y = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
130,
100,
40,
fontSize=24)
self.text_y.draw()
text_y_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 100,
120,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_y_describe.setText('Y tilt')
text_y_describe.draw()
self.slider_n = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
250,
150,
10,
min=1,
max=10,
step=1,
initial=self.n)
self.slider_n.draw()
self.text_n = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
200,
60,
40,
fontSize=24)
self.text_n.draw()
text_n_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 60,
190,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_n_describe.setText('Number of clusters')
text_n_describe.draw()
self.slider_gauss = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
320,
150,
10,
min=0,
max=10,
step=1,
initial=0)
self.slider_gauss.draw()
self.text_gauss = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
270,
60,
40,
fontSize=24)
self.text_gauss.draw()
text_gauss_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 60,
260,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_gauss_describe.setText('# Gauss')
text_gauss_describe.draw()
if self.number_of_frames == 1:
self.number_of_frames = 2
self.slider_frame_number = pw.Slider(self.screen,
Window_size[0] - 400 + 25,
450,
150,
10,
min=0,
max=self.number_of_frames - 1,
step=1,
initial=0)
self.slider_frame_number.draw()
self.text_frame_number = pw.TextBox(self.screen,
Window_size[0] - 400 + 0,
400,
60,
40,
fontSize=24)
self.text_frame_number.draw()
text_frame_number_describe = pw.TextBox(self.screen,
Window_size[0] - 400 + 60,
390,
100,
40,
fontSize=16,
borderColour=(128, 128, 128),
colour=(128, 128, 128))
text_frame_number_describe.setText('Frame Number')
text_frame_number_describe.draw()
def play():
napredek_array = []
dack_back_uno_card = pygame.image.load('card_images/uno_cover.png')
#define all buttons
if show_graphics:
skip_button = pygame_widgets.Button(
gameDisplay,
display_width / 2.0 - 30,
display_height / 2.0 - 120,
80,
30,
text='Skip',
fontSize=30,
margin=10,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: skip_button_pressed(main_board, player_1))
pick_color_red = pygame_widgets.Button(
gameDisplay,
display_width - 200,
display_height / 2.0 - 140,
100,
50,
text='Red',
fontSize=30,
margin=10,
inactiveColour=(255, 0, 0),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: pick_color(player_1, 'red'))
pick_color_green = pygame_widgets.Button(
gameDisplay,
display_width - 200,
display_height / 2.0 - 45,
100,
50,
text='Green',
fontSize=30,
margin=10,
inactiveColour=(0, 255, 0),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: pick_color(player_1, 'green'))
pick_color_blue = pygame_widgets.Button(
gameDisplay,
display_width - 200,
display_height / 2.0 + 45,
100,
50,
text='Blue',
fontSize=30,
margin=10,
inactiveColour=(0, 0, 255),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: pick_color(player_1, 'blue'))
pick_color_yellow = pygame_widgets.Button(
gameDisplay,
display_width - 200,
display_height / 2.0 + 140,
100,
50,
text='Yellow',
fontSize=30,
margin=10,
inactiveColour=(255, 255, 0),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: pick_color(player_1, 'yellow'))
if play_as_agent:
# Widgets for settings
widg_sim = widgets.IntText(value=100, description="Simulations:")
widg_algo = widgets.Dropdown(options=["monte-carlo", "q-learning"],
value="monte-carlo",
description="Algorithm:")
widg_new_model = widgets.Dropdown(options=[True, False],
value=False,
description="New Model:")
widg_comment = widgets.Dropdown(options=[True, False],
value=False,
description="Show Game:")
# Widgets for parameters
widg_epsilon = widgets.FloatSlider(value=0.05,
min=0,
max=1,
step=0.01,
description="Epsilson:",
readout_format=".2f")
widg_step = widgets.FloatSlider(value=0.2,
min=0,
max=1,
step=0.01,
description="Step Size:",
readout_format=".2f")
agent_info = {
"epsilon": widg_epsilon.value,
"step_size": widg_step.value,
"new_model": widg_new_model.value
}
if algorithm == "q-learning":
agent = ag.QLearningAgent()
else:
agent = ag.MonteCarloAgent()
agent.agent_init(agent_info)
wins_player_1 = 0
wins_player_2 = 0
wins_player_1_cur_round = 0
wins_player_2_cur_round = 0
wins_player_1_cur_round_1000 = 0
wins_player_2_cur_round_1000 = 0
for round_idx in range(rounds_play):
if round_idx == 0:
print("started playing game")
if round_idx % 1000 == 0 and round_idx > 0:
print("round: ", round_idx)
print("wins player 1: ", wins_player_1_cur_round_1000)
print("wins player 2: ", wins_player_2_cur_round_1000)
wins_player_1_cur_round_1000 = 0
wins_player_2_cur_round_1000 = 0
if round_idx % 10000 == 0 and round_idx > 0:
print("round: ", round_idx)
print("wins player 1: ", wins_player_1_cur_round)
print("wins player 2: ", wins_player_2_cur_round)
napredek_array.append(
(wins_player_1_cur_round /
(wins_player_1_cur_round + wins_player_2_cur_round)))
wins_player_1_cur_round = 0
wins_player_2_cur_round = 0
player_1_score = 0
player_2_score = 0
for ingame_round in range(ingame_rounds):
main_player_draw_a_card = False
cur_picked_color = None
put_card_on_top_after_color_choice = None
main_board = board()
if play_as_agent:
if ingame_round == 0:
player_1_actions = dict()
player_1 = agentPlayer(main_board,
actions=player_1_actions)
else:
player_1_actions = dict()
player_1 = agentPlayer(main_board,
actions=player_1_actions)
elif not play_as_agent:
player_1 = player(main_board)
for _ in range(num_of_bot_players):
player(main_board)
game_running = True
while game_running:
#time.sleep(wait_each_turn)
cur_player = main_board.get_cur_player()
if show_graphics:
gameDisplay.fill(light_gray)
display_cards_in_hand(player_1)
if not play_as_agent:
#all events that happened
events = pygame.event.get()
for event in events:
if event.type == pygame.QUIT:
exit()
cur_mouse_x, cur_mouse_y = pygame.mouse.get_pos()
#markup cards if they can be played and player hovers over them
for card in player_1.hand:
if card.hover_over_card(
cur_mouse_x,
cur_mouse_y,
main_board.cur_top_card,
player_turn=cur_player == player_1):
draw_rect_around_image(card.card_image)
else:
#update only if player is not chosing color
if put_card_on_top_after_color_choice != card:
card.update_image()
# if player_turn and player hasn't drawn a new card jet, it can draw a card
if cur_player == player_1 and not main_player_draw_a_card:
if cur_mouse_x >= deck_card_x and cur_mouse_y >= deck_card_y and cur_mouse_x <= (
deck_card_x + card_width
) and cur_mouse_y <= (deck_card_y + card_height):
draw_rect_around_image(dack_back_uno_card)
else:
dack_back_uno_card = pygame.image.load(
'card_images/uno_cover.png')
#player clicked on card
if cur_player == player_1 and event.type == pygame.MOUSEBUTTONDOWN:
main_player_picked_something = False
for card in player_1.hand:
if card.hover_over_card(
cur_mouse_x,
cur_mouse_y,
main_board.cur_top_card,
player_turn=cur_player == player_1):
card.update_image()
if card.value != 13 and card.value != 14:
main_board.put_card_on_top(card)
player_1.hand.remove(card)
player_1.update_card_positions()
main_player_picked_something = True
break
else:
put_card_on_top_after_color_choice = card
break
# if player_turn
if cur_player == player_1 and not main_player_draw_a_card:
if cur_mouse_x >= deck_card_x and cur_mouse_y >= deck_card_y and cur_mouse_x <= (
deck_card_x +
card_width) and cur_mouse_y <= (
deck_card_y + card_height):
player_1.draw_cards(1)
main_player_draw_a_card = True
put_card_on_top_after_color_choice = None
dack_back_uno_card = pygame.image.load(
'card_images/uno_cover.png')
if main_player_picked_something:
reset_player_1_status(player_1)
main_board.next_player()
#display and add listener to skip turn button
if main_player_draw_a_card:
skip_button.listen(events)
skip_button.draw()
#display pick color buttons if necessarry
if put_card_on_top_after_color_choice != None:
pick_color_red.listen(events)
pick_color_red.draw()
pick_color_green.listen(events)
pick_color_green.draw()
pick_color_blue.listen(events)
pick_color_blue.draw()
pick_color_yellow.listen(events)
pick_color_yellow.draw()
elif play_as_agent:
events = pygame.event.get()
for event in events:
if cur_player == player_1 and event.type == pygame.MOUSEBUTTONDOWN:
#print("make player 1 move")
#prev_player_1_score = player_1.count_card_score_in_hand()
success = player_1.play_agent(
agent,
num_cards_oponent=len(
main_board.players[1].hand))
"""
if success:
cur_player_1_score = player_1.count_card_score_in_hand()
cur_reward = min((prev_player_1_score - cur_player_1_score) / 50, 0)
agent.update_single_action(player_1.state, player_1.action, reward=cur_reward)
"""
if main_player_draw_a_card or success:
main_player_picked_something = True
main_player_draw_a_card = False
reset_player_1_status(player_1)
main_board.next_player()
elif not success and not main_player_draw_a_card:
player_1.draw_cards(1)
main_player_draw_a_card = True
if show_graphics:
player_1.update_card_positions()
break
#put card on top after player color choice
if put_card_on_top_after_color_choice != None and player_1.chosen_color != None:
main_board.put_card_on_top(
put_card_on_top_after_color_choice,
color_if_change_color=player_1.chosen_color)
player_1.hand.remove(put_card_on_top_after_color_choice)
player_1.update_card_positions()
reset_player_1_status(player_1)
main_board.next_player()
#if bot plays
if cur_player != player_1:
main_board.make_bot_move()
#display card in the middle
display_up_card(card_on_middle_x, card_on_middle_y,
main_board.cur_top_card)
#display deck card in the middle
if show_graphics:
gameDisplay.blit(dack_back_uno_card,
(deck_card_x, deck_card_y))
#display bot player information
player_infos = main_board.get_bot_players_info()
for i, player_info in enumerate(player_infos):
cur_bot_display_info = 'Bot player ' + str(
i + 1) + ': ' + str(player_info) + ' cards'
textsurface = myfont.render(cur_bot_display_info, True,
(0, 0, 0))
gameDisplay.blit(textsurface, (0, 30 * i))
if player_info == 1:
cur_bot_one_card_display_info = 'Bot player ' + str(
i + 1) + ' has only one card left!'
textsurface_one_card = myfont.render(
cur_bot_one_card_display_info, True,
(255, 0, 0))
gameDisplay.blit(
textsurface_one_card,
(display_width / 2.0 - 160,
display_height / 2.0 + 80 + 20 * i))
#display current player
if main_board.cur_player == 0:
cur_player_text = "It's your turn"
else:
cur_player_text = "It player " + str(
main_board.cur_player) + " turn"
textsurface = myfont.render(cur_player_text, True,
(0, 0, 255))
gameDisplay.blit(
textsurface,
(display_width / 2.0 - 55, display_height / 2.0 - 200))
#display cur card color
if main_board.cur_top_card.color == 'red':
color = (255, 0, 0)
elif main_board.cur_top_card.color == 'green':
color = (0, 255, 0)
elif main_board.cur_top_card.color == 'blue':
color = (0, 0, 255)
elif main_board.cur_top_card.color == 'yellow':
color = (255, 255, 0)
else:
color = (255, 255, 0)
textsurface = myfont.render(main_board.cur_top_card.color,
True, color)
gameDisplay.blit(textsurface,
(display_width / 2.0 - 14, 10))
#check for victory
player_that_won = main_board.check_for_victory()
game_running = player_that_won == -1
if player_that_won != -1:
cur_score_player_1 = player_1.count_card_score_in_hand()
player_2_score += main_board.players[
1].count_card_score_in_hand()
player_1_score += cur_score_player_1
if cur_score_player_1 < 5:
cur_reward = (10 - cur_score_player_1) / 10
elif cur_score_player_1 < 30:
cur_reward = (30 - cur_score_player_1) / 100
else:
cur_reward = 0
player_1.identify_state(
num_cards_oponent=len(main_board.players[1].hand))
if player_1.state != None and player_1.action != None:
agent.update(player_1.state,
player_1.action,
reward=cur_reward)
else:
print("couldn't update!")
print(player_1.state)
print(player_1.action)
assert main_board.players[0] == player_1
assert main_board.players[1] != player_1
if show_graphics:
pygame.display.update()
clock.tick(FPS)
if player_1_score < player_2_score:
wins_player_1 += 1
wins_player_1_cur_round += 1
wins_player_1_cur_round_1000 += 1
elif player_1_score == player_2_score:
wins_player_1 += 1
wins_player_2 += 1
wins_player_1_cur_round += 1
wins_player_2_cur_round += 1
wins_player_1_cur_round_1000 += 1
wins_player_2_cur_round_1000 += 1
else:
wins_player_2 += 1
wins_player_2_cur_round += 1
wins_player_2_cur_round_1000 += 1
print("\nwins player 1: ", wins_player_1)
print("wins player 2: ", wins_player_2)
print(napredek_array)
agent.save_agent()
pygame.quit()
def mainMenu():
pygame.init()
surface = pygame.display.set_mode((800, 650))
colorOfTheSurface = (0, 200, 120)
surface.fill(colorOfTheSurface)
# titleIMG = pygame.image.load("images/mainTheme1.png")
backgroundIMG = pygame.image.load("images/chessMainMenu.jpg")
isNewGame = True
myFont = pygame.font.SysFont("Courier", 30, bold=True)
start_button = pw.Button(surface,
230,
150,
350,
100,
text='TRAIN FIELDS',
fontSize=40,
margin=20,
inactiveColour=(110, 110, 110),
pressedColour=(255, 0, 0),
radius=14,
onClick=lambda: print('Click'))
gameplay_button = pw.Button(surface,
230,
270,
350,
100,
text='PLAY THE GAME',
fontSize=40,
margin=20,
inactiveColour=(110, 110, 110),
pressedColour=(255, 0, 0),
radius=14,
onClick=lambda: print('Click'))
learn_tactics = pw.Button(surface,
230,
390,
350,
100,
text='LEARN TACTICS',
fontSize=40,
margin=20,
inactiveColour=(150, 110, 110),
pressedColour=(255, 0, 0),
radius=14,
onClick=lambda: print('Click'))
while True:
pygame.display.set_caption("menu")
surface.fill(colorOfTheSurface)
surface.blit(pygame.transform.scale(backgroundIMG, (800, 650)), (0, 0))
ev = pygame.event.poll()
start_button.draw()
gameplay_button.draw()
learn_tactics.draw()
# surface.blit(pygame.transform.scale(titleIMG, (600,200)),(surface.get_height()/6, 50))
if ev.type == pygame.QUIT:
break
if ev.type == pygame.MOUSEBUTTONDOWN:
pos_of_click = ev.dict['pos']
if start_button.getX() < pos_of_click[0] < start_button.getX(
) + start_button.width and start_button.getY(
) + start_button.height > pos_of_click[1] > start_button.getY():
startGame()
elif gameplay_button.getX(
) < pos_of_click[0] < gameplay_button.getX(
) + gameplay_button.width and gameplay_button.getY(
) + gameplay_button.height > pos_of_click[
1] > gameplay_button.getY():
# play() # first option from PlayMode.py
draw_board(8) # option from objective/main.py
pygame.display.flip() # displaying pygame window
pygame.quit()
return 0
# -------------------- FUNÇÕES -----------------------#
# -------------------- BOTÕES -----------------------#
botao_sound = pygame.mixer.Sound('jogo/img/sound_effect/menu_botao.wav')
botao_de_quit = pw.Button(screen,
425,
475,
130,
70,
text='Sair',
fontSize=50,
textColour=(0, 0, 0),
margin=20,
inactiveColour=(150, 150, 150),
pressedColour=(0, 255, 0),
radius=20,
onClick=lambda: pygame.quit())
botao_de_jogar = pw.Button(screen,
420,
375,
140,
70,
text='Jogar',
fontSize=50,
textColour=(0, 0, 0),
