class GameMenu:
def __init__(self, resolution, option_list):
self.label_list = []
self.resolution = resolution
self.nav_pos = [(resolution[0] / 2) - 150, 430]
for i in range(len(option_list)):
self.label_list.append(
pyglet.text.Label(option_list[i],
font_name="Tempus Sans ITC",
font_size=60,
x=resolution[0] / 2,
y=400 - (i * 100),
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True))
self.menu_bg = Quad([0, resolution[1]], resolution,
[10, 10, 10, 128] * 4)
self.menu_nav = Quad(self.nav_pos, [300, 75], [100, 10, 0, 128] * 4)
self.nav_ofs = 0
def draw(self):
self.menu_bg.draw()
for label in self.label_list:
label.draw()
self.menu_nav.draw()
def update(self, offset):
self.nav_pos[1] -= offset
self.menu_nav = Quad(self.nav_pos, [300, 80], [100, 10, 0, 128] * 4)
def draw(self):
Quad([0, resolution[1]], resolution, [10, 10, 10, 128] * 4).draw()
pyglet.text.Label("ABOUT",
font_name="Tempus Sans ITC",
font_size=resx(100),
x=resolution[0] / 2,
y=resolution[1] - resy(100),
anchor_x='center',
anchor_y='center',
color=[255, 255, 255, 255],
bold=True).draw()
yxs = 0
for text in self.about_text_file:
pyglet.text.Label(text,
font_name="Tempus Sans ITC",
font_size=resx(27),
x=resx(100),
y=resolution[1] - resy(300 + yxs),
color=[255, 255, 255, 255],
bold=True).draw()
yxs += resy(40)
pyglet.text.Label("Esc",
font_name="Tempus Sans ITC",
font_size=resx(20),
x=0,
y=resolution[1],
anchor_y='top',
color=[255, 255, 255, 75],
bold=True).draw()
self.about_text_file.seek(0)
def draw(self):
Quad([0, resolution[1]], resolution, [10, 10, 10, 128] * 4).draw()
pyglet.text.Label("CONTROLS",
font_name="Tempus Sans ITC",
font_size=resx(100),
x=resolution[0] / 2,
y=resolution[1] - resy(100),
anchor_x='center',
anchor_y='center',
color=[255, 255, 255, 255],
bold=True).draw()
yxs = 0
xxs = resx(100)
for text in self.controls_text_file:
if text.strip() == 'PLAYER 2 CONTROLS':
xxs = (resolution[0] / 2) + resx(100)
yxs = 0
pyglet.text.Label(text,
font_name="Tempus Sans ITC",
font_size=resx(26),
x=xxs,
y=resolution[1] - resy(300 + yxs),
color=[255, 255, 255, 255],
bold=True).draw()
yxs += resy(35)
pyglet.text.Label("Esc",
font_name="Tempus Sans ITC",
font_size=resx(20),
x=0,
y=resolution[1],
anchor_y='top',
color=[255, 255, 255, 75],
bold=True).draw()
self.controls_text_file.seek(0)
def __init__(self, resolution1, option_list):
global resolution
resolution = resolution1
self.label_list = []
self.resolution = resolution
self.nav_pos = [(resolution[0] / 2) - 150, 430]
for i in range(len(option_list)):
self.label_list.append(
pyglet.text.Label(option_list[i],
font_name="Tempus Sans ITC",
font_size=60,
x=resolution[0] / 2,
y=400 - (i * 100),
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True))
self.menu_bg = Quad([0, resolution[1]], resolution,
[10, 10, 10, 128] * 4)
self.menu_nav = Quad(self.nav_pos, [300, 75], [100, 10, 0, 128] * 4)
self.nav_ofs = 0
self.nav_step = 100
def reload(self):
global winner, p1_hp_pos, p1_total_life, p1_hp_size, p1_hp_score, p2_hp_pos, \
p2_hp_size, p2_total_life, p2_hp_score, explosion_time, p1_gaurd_size, p2_gaurd_pos, p1_dhp_pos, p1_dhp_size, p2_dhp_pos, p2_dhp_size
# GAME DETAILS
winner = None
# PLAYER 1 DETAILS
p1_total_life = resx(550)
p1_hp_pos = [0, resy(1000)]
p1_hp_size = [p1_total_life, resy(20)]
p1_hp_score = 0
p1_gaurd_size = [p1_total_gaurd, resy(20)]
p1_dhp_pos = p1_hp_pos.copy()
p1_dhp_size = p1_hp_size.copy()
# PLAYER 2 DETAILS
p2_total_life = resx(550)
p2_hp_pos = [resolution[0] - p2_total_life, resy(1000)]
p2_hp_size = [p2_total_life, resy(20)]
p2_hp_score = 0
p2_gaurd_pos = [resolution[0] - p2_total_gaurd, resy(970)]
p2_dhp_pos = p2_hp_pos.copy()
p2_dhp_size = p2_hp_size.copy()
# OTHER DETAILS
explosion_time = 15 # in ms
self.status = GameStatus()
self.menu = GameMenu(resolution, self.status.game_menu_text)
self.smenu = SelectionMenu(resolution, self.status.game_selection_text)
# PLAYER INITIALIZATIONS
self.player1 = DisplayPlayers(p1_pos_x, p1_pos_y, p1_fire_type)
self.player2 = DisplayPlayers(p2_pos_x, p2_pos_y, p2_fire_type)
# self.player1.laser_sound.play()
self.player1.hp = Quad(p1_hp_pos, p1_hp_size, p1_hp_color, 'p1')
self.player2.hp = Quad(p2_hp_pos, p2_hp_size, p2_hp_color, 'p2')
self.player1.dhp = Quad(p1_dhp_pos, p1_dhp_size, p1_dhp_color, 'p1')
self.player2.dhp = Quad(p2_dhp_pos, p2_dhp_size, p2_dhp_color, 'p2')
self.player1.gaurd = Quad(p1_gaurd_pos, p1_gaurd_size, p1_gaurd_color,
'p1')
self.player2.gaurd = Quad(p2_gaurd_pos, p2_gaurd_size, p2_gaurd_color,
'p2')
self.menu = GameMenu(resolution, self.status.game_menu_text)
def __init__(self, *args, **kwargs):
# WINDOW INITIALIZATIONS
super().__init__(*args, **kwargs)
self.frame_rate = 1 / 60.0
self.fps_display = FPSDisplay(self)
self.fps_display.label.font_size = 50
# MAKING THE PRIMITIVE DRAWINGS TRANSPARENT
glEnable(GL_BLEND)
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
# GAME MENU INITIALIZATIONS
self.status = GameStatus()
self.menu = GameMenu(resolution, self.status.game_menu_text)
self.smenu = SelectionMenu(resolution, self.status.game_selection_text)
self.cmenu = ControlsMenu()
self.amenu = AboutMenu()
self.start_time = time.time()
# INITIALLY PLAYING THE MENU BG SONG
bg_player.play()
# SPACE BG INITIALIZATIONS
self.space_list = []
self.space_img = preload_image(space_bg_img)
for i in range(2):
self.space_list.append(
DisplayObjects(0, i * 1080, Sprite(self.space_img)))
for space in self.space_list:
space.vel_y = -space_scroll_speed
# PLAYER INITIALIZATIONS
# CREATING PLAYER OBJECTS
self.player1 = DisplayPlayers(p1_pos_x, p1_pos_y, p1_fire_type)
self.player2 = DisplayPlayers(p2_pos_x, p2_pos_y, p2_fire_type)
# PLAYER HP QUAD CREATION
self.player1.hp = Quad(p1_hp_pos, p1_hp_size, p1_hp_color, 'p1')
self.player2.hp = Quad(p2_hp_pos, p2_hp_size, p2_hp_color, 'p2')
# PLAYER GAURD QUAD CREATION
self.player1.gaurd = Quad(p1_gaurd_pos, p1_gaurd_size, p1_gaurd_color,
'p1')
self.player2.gaurd = Quad(p2_gaurd_pos, p2_gaurd_size, p2_gaurd_color,
'p2')
# PLAYER DAMAGE HP QUAD CREATION
self.player1.dhp = Quad(p1_dhp_pos, p1_dhp_size, p1_dhp_color, 'p1')
self.player2.dhp = Quad(p2_dhp_pos, p2_dhp_size, p2_dhp_color, 'p2')
def __init__(self, resolution1, option_list):
global resolution
resolution = resolution1
self.p1_label_list = []
self.p2_label_list = []
self.resolution = resolution
self.p1_nav_pos = [resx(100), resy(850)]
self.p2_nav_pos = [resx(1520), resy(850)]
for i in range(len(option_list)):
self.p1_label_list.append(
pyglet.text.Label(option_list[i],
font_name="Tempus Sans ITC",
font_size=resx(60),
x=self.p1_nav_pos[0] + resx(150),
y=self.p1_nav_pos[1] - (i * 100) - 35,
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True))
for i in range(len(option_list)):
self.p2_label_list.append(
pyglet.text.Label(option_list[i],
font_name="Tempus Sans ITC",
font_size=resx(60),
x=self.p2_nav_pos[0] + resx(150),
y=self.p2_nav_pos[1] - (i * 100) - 35,
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True))
self.menu_bg = Quad([0, resolution[1]], resolution,
[10, 10, 10, 128] * 4)
self.p1_menu_nav = Quad(self.p1_nav_pos, [300, 85],
[100, 10, 0, 128] * 4)
self.p2_menu_nav = Quad(self.p2_nav_pos, [300, 85],
[100, 10, 0, 128] * 4)
self.p1_nav_ofs = 0
self.p2_nav_ofs = 0
self.nav_step = 100
class SelectionMenu:
def __init__(self, resolution1, option_list):
global resolution
resolution = resolution1
self.p1_label_list = []
self.p2_label_list = []
self.resolution = resolution
self.p1_nav_pos = [resx(100), resy(850)]
self.p2_nav_pos = [resx(1520), resy(850)]
for i in range(len(option_list)):
self.p1_label_list.append(
pyglet.text.Label(option_list[i],
font_name="Tempus Sans ITC",
font_size=resx(60),
x=self.p1_nav_pos[0] + resx(150),
y=self.p1_nav_pos[1] - (i * 100) - 35,
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True))
for i in range(len(option_list)):
self.p2_label_list.append(
pyglet.text.Label(option_list[i],
font_name="Tempus Sans ITC",
font_size=resx(60),
x=self.p2_nav_pos[0] + resx(150),
y=self.p2_nav_pos[1] - (i * 100) - 35,
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True))
self.menu_bg = Quad([0, resolution[1]], resolution,
[10, 10, 10, 128] * 4)
self.p1_menu_nav = Quad(self.p1_nav_pos, [300, 85],
[100, 10, 0, 128] * 4)
self.p2_menu_nav = Quad(self.p2_nav_pos, [300, 85],
[100, 10, 0, 128] * 4)
self.p1_nav_ofs = 0
self.p2_nav_ofs = 0
self.nav_step = 100
def draw(self):
self.menu_bg.draw()
for label in self.p1_label_list:
label.draw()
for label in self.p2_label_list:
label.draw()
self.p1_menu_nav.draw()
self.p2_menu_nav.draw()
self.draw_text()
if self.p1_nav_ofs == 0:
self.draw_ship1(200, 150)
self.p1_draw_ship1_stats()
elif self.p1_nav_ofs == 100:
self.draw_ship2(200, 150)
self.p1_draw_ship2_stats()
elif self.p1_nav_ofs == 200:
self.draw_ship3(200, 150)
self.p1_draw_ship3_stats()
if self.p2_nav_ofs == 0:
self.draw_ship1(1656, 150)
self.p2_draw_ship1_stats()
elif self.p2_nav_ofs == 100:
self.draw_ship2(1656, 150)
self.p2_draw_ship2_stats()
elif self.p2_nav_ofs == 200:
self.draw_ship3(1656, 150)
self.p2_draw_ship3_stats()
pyglet.text.Label("Esc",
font_name="Tempus Sans ITC",
font_size=resx(15),
x=0,
y=resolution[1],
anchor_y='top',
color=[255, 255, 255, 75],
bold=True).draw()
def update_p1(self, offset):
self.p1_nav_pos[1] -= offset
self.p1_menu_nav = Quad(self.p1_nav_pos, [300, 80],
[100, 10, 0, 128] * 4)
def update_p2(self, offset):
self.p2_nav_pos[1] -= offset
self.p2_menu_nav = Quad(self.p2_nav_pos, [300, 80],
[100, 10, 0, 128] * 4)
def draw_text(self):
dis_y = resy(450)
dis_x = resx(350)
f_size = resx(25)
t_gap = resy(40)
p_gap = resx(1220)
pyglet.text.Label("PLAYER 1",
font_name="Tempus Sans ITC",
font_size=resx(100),
x=resx(300),
y=resy(1000),
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True).draw()
pyglet.text.Label("PLAYER 2",
font_name="Tempus Sans ITC",
font_size=resx(100),
x=resx(1620),
y=resy(1000),
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True).draw()
for i in range(2):
xanchor = 'right' if i == 0 else 'left'
pyglet.text.Label("SHIP SPEED",
font_name="Tempus Sans ITC",
font_size=f_size,
x=dis_x + (i * p_gap),
y=dis_y,
anchor_x=xanchor,
color=[255, 255, 255, 255],
bold=True).draw()
pyglet.text.Label("LASER SPEED",
font_name="Tempus Sans ITC",
font_size=f_size,
x=dis_x + (i * p_gap),
y=dis_y - (t_gap),
anchor_x=xanchor,
color=[255, 255, 255, 255],
bold=True).draw()
pyglet.text.Label("LASER RANGE",
font_name="Tempus Sans ITC",
font_size=f_size,
x=dis_x + (i * p_gap),
y=dis_y - (t_gap * 2),
anchor_x=xanchor,
color=[255, 255, 255, 255],
bold=True).draw()
pyglet.text.Label("DAMAGE TAKEN",
font_name="Tempus Sans ITC",
font_size=f_size,
x=dis_x + (i * p_gap),
y=dis_y - (t_gap * 3),
anchor_x=xanchor,
color=[255, 255, 255, 255],
bold=True).draw()
pyglet.text.Label("GAURD REGEN RATE",
font_name="Tempus Sans ITC",
font_size=f_size,
x=dis_x + (i * p_gap),
y=dis_y - (t_gap * 4),
anchor_x=xanchor,
color=[255, 255, 255, 255],
bold=True).draw()
def draw_ship1(self, x, y):
Sprite(preload_image(image_path + "ship1.png"), x=resx(x),
y=resy(y)).draw()
def draw_ship2(self, x, y):
Sprite(preload_image(image_path + "ship2.png"), x=resx(x),
y=resy(y)).draw()
def draw_ship3(self, x, y):
Sprite(preload_image(image_path + "ship3.png"), x=resx(x),
y=resy(y)).draw()
def p1_draw_ship1_stats(self):
dis_y = resy(470)
dis_x = resx(400)
for i in range(5):
Quad([dis_x, dis_y - (i * 40)], [ship1_stat_quad_sizes[i], 20],
[255, 0, 0, 255] * 4).draw()
def p1_draw_ship2_stats(self):
dis_y = resy(470)
dis_x = resx(400)
for i in range(5):
Quad([dis_x, dis_y - (i * 40)], [ship2_stat_quad_sizes[i], 20],
[255, 0, 0, 255] * 4).draw()
def p1_draw_ship3_stats(self):
dis_y = resy(470)
dis_x = resx(400)
for i in range(5):
Quad([dis_x, dis_y - (i * 40)], [ship3_stat_quad_sizes[i], 20],
[255, 0, 0, 255] * 4).draw()
def p2_draw_ship1_stats(self):
dis_y = resy(450)
dis_x = resx(1520)
for i in range(5):
Quad_Right([dis_x, dis_y - (i * 40)],
[ship1_stat_quad_sizes[i], 20],
[255, 0, 0, 255] * 4).draw()
def p2_draw_ship2_stats(self):
dis_y = resy(450)
dis_x = resx(1520)
for i in range(5):
Quad_Right([dis_x, dis_y - (i * 40)],
[ship2_stat_quad_sizes[i], 20],
[255, 0, 0, 255] * 4).draw()
def p2_draw_ship3_stats(self):
dis_y = resy(450)
dis_x = resx(1520)
for i in range(5):
Quad_Right([dis_x, dis_y - (i * 40)],
[ship3_stat_quad_sizes[i], 20],
[255, 0, 0, 255] * 4).draw()
def update(self, offset):
self.nav_pos[1] -= offset
self.menu_nav = Quad(self.nav_pos, [300, 80], [100, 10, 0, 128] * 4)
def p1_draw_ship3_stats(self):
dis_y = resy(470)
dis_x = resx(400)
for i in range(5):
Quad([dis_x, dis_y - (i * 40)], [ship3_stat_quad_sizes[i], 20],
[255, 0, 0, 255] * 4).draw()
def __init__(self, *args, **kwargs):
# WINDOW INITIALIZATIONS
super().__init__(*args, **kwargs)
self.frame_rate = 1 / 60.0
self.fps_display = FPSDisplay(self)
self.fps_display.label.font_size = 50
self.nav_ofs = 0
# MAKING THE PRIMITIVE DRAWINGS TRANSPARENT
glEnable(GL_BLEND)
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
self.menu = GameMenu(resolution, game_menu_text)
# SPACE BG INITIALIZATIONS
self.space_list = []
self.space_img = preload_image(space_bg_img)
for i in range(2):
self.space_list.append(
DisplayObjects(0, i * 1200, Sprite(self.space_img)))
for space in self.space_list:
space.vel_y = -space_scroll_speed
# PLAYER INITIALIZATIONS
self.player1 = DisplayPlayers(p1_pos_x, p1_pos_y, p1_sprite, p1_speed,
p1_laser_img, p1_fire_type)
self.player2 = DisplayPlayers(p2_pos_x, p2_pos_y, p2_sprite, p2_speed,
p2_laser_img, p2_fire_type)
self.player1.laser_sound.play()
self.p1_hp = Quad(p1_hp_pos, p1_hp_size, p1_hp_color, 'p1')
self.p2_hp = Quad(p2_hp_pos, p2_hp_size, p2_hp_color, 'p2')
self.p1_gaurd = Quad(p1_gaurd_pos, p1_gaurd_size, p1_gaurd_color, 'p1')
self.p2_gaurd = Quad(p2_gaurd_pos, p2_gaurd_size, p2_gaurd_color, 'p2')
self.p1_dhp = Quad(p1_dhp_pos, p1_dhp_size, p1_dhp_color, 'p1')
self.p2_dhp = Quad(p2_dhp_pos, p2_dhp_size, p2_dhp_color, 'p2')
class MyWindow(pyglet.window.Window):
def __init__(self, *args, **kwargs):
# WINDOW INITIALIZATIONS
super().__init__(*args, **kwargs)
self.frame_rate = 1 / 60.0
self.fps_display = FPSDisplay(self)
self.fps_display.label.font_size = 50
self.nav_ofs = 0
# MAKING THE PRIMITIVE DRAWINGS TRANSPARENT
glEnable(GL_BLEND)
glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA)
self.menu = GameMenu(resolution, game_menu_text)
# SPACE BG INITIALIZATIONS
self.space_list = []
self.space_img = preload_image(space_bg_img)
for i in range(2):
self.space_list.append(
DisplayObjects(0, i * 1200, Sprite(self.space_img)))
for space in self.space_list:
space.vel_y = -space_scroll_speed
# PLAYER INITIALIZATIONS
self.player1 = DisplayPlayers(p1_pos_x, p1_pos_y, p1_sprite, p1_speed,
p1_laser_img, p1_fire_type)
self.player2 = DisplayPlayers(p2_pos_x, p2_pos_y, p2_sprite, p2_speed,
p2_laser_img, p2_fire_type)
self.player1.laser_sound.play()
self.p1_hp = Quad(p1_hp_pos, p1_hp_size, p1_hp_color, 'p1')
self.p2_hp = Quad(p2_hp_pos, p2_hp_size, p2_hp_color, 'p2')
self.p1_gaurd = Quad(p1_gaurd_pos, p1_gaurd_size, p1_gaurd_color, 'p1')
self.p2_gaurd = Quad(p2_gaurd_pos, p2_gaurd_size, p2_gaurd_color, 'p2')
self.p1_dhp = Quad(p1_dhp_pos, p1_dhp_size, p1_dhp_color, 'p1')
self.p2_dhp = Quad(p2_dhp_pos, p2_dhp_size, p2_dhp_color, 'p2')
def on_resize(self, width, height):
width = max(1, width)
height = max(1, height)
glViewport(0, 0, width, height)
glMatrixMode(GL_PROJECTION)
glLoadIdentity()
glOrtho(0, width, 0, height, -1, 1)
glMatrixMode(GL_MODELVIEW)
def on_key_press(self, symbol, modifiers):
global game_running, game_options, game_credits, game_paused
if symbol == key.ESCAPE:
if game_options:
game_options = False
if game_credits:
game_credits = False
# FOR PAUSING THE GAME
if game_running and not game_paused:
game_paused = True
game_running = False
self.menu = GameMenu(resolution,
["resume", "controls", "credits", "exit"])
if symbol == key.ENTER:
# FOR STARTING THE GAME
if not game_running and not game_over and self.nav_ofs == 0:
game_running = True
game_paused = False
# FOR ENTERING THE CONTROLS MENU
elif not game_running and not game_over and self.nav_ofs == 100:
game_options = True
# FOR ENTERING THE CREDITS MENU
elif not game_running and not game_over and self.nav_ofs == 200:
game_credits = True
# FOR EXITING THE GAME
elif not game_running and not game_over and self.nav_ofs == 300:
pyglet.app.exit()
# FOR RELOADING THE GAME AFTER GAME OVER
if not game_running and game_over:
self.reload()
# PLAYER 1 KEY PRESS EVENTS
if symbol == key.D:
self.player1.right = True
if symbol == key.A:
self.player1.left = True
if symbol == key.W:
self.player1.up = True
# FOR NAVIGATING UP IN GAME MENU
if not game_running and not game_over and not game_options and not game_credits:
if self.nav_ofs > 0:
self.menu.update(-game_menu_nav_step)
self.nav_ofs -= game_menu_nav_step
elif self.nav_ofs == 0:
self.nav_ofs = (len(game_menu_text) -
1) * game_menu_nav_step
self.menu.update(
((len(game_menu_text) - 1) * game_menu_nav_step))
if symbol == key.S:
self.player1.down = True
# FOR NAVIGATING DOWN IN GAME MENU
if not game_running and not game_over and not game_options and not game_credits:
if self.nav_ofs < (len(game_menu_text) -
1) * game_menu_nav_step:
self.menu.update(game_menu_nav_step)
self.nav_ofs += game_menu_nav_step
elif self.nav_ofs == (len(game_menu_text) -
1) * game_menu_nav_step:
self.nav_ofs = 0
self.menu.update(-(
(len(game_menu_text) - 1) * game_menu_nav_step))
if symbol == key.F and game_running:
# TOGGLE FIRE (MANUAL/AUTO)
if self.player1.fire_type == "auto":
self.player1.fire_type = "manual"
else:
self.player1.fire_type = "auto"
if symbol == key.SPACE and game_running:
if self.player1.fire_type == "auto":
self.player1.fire = True
else:
self.player1.laser_list.append(
DisplayLasers(self.player1.pos_x + 90,
self.player1.pos_y + 30,
Sprite(self.player1.fire_img)))
self.player1.laser_sound.play()
if symbol == key.LSHIFT and game_running:
self.player1.gaurd = True
# PLAYER 2 KEY PRESS EVENTS
if symbol == key.RIGHT:
self.player2.right = True
if symbol == key.LEFT:
self.player2.left = True
if symbol == key.UP:
self.player2.up = True
if symbol == key.DOWN:
self.player2.down = True
if symbol == key.NUM_0 and game_running:
if self.player2.fire_type == "auto":
self.player2.fire_type = "manual"
else:
self.player2.fire_type = "auto"
if symbol == key.P and game_running:
if self.player2.fire_type == "auto":
self.player2.fire = True
else:
self.player2.laser_list.append(
DisplayLasers(self.player2.pos_x - 15,
self.player2.pos_y + 30,
Sprite(self.player2.fire_img)))
self.player2.laser_sound.play()
if symbol == key.RALT and game_running:
self.player2.gaurd = True
def on_key_release(self, symbol, modifiers):
# PLAYER 1 KEY RELEASE EVENTS
if symbol == key.D:
self.player1.right = False
if symbol == key.A:
self.player1.left = False
if symbol == key.W:
self.player1.up = False
if symbol == key.S:
self.player1.down = False
if symbol == key.SPACE:
if self.player1.fire_type == "auto":
self.player1.fire = False
if symbol == key.LSHIFT and game_running:
self.player1.gaurd = False
# PLAYER 1 KEY RELEASE EVENTS
if symbol == key.RIGHT:
self.player2.right = False
if symbol == key.LEFT:
self.player2.left = False
if symbol == key.UP:
self.player2.up = False
if symbol == key.DOWN:
self.player2.down = False
if symbol == key.P:
if self.player2.fire_type == "auto":
self.player2.fire = False
if symbol == key.RALT and game_running:
self.player2.gaurd = False
def on_draw(self):
self.clear()
# SPACE BG DRAWING
for space in self.space_list:
space.draw()
# PLAYER DRAWINGS
if not self.player1.lost:
self.player1.draw()
if not self.player2.lost:
self.player2.draw()
# GAME MENU DRAWINGS
if game_options:
Quad([0, resolution[1]], resolution, [100, 10, 10, 128] * 4).draw()
elif game_credits:
Quad([0, resolution[1]], resolution, [10, 10, 100, 128] * 4).draw()
elif not game_running and not game_over:
self.menu.draw()
pyglet.text.Label("DUAL",
font_name="Tempus Sans ITC",
font_size=150,
x=resolution[0] / 2,
y=700,
anchor_x="center",
anchor_y="center",
color=[200, 255, 255, 255],
bold=True).draw()
if game_running:
# PLAYER LASER DRAWINGS
for lsr in self.player1.laser_list:
lsr.draw()
for lsr in self.player2.laser_list:
lsr.draw()
# PLAYER HP DRAWINGS
self.p1_dhp.draw()
self.p2_dhp.draw()
self.p1_hp.draw()
self.p2_hp.draw()
# PLAYER GAURD DRAWINGS
self.p1_gaurd.draw()
self.p2_gaurd.draw()
# PLAYER EXPLOSION DRAWINGS
for explosion in self.player1.exp_list:
explosion.draw()
for explosion in self.player2.exp_list:
explosion.draw()
# GAME OVER MENU DRAWINGS
if game_over:
self.menu.menu_bg.draw()
pyglet.text.Label(winner + " WINS",
font_name="Tempus Sans ITC",
font_size=80,
x=resolution[0] / 2,
y=(resolution[1] / 2) + 200,
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True).draw()
pyglet.text.Label("PRESS ENTER TO RELOAD",
font_name="Tempus Sans ITC",
font_size=60,
x=resolution[0] / 2,
y=resolution[1] / 2,
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True).draw()
# FPS LABEL DRAWING
self.fps_display.draw()
def update(self, dt):
self.update_space(dt)
if game_running and not game_paused:
self.update_player(self.player1, p1_base, dt)
self.update_player(self.player2, p2_base, dt)
self.player_auto_fire(dt)
self.update_player_laser(dt)
self.update_explosion(self.player1)
self.update_explosion(self.player2)
self.p1_hp.update(p1_hp_pos, p1_hp_size)
self.p2_hp.update(p2_hp_pos, p2_hp_size)
self.update_gaurd()
self.update_dhp()
def update_space(self, dt):
# FOR SCROLLING SPACE BG
for space in self.space_list:
space.update(dt)
if space.pos_y <= -1300:
self.space_list.remove(space)
self.space_list.append(
DisplayObjects(0, 1100, Sprite(self.space_img)))
space.vel_y = -space_scroll_speed
def update_player(self, player, player_base, dt):
# PLAYER MOVEMENTS INSIDE PLAYER BASE
if player.right and player.pos_x < player_base[1] - player.width:
player.pos_x += player.speed * dt
if player.left and player.pos_x > player_base[0]:
player.pos_x -= player.speed * dt
if player.up and player.pos_y < resolution[1] - player.height - 100:
player.pos_y += player.speed * dt
if player.down and player.pos_y > 0:
player.pos_y -= player.speed * dt
# UPDATING PLAYER MOVEMENTS
player.update(dt)
def player_auto_fire(self, dt):
if self.player1.fire and self.player1.fire_type == "auto":
self.player1.fire_rate -= dt
if self.player1.fire_rate <= 0:
self.player1.laser_list.append(
DisplayLasers(self.player1.pos_x + 90,
self.player1.pos_y + 30,
Sprite(self.player1.fire_img)))
self.player1.laser_sound.play()
self.player1.fire_rate += 1 - p1_fire_rate
if self.player2.fire and self.player2.fire_type == "auto":
self.player2.fire_rate -= dt
if self.player2.fire_rate <= 0:
self.player2.laser_list.append(
DisplayLasers(self.player2.pos_x - 15,
self.player2.pos_y + 30,
Sprite(self.player2.fire_img)))
self.player2.laser_sound.play()
self.player2.fire_rate += 1 - p2_fire_rate
def update_player_laser(self, dt):
global p2_hp_score, p1_hp_score
sp = 15
# UPDATING LASER POSITIONS OF PLAYER 1
for lsr in self.player1.laser_list:
lsr.update()
lsr.pos_x += p1_laser_speed * dt
if lsr.pos_x > lsr.initial_pos_x + p1_laser_range:
self.player1.laser_list.remove(lsr)
elif self.player2.pos_x + self.player2.width > lsr.pos_x + lsr.width > self.player2.pos_x + sp:
if self.player2.pos_y < lsr.pos_y + lsr.height and lsr.pos_y < self.player2.pos_y + self.player2.height:
if not self.player2.gaurd or (
self.player2.gaurd
and p2_gaurd_pos[0] >= resolution[0]):
self.player1.laser_list.remove(lsr)
p2_hp_pos[0] += p2_damage_taken
p2_hp_score -= 1
self.check_game_status()
self.player1.exp_list.append(
SpriteAnimation(
explosion_img, [4, 5], [480, 384], 0.1,
[lsr.pos_x + lsr.width - 48, lsr.pos_y - 48
]).get_sprite())
self.player1.exp_timer.append(explosion_time)
exp_sound.play()
# UPDATING LASER POSITIONS OF PLAYER 2
for lsr in self.player2.laser_list:
lsr.update()
lsr.pos_x -= p2_laser_speed * dt
if lsr.pos_x < lsr.initial_pos_x - p2_laser_range:
self.player2.laser_list.remove(lsr)
elif self.player1.pos_x < lsr.pos_x < self.player1.pos_x + self.player1.width - sp:
if self.player1.pos_y < lsr.pos_y < self.player1.pos_y + self.player1.height:
if not self.player1.gaurd or (self.player1.gaurd
and p1_gaurd_size[0] <= 0):
self.player2.laser_list.remove(lsr)
p1_hp_size[0] -= p1_damage_taken
p1_hp_score -= 1
self.check_game_status()
self.player2.exp_list.append(
SpriteAnimation(
explosion_img, [4, 5], [480, 384], 0.1,
[lsr.pos_x + lsr.width - 48, lsr.pos_y - 48
]).get_sprite())
self.player2.exp_timer.append(explosion_time)
exp_sound.play()
def update_explosion(self, player):
exploded = False
for i in range(len(player.exp_timer)):
player.exp_timer[i] -= 1
if player.exp_timer[i] <= 0:
exploded = True
if exploded:
player.exp_list.pop(0)
player.exp_timer.pop(0)
def update_gaurd(self):
global p1_gaurd_size, p2_gaurd_size
self.p1_gaurd.update(p1_gaurd_pos, p1_gaurd_size)
self.p2_gaurd.update(p2_gaurd_pos, p2_gaurd_size)
if self.player1.gaurd and p1_gaurd_size[0] > 0:
p1_gaurd_size[0] -= p1_guard_consumption_rate
elif p1_gaurd_size[0] < p1_total_gaurd:
p1_gaurd_size[0] += p1_gaurd_regen_rate
if self.player2.gaurd and p2_gaurd_pos[0] < resolution[0]:
p2_gaurd_pos[0] += p2_guard_consumption_rate
elif p2_gaurd_pos[0] > resolution[0] - p2_total_gaurd:
p2_gaurd_pos[0] -= p2_gaurd_regen_rate
def check_game_status(self):
global game_running, game_over, winner, explosion_time
if p1_hp_score <= 0:
game_running = False
game_over = True
winner = "PLAYER 2"
self.player1.lost = True
explosion_time = 25
if p2_hp_score <= 0:
game_running = False
game_over = True
winner = "PLAYER 1"
self.player2.lost = True
explosion_time = 25
def reload(self):
global game_running, game_over, winner, p1_hp_pos, p1_total_life, p1_hp_size, p1_hp_score, p2_hp_pos, \
p2_hp_size, p2_total_life, p2_hp_score, explosion_time, p1_gaurd_size, p2_gaurd_pos, p1_dhp_pos, p1_dhp_size, p2_dhp_pos, p2_dhp_size
# GAME DETAILS
game_running = False
game_over = False
winner = None
# PLAYER 1 DETAILS
p1_total_life = 550
p1_hp_pos = [0, 800]
p1_hp_size = [p1_total_life, 20]
p1_hp_score = p1_total_life / p1_damage_taken
p1_gaurd_size = [p1_total_gaurd, 20]
p1_dhp_pos = p1_hp_pos.copy()
p1_dhp_size = p1_hp_size.copy()
# PLAYER 2 DETAILS
p2_total_life = 550
p2_hp_pos = [resolution[0] - p2_total_life, 800]
p2_hp_size = [p2_total_life, 20]
p2_hp_score = p2_total_life / p2_damage_taken
p2_gaurd_pos = [resolution[0] - p2_total_gaurd, 770]
p2_dhp_pos = p2_hp_pos.copy()
p2_dhp_size = p2_hp_size.copy()
# OTHER DETAILS
explosion_time = 15 # in ms
# PLAYER INITIALIZATIONS
self.player1 = DisplayPlayers(p1_pos_x, p1_pos_y, p1_sprite, p1_speed,
p1_laser_img, p1_fire_type)
self.player2 = DisplayPlayers(p2_pos_x, p2_pos_y, p2_sprite, p2_speed,
p2_laser_img, p2_fire_type)
# self.player1.laser_sound.play()
self.p1_hp = Quad(p1_hp_pos, p1_hp_size, p1_hp_color, 'p1')
self.p2_hp = Quad(p2_hp_pos, p2_hp_size, p2_hp_color, 'p2')
self.p1_dhp = Quad(p1_dhp_pos, p1_dhp_size, p1_dhp_color, 'p1')
self.p2_dhp = Quad(p2_dhp_pos, p2_dhp_size, p2_dhp_color, 'p2')
self.p1_gaurd = Quad(p1_gaurd_pos, p1_gaurd_size, p1_gaurd_color, 'p1')
self.p2_gaurd = Quad(p2_gaurd_pos, p2_gaurd_size, p2_gaurd_color, 'p2')
self.menu = GameMenu(resolution, game_menu_text)
def update_dhp(self):
global p1_dhp_size, p2_dhp_pos
self.p1_dhp.update(p1_dhp_pos, p1_dhp_size)
self.p2_dhp.update(p2_dhp_pos, p2_dhp_size)
if p1_hp_size[0] < p1_dhp_size[0]:
p1_dhp_size[0] -= 1.5
if p2_hp_pos[0] > p2_dhp_pos[0]:
p2_dhp_pos[0] += 1.5
def reload(self):
global game_running, game_over, winner, p1_hp_pos, p1_total_life, p1_hp_size, p1_hp_score, p2_hp_pos, \
p2_hp_size, p2_total_life, p2_hp_score, explosion_time, p1_gaurd_size, p2_gaurd_pos, p1_dhp_pos, p1_dhp_size, p2_dhp_pos, p2_dhp_size
# GAME DETAILS
game_running = False
game_over = False
winner = None
# PLAYER 1 DETAILS
p1_total_life = 550
p1_hp_pos = [0, 800]
p1_hp_size = [p1_total_life, 20]
p1_hp_score = p1_total_life / p1_damage_taken
p1_gaurd_size = [p1_total_gaurd, 20]
p1_dhp_pos = p1_hp_pos.copy()
p1_dhp_size = p1_hp_size.copy()
# PLAYER 2 DETAILS
p2_total_life = 550
p2_hp_pos = [resolution[0] - p2_total_life, 800]
p2_hp_size = [p2_total_life, 20]
p2_hp_score = p2_total_life / p2_damage_taken
p2_gaurd_pos = [resolution[0] - p2_total_gaurd, 770]
p2_dhp_pos = p2_hp_pos.copy()
p2_dhp_size = p2_hp_size.copy()
# OTHER DETAILS
explosion_time = 15 # in ms
# PLAYER INITIALIZATIONS
self.player1 = DisplayPlayers(p1_pos_x, p1_pos_y, p1_sprite, p1_speed,
p1_laser_img, p1_fire_type)
self.player2 = DisplayPlayers(p2_pos_x, p2_pos_y, p2_sprite, p2_speed,
p2_laser_img, p2_fire_type)
# self.player1.laser_sound.play()
self.p1_hp = Quad(p1_hp_pos, p1_hp_size, p1_hp_color, 'p1')
self.p2_hp = Quad(p2_hp_pos, p2_hp_size, p2_hp_color, 'p2')
self.p1_dhp = Quad(p1_dhp_pos, p1_dhp_size, p1_dhp_color, 'p1')
self.p2_dhp = Quad(p2_dhp_pos, p2_dhp_size, p2_dhp_color, 'p2')
self.p1_gaurd = Quad(p1_gaurd_pos, p1_gaurd_size, p1_gaurd_color, 'p1')
self.p2_gaurd = Quad(p2_gaurd_pos, p2_gaurd_size, p2_gaurd_color, 'p2')
self.menu = GameMenu(resolution, game_menu_text)
def on_draw(self):
self.clear()
# SPACE BG DRAWING
for space in self.space_list:
space.draw()
# PLAYER DRAWINGS
if not self.player1.lost:
self.player1.draw()
if not self.player2.lost:
self.player2.draw()
# GAME MENU DRAWINGS
if game_options:
Quad([0, resolution[1]], resolution, [100, 10, 10, 128] * 4).draw()
elif game_credits:
Quad([0, resolution[1]], resolution, [10, 10, 100, 128] * 4).draw()
elif not game_running and not game_over:
self.menu.draw()
pyglet.text.Label("DUAL",
font_name="Tempus Sans ITC",
font_size=150,
x=resolution[0] / 2,
y=700,
anchor_x="center",
anchor_y="center",
color=[200, 255, 255, 255],
bold=True).draw()
if game_running:
# PLAYER LASER DRAWINGS
for lsr in self.player1.laser_list:
lsr.draw()
for lsr in self.player2.laser_list:
lsr.draw()
# PLAYER HP DRAWINGS
self.p1_dhp.draw()
self.p2_dhp.draw()
self.p1_hp.draw()
self.p2_hp.draw()
# PLAYER GAURD DRAWINGS
self.p1_gaurd.draw()
self.p2_gaurd.draw()
# PLAYER EXPLOSION DRAWINGS
for explosion in self.player1.exp_list:
explosion.draw()
for explosion in self.player2.exp_list:
explosion.draw()
# GAME OVER MENU DRAWINGS
if game_over:
self.menu.menu_bg.draw()
pyglet.text.Label(winner + " WINS",
font_name="Tempus Sans ITC",
font_size=80,
x=resolution[0] / 2,
y=(resolution[1] / 2) + 200,
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True).draw()
pyglet.text.Label("PRESS ENTER TO RELOAD",
font_name="Tempus Sans ITC",
font_size=60,
x=resolution[0] / 2,
y=resolution[1] / 2,
anchor_x="center",
anchor_y="center",
color=[255, 255, 255, 255],
bold=True).draw()
# FPS LABEL DRAWING
self.fps_display.draw()
