def main():
pygame.init()
window = Window(1092, 780)
input_m = InputManager()
physics = PhysicsEngine()
logic = LogicManager()
clock = pygame.time.Clock()
entities = spawn_entities_level_one()
running = True
level = 1
while(running):
try:
running = input_m.update()
clock.tick()
dt = clock.get_time()
logic.update(entities, input_m, dt)
physics.update(entities, dt)
window.render(entities, dt)
except NewLevelException:
window.change_level(clock,
pygame.Rect(650, 480, 100, 100),
3000)
entities = spawn_entities_level_two()
level = 2
except ResetLevelException:
if level == 2:
entities = spawn_entities_level_two()
window.enter_level2()
else:
entities = spawn_entities_level_one()
def _mainloop(self, fps):
step = 1. / fps
clock = pygame.time.Clock()
while not Input.quitflag:
Input.update()
map(GameObject.update, GameObject._gameobjects)
#self.scene.lateupdate()
self._renderloop()
PhysicsEngine.step(step * Game.scale)
delta = clock.tick(fps)
Game.delta = delta / 1000.
def _mainloop(self, fps):
step = 1. / fps
clock = pygame.time.Clock()
while not Input.quitflag:
Input.update()
map(GameObject.update, GameObject._gameobjects)
#self.scene.lateupdate()
self._renderloop()
PhysicsEngine.step(step * Game.scale)
delta = clock.tick(fps)
Game.delta = delta / 1000.
def setup(self):
# create UI
# self.ui_manager.add_ui_element(self.button)
# create the player
self.load_level(self.map)
self.players = arcade.SpriteList()
self.player = Player(self.map.spawn_x, self.map.spawn_y, SCALE)
self.player.weapon_type = ThrowingKnife
self.player.weapon_stats = self.knives['starter']
self.players.append(self.player)
self.controls = {
'a': {
'func': self.player.speed_x,
'param': -self.player_speed
},
'd': {
'func': self.player.speed_x,
'param': self.player_speed
}
}
self.slow = {
'a': {
'func': self.player.speed_x,
'param': -.5
},
'd': {
'func': self.player.speed_x,
'param': .5
}
}
# setup the physics engine
self.physics_engine = arcade.PhysicsEnginePlatformer(
self.player, self.surface_list, GRAVITY)
self.physics_engine.disable_multi_jump()
# set initial texture
self.player.update_animation()
self.physics = PhysicsEngine(self.player, self.surface_list,
self.target_list, 3, self.map)
self.max_len = self.player.max_hp * 10
self.show_math = False
self.scroll_manager.set_view_max(right=self.map.x_bound,
left=0,
top=self.map.y_bound,
bottom=0)
def __init__(self, density):
"""
Initializes the rigidbody representation. *density* is the integer that indicates
the density of the body
"""
Component.__init__(self)
self.density = density
self._body = PhysicsEngine.createbody()
def __init__(self, density):
"""
Initializes the rigidbody representation. *density* is the integer that indicates
the density of the body
"""
Component.__init__(self)
self.density = density
self._body = PhysicsEngine.createbody()
def start(self):
mass = PhysicsEngine.createmass()
mass.setBox(self.density, *self.transform.scale)
self._body.setMass(mass)
self._body.setPosition(self.transform.position)
self._body.setQuaternion(self.transform.rotation)
self.transform._setbody(self._body)
if self.collider is not None:
self._setcollider()
def start(self):
mass = PhysicsEngine.createmass()
mass.setBox(self.density, *self.transform.scale)
self._body.setMass(mass)
self._body.setPosition(self.transform.position)
self._body.setQuaternion(self.transform.rotation)
self.transform._setbody(self._body)
if self.collider is not None:
self._setcollider()
def pickMode(self, initial_call):
mode = AutoMode.STEAL
if mode == AutoMode.LAWFUL:
PhysicsEngine.setSimulationPose(waypoints.Waypoints.START_LAWFUL)
self.next_state("collectTrenchRunBalls")
elif mode == AutoMode.STEAL:
PhysicsEngine.setSimulationPose(waypoints.Waypoints.START_STEAL)
self.next_state("stealTrenchRunBalls")
elif mode == AutoMode.RENDEZVOUS:
PhysicsEngine.setSimulationPose(waypoints.Waypoints.START_CENTER)
self.next_state("collectTwoRendezvousBalls")
else:
self.next_state("success")
def setup(self):
PhysicsEngine.setSimulationPose(waypoints.Waypoints.START_LAWFUL)
if med_spd == min_spd:
color = WHITE
else:
value = (ball_spd - min_spd) / (med_spd - min_spd)
color = Color4(value*223 + 32, 32, 255)
ball.trace_color = color
pygame.init()
WINDOW_SIZE = (1280, 720) # размер окна в пикселах
WINDOW_BG_COLOR = BLACK # цвет окна
OFFSET = 50
GRAVITY = Vec2d(0, 500)
phys_engine = PhysicsEngine(GRAVITY)
render_manager = RenderManager(WINDOW_SIZE, WINDOW_BG_COLOR)
width, height = render_manager.get_size()
backyblacky = Blackground(OFFSET, OFFSET, width - 2 * OFFSET, height - 2 * OFFSET)
BALL_POS = Vec2d(width / 2, height / 2)
BALL_SPEED = 1350
def create_balls():
magic_ball = Ball(BALL_POS, 50)
magic_ball.speed = BALL_SPEED * random_vector()
result = [magic_ball]
for x in (-1, 0, 1):
def __init__(self, gravity=(0, -9.8, 0), erp=.8, cfm=1e-5):
"""
Initializes the physics for the current scene
"""
PhysicsEngine.start(gravity, erp, cfm)
def start(self):
scale = self.transform.scale
self._geom = PhysicsEngine.creategeom("Box", (scale,))
self._fixedstart()
def __init__(self, gravity=(0, -9.8, 0), erp=.8, cfm=1e-5):
"""
Initializes the physics for the current scene
"""
PhysicsEngine.start(gravity, erp, cfm)
def start(self):
radius = self.transform.scale[0] / 2.
self._geom = PhysicsEngine.creategeom("Sphere", (radius, ))
self._fixedstart()
def start(self):
scale = self.transform.scale
self._geom = PhysicsEngine.creategeom("Box", (scale, ))
self._fixedstart()
class Game(arcade.Window):
def __init__(self):
super().__init__(SW, SH, "Sharpthrow Shawn")
self.set_vsync(True)
self.set_update_rate(1 / FPS)
self.set_mouse_visible(True)
arcade.set_background_color(arcade.color.CHARCOAL)
self.player = None
self.players = arcade.SpriteList()
self.enemies = arcade.SpriteList()
self.controls = {}
self.player_speed = PLAYER_SPEED
self.ground_list = arcade.SpriteList()
self.target_list = arcade.SpriteList()
self.wall_list = arcade.SpriteList()
self.surface_list = arcade.SpriteList()
self.keys_pressed = []
self.right_view = SW
self.left_view = 0
self.top_view = SH
self.bottom_view = 0
self.left_boundary = 0
self.right_boundary = 0
self.top_boundary = 0
self.bottom_boundary = 0
self.game_over = False
self.score = 0
self.mouse_pos = (0, 0)
self.show_trail = False
self.weapon_traject = None
self.trail_loaded = False
# Time for on_update
self.processing_time = 0
self.mouse_x, self.mouse_y = 0, 0
# mc = pyglet.image.load("resources/sprites/mouse.png")
# m = pyglet.window.ImageMouseCursor(mc)
# self.set_mouse_cursor(m)
# arcade.load_texture('resources/sprites/mouse.png')
# Time for on_draw
self.draw_time = 0
self.cursor = arcade.Sprite("resources/sprites/item/knife.png", .8)
self.cursor.angle = 80
# Variables used to calculate frames per second
self.frame_count = 0
self.fps_start_timer = None
self.fps = None
self.tri = None
self.knife_collisions = True
self.knives_to_load = [load_knife(knife) for knife in item_load.knives]
self.knives = {knife.name: knife for knife in self.knives_to_load}
self.set_level("test")
self.scroll_manager = ScrollManager(self)
self.scroll_manager.set_view_change_margins(right=RIGHT_VIEW_MARGIN,
left=LEFT_VIEW_MARGIN,
top=TOP_VIEW_MARGIN,
bottom=BOTTOM_VIEW_MARGIN)
# physics.TimeTrajectory(10, 10, 35, 12, 3, 1654, .5)
# physics.Triangle(10, 25, 4, 16, 100)
self.setup()
def setup(self):
# create UI
# self.ui_manager.add_ui_element(self.button)
# create the player
self.load_level(self.map)
self.players = arcade.SpriteList()
self.player = Player(self.map.spawn_x, self.map.spawn_y, SCALE)
self.player.weapon_type = ThrowingKnife
self.player.weapon_stats = self.knives['starter']
self.players.append(self.player)
self.controls = {
'a': {
'func': self.player.speed_x,
'param': -self.player_speed
},
'd': {
'func': self.player.speed_x,
'param': self.player_speed
}
}
self.slow = {
'a': {
'func': self.player.speed_x,
'param': -.5
},
'd': {
'func': self.player.speed_x,
'param': .5
}
}
# setup the physics engine
self.physics_engine = arcade.PhysicsEnginePlatformer(
self.player, self.surface_list, GRAVITY)
self.physics_engine.disable_multi_jump()
# set initial texture
self.player.update_animation()
self.physics = PhysicsEngine(self.player, self.surface_list,
self.target_list, 3, self.map)
self.max_len = self.player.max_hp * 10
self.show_math = False
self.scroll_manager.set_view_max(right=self.map.x_bound,
left=0,
top=self.map.y_bound,
bottom=0)
def on_draw(self):
start_time = timeit.default_timer()
# --- Calculate FPS
fps_calculation_freq = FPS
# Once every 60 frames, calculate our FPS
if self.frame_count % fps_calculation_freq == 0:
# Do we have a start time?
if self.fps_start_timer is not None:
# Calculate FPS
total_time = timeit.default_timer() - self.fps_start_timer
self.fps = fps_calculation_freq / total_time
# Reset the timer
self.fps_start_timer = timeit.default_timer()
# Add one to our frame count
self.frame_count += 1
arcade.start_render()
# self.ui_manager.on_draw()
# draw score
# arcade.draw_text(f"Score: {self.score}", self.left_view + SW / 2 - 10, self.top_view - 50, arcade.color.WHITE,
# 20)
# # draw player pos and mouse pos
# arcade.draw_text(f"X: {self.player.center_x}, Y:{self.player.center_y}", self.right_view - 10,
# self.top_view - 40, arcade.color.BLACK, 12)
# output = f"Mouse_Pos: {self.mouse_pos}"
# arcade.draw_text(output, self.right_view - 10, self.top_view - 20,
# arcade.color.BLACK, 12)
# tm = time.perf_counter()
if self.player.weapons:
self.player.weapons.draw()
# self.player.weapons[-1].trajectory.draw()
if self.tri and self.show_math:
# self.set_triangle()
self.draw_traject_triangle()
if self.player.old_weapons:
self.player.old_weapons.draw()
self.players.draw()
self.surface_list.draw()
self.target_list.draw()
self.wall_list.draw()
self.ground_list.draw()
if self.trail_loaded:
self.physics.draw_trajectory(self.weapon_traject)
# self.weapon_traject.draw()
# print("time to draw:", time.perf_counter() - tm)
# calculate length of health bar
box_len = self.player.hp * 10
# draw the player's health bar
arcade.draw_lrtb_rectangle_filled(self.left_view + 25,
self.left_view + 25 + self.max_len,
self.bottom_view + 35,
self.bottom_view + 17.5,
arcade.color.WHITE_SMOKE)
arcade.draw_lrtb_rectangle_filled(self.left_view + 25,
self.left_view + 25 + box_len,
self.bottom_view + 35,
self.bottom_view + 17.5,
arcade.color.IMPERIAL_RED)
arcade.draw_text("HP", self.left_view + 2, self.bottom_view + 17.5,
arcade.color.BLACK, 15)
output = f"Processing time: {self.processing_time:.3f}"
arcade.draw_text(output, self.left_view + 10, self.top_view - 25,
arcade.color.BLACK, 18)
output = f"Drawing time: {self.draw_time:.3f}"
arcade.draw_text(output, self.left_view + 10, self.top_view - 50,
arcade.color.BLACK, 18)
if self.fps is not None:
output = f"FPS: {self.fps:.0f}"
arcade.draw_text(output, self.left_view + 10, self.top_view - 75,
arcade.color.BLACK, 18)
# self.cursor.draw()
# Stop the draw timer, and calculate total on_draw time.
self.draw_time = timeit.default_timer() - start_time
def on_update(self, delta_time: float):
start_time = timeit.default_timer()
# Start timing how long this takes
# self.ui_manager.on_update(delta_time)
# x = self.mouse_x + (self.right_view - SW)
# y = self.mouse_y + (self.top_view - SH)
# self.mouse_pos = (x, y)
# self.cursor.position = self.actual_pos((self.mouse_x, self.mouse_y))
# self.button.update_pos(self.right_view - 300, self.top_view - 300)
if self.player.weapons:
# x = time.perf_count er()
# print(len(self.player.weapons))
# print("player weapons:", len(self.player.weapons))
for knife in self.player.weapons:
# hit_walls = arcade.check_for_collision_with_list(knife, self.wall_list)
if self.map.collisions == "block":
hits = arcade.check_for_collision_with_list(
knife, self.surface_list)
else:
hits = arcade.check_for_collision_with_list(
knife, self.target_list)
hit_knives = arcade.check_for_collision_with_list(
knife, self.player.old_weapons)
if hits or hit_knives:
# knife.hit_sound.play(1)
# knife.thrown = False
self.player.old_weapons.append(knife)
self.player.weapons.remove(knife)
self.physics.remove_object(knife)
if self.knife_collisions:
self.surface_list.append(knife)
# print(f"knife time: {time.perf_counter() - x}")
self.player.update()
self.player.update_animation()
# self.physics_engine.update()
self.physics.update()
self.scroll_manager.update()
if self.map.name == 'tutorial' and self.player.center_y < 200:
self.setup()
# screen scrolling system
# changed = self.scroll_screen()
self.set_projectile()
self.key_change()
self.processing_time = timeit.default_timer() - start_time
self.right_view, self.left_view, self.top_view, self.bottom_view = self.scroll_manager.get_views(
)
def key_change(self):
if self.keys_pressed:
key = self.keys_pressed[0]
f = self.controls[key]['func']
f(self.controls[key]['param'])
else:
self.player.speed_x(0)
def actual_x(self, x):
return x + (self.right_view - SW)
def actual_y(self, y):
return y + self.top_view - SH
def actual_pos(self, pos):
new_x = self.actual_x(pos[0])
new_y = self.actual_y((pos[1]))
return new_x, new_y
def set_level(self, map_name):
self.map = load_map(map_name)
def load_level(self, level):
map_name = f"resources/maps/{level.name}.tmx"
level_map = arcade.tilemap.read_tmx(map_name)
# generate the tiles for the ground, and for ladders
self.ground_list = arcade.tilemap.process_layer(
map_object=level_map,
layer_name="ground",
scaling=BLOCK_SCALE,
use_spatial_hash=True,
hit_box_algorithm="Simple")
self.surface_list = arcade.tilemap.process_layer(map_object=level_map,
layer_name="surface",
scaling=BLOCK_SCALE,
use_spatial_hash=True)
self.target_list = arcade.tilemap.process_layer(map_object=level_map,
layer_name="targets",
scaling=BLOCK_SCALE,
use_spatial_hash=True)
self.wall_list = arcade.tilemap.process_layer(map_object=level_map,
layer_name="walls",
scaling=BLOCK_SCALE,
use_spatial_hash=True)
def on_key_press(self, symbol: int, modifiers: int):
key = chr(symbol)
# for each key pressed, add it to the current keys pressed
if key in list(self.controls.keys()):
self.keys_pressed.insert(0, key)
# if player presses space, and jump conditions are met, jump
elif symbol == arcade.key.SPACE:
if self.physics_engine.can_jump():
self.physics.jump(JUMP_SPEED)
elif symbol == arcade.key.P:
print(f"player pos: {self.player.position}")
self.scroll_manager.output_values()
elif symbol == arcade.key.M:
if self.show_math:
self.show_math = False
else:
self.show_math = True
elif symbol == arcade.key.K:
kills = []
for i, knife in enumerate(self.player.old_weapons):
kills.append(knife)
for k in kills:
k.kill()
elif symbol == arcade.key.C:
if self.knife_collisions:
self.knife_collisions = False
else:
self.knife_collisions = True
elif symbol == arcade.key.N:
print(f"Number of knives: {len(self.player.old_weapons)}")
elif symbol == arcade.key.R:
self.setup()
elif symbol == arcade.key.E:
print(f"end_angle: {self.player.weapons[-1].angle}")
# elif symbol == arcade.key.L:
# self.window.show_view(MyView())
elif key == "0":
self.set_level("tutorial")
self.setup()
elif key == "9":
self.set_level("test")
self.setup()
elif key == "1":
self.player.weapon_stats = self.knives['starter']
elif key == "2":
self.player.weapon_stats = self.knives['basic']
elif key == "3":
self.player.weapon_stats = self.knives['pro']
def on_key_release(self, symbol: int, modifiers: int):
key = chr(symbol)
# removes keys from keys_pressed if they are no longer pressed
if key in self.keys_pressed:
self.keys_pressed.remove(key)
if key == arcade.key.SPACE:
self.player.change_y *= -.5
def on_mouse_press(self, x: float, y: float, button: int, modifiers: int):
# shoot the knife on click
if button == 1:
x = x + (self.right_view - SW)
y = y + (self.top_view - SH)
self.player.attack(x, y)
# self.physics.throw_object(obj, x, y, 50)
# self.weapon_traject = self.player.weapon.trajectory
# self.trail_loaded = True
# self.show_trail = True
# show the knife trajectory while holding right click
elif button == 4:
x = x + (self.right_view - SW)
y = y + (self.top_view - SH)
self.show_trail = True
self.tri = True
self.set_projectile()
self.player.can_move = False
self.player.change_x = 0
def on_mouse_release(self, x: float, y: float, button: int,
modifiers: int):
# throw the knife once right click is released and hide the trajectory
if button == 4:
x = x + (self.right_view - SW)
y = y + (self.top_view - SH)
self.player.attack(x, y)
self.show_trail = False
self.trail_loaded = False
self.player.can_move = True
self.tri = False
# update position of
def on_mouse_motion(self, x: float, y: float, dx: float, dy: float):
self.mouse_x, self.mouse_y = x, y
x = x + (self.right_view - SW)
y = y + (self.top_view - SH)
self.mouse_pos = (x, y)
def set_projectile(self):
if self.show_trail:
x, y = self.mouse_pos
self.weapon_traject = self.physics.get_knife_trajectory_from_player(
x, y, self.player.get_weapon())
# self.weapon_traject = self.physics.get_knife_trajectory_from_player(x, y, obj)
self.trail_loaded = True
else:
self.trail_loaded = False
def set_triangle(self):
x, y = self.mouse_pos
direction = right
if x < self.player.center_x:
direction = left
tri = StaticTriangle(self.player.center_x, x, self.player.center_y, y,
direction * 100)
ang = tri.get_angle()
arcade.draw_text(f"{ang: .0f}", self.player.center_x, self.player.top,
arcade.color.RED, 12)
tri.draw()
def draw_traject_triangle(self):
x, y = self.mouse_pos
knife = self.player.get_weapon()
trajectory = self.physics.get_knife_trajectory_from_player(
x, y, knife, .25)
mid_point = trajectory.get_max_point()
start_point = trajectory.x0, trajectory.y0
# trajectory.trim()
end_point = trajectory.get_point_of_impact(self.surface_list)
tri = Triangle(start_point, mid_point, end_point)
tri.draw()
a, b, c = tri.angle_a(), tri.angle_b(), tri.angle_c()
arcade.draw_text(str(a), start_point[0] + 20, start_point[1],
arcade.color.BLACK, 12)
arcade.draw_text(str(b), mid_point[0], mid_point[1] + 20,
arcade.color.BLACK, 12)
arcade.draw_text(str(c), end_point[0], end_point[1] + 20,
arcade.color.BLACK, 12)
arcade.draw_circle_filled(end_point[0], end_point[1], 20,
arcade.color.RED, 12)
def start(self):
radius = self.transform.scale[0]/2.
self._geom = PhysicsEngine.creategeom("Sphere", (radius,))
self._fixedstart()
