class MyGame(arcade.Window):
def __init__(self, width, height, title):
"""
Set up the application.
"""
super().__init__(width, height, title)
self.time = 0
self.frame = 0
self.background = arcade.load_texture(":resources:images/backgrounds/abstract_1.jpg")
self.light_layer = LightLayer(SCREEN_WIDTH, SCREEN_HEIGHT)
self.light_layer.set_background_color(arcade.color.WHITE)
# Add some random lights
for _ in range(500):
self.light_layer.add(
Light(
random.randrange(0, SCREEN_WIDTH),
random.randrange(0, SCREEN_HEIGHT),
radius=50,
mode='soft',
color=(random.randint(0, 255), random.randint(0, 255), random.randint(0, 255))
),
)
def on_draw(self):
arcade.start_render()
# Everything that should be affected by lights in here
with self.light_layer:
# The light layer is just cleared using the background color here (white)
pass
# Draw the contents with lighting
self.light_layer.draw()
# image = arcade.get_image()
# image.save(f'screenshots/frame{str(self.frame).zfill(3)}.png', 'png')
def on_update(self, dt):
# dt = 0.1
self.frame += 1
try:
self.time += dt
for i, light in enumerate(self.light_layer):
light.radius = 20 + math.sin(self.time + i) * 40
except Exception as e:
print(e)
def on_resize(self, width, height):
arcade.set_viewport(0, width, 0, height)
self.light_layer.resize(width, height)
class MyGame(arcade.Window):
""" Main Game Window """
def __init__(self, width, height, title):
""" Set up the class. """
super().__init__(width, height, title, resizable=True)
# Sprite lists
self.background_sprite_list = None
self.player_list = None
self.wall_list = None
self.player_sprite = None
# Physics engine
self.physics_engine = None
# Used for scrolling
self.view_left = 0
self.view_bottom = 0
# --- Light related ---
# List of all the lights
self.light_layer = None
# Individual light we move with player, and turn on/off
self.player_light = None
def setup(self):
""" Create everything """
# Create sprite lists
self.background_sprite_list = arcade.SpriteList()
self.player_list = arcade.SpriteList()
self.wall_list = arcade.SpriteList()
# Create player sprite
self.player_sprite = arcade.Sprite(
":resources:images/animated_characters/female_person/femalePerson_idle.png",
0.4)
self.player_sprite.center_x = 64
self.player_sprite.center_y = 270
self.player_list.append(self.player_sprite)
# --- Light related ---
# Lights must shine on something. If there is no background sprite or color,
# you will just see black. Therefore, we use a loop to create a whole bunch of brick tiles to go in the
# background.
for x in range(-128, 2000, 128):
for y in range(-128, 1000, 128):
sprite = arcade.Sprite(
":resources:images/tiles/brickTextureWhite.png")
sprite.position = x, y
self.background_sprite_list.append(sprite)
# Create a light layer, used to render things to, then post-process and
# add lights. This must match the screen size.
self.light_layer = LightLayer(SCREEN_WIDTH, SCREEN_HEIGHT)
# We can also set the background color that will be lit by lights,
# but in this instance we just want a black background
self.light_layer.set_background_color(arcade.color.BLACK)
# Here we create a bunch of lights.
# Create a small white light
x = 100
y = 200
radius = 100
mode = 'soft'
color = arcade.csscolor.WHITE
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
# Create an overlapping, large white light
x = 300
y = 150
radius = 200
color = arcade.csscolor.WHITE
mode = 'soft'
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
# Create three, non-overlapping RGB lights
x = 50
y = 450
radius = 100
mode = 'soft'
color = arcade.csscolor.RED
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
x = 250
y = 450
radius = 100
mode = 'soft'
color = arcade.csscolor.GREEN
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
x = 450
y = 450
radius = 100
mode = 'soft'
color = arcade.csscolor.BLUE
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
# Create three, overlapping RGB lights
x = 650
y = 450
radius = 100
mode = 'soft'
color = arcade.csscolor.RED
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
x = 750
y = 450
radius = 100
mode = 'soft'
color = arcade.csscolor.GREEN
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
x = 850
y = 450
radius = 100
mode = 'soft'
color = arcade.csscolor.BLUE
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
# Create three, overlapping RGB lights
# But 'hard' lights that don't fade out.
x = 650
y = 150
radius = 100
mode = 'hard'
color = arcade.csscolor.RED
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
x = 750
y = 150
radius = 100
mode = 'hard'
color = arcade.csscolor.GREEN
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
x = 850
y = 150
radius = 100
mode = 'hard'
color = arcade.csscolor.BLUE
light = Light(x, y, radius, color, mode)
self.light_layer.add(light)
# Create a light to follow the player around.
# We'll position it later, when the player moves.
# We'll only add it to the light layer when the player turns the light
# on. We start with the light off.
radius = 150
mode = 'soft'
color = arcade.csscolor.WHITE
self.player_light = Light(0, 0, radius, color, mode)
# Create the physics engine
self.physics_engine = arcade.PhysicsEngineSimple(
self.player_sprite, self.wall_list)
# Set the viewport boundaries
# These numbers set where we have 'scrolled' to.
self.view_left = 0
self.view_bottom = 0
def on_draw(self):
""" Draw everything. """
arcade.start_render()
# --- Light related ---
# Everything that should be affected by lights gets rendered inside this
# 'with' statement. Nothing is rendered to the screen yet, just the light
# layer.
with self.light_layer:
self.background_sprite_list.draw()
self.player_list.draw()
# Draw the light layer to the screen.
# This fills the entire screen with the lit version
# of what we drew into the light layer above.
self.light_layer.draw(ambient_color=AMBIENT_COLOR)
# Now draw anything that should NOT be affected by lighting.
arcade.draw_text("Press SPACE to turn character light on/off.",
10 + self.view_left, 10 + self.view_bottom,
arcade.color.WHITE, 20)
def on_resize(self, width, height):
""" User resizes the screen. """
# --- Light related ---
# We need to resize the light layer to
self.light_layer.resize(width, height)
# Scroll the screen so the user is visible
self.scroll_screen()
def on_key_press(self, key, _):
"""Called whenever a key is pressed. """
if key == arcade.key.UP:
self.player_sprite.change_y = MOVEMENT_SPEED
elif key == arcade.key.DOWN:
self.player_sprite.change_y = -MOVEMENT_SPEED
elif key == arcade.key.LEFT:
self.player_sprite.change_x = -MOVEMENT_SPEED
elif key == arcade.key.RIGHT:
self.player_sprite.change_x = MOVEMENT_SPEED
elif key == arcade.key.SPACE:
# --- Light related ---
# We can add/remove lights from the light layer. If they aren't
# in the light layer, the light is off.
if self.player_light in self.light_layer:
self.light_layer.remove(self.player_light)
else:
self.light_layer.add(self.player_light)
def on_key_release(self, key, _):
"""Called when the user releases a key. """
if key == arcade.key.UP or key == arcade.key.DOWN:
self.player_sprite.change_y = 0
elif key == arcade.key.LEFT or key == arcade.key.RIGHT:
self.player_sprite.change_x = 0
def scroll_screen(self):
""" Manage Scrolling """
# Scroll left
left_boundary = self.view_left + VIEWPORT_MARGIN
if self.player_sprite.left < left_boundary:
self.view_left -= left_boundary - self.player_sprite.left
# Scroll right
right_boundary = self.view_left + self.width - VIEWPORT_MARGIN
if self.player_sprite.right > right_boundary:
self.view_left += self.player_sprite.right - right_boundary
# Scroll up
top_boundary = self.view_bottom + self.height - VIEWPORT_MARGIN
if self.player_sprite.top > top_boundary:
self.view_bottom += self.player_sprite.top - top_boundary
# Scroll down
bottom_boundary = self.view_bottom + VIEWPORT_MARGIN
if self.player_sprite.bottom < bottom_boundary:
self.view_bottom -= bottom_boundary - self.player_sprite.bottom
# Make sure our boundaries are integer values. While the viewport does
# support floating point numbers, for this application we want every pixel
# in the view port to map directly onto a pixel on the screen. We don't want
# any rounding errors.
self.view_left = int(self.view_left)
self.view_bottom = int(self.view_bottom)
arcade.set_viewport(self.view_left, self.width + self.view_left,
self.view_bottom, self.height + self.view_bottom)
def on_update(self, delta_time):
""" Movement and game logic """
# Call update on all sprites (The sprites don't do much in this
# example though.)
self.physics_engine.update()
# --- Light related ---
# We can easily move the light by setting the position,
# or by center_x, center_y.
self.player_light.position = self.player_sprite.position
# Scroll the screen so we can see the player
self.scroll_screen()
class MyGame(arcade.Window):
def __init__(self, width, height, title):
"""
Set up the application.
"""
super().__init__(width, height, title)
self.time = 0
self.background = arcade.load_texture(":resources:images/backgrounds/abstract_1.jpg")
self.torch_list = arcade.SpriteList(is_static=True)
self.torch_list.extend([
arcade.Sprite(":resources:images/tiles/torch1.png", scale=0.4, center_x=100, center_y=150),
arcade.Sprite(":resources:images/tiles/torch1.png", scale=0.4, center_x=300, center_y=150),
arcade.Sprite(":resources:images/tiles/torch1.png", scale=0.4, center_x=500, center_y=150),
arcade.Sprite(":resources:images/tiles/torch1.png", scale=0.4, center_x=700, center_y=150),
arcade.Sprite(":resources:images/tiles/torch1.png", scale=0.4, center_x=100, center_y=450),
arcade.Sprite(":resources:images/tiles/torch1.png", scale=0.4, center_x=300, center_y=450),
arcade.Sprite(":resources:images/tiles/torch1.png", scale=0.4, center_x=500, center_y=450),
arcade.Sprite(":resources:images/tiles/torch1.png", scale=0.4, center_x=700, center_y=450),
])
self.light_layer = LightLayer(SCREEN_WIDTH, SCREEN_HEIGHT)
# Add lights to the location of the torches. We're just using hacky tweak value list here
params = (
(100, 'hard'),
(100, 'hard'),
(100, 'hard'),
(100, 'hard'),
(120, 'soft'),
(120, 'soft'),
(120, 'soft'),
(120, 'soft'),
)
for sprite, p in zip(self.torch_list, params):
self.light_layer.add(
Light(sprite.center_x, sprite.center_y, radius=p[0], mode=p[1]),
)
self.moving_light = Light(400, 300, radius=300, mode='soft')
self.light_layer.add(self.moving_light)
def on_draw(self):
arcade.start_render()
# Everything that should be affected by lights in here
with self.light_layer:
arcade.draw_lrwh_rectangle_textured(
0, 0, SCREEN_WIDTH, SCREEN_HEIGHT, self.background)
self.torch_list.draw()
# Draw the contents with lighting
self.light_layer.draw()
# draw with ambient
# self.light_layer.draw(ambient_color=(127, 127, 127))
def on_update(self, dt):
# Keep track of elapsed time
self.time += dt
self.moving_light.position = (
400 + math.sin(self.time) * 300,
300 + math.cos(self.time) * 50
)
self.moving_light.radius = 300 + math.sin(self.time * 2.34) * 150
def on_resize(self, width, height):
arcade.set_viewport(0, width, 0, height)
self.light_layer.resize(width, height)
