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extends CharacterBody2D
# editor variables
@export var max_speed = 300
@export var steer_force = 0.1
@export var acceleration = 0.0
@export var look_ahead = 75
@export var num_rays = 32
@export var driving = false
# context array
var ray_directions = []
var interest = []
var danger = []
var chosen_dir = Vector2.ZERO
var current_speed = 0
# Called when the node enters the scene tree for the first time.
func _ready():
interest.resize(num_rays)
danger.resize(num_rays)
ray_directions.resize(num_rays)
for i in num_rays:
var angle = i * 2 * PI / num_rays
ray_directions[i] = Vector2.RIGHT.rotated(angle)
func _physics_process(delta):
if not driving:
return
# Code for getting the next desired direction based on the environment
set_interest()
set_danger()
choose_direction()
# example_movement(delta)
own_movement(delta)
func set_interest():
# Set interest in each slot based on world direction
# if owner and owner.has_method("get_path_direction"):
if owner and owner.has_method("get_path_next_position"):
# var path_direction = owner.get_path_direction(position)
var next_pos = owner.get_path_next_position(position)
var path_direction = (next_pos - position).normalized()
for i in num_rays:
var d = ray_directions[i].rotated(rotation).dot(path_direction)
interest[i] = max(0, d)
# If no world path, use default interest
else:
set_default_interest()
func set_default_interest():
# Default to moving forward
for i in num_rays:
var d = ray_directions[i].rotated(rotation).dot(transform.x)
interest[i] = max(0, d)
func set_danger():
# Cast rays to find danger directions
var space_state = get_world_2d().direct_space_state
var params = PhysicsRayQueryParameters2D.new()
params.from = position
params.exclude = [self]
for i in num_rays:
params.to = position + ray_directions[i].rotated(rotation) * look_ahead
var result = space_state.intersect_ray(params)
danger[i] = 1.0 if result else 0.0
func choose_direction():
# Eliminate interest in slots with danger
for i in num_rays:
if danger[i] > 0.0:
interest[i] = 0.0
# Choose direction based on remaining interest
chosen_dir = Vector2.ZERO
for i in num_rays:
chosen_dir += ray_directions[i] * interest[i]
chosen_dir = chosen_dir.normalized()
func example_movement(delta):
var desired_velocity = chosen_dir.rotated(rotation) * max_speed
velocity = velocity.lerp(desired_velocity, steer_force)
rotation = velocity.angle()
move_and_collide(velocity * delta)
func own_movement(delta):
var desired_velocity = chosen_dir.rotated(rotation) * max_speed
var actual_speed = lerpf(velocity.length(), max_speed, acceleration)
var actual_angle = lerp_angle(velocity.angle(), desired_velocity.angle(),
steer_force)
velocity = Vector2.from_angle(actual_angle) * actual_speed
rotation = actual_angle
move_and_collide(velocity * delta)
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