2DHackAndSlay/Scripts/Enemy/EnemyController.gd

extends Node2D

@export_group("Movement Properties")
@export var speed = 25
@export var turn_speed = 25

@export_group("Vision Properties")
@export var ray : RayCast2D
@export_flags_2d_physics var player_collision_layer := 2
@export var max_view_distance := 50
@export_range(0.0, 360.0) var angle_cone_of_vision : float = 120
@export_range(0, 72) var sweeping_steps : int = 24
@export var debug_vision := false

enum STATES {
	IDLE,
	TARGETING
}

var state : STATES

# Only used for Debugging purposes right now
var player_positions : Array

func _ready():
	# Set Raycast into view Direction
	ray.target_position = Vector2(max_view_distance, 0)
	pass
	
func swipe_view():
	# Set Raycast to starting position
	ray.rotation_degrees = -angle_cone_of_vision / 2
	
	# Create Array to Store Angles of Hits
	var hit_angles : Array
	
	# Clear Player Positions Array
	player_positions.clear()
	
	for step in sweeping_steps + 1:
		# Check Ray
		ray.force_raycast_update()
		if ray.is_colliding():
			# Get Collider
			var collider = ray.get_collider()
			var collider_class = collider.get_class()
			var collision_layer : int
			
			# Get Collision Layer
			if collider_class == "TileMap":
				collider = collider as TileMap
				collision_layer = collider.tile_set.get_physics_layer_collision_layer(0)
			else:
				collision_layer = collider.get_collision_layer()
			
			# Checking Collision Layer
			if collision_layer & player_collision_layer > 0:
				hit_angles.append(ray.rotation_degrees)
				player_positions.append(to_local(ray.get_collision_point()))
		# Rotate Ray
		ray.rotation_degrees += angle_cone_of_vision / sweeping_steps
	return hit_angles

func look_at_player(delta : float):
	# Get All Angles at which the Player can be seen
	var hit_angles = swipe_view()
	
	# If The Player cant be seen, return and do nothing
	if hit_angles.size() <= 0:
		state = STATES.IDLE
		return
	state = STATES.TARGETING
	
	# Calculate Average Angle Of Player
	var average_angle : float
	for angle in hit_angles:
		average_angle += angle
	average_angle /= hit_angles.size()
	
	# Rotate towards Player, but limit it by rotation speed
	self.rotation_degrees += clampf(average_angle, -2 * PI * delta * turn_speed, 2 * PI * delta * turn_speed)
	pass

func _physics_process(delta):
	look_at_player(delta)
	pass

func _draw():
	# Draw a Debug Arc in case that Debug Vision is enabled
	if debug_vision:
		
		# Draw All Ray Positions
		var angle = -angle_cone_of_vision / 2
		for step in sweeping_steps + 1:
			self.draw_line(Vector2(), Vector2(max_view_distance,0).rotated(deg_to_rad(angle)), Color.DARK_RED, 0.5, false)
			angle += angle_cone_of_vision / sweeping_steps
	
		# Draw Ray Arc
		self.draw_arc(Vector2(), max_view_distance, deg_to_rad(-angle_cone_of_vision / 2), deg_to_rad(angle_cone_of_vision / 2), sweeping_steps + 1, Color.RED, 0.5, false)
	
		# Draw A Circle Around the Player if hes seen
		if state == STATES.TARGETING:
			for pos in player_positions:
				self.draw_circle(pos, 4, Color.ORANGE_RED)
		queue_redraw()
	pass