godot-third-person-basic-scene/maps/waypoint/waypoint.gd

extends Control

# Some margin to keep the marker away from the screen's corners.
const MARGIN = 8

@onready var camera:Camera3D = get_viewport().get_camera_3d()
@onready var parent:Node3D = get_parent()
@onready var label:Label = $Label
@onready var marker:TextureRect = $Marker
#
## The waypoint's text.
@export var text:String:
	get:
		return $Label.text
	set(value):
		print("Setting some_exported_property to %s" % value)
		$Label.text = value


# If `true`, the waypoint sticks to the viewport's edges when moving off-screen.
@export var sticky = true


func set_text(p_text:String):
	text = p_text

	# The label's text can only be set once the node is ready.
	if is_inside_tree():
		label.text = p_text


func _ready() -> void:
	if not parent is Node3D:
		push_error("The waypoint's parent node must inherit from Node3D.")


func _process(_delta):
	if !weakref(camera).get_ref() or not camera.is_current():
		# If the camera we have isn't the current one, get the current camera.
		camera = get_viewport().get_camera_3d()

	var parent_translation = parent.get_global_transform().origin
	var camera_transform = camera.get_global_transform()
	var camera_translation = camera_transform.origin

	# We would use "camera.is_position_behind(parent_translation)", except
	# that it also accounts for the near clip plane, which we don't want.
	var is_behind = camera_transform.basis.z.dot(parent_translation - camera_translation) > 0

	# Fade the waypoint when the camera gets close.
	var distance = camera_translation.distance_to(parent_translation)
	modulate.a = clamp(range_lerp(distance, 0, 2, 0, 1), 0, 1 )

	var unprojected_position = camera.unproject_position(parent_translation)

	var viewport_base_size = get_viewport().size

	if not sticky:
		# For non-sticky waypoints, we don't need to clamp and calculate
		# the position if the waypoint goes off screen.
		rect_position = unprojected_position
		visible = not is_behind
		return

	# We need to handle the axes differently.
	# For the screen's X axis, the projected position is useful to us,
	# but we need to force it to the side if it's also behind.
	if is_behind:
		if unprojected_position.x < viewport_base_size.x / 2:
			unprojected_position.x = viewport_base_size.x - MARGIN
		else:
			unprojected_position.x = MARGIN

	# For the screen's Y axis, the projected position is NOT useful to us
	# because we don't want to indicate to the user that they need to look
	# up or down to see something behind them. Instead, here we approximate
	# the correct position using difference of the X axis Euler angles
	# (up/down rotation) and the ratio of that with the camera's FOV.
	# This will be slightly off from the theoretical "ideal" position.
	if is_behind or unprojected_position.x < MARGIN or \
			unprojected_position.x > viewport_base_size.x - MARGIN:
		var look = camera_transform.looking_at(parent_translation, Vector3.UP)
		var diff = angle_diff(look.basis.get_euler().x, camera_transform.basis.get_euler().x)
		unprojected_position.y = viewport_base_size.y * (0.5 + (diff / deg2rad(camera.fov)))

	rect_position = Vector2(
			clamp(unprojected_position.x, MARGIN, viewport_base_size.x - MARGIN),
			clamp(unprojected_position.y, MARGIN, viewport_base_size.y - MARGIN)
	)

	label.visible = true
	rect_rotation = 0
	# Used to display a diagonal arrow when the waypoint is displayed in
	# one of the screen corners.
	var overflow = 0

	if rect_position.x <= MARGIN:
		# Left overflow.
		overflow = -45
		label.visible = false
		rect_rotation = 90
	elif rect_position.x >= viewport_base_size.x - MARGIN:
		# Right overflow.
		overflow = 45
		label.visible = false
		rect_rotation = 270

	if rect_position.y <= MARGIN:
		# Top overflow.
		label.visible = false
		rect_rotation = 180 + overflow
	elif rect_position.y >= viewport_base_size.y - MARGIN:
		# Bottom overflow.
		label.visible = false
		rect_rotation = -overflow


static func angle_diff(from, to):
	var diff = fmod(to - from, TAU)
	return fmod(2.0 * diff, TAU) - diff