2020-02-06 20:54:12 +01:00
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# A specialized steering agent that updates itself every frame so the user does
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2020-02-06 22:29:48 +01:00
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# not have to using a KinematicBody2D
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extends GSTSpecializedAgent
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class_name GSTKinematicBody2DAgent
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2020-02-06 20:54:12 +01:00
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2020-02-07 15:15:03 +01:00
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# SLIDE uses `move_and_slide`
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# COLLIDE uses `move_and_collide`
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# POSITION changes the `global_position` directly
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2020-02-07 11:29:45 +01:00
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enum MovementType { SLIDE, COLLIDE, POSITION }
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2020-02-06 22:29:48 +01:00
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# The KinematicBody2D to keep track of
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var body: KinematicBody2D setget _set_body
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# The type of movement the body executes
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2020-02-07 11:29:45 +01:00
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var movement_type: int
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2020-02-06 20:54:12 +01:00
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var _last_position: Vector2
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2020-02-07 11:29:45 +01:00
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func _init(body: KinematicBody2D, movement_type: int = MovementType.SLIDE) -> void:
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2020-02-07 15:15:03 +01:00
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if not body.is_inside_tree():
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yield(body, "ready")
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2020-02-07 11:29:45 +01:00
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2020-02-06 20:54:12 +01:00
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self.body = body
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2020-02-07 11:29:45 +01:00
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self.movement_type = movement_type
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body.get_tree().connect("physics_frame", self, "_on_SceneTree_physics_frame")
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2020-02-06 20:54:12 +01:00
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# Moves the agent's `body` by target `acceleration`.
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# tags: virtual
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2020-02-07 15:15:03 +01:00
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func _apply_steering(acceleration: GSTTargetAcceleration, delta: float) -> void:
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2020-02-06 20:54:12 +01:00
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_applied_steering = true
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2020-02-07 11:29:45 +01:00
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match movement_type:
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MovementType.COLLIDE:
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2020-02-06 22:29:48 +01:00
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_apply_collide_steering(acceleration.linear, delta)
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2020-02-07 11:29:45 +01:00
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MovementType.SLIDE:
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2020-02-06 22:29:48 +01:00
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_apply_sliding_steering(acceleration.linear)
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_:
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2020-02-07 11:29:45 +01:00
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_apply_position_steering(acceleration.linear, delta)
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2020-02-06 22:29:48 +01:00
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_apply_orientation_steering(acceleration.angular, delta)
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2020-02-06 20:54:12 +01:00
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func _apply_sliding_steering(accel: Vector3) -> void:
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var velocity := GSTUtils.to_vector2(linear_velocity + accel).clamped(linear_speed_max)
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if apply_linear_drag:
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velocity = velocity.linear_interpolate(Vector2.ZERO, linear_drag_percentage)
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velocity = body.move_and_slide(velocity)
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if calculate_velocities:
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linear_velocity = GSTUtils.to_vector3(velocity)
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func _apply_collide_steering(accel: Vector3, delta: float) -> void:
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var velocity := GSTUtils.clampedv3(linear_velocity + accel, linear_speed_max)
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if apply_linear_drag:
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velocity = velocity.linear_interpolate(
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Vector3.ZERO,
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linear_drag_percentage
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)
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body.move_and_collide(GSTUtils.to_vector2(velocity) * delta)
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if calculate_velocities:
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linear_velocity = velocity
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2020-02-07 11:29:45 +01:00
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func _apply_position_steering(accel: Vector3, delta: float) -> void:
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2020-02-06 20:54:12 +01:00
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var velocity := GSTUtils.clampedv3(linear_velocity + accel, linear_speed_max)
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if apply_linear_drag:
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velocity = velocity.linear_interpolate(
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Vector3.ZERO,
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linear_drag_percentage
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)
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body.global_position += GSTUtils.to_vector2(velocity) * delta
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if calculate_velocities:
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linear_velocity = velocity
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func _apply_orientation_steering(angular_acceleration: float, delta: float) -> void:
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var velocity = angular_velocity + angular_acceleration
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if apply_angular_drag:
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velocity = lerp(velocity, 0, angular_drag_percentage)
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body.rotation += velocity * delta
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if calculate_velocities:
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angular_velocity = velocity
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2020-02-06 22:29:48 +01:00
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func _set_body(value: KinematicBody2D) -> void:
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2020-02-06 20:54:12 +01:00
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body = value
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2020-02-06 22:29:48 +01:00
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_last_position = body.global_position
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_last_orientation = body.rotation
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2020-02-06 20:54:12 +01:00
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position = GSTUtils.to_vector3(_last_position)
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orientation = _last_orientation
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2020-02-07 11:29:45 +01:00
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func _on_SceneTree_physics_frame() -> void:
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2020-02-06 20:54:12 +01:00
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var current_position: Vector2 = body.global_position
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var current_orientation: float = body.rotation
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position = GSTUtils.to_vector3(current_position)
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orientation = current_orientation
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if calculate_velocities:
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if _applied_steering:
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_applied_steering = false
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else:
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2020-02-06 22:29:48 +01:00
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linear_velocity = GSTUtils.clampedv3(
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GSTUtils.to_vector3(_last_position - current_position),
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linear_speed_max
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)
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if apply_linear_drag:
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linear_velocity = linear_velocity.linear_interpolate(
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Vector3.ZERO,
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linear_drag_percentage
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)
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angular_velocity = clamp(
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_last_orientation - current_orientation,
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-angular_speed_max,
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angular_speed_max
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)
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if apply_angular_drag:
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angular_velocity = lerp(
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angular_velocity,
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0,
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angular_drag_percentage
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)
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2020-02-06 20:54:12 +01:00
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_last_position = current_position
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_last_orientation = current_orientation
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