godot::classes

Trait IPhysicsDirectBodyState2DExtension

pub trait IPhysicsDirectBodyState2DExtension: GodotClass<Base = PhysicsDirectBodyState2DExtension> + You_forgot_the_attribute__godot_api {
Show 51 methods // Required methods fn get_total_gravity(&self) -> Vector2; fn get_total_linear_damp(&self) -> f32; fn get_total_angular_damp(&self) -> f32; fn get_center_of_mass(&self) -> Vector2; fn get_center_of_mass_local(&self) -> Vector2; fn get_inverse_mass(&self) -> f32; fn get_inverse_inertia(&self) -> f32; fn set_linear_velocity(&mut self, velocity: Vector2); fn get_linear_velocity(&self) -> Vector2; fn set_angular_velocity(&mut self, velocity: f32); fn get_angular_velocity(&self) -> f32; fn set_transform(&mut self, transform: Transform2D); fn get_transform(&self) -> Transform2D; fn get_velocity_at_local_position(&self, local_position: Vector2) -> Vector2; fn apply_central_impulse(&mut self, impulse: Vector2); fn apply_impulse(&mut self, impulse: Vector2, position: Vector2); fn apply_torque_impulse(&mut self, impulse: f32); fn apply_central_force(&mut self, force: Vector2); fn apply_force(&mut self, force: Vector2, position: Vector2); fn apply_torque(&mut self, torque: f32); fn add_constant_central_force(&mut self, force: Vector2); fn add_constant_force(&mut self, force: Vector2, position: Vector2); fn add_constant_torque(&mut self, torque: f32); fn set_constant_force(&mut self, force: Vector2); fn get_constant_force(&self) -> Vector2; fn set_constant_torque(&mut self, torque: f32); fn get_constant_torque(&self) -> f32; fn set_sleep_state(&mut self, enabled: bool); fn is_sleeping(&self) -> bool; fn get_contact_count(&self) -> i32; fn get_contact_local_position(&self, contact_idx: i32) -> Vector2; fn get_contact_local_normal(&self, contact_idx: i32) -> Vector2; fn get_contact_local_shape(&self, contact_idx: i32) -> i32; fn get_contact_local_velocity_at_position( &self, contact_idx: i32, ) -> Vector2; fn get_contact_collider(&self, contact_idx: i32) -> Rid; fn get_contact_collider_position(&self, contact_idx: i32) -> Vector2; fn get_contact_collider_id(&self, contact_idx: i32) -> u64; fn get_contact_collider_object( &self, contact_idx: i32, ) -> Option<Gd<Object>>; fn get_contact_collider_shape(&self, contact_idx: i32) -> i32; fn get_contact_collider_velocity_at_position( &self, contact_idx: i32, ) -> Vector2; fn get_contact_impulse(&self, contact_idx: i32) -> Vector2; fn get_step(&self) -> f32; fn integrate_forces(&mut self); fn get_space_state(&mut self) -> Option<Gd<PhysicsDirectSpaceState2D>>; // Provided methods fn init(base: Base<Self::Base>) -> Self { ... } fn to_string(&self) -> GString { ... } fn on_notification(&mut self, what: ObjectNotification) { ... } fn get_property(&self, property: StringName) -> Option<Variant> { ... } fn set_property(&mut self, property: StringName, value: Variant) -> bool { ... } fn get_property_list(&mut self) -> Vec<PropertyInfo> { ... } fn property_get_revert(&self, property: StringName) -> Option<Variant> { ... }
}
Expand description

Virtual methods for class PhysicsDirectBodyState2DExtension.

These methods represent constructors (init) or callbacks invoked by the engine.

See also Godot docs for PhysicsDirectBodyState2DExtension methods.

Required Methods§

fn get_total_gravity(&self) -> Vector2

fn get_total_linear_damp(&self) -> f32

fn get_total_angular_damp(&self) -> f32

fn get_center_of_mass(&self) -> Vector2

fn get_center_of_mass_local(&self) -> Vector2

fn get_inverse_mass(&self) -> f32

fn get_inverse_inertia(&self) -> f32

fn set_linear_velocity(&mut self, velocity: Vector2)

fn get_linear_velocity(&self) -> Vector2

fn set_angular_velocity(&mut self, velocity: f32)

fn get_angular_velocity(&self) -> f32

fn set_transform(&mut self, transform: Transform2D)

fn get_transform(&self) -> Transform2D

fn get_velocity_at_local_position(&self, local_position: Vector2) -> Vector2

fn apply_central_impulse(&mut self, impulse: Vector2)

fn apply_impulse(&mut self, impulse: Vector2, position: Vector2)

fn apply_torque_impulse(&mut self, impulse: f32)

fn apply_central_force(&mut self, force: Vector2)

fn apply_force(&mut self, force: Vector2, position: Vector2)

fn apply_torque(&mut self, torque: f32)

fn add_constant_central_force(&mut self, force: Vector2)

fn add_constant_force(&mut self, force: Vector2, position: Vector2)

fn add_constant_torque(&mut self, torque: f32)

fn set_constant_force(&mut self, force: Vector2)

fn get_constant_force(&self) -> Vector2

fn set_constant_torque(&mut self, torque: f32)

fn get_constant_torque(&self) -> f32

fn set_sleep_state(&mut self, enabled: bool)

fn is_sleeping(&self) -> bool

fn get_contact_count(&self) -> i32

fn get_contact_local_position(&self, contact_idx: i32) -> Vector2

fn get_contact_local_normal(&self, contact_idx: i32) -> Vector2

fn get_contact_local_shape(&self, contact_idx: i32) -> i32

fn get_contact_local_velocity_at_position(&self, contact_idx: i32) -> Vector2

fn get_contact_collider(&self, contact_idx: i32) -> Rid

fn get_contact_collider_position(&self, contact_idx: i32) -> Vector2

fn get_contact_collider_id(&self, contact_idx: i32) -> u64

fn get_contact_collider_object(&self, contact_idx: i32) -> Option<Gd<Object>>

fn get_contact_collider_shape(&self, contact_idx: i32) -> i32

fn get_contact_collider_velocity_at_position(&self, contact_idx: i32) -> Vector2

fn get_contact_impulse(&self, contact_idx: i32) -> Vector2

fn get_step(&self) -> f32

fn integrate_forces(&mut self)

fn get_space_state(&mut self) -> Option<Gd<PhysicsDirectSpaceState2D>>

Provided Methods§

fn init(base: Base<Self::Base>) -> Self

Godot constructor, accepting an injected base object.

base refers to the base instance of the class, which can either be stored in a Base<T> field or discarded. This method returns a fully-constructed instance, which will then be moved into a Gd<T> pointer.

If the class has a #[class(init)] attribute, this method will be auto-generated and must not be overridden.

fn to_string(&self) -> GString

String representation of the Godot instance.

Override this method to define how the instance is represented as a string. Used by impl Display for Gd<T>, as well as str() and print() in GDScript.

fn on_notification(&mut self, what: ObjectNotification)

Called when the object receives a Godot notification.

The type of notification can be identified through what. The enum is designed to hold all possible NOTIFICATION_* constants that the current class can handle. However, this is not validated in Godot, so an enum variant Unknown exists to represent integers out of known constants (mistakes or future additions).

This method is named _notification in Godot, but on_notification in Rust. To send notifications, use the Object::notify method.

See also in Godot docs:

fn get_property(&self, property: StringName) -> Option<Variant>

Called whenever get() is called or Godot gets the value of a property.

Should return the given property’s value as Some(value), or None if the property should be handled normally.

See also in Godot docs:

fn set_property(&mut self, property: StringName, value: Variant) -> bool

Called whenever Godot set() is called or Godot sets the value of a property.

Should set property to the given value and return true, or return false to indicate the property should be handled normally.

See also in Godot docs:

fn get_property_list(&mut self) -> Vec<PropertyInfo>

Available on since_api="4.3" only.

Called whenever Godot get_property_list() is called, the returned vector here is appended to the existing list of properties.

This should mainly be used for advanced purposes, such as dynamically updating the property list in the editor.

See also in Godot docs:

fn property_get_revert(&self, property: StringName) -> Option<Variant>

Called by Godot to tell if a property has a custom revert or not.

Return None for no custom revert, and return Some(value) to specify the custom revert.

This is a combination of Godot’s Object::_property_get_revert and Object::_property_can_revert. This means that this function will usually be called twice by Godot to find the revert.

Note that this should be a pure function. That is, it should always return the same value for a property as long as self remains unchanged. Otherwise, this may lead to unexpected (safe) behavior.

Object Safety§

This trait is not object safe.

Implementors§