//! Entities in a world. use std::collections::hash_map::Entry; use std::collections::HashMap; use std::iter::FusedIterator; use std::num::NonZeroU32; use bitfield_struct::bitfield; pub use data::{EntityKind, TrackedData}; use rayon::iter::ParallelIterator; use uuid::Uuid; use vek::{Aabb, Vec3}; use crate::config::Config; use crate::entity::types::{Facing, PaintingKind, Pose}; use crate::protocol::packets::s2c::play::{ S2cPlayPacket, SetEntityMetadata, SpawnEntity, SpawnExperienceOrb, SpawnPlayer, }; use crate::protocol::{ByteAngle, RawBytes, VarInt}; use crate::slab_versioned::{Key, VersionedSlab}; use crate::util::aabb_from_bottom_and_size; use crate::world::WorldId; use crate::STANDARD_TPS; pub mod data; pub mod types; include!(concat!(env!("OUT_DIR"), "/entity_event.rs")); /// A container for all [`Entity`]s on a server. /// /// # Spawning Player Entities /// /// [`Player`] entities are treated specially by the client. For the player /// entity to be visible to clients, the player's UUID must be added to the /// [`PlayerList`] _before_ being loaded by the client. /// /// [`Player`]: crate::entity::data::Player /// [`PlayerList`]: crate::player_list::PlayerList pub struct Entities { slab: VersionedSlab>, uuid_to_entity: HashMap, network_id_to_entity: HashMap, } impl Entities { pub(crate) fn new() -> Self { Self { slab: VersionedSlab::new(), uuid_to_entity: HashMap::new(), network_id_to_entity: HashMap::new(), } } /// Spawns a new entity with a random UUID. A reference to the entity along /// with its ID is returned. pub fn insert( &mut self, kind: EntityKind, state: C::EntityState, ) -> (EntityId, &mut Entity) { self.insert_with_uuid(kind, Uuid::from_bytes(rand::random()), state) .expect("UUID collision") } /// Like [`Self::insert`], but requires specifying the new /// entity's UUID. /// /// The provided UUID must not conflict with an existing entity UUID. If it /// does, `None` is returned and the entity is not spawned. pub fn insert_with_uuid( &mut self, kind: EntityKind, uuid: Uuid, data: C::EntityState, ) -> Option<(EntityId, &mut Entity)> { match self.uuid_to_entity.entry(uuid) { Entry::Occupied(_) => None, Entry::Vacant(ve) => { let (k, e) = self.slab.insert(Entity { state: data, variants: TrackedData::new(kind), events: Vec::new(), bits: EntityBits::new(), world: WorldId::NULL, new_position: Vec3::default(), old_position: Vec3::default(), yaw: 0.0, pitch: 0.0, head_yaw: 0.0, velocity: Vec3::default(), uuid, }); // TODO check for overflowing version? self.network_id_to_entity.insert(k.version(), k.index()); ve.insert(EntityId(k)); Some((EntityId(k), e)) } } } /// Removes an entity from the server. /// /// If the given entity ID is valid, the entity's `EntityState` is returned /// and the entity is deleted. Otherwise, `None` is returned and the /// function has no effect. pub fn remove(&mut self, entity: EntityId) -> Option { self.slab.remove(entity.0).map(|e| { self.uuid_to_entity .remove(&e.uuid) .expect("UUID should have been in UUID map"); self.network_id_to_entity .remove(&entity.0.version()) .expect("network ID should have been in the network ID map"); e.state }) } /// Removes all entities from the server for which `f` returns `true`. /// /// All entities are visited in an unspecified order. pub fn retain(&mut self, mut f: impl FnMut(EntityId, &mut Entity) -> bool) { self.slab.retain(|k, v| { if f(EntityId(k), v) { true } else { self.uuid_to_entity .remove(&v.uuid) .expect("UUID should have been in UUID map"); self.network_id_to_entity .remove(&k.version()) .expect("network ID should have been in the network ID map"); false } }); } /// Returns the number of entities in this container. pub fn len(&self) -> usize { self.slab.len() } /// Returns `true` if there are no entities. pub fn is_empty(&self) -> bool { self.slab.len() == 0 } /// Gets the [`EntityId`] of the entity with the given UUID in an efficient /// manner. /// /// If there is no entity with the UUID, `None` is returned. pub fn get_with_uuid(&self, uuid: Uuid) -> Option { self.uuid_to_entity.get(&uuid).cloned() } /// Gets a shared reference to the entity with the given [`EntityId`]. /// /// If the ID is invalid, `None` is returned. pub fn get(&self, entity: EntityId) -> Option<&Entity> { self.slab.get(entity.0) } /// Gets an exclusive reference to the entity with the given [`EntityId`]. /// /// If the ID is invalid, `None` is returned. pub fn get_mut(&mut self, entity: EntityId) -> Option<&mut Entity> { self.slab.get_mut(entity.0) } pub(crate) fn get_with_network_id(&self, network_id: i32) -> Option { let version = NonZeroU32::new(network_id as u32)?; let index = *self.network_id_to_entity.get(&version)?; Some(EntityId(Key::new(index, version))) } /// Returns an iterator over all entities on the server in an unspecified /// order. pub fn iter( &self, ) -> impl ExactSizeIterator)> + FusedIterator + Clone + '_ { self.slab.iter().map(|(k, v)| (EntityId(k), v)) } /// Returns a mutable iterator over all entities on the server in an /// unspecified order. pub fn iter_mut( &mut self, ) -> impl ExactSizeIterator)> + FusedIterator + '_ { self.slab.iter_mut().map(|(k, v)| (EntityId(k), v)) } /// Returns a parallel iterator over all entities on the server in an /// unspecified order. pub fn par_iter(&self) -> impl ParallelIterator)> + Clone + '_ { self.slab.par_iter().map(|(k, v)| (EntityId(k), v)) } /// Returns a parallel mutable iterator over all clients on the server in an /// unspecified order. pub fn par_iter_mut( &mut self, ) -> impl ParallelIterator)> + '_ { self.slab.par_iter_mut().map(|(k, v)| (EntityId(k), v)) } pub(crate) fn update(&mut self) { for (_, e) in self.iter_mut() { e.old_position = e.new_position; e.variants.clear_modifications(); e.events.clear(); e.bits.set_yaw_or_pitch_modified(false); e.bits.set_head_yaw_modified(false); e.bits.set_velocity_modified(false); } } } /// An identifier for an [`Entity`] on the server. /// /// Entity IDs are either _valid_ or _invalid_. Valid entity IDs point to /// entities that have not been deleted, while invalid IDs point to those that /// have. Once an ID becomes invalid, it will never become valid again. /// /// The [`Ord`] instance on this type is correct but otherwise unspecified. This /// is useful for storing IDs in containers such as /// [`BTreeMap`](std::collections::BTreeMap). #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash, Default, Debug)] pub struct EntityId(Key); impl EntityId { /// The value of the default entity ID which is always invalid. pub const NULL: Self = Self(Key::NULL); pub(crate) fn to_network_id(self) -> i32 { self.0.version().get() as i32 } } /// Represents an entity on the server. /// /// An entity is mostly anything in a world that isn't a block or client. /// Entities include paintings, falling blocks, zombies, fireballs, and more. /// /// Every entity has common state which is accessible directly from /// this struct. This includes position, rotation, velocity, UUID, and hitbox. /// To access data that is not common to every kind of entity, see /// [`Self::data`]. pub struct Entity { /// Custom data. pub state: C::EntityState, variants: TrackedData, bits: EntityBits, events: Vec, world: WorldId, new_position: Vec3, old_position: Vec3, yaw: f32, pitch: f32, head_yaw: f32, velocity: Vec3, uuid: Uuid, } #[bitfield(u8)] pub(crate) struct EntityBits { pub yaw_or_pitch_modified: bool, pub head_yaw_modified: bool, pub velocity_modified: bool, pub on_ground: bool, #[bits(4)] _pad: u8, } impl Entity { pub(crate) fn bits(&self) -> EntityBits { self.bits } /// Returns a shared reference to this entity's tracked data. pub fn data(&self) -> &TrackedData { &self.variants } /// Returns an exclusive reference to this entity's tracked data. pub fn data_mut(&mut self) -> &mut TrackedData { &mut self.variants } /// Gets the [`EntityKind`] of this entity. pub fn kind(&self) -> EntityKind { self.variants.kind() } /// Triggers an entity event for this entity. pub fn push_event(&mut self, event: EntityEvent) { self.events.push(event); } pub(crate) fn events(&self) -> &[EntityEvent] { &self.events } /// Gets the [`WorldId`](crate::world::WorldId) of the world this entity is /// located in. /// /// By default, entities are located in /// [`WorldId::NULL`](crate::world::WorldId::NULL). pub fn world(&self) -> WorldId { self.world } /// Sets the world this entity is located in. pub fn set_world(&mut self, world: WorldId) { self.world = world; } /// Gets the position of this entity in the world it inhabits. /// /// The position of an entity is located on the botton of its /// hitbox and not the center. pub fn position(&self) -> Vec3 { self.new_position } /// Sets the position of this entity in the world it inhabits. /// /// The position of an entity is located on the botton of its /// hitbox and not the center. pub fn set_position(&mut self, pos: impl Into>) { self.new_position = pos.into(); } /// Returns the position of this entity as it existed at the end of the /// previous tick. pub(crate) fn old_position(&self) -> Vec3 { self.old_position } /// Gets the yaw of this entity in degrees. pub fn yaw(&self) -> f32 { self.yaw } /// Sets the yaw of this entity in degrees. pub fn set_yaw(&mut self, yaw: f32) { if self.yaw != yaw { self.yaw = yaw; self.bits.set_yaw_or_pitch_modified(true); } } /// Gets the pitch of this entity in degrees. pub fn pitch(&self) -> f32 { self.pitch } /// Sets the pitch of this entity in degrees. pub fn set_pitch(&mut self, pitch: f32) { if self.pitch != pitch { self.pitch = pitch; self.bits.set_yaw_or_pitch_modified(true); } } /// Gets the head yaw of this entity in degrees. pub fn head_yaw(&self) -> f32 { self.head_yaw } /// Sets the head yaw of this entity in degrees. pub fn set_head_yaw(&mut self, head_yaw: f32) { if self.head_yaw != head_yaw { self.head_yaw = head_yaw; self.bits.set_head_yaw_modified(true); } } /// Gets the velocity of this entity in meters per second. pub fn velocity(&self) -> Vec3 { self.velocity } /// Sets the velocity of this entity in meters per second. pub fn set_velocity(&mut self, velocity: impl Into>) { let new_vel = velocity.into(); if self.velocity != new_vel { self.velocity = new_vel; self.bits.set_velocity_modified(true); } } /// Gets the value of the "on ground" flag. pub fn on_ground(&self) -> bool { self.bits.on_ground() } /// Sets the value of the "on ground" flag. pub fn set_on_ground(&mut self, on_ground: bool) { self.bits.set_on_ground(on_ground); } /// Gets the UUID of this entity. pub fn uuid(&self) -> Uuid { self.uuid } /// Returns the hitbox of this entity. /// /// The hitbox describes the space that an entity occupies. Clients interact /// with this space to create an [interact event]. /// /// The hitbox of an entity is determined by its position, entity type, and /// other state specific to that type. /// /// [interact event]: crate::client::ClientEvent::InteractWithEntity pub fn hitbox(&self) -> Aabb { fn baby(is_baby: bool, adult_hitbox: [f64; 3]) -> [f64; 3] { if is_baby { adult_hitbox.map(|a| a / 2.0) } else { adult_hitbox } } fn item_frame(pos: Vec3, rotation: i32) -> Aabb { let mut center_pos = pos + 0.5; match rotation { 0 => center_pos.y += 0.46875, 1 => center_pos.y -= 0.46875, 2 => center_pos.z += 0.46875, 3 => center_pos.z -= 0.46875, 4 => center_pos.x += 0.46875, 5 => center_pos.x -= 0.46875, _ => center_pos.y -= 0.46875, }; let bounds = Vec3::from(match rotation { 0 | 1 => [0.75, 0.0625, 0.75], 2 | 3 => [0.75, 0.75, 0.0625], 4 | 5 => [0.0625, 0.75, 0.75], _ => [0.75, 0.0625, 0.75], }); Aabb { min: center_pos - bounds / 2.0, max: center_pos + bounds / 2.0, } } let dimensions = match &self.variants { TrackedData::Allay(_) => [0.6, 0.35, 0.6], TrackedData::ChestBoat(_) => [1.375, 0.5625, 1.375], TrackedData::Frog(_) => [0.5, 0.5, 0.5], TrackedData::Tadpole(_) => [0.4, 0.3, 0.4], TrackedData::Warden(e) => match e.get_pose() { Pose::Emerging | Pose::Digging => [0.9, 1.0, 0.9], _ => [0.9, 2.9, 0.9], }, TrackedData::AreaEffectCloud(e) => [ e.get_radius() as f64 * 2.0, 0.5, e.get_radius() as f64 * 2.0, ], TrackedData::ArmorStand(e) => { if e.get_marker() { [0.0, 0.0, 0.0] } else if e.get_small() { [0.5, 0.9875, 0.5] } else { [0.5, 1.975, 0.5] } } TrackedData::Arrow(_) => [0.5, 0.5, 0.5], TrackedData::Axolotl(_) => [1.3, 0.6, 1.3], TrackedData::Bat(_) => [0.5, 0.9, 0.5], TrackedData::Bee(e) => baby(e.get_child(), [0.7, 0.6, 0.7]), TrackedData::Blaze(_) => [0.6, 1.8, 0.6], TrackedData::Boat(_) => [1.375, 0.5625, 1.375], TrackedData::Cat(_) => [0.6, 0.7, 0.6], TrackedData::CaveSpider(_) => [0.7, 0.5, 0.7], TrackedData::Chicken(e) => baby(e.get_child(), [0.4, 0.7, 0.4]), TrackedData::Cod(_) => [0.5, 0.3, 0.5], TrackedData::Cow(e) => baby(e.get_child(), [0.9, 1.4, 0.9]), TrackedData::Creeper(_) => [0.6, 1.7, 0.6], TrackedData::Dolphin(_) => [0.9, 0.6, 0.9], TrackedData::Donkey(e) => baby(e.get_child(), [1.5, 1.39648, 1.5]), TrackedData::DragonFireball(_) => [1.0, 1.0, 1.0], TrackedData::Drowned(e) => baby(e.get_baby(), [0.6, 1.95, 0.6]), TrackedData::ElderGuardian(_) => [1.9975, 1.9975, 1.9975], TrackedData::EndCrystal(_) => [2.0, 2.0, 2.0], TrackedData::EnderDragon(_) => [16.0, 8.0, 16.0], TrackedData::Enderman(_) => [0.6, 2.9, 0.6], TrackedData::Endermite(_) => [0.4, 0.3, 0.4], TrackedData::Evoker(_) => [0.6, 1.95, 0.6], TrackedData::EvokerFangs(_) => [0.5, 0.8, 0.5], TrackedData::ExperienceOrb(_) => [0.5, 0.5, 0.5], TrackedData::EyeOfEnder(_) => [0.25, 0.25, 0.25], TrackedData::FallingBlock(_) => [0.98, 0.98, 0.98], TrackedData::FireworkRocket(_) => [0.25, 0.25, 0.25], TrackedData::Fox(e) => baby(e.get_child(), [0.6, 0.7, 0.6]), TrackedData::Ghast(_) => [4.0, 4.0, 4.0], TrackedData::Giant(_) => [3.6, 12.0, 3.6], TrackedData::GlowItemFrame(e) => { return item_frame(self.new_position, e.get_rotation()) } TrackedData::GlowSquid(_) => [0.8, 0.8, 0.8], TrackedData::Goat(e) => { if e.get_pose() == Pose::LongJumping { baby(e.get_child(), [0.63, 0.91, 0.63]) } else { baby(e.get_child(), [0.9, 1.3, 0.9]) } } TrackedData::Guardian(_) => [0.85, 0.85, 0.85], TrackedData::Hoglin(e) => baby(e.get_child(), [1.39648, 1.4, 1.39648]), TrackedData::Horse(e) => baby(e.get_child(), [1.39648, 1.6, 1.39648]), TrackedData::Husk(e) => baby(e.get_baby(), [0.6, 1.95, 0.6]), TrackedData::Illusioner(_) => [0.6, 1.95, 0.6], TrackedData::IronGolem(_) => [1.4, 2.7, 1.4], TrackedData::Item(_) => [0.25, 0.25, 0.25], TrackedData::ItemFrame(e) => return item_frame(self.new_position, e.get_rotation()), TrackedData::Fireball(_) => [1.0, 1.0, 1.0], TrackedData::LeashKnot(_) => [0.375, 0.5, 0.375], TrackedData::Lightning(_) => [0.0, 0.0, 0.0], TrackedData::Llama(e) => baby(e.get_child(), [0.9, 1.87, 0.9]), TrackedData::LlamaSpit(_) => [0.25, 0.25, 0.25], TrackedData::MagmaCube(e) => { let s = 0.5202 * e.get_slime_size() as f64; [s, s, s] } TrackedData::Marker(_) => [0.0, 0.0, 0.0], TrackedData::Minecart(_) => [0.98, 0.7, 0.98], TrackedData::ChestMinecart(_) => [0.98, 0.7, 0.98], TrackedData::CommandBlockMinecart(_) => [0.98, 0.7, 0.98], TrackedData::FurnaceMinecart(_) => [0.98, 0.7, 0.98], TrackedData::HopperMinecart(_) => [0.98, 0.7, 0.98], TrackedData::SpawnerMinecart(_) => [0.98, 0.7, 0.98], TrackedData::TntMinecart(_) => [0.98, 0.7, 0.98], TrackedData::Mule(e) => baby(e.get_child(), [1.39648, 1.6, 1.39648]), TrackedData::Mooshroom(e) => baby(e.get_child(), [0.9, 1.4, 0.9]), TrackedData::Ocelot(e) => baby(e.get_child(), [0.6, 0.7, 0.6]), TrackedData::Painting(e) => { let bounds: Vec3 = match e.get_variant() { PaintingKind::Kebab => [1, 1, 1], PaintingKind::Aztec => [1, 1, 1], PaintingKind::Alban => [1, 1, 1], PaintingKind::Aztec2 => [1, 1, 1], PaintingKind::Bomb => [1, 1, 1], PaintingKind::Plant => [1, 1, 1], PaintingKind::Wasteland => [1, 1, 1], PaintingKind::Pool => [2, 1, 2], PaintingKind::Courbet => [2, 1, 2], PaintingKind::Sea => [2, 1, 2], PaintingKind::Sunset => [2, 1, 2], PaintingKind::Creebet => [2, 1, 2], PaintingKind::Wanderer => [1, 2, 1], PaintingKind::Graham => [1, 2, 1], PaintingKind::Match => [2, 2, 2], PaintingKind::Bust => [2, 2, 2], PaintingKind::Stage => [2, 2, 2], PaintingKind::Void => [2, 2, 2], PaintingKind::SkullAndRoses => [2, 2, 2], PaintingKind::Wither => [2, 2, 2], PaintingKind::Fighters => [4, 2, 4], PaintingKind::Pointer => [4, 4, 4], PaintingKind::Pigscene => [4, 4, 4], PaintingKind::BurningSkull => [4, 4, 4], PaintingKind::Skeleton => [4, 3, 4], PaintingKind::Earth => [2, 2, 2], PaintingKind::Wind => [2, 2, 2], PaintingKind::Water => [2, 2, 2], PaintingKind::Fire => [2, 2, 2], PaintingKind::DonkeyKong => [4, 3, 4], } .into(); let mut center_pos = self.new_position + 0.5; let (facing_x, facing_z, cc_facing_x, cc_facing_z) = match ((self.yaw + 45.0).rem_euclid(360.0) / 90.0) as u8 { 0 => (0, 1, 1, 0), // South 1 => (-1, 0, 0, 1), // West 2 => (0, -1, -1, 0), // North _ => (1, 0, 0, -1), // East }; center_pos.x -= facing_x as f64 * 0.46875; center_pos.z -= facing_z as f64 * 0.46875; center_pos.x += cc_facing_x as f64 * if bounds.x % 2 == 0 { 0.5 } else { 0.0 }; center_pos.y += if bounds.y % 2 == 0 { 0.5 } else { 0.0 }; center_pos.z += cc_facing_z as f64 * if bounds.z % 2 == 0 { 0.5 } else { 0.0 }; let bounds = match (facing_x, facing_z) { (1, 0) | (-1, 0) => bounds.as_().with_x(0.0625), _ => bounds.as_().with_z(0.0625), }; return Aabb { min: center_pos - bounds / 2.0, max: center_pos + bounds / 2.0, }; } TrackedData::Panda(e) => baby(e.get_child(), [1.3, 1.25, 1.3]), TrackedData::Parrot(_) => [0.5, 0.9, 0.5], TrackedData::Phantom(_) => [0.9, 0.5, 0.9], TrackedData::Pig(e) => baby(e.get_child(), [0.9, 0.9, 0.9]), TrackedData::Piglin(e) => baby(e.get_baby(), [0.6, 1.95, 0.6]), TrackedData::PiglinBrute(_) => [0.6, 1.95, 0.6], TrackedData::Pillager(_) => [0.6, 1.95, 0.6], TrackedData::PolarBear(e) => baby(e.get_child(), [1.4, 1.4, 1.4]), TrackedData::Tnt(_) => [0.98, 0.98, 0.98], TrackedData::Pufferfish(_) => [0.7, 0.7, 0.7], TrackedData::Rabbit(e) => baby(e.get_child(), [0.4, 0.5, 0.4]), TrackedData::Ravager(_) => [1.95, 2.2, 1.95], TrackedData::Salmon(_) => [0.7, 0.4, 0.7], TrackedData::Sheep(e) => baby(e.get_child(), [0.9, 1.3, 0.9]), TrackedData::Shulker(e) => { const PI: f64 = std::f64::consts::PI; let pos = self.new_position + 0.5; let mut min = pos - 0.5; let mut max = pos + 0.5; let peek = 0.5 - f64::cos(e.get_peek_amount() as f64 * 0.01 * PI) * 0.5; match e.get_attached_face() { Facing::Down => max.y += peek, Facing::Up => min.y -= peek, Facing::North => max.z += peek, Facing::South => min.z -= peek, Facing::West => max.x += peek, Facing::East => min.x -= peek, } return Aabb { min, max }; } TrackedData::ShulkerBullet(_) => [0.3125, 0.3125, 0.3125], TrackedData::Silverfish(_) => [0.4, 0.3, 0.4], TrackedData::Skeleton(_) => [0.6, 1.99, 0.6], TrackedData::SkeletonHorse(e) => baby(e.get_child(), [1.39648, 1.6, 1.39648]), TrackedData::Slime(e) => { let s = 0.5202 * e.get_slime_size() as f64; [s, s, s] } TrackedData::SmallFireball(_) => [0.3125, 0.3125, 0.3125], TrackedData::SnowGolem(_) => [0.7, 1.9, 0.7], TrackedData::Snowball(_) => [0.25, 0.25, 0.25], TrackedData::SpectralArrow(_) => [0.5, 0.5, 0.5], TrackedData::Spider(_) => [1.4, 0.9, 1.4], TrackedData::Squid(_) => [0.8, 0.8, 0.8], TrackedData::Stray(_) => [0.6, 1.99, 0.6], TrackedData::Strider(e) => baby(e.get_child(), [0.9, 1.7, 0.9]), TrackedData::Egg(_) => [0.25, 0.25, 0.25], TrackedData::EnderPearl(_) => [0.25, 0.25, 0.25], TrackedData::ExperienceBottle(_) => [0.25, 0.25, 0.25], TrackedData::Potion(_) => [0.25, 0.25, 0.25], TrackedData::Trident(_) => [0.5, 0.5, 0.5], TrackedData::TraderLlama(_) => [0.9, 1.87, 0.9], TrackedData::TropicalFish(_) => [0.5, 0.4, 0.5], TrackedData::Turtle(e) => { if e.get_child() { [0.36, 0.12, 0.36] } else { [1.2, 0.4, 1.2] } } TrackedData::Vex(_) => [0.4, 0.8, 0.4], TrackedData::Villager(e) => baby(e.get_child(), [0.6, 1.95, 0.6]), TrackedData::Vindicator(_) => [0.6, 1.95, 0.6], TrackedData::WanderingTrader(_) => [0.6, 1.95, 0.6], TrackedData::Witch(_) => [0.6, 1.95, 0.6], TrackedData::Wither(_) => [0.9, 3.5, 0.9], TrackedData::WitherSkeleton(_) => [0.7, 2.4, 0.7], TrackedData::WitherSkull(_) => [0.3125, 0.3125, 0.3125], TrackedData::Wolf(e) => baby(e.get_child(), [0.6, 0.85, 0.6]), TrackedData::Zoglin(e) => baby(e.get_baby(), [1.39648, 1.4, 1.39648]), TrackedData::Zombie(e) => baby(e.get_baby(), [0.6, 1.95, 0.6]), TrackedData::ZombieHorse(e) => baby(e.get_child(), [1.39648, 1.6, 1.39648]), TrackedData::ZombieVillager(e) => baby(e.get_baby(), [0.6, 1.95, 0.6]), TrackedData::ZombifiedPiglin(e) => baby(e.get_baby(), [0.6, 1.95, 0.6]), TrackedData::Player(e) => match e.get_pose() { Pose::Standing => [0.6, 1.8, 0.6], Pose::Sleeping => [0.2, 0.2, 0.2], Pose::FallFlying => [0.6, 0.6, 0.6], Pose::Swimming => [0.6, 0.6, 0.6], Pose::SpinAttack => [0.6, 0.6, 0.6], Pose::Sneaking => [0.6, 1.5, 0.6], Pose::Dying => [0.2, 0.2, 0.2], _ => [0.6, 1.8, 0.6], }, TrackedData::FishingBobber(_) => [0.25, 0.25, 0.25], }; aabb_from_bottom_and_size(self.new_position, dimensions.into()) } /// Gets the tracked data packet to send to clients after this entity has /// been spawned. /// /// Returns `None` if all the tracked data is at its default values. pub(crate) fn initial_tracked_data_packet( &self, this_id: EntityId, ) -> Option { self.variants .initial_tracked_data() .map(|meta| SetEntityMetadata { entity_id: VarInt(this_id.to_network_id()), metadata: RawBytes(meta), }) } /// Gets the tracked data packet to send to clients when the entity is /// modified. /// /// Returns `None` if this entity's tracked data has not been modified. pub(crate) fn updated_tracked_data_packet( &self, this_id: EntityId, ) -> Option { self.variants .updated_tracked_data() .map(|meta| SetEntityMetadata { entity_id: VarInt(this_id.to_network_id()), metadata: RawBytes(meta), }) } pub(crate) fn spawn_packet(&self, this_id: EntityId) -> Option { let with_object_data = |data| { Some(EntitySpawnPacket::Entity(SpawnEntity { entity_id: VarInt(this_id.to_network_id()), object_uuid: self.uuid, kind: VarInt(self.kind() as i32), position: self.new_position, pitch: ByteAngle::from_degrees(self.pitch), yaw: ByteAngle::from_degrees(self.yaw), head_yaw: ByteAngle::from_degrees(self.head_yaw), data: VarInt(data), velocity: velocity_to_packet_units(self.velocity), })) }; match &self.variants { TrackedData::Marker(_) => None, TrackedData::ExperienceOrb(_) => { Some(EntitySpawnPacket::ExperienceOrb(SpawnExperienceOrb { entity_id: VarInt(this_id.to_network_id()), position: self.new_position, count: 0, // TODO })) } TrackedData::Player(_) => Some(EntitySpawnPacket::Player(SpawnPlayer { entity_id: VarInt(this_id.to_network_id()), player_uuid: self.uuid, position: self.new_position, yaw: ByteAngle::from_degrees(self.yaw), pitch: ByteAngle::from_degrees(self.pitch), })), TrackedData::ItemFrame(e) => with_object_data(e.get_rotation()), TrackedData::GlowItemFrame(e) => with_object_data(e.get_rotation()), TrackedData::Painting(_) => { with_object_data(match ((self.yaw + 45.0).rem_euclid(360.0) / 90.0) as u8 { 0 => 3, 1 => 4, 2 => 2, _ => 5, }) } TrackedData::FallingBlock(_) => with_object_data(1), // TODO: set block state ID. TrackedData::FishingBobber(e) => with_object_data(e.get_hook_entity_id()), TrackedData::Warden(e) => with_object_data((e.get_pose() == Pose::Emerging).into()), _ => with_object_data(0), } } } pub(crate) fn velocity_to_packet_units(vel: Vec3) -> Vec3 { // The saturating cast to i16 is desirable. (8000.0 / STANDARD_TPS as f32 * vel).as_() } pub(crate) enum EntitySpawnPacket { Entity(SpawnEntity), ExperienceOrb(SpawnExperienceOrb), Player(SpawnPlayer), } impl From for S2cPlayPacket { fn from(pkt: EntitySpawnPacket) -> Self { match pkt { EntitySpawnPacket::Entity(pkt) => pkt.into(), EntitySpawnPacket::ExperienceOrb(pkt) => pkt.into(), EntitySpawnPacket::Player(pkt) => pkt.into(), } } } #[cfg(test)] mod tests { use std::num::NonZeroU32; use uuid::Uuid; use super::{Entities, EntityId, EntityKind}; use crate::config::Config; use crate::server::Server; use crate::slab_versioned::Key; /// Created for the sole purpose of use during unit tests. struct MockConfig; impl Config for MockConfig { type ServerState = (); type ClientState = (); type EntityState = u8; // Just for identification purposes type WorldState = (); type ChunkState = (); type PlayerListState = (); fn max_connections(&self) -> usize { 10 } fn update(&self, _server: &mut Server) {} } #[test] fn entities_has_valid_new_state() { let mut entities: Entities = Entities::new(); let network_id: i32 = 8675309; let entity_id = EntityId(Key::new( 202298, NonZeroU32::new(network_id as u32).expect("Value given should never be zero!"), )); let uuid = Uuid::from_bytes([2; 16]); assert!(entities.is_empty()); assert!(entities.get(entity_id).is_none()); assert!(entities.get_mut(entity_id).is_none()); assert!(entities.get_with_uuid(uuid).is_none()); assert!(entities.get_with_network_id(network_id).is_none()); } #[test] fn entities_can_be_set_and_get() { let mut entities: Entities = Entities::new(); assert!(entities.is_empty()); let (player_id, player_entity) = entities.insert(EntityKind::Player, 1); assert_eq!(player_entity.state, 1); assert_eq!(entities.get(player_id).unwrap().state, 1); let mut_player_entity = entities .get_mut(player_id) .expect("Failed to get mutable reference"); mut_player_entity.state = 100; assert_eq!(entities.get(player_id).unwrap().state, 100); assert_eq!(entities.len(), 1); } #[test] fn entities_can_be_set_and_get_with_uuid() { let mut entities: Entities = Entities::new(); let uuid = Uuid::from_bytes([2; 16]); assert!(entities.is_empty()); let (zombie_id, zombie_entity) = entities .insert_with_uuid(EntityKind::Zombie, uuid, 1) .expect("Unexpected Uuid collision when inserting to an empty collection"); assert_eq!(zombie_entity.state, 1); let maybe_zombie = entities .get_with_uuid(uuid) .expect("Uuid lookup failed on item already added to this collection"); assert_eq!(zombie_id, maybe_zombie); assert_eq!(entities.len(), 1); } #[test] fn entities_can_be_set_and_get_with_network_id() { let mut entities: Entities = Entities::new(); assert!(entities.is_empty()); let (boat_id, boat_entity) = entities.insert(EntityKind::Boat, 12); assert_eq!(boat_entity.state, 12); let (cat_id, cat_entity) = entities.insert(EntityKind::Cat, 75); assert_eq!(cat_entity.state, 75); let maybe_boat_id = entities .get_with_network_id(boat_id.0.version.get() as i32) .expect("Network id lookup failed on item already added to this collection"); let maybe_boat = entities .get(maybe_boat_id) .expect("Failed to look up item already added to collection"); assert_eq!(maybe_boat.state, 12); let maybe_cat_id = entities .get_with_network_id(cat_id.0.version.get() as i32) .expect("Network id lookup failed on item already added to this collection"); let maybe_cat = entities .get(maybe_cat_id) .expect("Failed to look up item already added to collection"); assert_eq!(maybe_cat.state, 75); assert_eq!(entities.len(), 2); } #[test] fn entities_can_be_removed() { let mut entities: Entities = Entities::new(); assert!(entities.is_empty()); let (player_id, _) = entities.insert(EntityKind::Player, 1); let player_state = entities .remove(player_id) .expect("Failed to remove an item from the collection"); assert_eq!(player_state, 1); } #[test] fn entities_can_be_retained() { let mut entities: Entities = Entities::new(); assert!(entities.is_empty()); let (blaze_id, _) = entities.insert(EntityKind::Blaze, 10); let (fox_id, _) = entities.insert(EntityKind::Fox, 110); let (turtle_id, _) = entities.insert(EntityKind::Turtle, 20); let (goat_id, _) = entities.insert(EntityKind::Goat, 120); let (horse_id, _) = entities.insert(EntityKind::Horse, 30); assert_eq!(entities.len(), 5); entities.retain(|_id, entity| entity.state > 100); assert_eq!(entities.len(), 2); assert!(entities.get(fox_id).is_some()); assert!(entities.get(goat_id).is_some()); assert!(entities.get(blaze_id).is_none()); assert!(entities.get(turtle_id).is_none()); assert!(entities.get(horse_id).is_none()); } }