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pub use self::comp::Component; pub use self::entity::{CreateIterAtomic, Entities, EntitiesRes, Entity, Generation, Index}; pub use self::lazy::{LazyBuilder, LazyUpdate}; use self::entity::Allocator; use std::borrow::Borrow; use shred::{Fetch, FetchMut, MetaTable, Read, Resource, Resources, SystemData}; use error::WrongGeneration; use storage::{AnyStorage, DenseVecStorage, MaskedStorage}; use storage::{ReadStorage, WriteStorage}; mod comp; mod entity; mod lazy; #[cfg(test)] mod tests; /// An iterator for entity creation. /// Please note that you have to consume /// it because iterators are lazy. /// /// Returned from `World::create_iter`. pub struct CreateIter<'a>(FetchMut<'a, EntitiesRes>); impl<'a> Iterator for CreateIter<'a> { type Item = Entity; fn next(&mut self) -> Option<Entity> { Some(self.0.alloc.allocate()) } } /// The entity builder, allowing to /// build an entity together with its components. /// /// ## Examples /// /// ``` /// use specs::prelude::*; /// use specs::storage::HashMapStorage; /// /// struct Health(f32); /// /// impl Component for Health { /// type Storage = HashMapStorage<Self>; /// } /// /// struct Pos { /// x: f32, /// y: f32, /// } /// /// impl Component for Pos { /// type Storage = DenseVecStorage<Self>; /// } /// /// let mut world = World::new(); /// world.register::<Health>(); /// world.register::<Pos>(); /// /// let entity = world /// .create_entity() // This call returns `EntityBuilder` /// .with(Health(4.0)) /// .with(Pos { x: 1.0, y: 3.0 }) /// .build(); // Returns the `Entity` /// ``` pub struct EntityBuilder<'a> { /// The (already created) entity for which components will be inserted. pub entity: Entity, /// A reference to the `World` for component insertions. pub world: &'a World, } impl<'a> EntityBuilder<'a> { /// Appends a component and associates it with the entity. /// /// # Panics /// /// Panics if the component hasn't been `register()`ed in the /// `World`. #[inline] pub fn with<T: Component>(self, c: T) -> Self { { let mut storage = self.world.write_storage(); storage.insert(self.entity, c); } self } /// Finishes the building and returns the entity. #[inline] pub fn build(self) -> Entity { self.entity } } /// The `World` struct contains the component storages and /// other resources. /// /// Many methods take `&self` which works because everything /// is stored with **interior mutability**. In case you violate /// the borrowing rules of Rust (multiple reads xor one write), /// you will get a panic. /// /// ## Examples /// /// ``` /// use specs::prelude::*; /// # #[derive(Debug, PartialEq)] /// # struct Pos { x: f32, y: f32, } impl Component for Pos { type Storage = VecStorage<Self>; } /// # #[derive(Debug, PartialEq)] /// # struct Vel { x: f32, y: f32, } impl Component for Vel { type Storage = VecStorage<Self>; } /// # struct DeltaTime(f32); /// /// let mut world = World::new(); /// world.register::<Pos>(); /// world.register::<Vel>(); /// /// world.add_resource(DeltaTime(0.02)); /// /// world /// .create_entity() /// .with(Pos { x: 1.0, y: 2.0 }) /// .with(Vel { x: -1.0, y: 0.0 }) /// .build(); /// /// let b = world /// .create_entity() /// .with(Pos { x: 3.0, y: 5.0 }) /// .with(Vel { x: 1.0, y: 0.0 }) /// .build(); /// /// let c = world /// .create_entity() /// .with(Pos { x: 0.0, y: 1.0 }) /// .with(Vel { x: 0.0, y: 1.0 }) /// .build(); /// /// { /// // `World::read_storage` returns a component storage. /// let pos_storage = world.read_storage::<Pos>(); /// let vel_storage = world.read_storage::<Vel>(); /// /// // `Storage::get` allows to get a component from it: /// assert_eq!(pos_storage.get(b), Some(&Pos { x: 3.0, y: 5.0 })); /// assert_eq!(vel_storage.get(c), Some(&Vel { x: 0.0, y: 1.0 })); /// } /// /// let empty = world.create_entity().build(); /// /// { /// // This time, we write to the `Pos` storage: /// let mut pos_storage = world.write_storage::<Pos>(); /// let vel_storage = world.read_storage::<Vel>(); /// /// assert!(pos_storage.get(empty).is_none()); /// /// // You can also insert components after creating the entity: /// pos_storage.insert(empty, Pos { x: 3.1, y: 4.15 }); /// /// assert!(pos_storage.get(empty).is_some()); /// } /// ``` pub struct World { /// The resources used for this world. pub res: Resources, } impl World { /// Creates a new empty `World`. pub fn new() -> World { Default::default() } /// Registers a new component, adding the component storage. /// /// Calls `register_with_storage` with `Default::default()`. /// /// Does nothing if the component was already /// registered. /// /// ## Examples /// /// ``` /// use specs::prelude::*; /// /// struct Pos { /// x: f32, /// y: f32, /// } /// /// impl Component for Pos { /// type Storage = DenseVecStorage<Self>; /// } /// /// let mut world = World::new(); /// world.register::<Pos>(); /// // Register all other components like this /// ``` pub fn register<T: Component>(&mut self) where T::Storage: Default, { self.register_with_storage::<_, T>(Default::default); } /// Registers a new component with a given storage. /// /// Does nothing if the component was already registered. pub fn register_with_storage<F, T>(&mut self, storage: F) where F: FnOnce() -> T::Storage, T: Component, { Self::register_with_storage_internal::<F, T>(&mut self.res, storage); } /// Registers a new component with a given storage. /// /// Does nothing if the component was already registered. pub(crate) fn register_with_storage_internal<F, T>(res: &mut Resources, storage: F) where F: FnOnce() -> T::Storage, T: Component, { res.entry() .or_insert_with(move || MaskedStorage::<T>::new(storage())); res.fetch_mut::<MetaTable<AnyStorage>>() .register(&*res.fetch::<MaskedStorage<T>>()); } /// Gets `SystemData` `T` from the `World`. /// /// # Panics /// /// * Panics if `T` is already borrowed in an incompatible way. pub fn system_data<'a, T>(&'a self) -> T where T: SystemData<'a>, { SystemData::fetch(&self.res) } /// Adds a resource to the world. /// /// If the resource already exists it will be overwritten. /// /// ## Difference between resources and components /// /// While components exist per entity, resources are like globals in the `World`. /// Components are stored in component storages, which are resources themselves. /// /// Everything that is `Any + Send + Sync` can be a resource. /// /// ## Built-in resources /// /// There are two built-in resources: /// /// * `LazyUpdate` and /// * `EntitiesRes` /// /// Both of them should only be fetched immutably, which is why /// the latter one has a type def for convenience: `Entities` which /// is just `Fetch<EntitiesRes>`. Both resources are special and need /// to execute code at the end of the frame, which is done in `World::maintain`. /// /// ## Examples /// /// ``` /// use specs::prelude::*; /// /// # let timer = (); /// # let server_con = (); /// let mut world = World::new(); /// world.add_resource(timer); /// world.add_resource(server_con); /// ``` pub fn add_resource<T: Resource>(&mut self, res: T) { if self.res.has_value::<T>() { *self.res.fetch_mut() = res; } else { self.res.insert(res); } } /// Fetches a component's storage for reading. /// /// ## Panics /// /// Panics if it is already borrowed mutably. /// Panics if the component has not been registered. pub fn read_storage<T: Component>(&self) -> ReadStorage<T> { use shred::SystemData; SystemData::fetch(&self.res) } /// Fetches a component's storage for writing. /// /// ## Panics /// /// Panics if it is already borrowed (either immutably or mutably). /// Panics if the component has not been registered. pub fn write_storage<T: Component>(&self) -> WriteStorage<T> { use shred::SystemData; SystemData::fetch(&self.res) } /// Fetches a resource for reading. /// /// ## Panics /// /// Panics if it is already borrowed mutably. /// Panics if the resource has not been added. pub fn read_resource<T: Resource>(&self) -> Fetch<T> { self.res.fetch() } /// Fetches a resource for writing. /// /// # Panics /// /// Panics if it is already borrowed. /// Panics if the resource has not been added. pub fn write_resource<T: Resource>(&self) -> FetchMut<T> { self.res.fetch_mut() } /// Convenience method for fetching entities. /// /// Creation and deletion of entities with the `Entities` struct /// are atomically, so the actual changes will be applied /// with the next call to `maintain()`. pub fn entities(&self) -> Read<EntitiesRes> { Read::fetch(&self.res) } /// Convenience method for fetching entities. fn entities_mut(&self) -> FetchMut<EntitiesRes> { self.write_resource() } /// Allows building an entity with its components. /// /// This takes a mutable reference to the `World`, since no /// component storage this builder accesses may be borrowed. /// If it's necessary that you borrow a resource from the `World` /// while this builder is alive, you can use `create_entity_unchecked`. pub fn create_entity(&mut self) -> EntityBuilder { self.create_entity_unchecked() } /// Allows building an entity with its components. /// /// **You have to make sure that no component storage is borrowed /// during the building!** /// /// This variant is only recommended if you need to borrow a resource /// during the entity building. If possible, try to use `create_entity`. pub fn create_entity_unchecked(&self) -> EntityBuilder { let entity = self.entities_mut().alloc.allocate(); EntityBuilder { entity, world: self, } } /// Returns an iterator for entity creation. /// This makes it easy to create a whole collection /// of them. /// /// ## Examples /// /// ``` /// use specs::prelude::*; /// /// let mut world = World::new(); /// let five_entities: Vec<_> = world.create_iter().take(5).collect(); /// # /// # assert_eq!(five_entities.len(), 5); /// ``` pub fn create_iter(&mut self) -> CreateIter { CreateIter(self.entities_mut()) } /// Deletes an entity and its components. pub fn delete_entity(&mut self, entity: Entity) -> Result<(), WrongGeneration> { self.delete_entities(&[entity]) } /// Deletes the specified entities and their components. pub fn delete_entities(&mut self, delete: &[Entity]) -> Result<(), WrongGeneration> { self.delete_components(delete); self.entities_mut().alloc.kill(delete) } /// Deletes all entities and their components. pub fn delete_all(&mut self) { use join::Join; let entities: Vec<_> = (&*self.entities()).join().collect(); self.delete_entities(&entities).expect( "Bug: previously collected entities are not valid \ even though access should be exclusive", ); } /// Checks if an entity is alive. /// Please note that atomically created or deleted entities /// (the ones created / deleted with the `Entities` struct) /// are not handled by this method. Therefore, you /// should have called `maintain()` before using this /// method. /// /// If you want to get this functionality before a `maintain()`, /// you are most likely in a system; from there, just access the /// `Entities` resource and call the `is_alive` method. /// /// # Panics /// /// Panics if generation is dead. pub fn is_alive(&self, e: Entity) -> bool { assert!(e.gen().is_alive(), "Generation is dead"); let alloc: &Allocator = &self.entities().alloc; alloc .generations .get(e.id() as usize) .map(|&x| x == e.gen()) .unwrap_or(false) } /// Merges in the appendix, recording all the dynamically created /// and deleted entities into the persistent generations vector. /// Also removes all the abandoned components. /// /// Additionally, `LazyUpdate` will be merged. pub fn maintain(&mut self) { let deleted = self.entities_mut().alloc.merge(); self.delete_components(&deleted); self.write_resource::<LazyUpdate>().maintain(&*self); } fn delete_components(&mut self, delete: &[Entity]) { for storage in self.any_storages().iter_mut(&self.res) { storage.drop(delete); } } /// Adds the given bundle of resources/components. pub fn add_bundle<B>(&mut self, bundle: B) where B: Bundle, { bundle.add_to_world(self); } fn any_storages(&self) -> FetchMut<MetaTable<AnyStorage>> { self.res.fetch_mut::<MetaTable<AnyStorage>>() } } unsafe impl Send for World {} unsafe impl Sync for World {} impl Borrow<Resources> for World { fn borrow(&self) -> &Resources { &self.res } } impl Component for World { type Storage = DenseVecStorage<Self>; } impl Default for World { fn default() -> Self { let mut res = Resources::new(); res.insert(EntitiesRes::default()); res.insert(LazyUpdate::default()); res.insert(MetaTable::<AnyStorage>::new()); World { res } } } /// Trait used to bundle up resources/components for easy registration with `World`. pub trait Bundle { /// Add resources/components to `world`. fn add_to_world(self, world: &mut World); }