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crates docs actions MIT/Apache loc Edict is a fast, powerful and ergonomic ECS crate that expands traditional ECS feature set. Written in Rust by your fellow πŸ¦€

Basic usage 🌱

use edict::prelude::*;

// Create world instance.
let mut world = World::new();

// Declare some components.
#[derive(Component)]
struct Pos(f32, f32);

// Declare some more.
#[derive(Component)]
struct Vel(f32, f32);

// Spawn entity with components.
world.spawn((Pos(0.0, 0.0), Vel(1.0, 1.0)));

// Query components and iterate over views.
for (pos, vel) in world.view::<(&mut Pos, &Vel)>() {
  pos.0 += vel.0;
  pos.1 += vel.1;
}


// Define functions that will be used as systems.
#[edict::system::system] // This attribute is optional, but it catches if function is not a system.
fn move_system(pos_vel: View<(&mut Pos, &Vel)>) {
  for (pos, vel) in pos_vel {
    pos.0 += vel.0;
    pos.1 += vel.1;
  }
}

// Create scheduler to run systems. Requires "scheduler" feature.
use edict::scheduler::Scheduler;

let mut scheduler = Scheduler::new();
scheduler.add_system(move_system);

// Run systems without parallelism.
scheduler.run_sequential(&mut world);

// Run systems using threads. Requires "std" feature.
scheduler.run_threaded(&mut world);

// Or use custom thread pool.

Features

Entities 🧩

Simple IDs

In Entity Component Systems we create entities and address them to fetch associated data. Edict provides EntityId type to address entities.

EntityId as a world-unique identifier of an entity. Edict uses IDs without generation and recycling, for this purpose it employs u64 underlying type with a few niches. It is enough to create IDs non-stop for hundreds of years before running out of them. This greatly simplifying serialization of the World's state as it doesn't require any processing of entity IDs.

By default entity IDs are unique only within one World. For multi-world scenarios Edict provides a way to make entity IDs unique between any required combination of worlds.

IDs are allocated in sequence from IdRanges that are allocated by IdRangeAllocator. By default IdRange that spans from 1 to u64::MAX - 1 is used. This makes default ID allocation extremely fast. Custom IdRangeAllocator can be provided to WorldBuilder to use custom ID ranges.

For example in client-server architecture, server and client may use non-overlapping ID ranges. Thus allowing state serialized on server to be transferred to client without ID mapping, which can be cumbersome when components reference entities.

In multi-server or p2p architecture IdRangeAllocator would need to communicate to allocate disjoint ID ranges for each server.

Ergonomic entity types

Using ECS may lead to lots of .unwrap() calls or excessive error handling. There a lot of situations when entity is guaranteed to exist (for example it just returned from a view). To avoid handling NoSuchEntity error when it is unreachable, Edict provides AliveEntity trait that extends Entity trait. Various methods require AliveEntity handle and skip existence check.

Entity and AliveEntity traits implemented for number of entity types.

EntityId implements only Entity as it doesn't provide any guaranties.

EntityBound is guaranteed to be alive, allowing using it in methods that doesn't handle entity absence. It keeps lifetime of World borrow, making it impossible to despawn any entity from the world. Using it with wrong World may cause panic. EntityBound can be acquire from relation queries.

EntityLoc not only guarantees entity existence but also contains location of the entity in the archetypes, allowing to skip lookup step when accessing its components. Similarly to EntityBound, it keeps lifetime of World borrow, making it impossible to despawn any entity from the world. Using it with wrong World may cause panic. EntityLoc can be acquire from Entities query.

EntityRef is special. It doesn't implement Entity or AliveEntity traits since it should not be used in world methods. Instead it provides direct access to entity's data and allows mutations such as inserting/removing components.

Components πŸ› οΈ

Non-thread-safe types

Support for !Send and !Sync components and resources with some limitations.

World itself is not sendable but shareable between threads. Thread owning World is referred as "main" thread in documentation.

Components and resources that are !Send can be fetched mutably only from "main" thread. Components and resources that are !Sync can be fetched immutably only from "main" thread. Since reference to World may exist outside "main" thread, WorldLocal reference should be used, it can be created using mutable reference to World.

Components with trait and without

Optional Component trait that allows implicit component type registration when component is inserted first time. Implicit registration uses behavior defined by Component implementation as-is. When needed, explicit registration can be done using WorldBuilder to override component behavior.

Non Component types require explicit registration and few methods with _external suffix is used with them instead of normal ones. Only default registration is possible when World is already built. When needed, explicit registration can be done using WorldBuilder to override component behavior.

Entity relations πŸ”—

A relation can be added to pair of entities, binding them together. Queries may fetch relations and filter entities by their relations to other entities. When either of the two entities is despawned, relation is dropped. Relation type may further configure behavior of the bounded entities.

Queries πŸ”

Powerful Query mechanism that can filter entities by components, relations and other criteria and fetch entity data. Queries can be mutable or immutable, sendable or non-sendable, stateful or stateless.

Using query on World creates Views. Views can be used to iterate over entities that match the query yielding query items. Or fetch single entity data.

ViewRef and ViewMut are convenient type aliases to view types returned from World methods.

Runtime and compile time checks

Runtime checks are available for query mutable aliasing avoidance.

ViewRef and ViewCell do runtime checks allowing multiple views with aliased access coexist, deferring checks to runtime that prevents invalid aliasing to occur.

When this is not required, ViewMut and Views with compile time checks should be used instead.

When View is expected ViewRef and ViewCell can be locked to make a View.

Borrows

Component type may define borrowing operations to borrow another type from it. Borrowed type may be not sized, allowing slices and dyn traits to be borrowed. A macro to help define borrowing operations is provided. Queries that tries to borrow type from suitable components are provided:

  • BorrowAll borrows from all components that implement borrowing requested type. Yields a Vec with borrowed values since multiple components of the entity may provide it. Skips entities if none of the components provide the requested type.
  • BorrowAny borrows from first suitable component that implements borrowing requested type. Yields a single value. Skips entities if none of the components provide the requested type.
  • BorrowOne is configured with TypeId of component from which it should borrow requested type. Panics if component doesn't provide the requested type. Skips entities without the component.

Resources πŸ“¦

Built-in type-map for singleton values called "resources". Resources can be inserted into/fetched from World. Resources live separately from entities and their components.

Actions πŸƒβ€β™‚οΈ

Use ActionEncoder for recording actions and run them later with mutable access to World. Or LocalActionEncoder instead when action is not Send. Or convenient WorldLocal::defer* methods to defer actions to internal LocalActionEncoder.

Automatic change tracking πŸ€–

Each component instance is equipped with epoch counter that tracks last potential mutation of the component. Queries may read and update components epoch to track changes. Queries to filter recently changed components are provided with Modified type. Last epoch can be obtained with World::epoch.

Systems βš™οΈ

Systems is convenient way to build logic that operates on World. Edict defines System trait to run logic on World. And IntoSystem trait for types convertible to System.

Functions may implement IntoSystem automatically - it is required to return () and accept arguments that implement FnArg trait. There are FnArg implementations:

  • View and ViewCell to iterate over entities and their components. Use View unless ViewCell is required to handle intra-system views conflict.
  • Res and ResMut to access resources.
  • ResLocal and ResMutLocal to access no-thread-safe resources. This will make system non-sendable and force it to run on main thread.
  • ActionEncoder to record actions that mutate World state, such as entity spawning, inserting and removing components or resources.
  • State to store system's local state between runs.

Easy scheduler πŸ“…

Scheduler is provided to run Systems. Systems added to the Scheduler run in parallel where possible, however they act as if executed sequentially in order they were added.

If systems do not conflict they may be executed in parallel.

If systems conflict, the one added first will be executed before the one added later can start.

std threads or rayon can be used as an executor. User may provide custom executor by implementing ScopedExecutor trait.

Requires "scheduler" feature which is enabled by default.

Hooks 🎣

Component replace/drop hooks are called automatically when component is replaced or dropped.

When component is registered it can be equipped with hooks to be called when component value is replaced or dropped. Implicit registration of Component types will register hooks defined on the trait impl.

Drop hook is called when component is dropped via World::drop or entity is despawned and is not called when component is removed from entity.

Replace hook is called when component is replaced e.g. component is inserted into entity and entity already has component of the same type. Replace hook returns boolean value that indicates if drop hook should be called for replaced component.

Hooks can record actions into provided LocalActionEncoder that will be executed before World method that caused the hook to be called returns.

When component implements Component trait, hooks defined on the trait impl are registered automatically to call Component::on_drop and Component::on_replace methods. They may be overridden with custom hooks using WorldBuilder. For non Component types hooks can be registered only via WorldBuilder. Default registration with World will not register any hooks.

Async-await ⏳

Futures executor to run logic that requires waiting for certain conditions or events or otherwise spans for multiple ticks.

Logic that requires waiting can be complex to implement using systems. Systems run in loop and usually work on every entity with certain components. Implementing waiting logic would require adding waiting state to existing or new components and logic would be spread across many system runs or even many systems.

Futures may use await syntax to wait for certain conditions or events. Futures that can access ECS data are referred in Edict as "flows".

Flows can be spawned in the World using World::spawn_flow or FlowWorld::spawn_flow method. Flows type is used as an executor to run spawned flows.

Flows can be bound to an entity and spawned using World::spawn_flow_for, FlowWorld::spawn_flow_for, EntityRef::spawn_flow or FlowEntity::spawn_flow method. Such flows will be cancelled if entity is despawned.

Functions that return futures may serve as flows. For World::spawn_flow use function or closure with signature FnOnce(FlowWorld) -> Future For World::spawn_flow_for use function or closure with signature FnOnce(FlowEntity) -> Future

User may implement low-level futures using poll* methods of FlowWorld and FlowEntity to access tasks Context. Edict provides only a couple of low-level futures that will do the waiting:

WakeOnDrop component can be used when despawning entity should wake a task.

It is recommended to use flows for high-level logic that spans multiple ticks and use systems to do low-level logic that runs every tick. Flows may request systems to perform operations by adding special components to entities. And systems may spawn flows to do long-running operations.

Requires "flow" feature which is enabled by default.

no_std support

Edict can be used in no_std environment but requires alloc crate. "std" feature is enabled by default.

If "std" feature is not enabled error types will not implement std::error::Error.

When "flow" feature is enabled and "std" is not, extern functions are used to implement TLS. Application must provide implementation for these functions or linking will fail.

When "scheduler" feature is enabled and "std" is not, external functions are used to implement thread parking. Application must provide implementation for these functions or linking will fail.

License

Licensed under either of

at your option.

Contributions

Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.

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