bevy/bevy_transform
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README.md EntityArchetype proc macro 2020-01-19 02:02:12 -08:00

Hierarchical Legion Transform

Build Status

A hierarchical space transform system, implemented using Legion ECS. The implementation is based heavily on the new Unity ECS Transformation layout.

Usage

TL;DR - Just show me the secret codes and incantations!

See examples/hierarchy.rs

#[allow(unused)]
fn tldr_sample() {
    // Create a normal Legion World
    let mut world = Universe::default().create_world();

    // Create a system bundle (vec of systems) for LegionTransform
    let transform_system_bundle = TransformSystemBundle::default().build();

    let parent_entity = *world
        .insert(
            (),
            vec![(
                // Always needed for an Entity that has any space transform
                LocalToWorld::identity(),
                // The only mutable space transform a parent has is a translation.
                Translation::new(100.0, 0.0, 0.0),
            )],
        )
        .first()
        .unwrap();

    world.insert(
        (),
        vec![
            (
                // Again, always need a `LocalToWorld` component for the Entity to have a custom
                // space transform.
                LocalToWorld::identity(),
                // Here we define a Translation, Rotation and uniform Scale.
                Translation::new(1.0, 2.0, 3.0),
                Rotation::from_euler_angles(3.14, 0.0, 0.0),
                Scale(2.0),
                // Add a Parent and LocalToParent component to attach a child to a parent.
                Parent(parent_entity),
                LocalToParent::identity(),
            );
            4
        ],
    );
}

See examples for both transform and hierarchy examples.

Transform Overview

The Transform and Hierarchy parts of Legion Transform are largely separate and can thus be explained independently. We will start with space transforms, so for now completely put hierarchies out of mind (all entities have space transforms directly from their space to world space).

A 3D space transform can come in many forms. The most generic of these is a matrix 4x4 which can represent any arbitrary (linear) space transform, including projections and sheers. These are not rarely useful for entity transformations though, which are normally defined by things like

  • A Translation - movement along the X, Y or Z axis.
  • A Rotation - 3D rotation encoded as a Unit Quaternion to prevent gimbal lock.
  • A Scale - Defined as a single floating point values, but often incorrectly defined as a Vector3 (which is a NonUniformScale) in other engines and 3D applications.
  • A NonUniformScale - Defined as a scale for the X, Y and Z axis independently from each other.

In fact, in Legion Transform, each of the above is it's own Component type. These components can be added in any combination to an Entity with the only exception being that Scale and NonUniformScale are mutually exclusive.

Higher-order transformations can be built out of combinations of these components, for example:

  • Isometry: Translation + Rotation
  • Similarity: Translation + Rotation + Scale
  • Affine: Translation + Rotation + NonUniformScale

The combination of these components will be processed (when they change) by the LocalToWorldSystem which will produce a correct LocalToWorld based on the attached transformations. This LocalToWorld is a homogeneous matrix4x4 computed as: (Translation * (Rotation * (Scale | NonUniformScale))).

Breaking apart the transform into separate components means that you need only pay the runtime cost of computing the actual transform you need per-entity. Further, having LocalToWorld be a separate component means that any static entity (including those in static hierarchies) can be pre-baked into a LocalToWorld component and the rest of the transform data need not be loaded or stored in the final build of the game.

In the event that the Entity is a member of a hierarchy, the LocalToParent matrix will house the (Translation * (Rotation * (Scale | NonUniformScale))) computation instead, and the LocalToWorld matrix will house the final local space to world space transformation (after all it's parent transformations have been computed). In other words, the LocalToWorld matrix is always the transformation from an entities local space, directly into world space, regardless of if the entity is a member of a hierarchy or not.

Why not just NonUniformScale always?

NonUniformScale is somewhat evil. It has been used (and abused) in countless game engines and 3D applications. A Transform with a non-uniform scale is known as an Affine Transform and it cannot be applied to things like a sphere collider in a physics engine without some serious gymnastics, loss of precision and/or detrimental performance impacts. For this reason, you should always use a uniform Scale component when possible. This component was named Scale over something like "UniformScale" to imply it's status as the default scale component and NonUniformScale's status as a special case component.

For more info on space transformations, see nalgebra Points and Transformations.

Hierarchies

Hierarchies in Legion Transform are defined in two parts. The first is the Source Of Truth for the hierarchy, it is always correct and always up-to-date: the Parent Component. This is a component attached to children of a parent (ie a child 'has a' Parent). Users can update this component directly, and because it points toward the root of the hierarchy tree, it is impossible to form any other type of graph apart from a tree.

Each time the Legion Transform system bundle is run, the LocalToParentPropagateSystem will also add/modify/remove a Children component on any entity that has children (ie entities that have a Parent component pointing to the parent entity). Because this component is only updated during the system bundle run, it can be out of date, incorrect or missing altogether after world mutations.

It is important to note that as of today, any member of a hierarchy has it's LocalToWorld matrix re-computed each system bundle run, regardless of changes. This may someday change, but it is expected that the number of entities in a dynamic hierarchy for a final game should be small (static hierarchies can be pre-baked, where each entity gets a pre-baked LocalToWorld matrix).

This is no good 'tall, why didn't you do is way?

The first implementation used Legion Tags to store the Parent component for any child. This allowed for things like O(1) lookup of children, but was deemed way too much fragmentation (Legion is an archetypical, chunked ECS).

The second implementation was based on this fine article by Michele Caini which structures the hierarchy as explicit parent pointer, a pointer to the first (and only first) child, and implicitly forms a linked-list of siblings. While elegant, the actual implementation was both complicated an near-impossible to multi-thread. For example, iterating through children entities required a global query to the Legion World for each child. I decided a small amount of memory by storing a possibly-out-of-date SmallVec of children was worth sacrificing on parent entities to make code both simpler and faster (theoretically, I never tested it).

A lot of other options were considered as well, for example storing the entire hierarchy out-of-band from the ECS (much like Amethyst pre-Legion does). This has some pretty nasty drawbacks though. It makes streaming entities much harder, it means that hierarchies need to be special-case serialized/deserialized with initialization code being run on the newly deserialized entities. And it means that the hierarchy does not conform to the rest of the ECS. It also means that Legion, and all the various optimizations for querying / iterating large numbers of entities, was going to be mostly unused and a lot of global queries would need to be made against the World while syncing the World and out-of-band data-structure. I felt very strongly against an out-of-band implementation despite it being simpler to implement upfront.

Todo

  • Hierarchy maintenance
    • Remove changed Parent from Children list of the previous parent.
    • Add changed Parent to Children list of the new parent.
    • Update PreviousParent to the new Parent.
    • Handle Entities with removed Parent components.
    • Handle Entities with Children but without LocalToWorld (move their children to non-hierarchical).
    • Handle deleted Legion Entities (requires Legion #13)
  • Local to world and parent transformation
    • Handle homogeneous Matrix4<f32> calculation for combinations of:
      • Translation
      • Rotation
      • Scale
      • NonUniformScale
    • Handle change detection and only recompute LocalToWorld when needed.
    • Multi-threaded updates for non-hierarchical LocalToWorld computation.
    • Recompute LocalToParent each run, always.
  • Transform hierarchy propagation
    • Collect roots of the hierarchy forest
    • Recursively re-compute LocalToWorld from the Parent's LocalToWorld and the LocalToParent of each child.
    • Multi-threaded updates for hierarchical LocalToWorld computation.
    • Compute all changes and flush them to a CommandBuffer rather than direct mutation of components.

Blockers

  • Legion has no ability to detect deleted entities or components. GitHub Issue #13