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Component Bundle Queries #2252
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It seems clear that when operating in this way, However for For For |
This is almost certainly blocked on #1843, as otherwise we have no way to differentiate whether you want to query for a bundle as a bundle or a component. This may result in overlapping impl errors for attempts to have types as both a bundle and a component, but in my book that's a serious win for clarity (even if bevy_rapier uses this pattern right now). Note that the granular fields (and ability to split components apart) actually allow this to enable nontrivial functionality and performance enhancements. We can get more granular change detection, which is very useful for some expensive algorithms, and also reduce the data that must be accessed when only handling one part of a larger component. This would also be very useful for things along the lines of the massive To break down the desired behavior a bit, I think it should work like so when iterated over. let query = Query<&Transform>
for (translation, rotation, scale) in query.iter(){
} let query = Query<(&Life, &Transform)>
for (life, transform) in query.iter(){
transform.rotation += 0.2;
} And maybe even: let query = Query<(&Life, &Transform)>
for (life, (translation, rotation, scale)) in query.iter(){
rotation += 0.2;
} Note that this syntax is actually likely to result in extremely minimal code breakage for existing users of |
I think I'd actually prefer it if the query returned the struct, though I'm not sure which is easier to implement. One reason to return the struct is because you can then implement methods for the bundle, it would also mean this isn't (as much of) a breaking change, because querying a |
Ah, there was a fourth case I forget to mention: let query = Query<&Transform>
for transform in query.iter(){
} As I'm trying to hint at by example, the idea is that the compiler either keeps the struct intact or automatically unpacks it based on the number of arguments it has to match against. |
As part of this change, we could remove |
I really dislike this behavior: it's incredibly magical, special-cases bundles and forces us to store Bundle identity on the entity. Instead, I would prefer to promote the use of "defining" marker components as the first item of each bundle. This is a natural and useful pattern in end-user code, and you can get the effect you're looking for because no other entities should have that unique marker unless they include the bundle (especially if you don't export the marker's type). The other benefit of that design is that it dovetails really nicely with the entity inspection patterns discussed in #1467, particularly for a visual editor, where you want to quickly learn the "types" of an entity (in which case you look at the "defining" components of the bundle). |
I responded in #2255 here, but I will reiterate my perspective here. In short, my desired behavior for bundle queries is: Match anything with all components in the bundle (a bundle filter), but return the result from the query as the bundle struct. This retains the current composability of entities, adds the ergonomics of allowing traits/methods over bundles, without the magic of bundles being semantically "special". I also agree with @alice-i-cecile in that I don't like bundles being "special-cases" or "magical". I mostly don't like that it directly interferes with the composability that we get with only defining archetypes from components. |
Rust as This works today: let query = Query<&Transform>
while let Some(Transform {translation, rotation, scale}) = query.iter().next() {
} It gets a little uglier for a mut query though (because we can't destructure let mut query = Query<&mut Transform>
while let Some(Transform {
_translation,
rotation,
_scale,
}) = query
.iter_mut()
.next()
.map(|mut_wrapper| Mut::into_inner(mut_wrapper))
{
*rotation = Quat::from_rotation_z(time.seconds_since_startup().cos() as f32);
} I think that doing the destructuring ourselves as in @alice-i-cecile example would be very hard (not possible?), as you lose the type relation between the query type and what it returns |
Obviously, you can't use the (Because Transform takes owned fields) Also, I think this issue's discussion is conflating two or three things:
|
I like this. I think something as simple as a marker component called, Beyond this, given that bundle structs have owned fields (not references), I'm not sure what the value of a bundle query is, except for conveniently wrapping multiple components in a query, but in that case, why not simply use a type alias? let query = Query<(&Foo, &mut Bar)>;
// or
type FooBar = (&Foo, &mut Bar);
let query = Query<FooBar>; If it could be made to work, it could be nice to be able to refer to components by the field names of an "access struct", similar (but smaller in scope) to deriving #[derive(Component)]
struct Foo(isize);
#[derive(Component)]
struct Bar(isize);
#[derive(BundleQuery)]
struct FooBar<'a> {
foo: Ref<'a, Foo>, // equivalent to Query<(&Foo, ...)>
bar: Mut<'a, Bar>, // equivalent to Query<(&mut Bar, ...)>
}
let query = Query<FooBar>;
for foobar in query.iter() {
foobar.bar.0 += foobar.foo.0;
} I suppose you could add methods/traits to these "access structs", operating on the data they hold references to. |
# Objective - Closes bevyengine#786 - Closes bevyengine#2252 - Closes bevyengine#2588 This PR implements a derive macro that allows users to define their queries as structs with named fields. ## Example ```rust #[derive(WorldQuery)] #[world_query(derive(Debug))] struct NumQuery<'w, T: Component, P: Component> { entity: Entity, u: UNumQuery<'w>, generic: GenericQuery<'w, T, P>, } #[derive(WorldQuery)] #[world_query(derive(Debug))] struct UNumQuery<'w> { u_16: &'w u16, u_32_opt: Option<&'w u32>, } #[derive(WorldQuery)] #[world_query(derive(Debug))] struct GenericQuery<'w, T: Component, P: Component> { generic: (&'w T, &'w P), } #[derive(WorldQuery)] #[world_query(filter)] struct NumQueryFilter<T: Component, P: Component> { _u_16: With<u16>, _u_32: With<u32>, _or: Or<(With<i16>, Changed<u16>, Added<u32>)>, _generic_tuple: (With<T>, With<P>), _without: Without<Option<u16>>, _tp: PhantomData<(T, P)>, } fn print_nums_readonly(query: Query<NumQuery<u64, i64>, NumQueryFilter<u64, i64>>) { for num in query.iter() { println!("{:#?}", num); } } #[derive(WorldQuery)] #[world_query(mutable, derive(Debug))] struct MutNumQuery<'w, T: Component, P: Component> { i_16: &'w mut i16, i_32_opt: Option<&'w mut i32>, } fn print_nums(mut query: Query<MutNumQuery, NumQueryFilter<u64, i64>>) { for num in query.iter_mut() { println!("{:#?}", num); } } ``` ## TODOs: - [x] Add support for `&T` and `&mut T` - [x] Test - [x] Add support for optional types - [x] Test - [x] Add support for `Entity` - [x] Test - [x] Add support for nested `WorldQuery` - [x] Test - [x] Add support for tuples - [x] Test - [x] Add support for generics - [x] Test - [x] Add support for query filters - [x] Test - [x] Add support for `PhantomData` - [x] Test - [x] Refactor `read_world_query_field_type_info` - [x] Properly document `readonly` attribute for nested queries and the static assertions that guarantee safety - [x] Test that we never implement `ReadOnlyFetch` for types that need mutable access - [x] Test that we insert static assertions for nested `WorldQuery` that a user marked as readonly
Something I have not seen discussed, is that this would have been useful for refactoring a component into multiple components, since the original component struct could be changed to derive bundle. If, for example, you wanted to split The concern for foot-gunning here I think is applicable to larger bundles. However, going in the opposite direction (as above) there could be opportunity to use bundles to make one's codebase more modular instead of less, and in cases where it would otherwise be non-ergonomic or a refactor burden to do so. This is especially relevant to rapid-prototyping. This could be accomplished with a different derive + trait (seperate from bundle), however the existing WorldQuery machinery (as far as I can tell) cannot be made generic over mutability, and is not drop-in the way I'm describing. |
What problem does this solve or what need does it fill?
Reduce the verbosity of queries by using bundles, which are already used for this purpose during entity archetype construction.
What solution would you like?
The ability to add a struct that derives
Bundle
to a query, and have it return with its fields accessible as components. E.g.:What alternative(s) have you considered?
Most of this can already be achieved with some verbosity, as shown in the dog example above. However, it would also allow us to split apart common components like
Transform
into their parts with field level change detection, without losing the ergonomics of theTransform
type.Additional context
Similar to #786
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