forestia/bevy
2
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
9d804a231e
bevy/examples/ecs/custom_query_param.rs
Wybe Westra abf12f3b3b
Fixed several missing links in docs. (#8117) 
Links in the api docs are nice. I noticed that there were several places
where structs / functions and other things were referenced in the docs,
but weren't linked. I added the links where possible / logical.

---------

Co-authored-by: Alice Cecile <alice.i.cecile@gmail.com>
Co-authored-by: François <mockersf@gmail.com>
2023-04-23 17:28:36 +00:00

186 lines
6.0 KiB
Rust
Raw Blame History

//! This example illustrates the usage of the [`WorldQuery`] derive macro, which allows
//! defining custom query and filter types.
//!
//! While regular tuple queries work great in most of simple scenarios, using custom queries
//! declared as named structs can bring the following advantages:
//! - They help to avoid destructuring or using `q.0, q.1, ...` access pattern.
//! - Adding, removing components or changing items order with structs greatly reduces maintenance
//! burden, as you don't need to update statements that destructure tuples, care about order
//! of elements, etc. Instead, you can just add or remove places where a certain element is used.
//! - Named structs enable the composition pattern, that makes query types easier to re-use.
//! - You can bypass the limit of 15 components that exists for query tuples.
//!
//! For more details on the `WorldQuery` derive macro, see the trait documentation.
use bevy::{ecs::query::WorldQuery, prelude::*};
use std::fmt::Debug;
fn main() {
App::new()
.add_systems(Startup, spawn)
.add_systems(
Update,
(
print_components_read_only,
print_components_iter_mut,
print_components_iter,
print_components_tuple,
)
.chain(),
)
.run();
}
#[derive(Component, Debug)]
struct ComponentA;
#[derive(Component, Debug)]
struct ComponentB;
#[derive(Component, Debug)]
struct ComponentC;
#[derive(Component, Debug)]
struct ComponentD;
#[derive(Component, Debug)]
struct ComponentZ;
#[derive(WorldQuery)]
#[world_query(derive(Debug))]
struct ReadOnlyCustomQuery<T: Component + Debug, P: Component + Debug> {
entity: Entity,
a: &'static ComponentA,
b: Option<&'static ComponentB>,
nested: NestedQuery,
optional_nested: Option<NestedQuery>,
optional_tuple: Option<(&'static ComponentB, &'static ComponentZ)>,
generic: GenericQuery<T, P>,
empty: EmptyQuery,
}
fn print_components_read_only(
query: Query<ReadOnlyCustomQuery<ComponentC, ComponentD>, QueryFilter<ComponentC, ComponentD>>,
) {
println!("Print components (read_only):");
for e in &query {
println!("Entity: {:?}", e.entity);
println!("A: {:?}", e.a);
println!("B: {:?}", e.b);
println!("Nested: {:?}", e.nested);
println!("Optional nested: {:?}", e.optional_nested);
println!("Optional tuple: {:?}", e.optional_tuple);
println!("Generic: {:?}", e.generic);
}
println!();
}
// If you are going to mutate the data in a query, you must mark it with the `mutable` attribute.
// The `WorldQuery` derive macro will still create a read-only version, which will be have `ReadOnly`
// suffix.
// Note: if you want to use derive macros with read-only query variants, you need to pass them with
// using the `derive` attribute.
#[derive(WorldQuery)]
#[world_query(mutable, derive(Debug))]
struct CustomQuery<T: Component + Debug, P: Component + Debug> {
entity: Entity,
a: &'static mut ComponentA,
b: Option<&'static mut ComponentB>,
nested: NestedQuery,
optional_nested: Option<NestedQuery>,
optional_tuple: Option<(NestedQuery, &'static mut ComponentZ)>,
generic: GenericQuery<T, P>,
empty: EmptyQuery,
}
// This is a valid query as well, which would iterate over every entity.
#[derive(WorldQuery)]
#[world_query(derive(Debug))]
struct EmptyQuery {
empty: (),
}
#[derive(WorldQuery)]
#[world_query(derive(Debug))]
struct NestedQuery {
c: &'static ComponentC,
d: Option<&'static ComponentD>,
}
#[derive(WorldQuery)]
#[world_query(derive(Debug))]
struct GenericQuery<T: Component, P: Component> {
generic: (&'static T, &'static P),
}
#[derive(WorldQuery)]
struct QueryFilter<T: Component, P: Component> {
_c: With<ComponentC>,
_d: With<ComponentD>,
_or: Or<(Added<ComponentC>, Changed<ComponentD>, Without<ComponentZ>)>,
_generic_tuple: (With<T>, With<P>),
}
fn spawn(mut commands: Commands) {
commands.spawn((ComponentA, ComponentB, ComponentC, ComponentD));
}
fn print_components_iter_mut(
mut query: Query<CustomQuery<ComponentC, ComponentD>, QueryFilter<ComponentC, ComponentD>>,
) {
println!("Print components (iter_mut):");
for e in &mut query {
// Re-declaring the variable to illustrate the type of the actual iterator item.
let e: CustomQueryItem<'_, _, _> = e;
println!("Entity: {:?}", e.entity);
println!("A: {:?}", e.a);
println!("B: {:?}", e.b);
println!("Optional nested: {:?}", e.optional_nested);
println!("Optional tuple: {:?}", e.optional_tuple);
println!("Nested: {:?}", e.nested);
println!("Generic: {:?}", e.generic);
}
println!();
}
fn print_components_iter(
query: Query<CustomQuery<ComponentC, ComponentD>, QueryFilter<ComponentC, ComponentD>>,
) {
println!("Print components (iter):");
for e in &query {
// Re-declaring the variable to illustrate the type of the actual iterator item.
let e: CustomQueryReadOnlyItem<'_, _, _> = e;
println!("Entity: {:?}", e.entity);
println!("A: {:?}", e.a);
println!("B: {:?}", e.b);
println!("Nested: {:?}", e.nested);
println!("Generic: {:?}", e.generic);
}
println!();
}
type NestedTupleQuery<'w> = (&'w ComponentC, &'w ComponentD);
type GenericTupleQuery<'w, T, P> = (&'w T, &'w P);
fn print_components_tuple(
query: Query<
(
Entity,
&ComponentA,
&ComponentB,
NestedTupleQuery,
GenericTupleQuery<ComponentC, ComponentD>,
),
(
With<ComponentC>,
With<ComponentD>,
Or<(Added<ComponentC>, Changed<ComponentD>, Without<ComponentZ>)>,
),
>,
) {
println!("Print components (tuple):");
for (entity, a, b, nested, (generic_c, generic_d)) in &query {
println!("Entity: {entity:?}");
println!("A: {a:?}");
println!("B: {b:?}");
println!("Nested: {:?} {:?}", nested.0, nested.1);
println!("Generic: {generic_c:?} {generic_d:?}");
}
}
Reference in New Issue View Git Blame Copy Permalink