bevy/crates/bevy_ecs/src/system/query.rs

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use crate::ArchetypeAccess;
use hecs::{
Archetype, Component, ComponentError, Entity, Fetch, Query as HecsQuery, QueryOne, Ref, RefMut,
World,
};
use std::marker::PhantomData;
pub struct Query<'a, Q: HecsQuery> {
pub(crate) world: &'a World,
pub(crate) archetype_access: &'a ArchetypeAccess,
_marker: PhantomData<Q>,
}
#[derive(Debug)]
pub enum QueryError {
CannotReadArchetype,
CannotWriteArchetype,
ComponentError(ComponentError),
NoSuchEntity,
}
impl<'a, Q: HecsQuery> Query<'a, Q> {
#[inline]
pub fn new(world: &'a World, archetype_access: &'a ArchetypeAccess) -> Self {
Self {
world,
archetype_access,
_marker: PhantomData::default(),
}
}
#[inline]
pub fn iter(&mut self) -> QueryBorrow<'_, Q> {
QueryBorrow::new(&self.world.archetypes, self.archetype_access)
}
/// Gets a reference to the entity's component of the given type. This will fail if the entity does not have
/// the given component type or if the given component type does not match this query.
pub fn get<T: Component>(&self, entity: Entity) -> Result<Ref<'_, T>, QueryError> {
if let Some(location) = self.world.get_entity_location(entity) {
if self
.archetype_access
.immutable
.contains(location.archetype as usize)
|| self
.archetype_access
.mutable
.contains(location.archetype as usize)
{
self.world
.get(entity)
.map_err(|err| QueryError::ComponentError(err))
} else {
Err(QueryError::CannotReadArchetype)
}
} else {
Err(QueryError::ComponentError(ComponentError::NoSuchEntity))
}
}
pub fn entity(&self, entity: Entity) -> Result<QueryOne<'_, Q>, QueryError> {
if let Some(location) = self.world.get_entity_location(entity) {
if self
.archetype_access
.immutable
.contains(location.archetype as usize)
|| self
.archetype_access
.mutable
.contains(location.archetype as usize)
{
Ok(self.world.query_one(entity).unwrap())
} else {
Err(QueryError::CannotReadArchetype)
}
} else {
Err(QueryError::NoSuchEntity)
}
}
/// Gets a mutable reference to the entity's component of the given type. This will fail if the entity does not have
/// the given component type or if the given component type does not match this query.
pub fn get_mut<T: Component>(&self, entity: Entity) -> Result<RefMut<'_, T>, QueryError> {
if let Some(location) = self.world.get_entity_location(entity) {
if self
.archetype_access
.mutable
.contains(location.archetype as usize)
{
self.world
.get_mut(entity)
.map_err(|err| QueryError::ComponentError(err))
} else {
Err(QueryError::CannotWriteArchetype)
}
} else {
Err(QueryError::ComponentError(ComponentError::NoSuchEntity))
}
}
pub fn removed<C: Component>(&self) -> &[Entity] {
self.world.removed::<C>()
}
/// Sets the entity's component to the given value. This will fail if the entity does not already have
/// the given component type or if the given component type does not match this query.
pub fn set<T: Component>(&self, entity: Entity, component: T) -> Result<(), QueryError> {
let mut current = self.get_mut::<T>(entity)?;
*current = component;
Ok(())
}
}
/// A borrow of a `World` sufficient to execute the query `Q`
///
/// Note that borrows are not released until this object is dropped.
pub struct QueryBorrow<'w, Q: HecsQuery> {
archetypes: &'w [Archetype],
archetype_access: &'w ArchetypeAccess,
_marker: PhantomData<Q>,
}
impl<'w, Q: HecsQuery> QueryBorrow<'w, Q> {
pub(crate) fn new(archetypes: &'w [Archetype], archetype_access: &'w ArchetypeAccess) -> Self {
for index in archetype_access.immutable.ones() {
Q::Fetch::borrow(&archetypes[index]);
}
for index in archetype_access.mutable.ones() {
Q::Fetch::borrow(&archetypes[index]);
}
Self {
archetypes,
archetype_access,
_marker: PhantomData,
}
}
/// Execute the query
///
/// Must be called only once per query.
#[inline]
pub fn iter<'q>(&'q mut self) -> QueryIter<'q, 'w, Q> {
QueryIter {
borrow: self,
archetype_index: 0,
iter: None,
}
}
}
unsafe impl<'w, Q: HecsQuery> Send for QueryBorrow<'w, Q> {}
unsafe impl<'w, Q: HecsQuery> Sync for QueryBorrow<'w, Q> {}
impl<'w, Q: HecsQuery> Drop for QueryBorrow<'w, Q> {
#[inline]
fn drop(&mut self) {
for index in self.archetype_access.immutable.ones() {
Q::Fetch::release(&self.archetypes[index]);
}
for index in self.archetype_access.mutable.ones() {
Q::Fetch::release(&self.archetypes[index]);
}
}
}
impl<'q, 'w, Q: HecsQuery> IntoIterator for &'q mut QueryBorrow<'w, Q> {
type IntoIter = QueryIter<'q, 'w, Q>;
type Item = <Q::Fetch as Fetch<'q>>::Item;
#[inline]
fn into_iter(self) -> Self::IntoIter {
self.iter()
}
}
/// Iterator over the set of entities with the components in `Q`
pub struct QueryIter<'q, 'w, Q: HecsQuery> {
borrow: &'q mut QueryBorrow<'w, Q>,
archetype_index: u32,
iter: Option<ChunkIter<Q>>,
}
unsafe impl<'q, 'w, Q: HecsQuery> Send for QueryIter<'q, 'w, Q> {}
unsafe impl<'q, 'w, Q: HecsQuery> Sync for QueryIter<'q, 'w, Q> {}
impl<'q, 'w, Q: HecsQuery> Iterator for QueryIter<'q, 'w, Q> {
type Item = <Q::Fetch as Fetch<'q>>::Item;
#[inline]
fn next(&mut self) -> Option<Self::Item> {
loop {
match self.iter {
None => {
let archetype = self.borrow.archetypes.get(self.archetype_index as usize)?;
self.archetype_index += 1;
unsafe {
self.iter = Q::Fetch::get(archetype, 0).map(|fetch| ChunkIter {
fetch,
len: archetype.len(),
});
}
}
Some(ref mut iter) => match unsafe { iter.next() } {
None => {
self.iter = None;
continue;
}
Some(components) => {
return Some(components);
}
},
}
}
}
fn size_hint(&self) -> (usize, Option<usize>) {
let n = self.len();
(n, Some(n))
}
}
impl<'q, 'w, Q: HecsQuery> ExactSizeIterator for QueryIter<'q, 'w, Q> {
fn len(&self) -> usize {
self.borrow
.archetypes
.iter()
.filter(|&x| Q::Fetch::access(x).is_some())
.map(|x| x.len() as usize)
.sum()
}
}
struct ChunkIter<Q: HecsQuery> {
fetch: Q::Fetch,
len: u32,
}
impl<Q: HecsQuery> ChunkIter<Q> {
#[inline]
unsafe fn next<'a, 'w>(&mut self) -> Option<<Q::Fetch as Fetch<'a>>::Item> {
loop {
if self.len == 0 {
return None;
}
self.len -= 1;
if self.fetch.should_skip() {
// we still need to progress the iterator
let _ = self.fetch.next();
continue;
}
break Some(self.fetch.next());
}
}
}