pub use super::Query; use super::TypeAccess; use crate::{ resource::{FetchResource, ResourceQuery, Resources, UnsafeClone}, system::{ArchetypeAccess, Commands, System, SystemId, ThreadLocalExecution}, }; use hecs::{Fetch, Query as HecsQuery, World}; use std::borrow::Cow; pub(crate) struct SystemFn where F: FnMut(&World, &Resources, &ArchetypeAccess, &mut State) + Send + Sync, ThreadLocalF: FnMut(&mut World, &mut Resources, &mut State) + Send + Sync, Init: FnMut(&mut Resources) + Send + Sync, SetArchetypeAccess: FnMut(&World, &mut ArchetypeAccess, &mut State) + Send + Sync, State: Send + Sync, { pub state: State, pub func: F, pub thread_local_func: ThreadLocalF, pub init_func: Init, pub thread_local_execution: ThreadLocalExecution, pub resource_access: TypeAccess, pub name: Cow<'static, str>, pub id: SystemId, pub archetype_access: ArchetypeAccess, pub set_archetype_access: SetArchetypeAccess, } impl System for SystemFn where F: FnMut(&World, &Resources, &ArchetypeAccess, &mut State) + Send + Sync, ThreadLocalF: FnMut(&mut World, &mut Resources, &mut State) + Send + Sync, Init: FnMut(&mut Resources) + Send + Sync, SetArchetypeAccess: FnMut(&World, &mut ArchetypeAccess, &mut State) + Send + Sync, State: Send + Sync, { fn name(&self) -> Cow<'static, str> { self.name.clone() } fn update_archetype_access(&mut self, world: &World) { (self.set_archetype_access)(world, &mut self.archetype_access, &mut self.state); } fn archetype_access(&self) -> &ArchetypeAccess { &self.archetype_access } fn resource_access(&self) -> &TypeAccess { &self.resource_access } fn thread_local_execution(&self) -> ThreadLocalExecution { self.thread_local_execution } #[inline] fn run(&mut self, world: &World, resources: &Resources) { (self.func)(world, resources, &self.archetype_access, &mut self.state); } fn run_thread_local(&mut self, world: &mut World, resources: &mut Resources) { (self.thread_local_func)(world, resources, &mut self.state); } fn initialize(&mut self, resources: &mut Resources) { (self.init_func)(resources); } fn id(&self) -> SystemId { self.id } } /// Converts `Self` into a For-Each system pub trait IntoForEachSystem { fn system(self) -> Box; } macro_rules! impl_into_foreach_system { (($($commands: ident)*), ($($resource: ident),*), ($($component: ident),*)) => { impl IntoForEachSystem<($($commands,)*), ($($resource,)*), ($($component,)*)> for Func where Func: FnMut($($commands,)* $($resource,)* $($component,)*) + FnMut( $($commands,)* $(<<$resource as ResourceQuery>::Fetch as FetchResource>::Item,)* $(<<$component as HecsQuery>::Fetch as Fetch>::Item,)*)+ Send + Sync + 'static, $($component: HecsQuery,)* $($resource: ResourceQuery,)* { #[allow(non_snake_case)] #[allow(unused_variables)] #[allow(unused_unsafe)] fn system(mut self) -> Box { let id = SystemId::new(); Box::new(SystemFn { state: Commands::default(), thread_local_execution: ThreadLocalExecution::NextFlush, name: core::any::type_name::().into(), id, func: move |world, resources, _archetype_access, state| { <<($($resource,)*) as ResourceQuery>::Fetch as FetchResource>::borrow(&resources); { let ($($resource,)*) = resources.query_system::<($($resource,)*)>(id); for ($($component,)*) in world.query::<($($component,)*)>().iter() { fn_call!(self, ($($commands, state)*), ($($resource),*), ($($component),*)) } } <<($($resource,)*) as ResourceQuery>::Fetch as FetchResource>::release(&resources); }, thread_local_func: move |world, resources, state| { state.apply(world, resources); }, init_func: move |resources| { <($($resource,)*)>::initialize(resources, Some(id)); }, resource_access: <<($($resource,)*) as ResourceQuery>::Fetch as FetchResource>::access(), archetype_access: ArchetypeAccess::default(), set_archetype_access: |world, archetype_access, _state| { archetype_access.clear(); archetype_access.set_access_for_query::<($($component,)*)>(world); }, }) } } }; } struct QuerySystemState { archetype_accesses: Vec, commands: Commands, } /// Converts `Self` into a Query System pub trait IntoQuerySystem { fn system(self) -> Box; } macro_rules! impl_into_query_system { (($($commands: ident)*), ($($resource: ident),*), ($($query: ident),*)) => { impl IntoQuerySystem<($($commands,)*), ($($resource,)*), ($($query,)*)> for Func where Func: FnMut($($commands,)* $($resource,)* $(Query<$query>,)*) + FnMut( $($commands,)* $(<<$resource as ResourceQuery>::Fetch as FetchResource>::Item,)* $(Query<$query>,)*) + Send + Sync +'static, $($query: HecsQuery,)* $($resource: ResourceQuery,)* { #[allow(non_snake_case)] #[allow(unused_variables)] #[allow(unused_unsafe)] #[allow(unused_assignments)] #[allow(unused_mut)] fn system(mut self) -> Box { let id = SystemId::new(); $(let $query = ArchetypeAccess::default();)* Box::new(SystemFn { state: QuerySystemState { archetype_accesses: vec![ $($query,)* ], commands: Commands::default(), }, thread_local_execution: ThreadLocalExecution::NextFlush, id, name: core::any::type_name::().into(), func: move |world, resources, archetype_access, state| { <<($($resource,)*) as ResourceQuery>::Fetch as FetchResource>::borrow(&resources); { let ($($resource,)*) = resources.query_system::<($($resource,)*)>(id); let mut i = 0; $( let $query = Query::<$query>::new(world, &state.archetype_accesses[i]); i += 1; )* let commands = &state.commands; fn_call!(self, ($($commands, commands)*), ($($resource),*), ($($query),*)) } <<($($resource,)*) as ResourceQuery>::Fetch as FetchResource>::release(&resources); }, thread_local_func: move |world, resources, state| { state.commands.apply(world, resources); }, init_func: move |resources| { <($($resource,)*)>::initialize(resources, Some(id)); }, resource_access: <<($($resource,)*) as ResourceQuery>::Fetch as FetchResource>::access(), archetype_access: ArchetypeAccess::default(), set_archetype_access: |world, archetype_access, state| { archetype_access.clear(); let mut i = 0; let mut access: &mut ArchetypeAccess; $( access = &mut state.archetype_accesses[i]; access.clear(); access.set_access_for_query::<$query>(world); archetype_access.union(access); i += 1; )* }, }) } } }; } macro_rules! fn_call { ($self:ident, ($($commands: ident, $commands_var: ident)*), ($($resource: ident),*), ($($a: ident),*)) => { unsafe { $self($($commands_var.clone(),)* $($resource.unsafe_clone(),)* $($a,)*) } }; ($self:ident, (), ($($resource: ident),*), ($($a: ident),*)) => { unsafe { $self($($resource.unsafe_clone(),)* $($a,)*) } }; } macro_rules! impl_into_query_systems { (($($resource: ident,)*), ($($query: ident),*)) => { #[rustfmt::skip] impl_into_query_system!((), ($($resource),*), ($($query),*)); #[rustfmt::skip] impl_into_query_system!((Commands), ($($resource),*), ($($query),*)); } } macro_rules! impl_into_foreach_systems { (($($resource: ident,)*), ($($component: ident),*)) => { #[rustfmt::skip] impl_into_foreach_system!((), ($($resource),*), ($($component),*)); #[rustfmt::skip] impl_into_foreach_system!((Commands), ($($resource),*), ($($component),*)); } } macro_rules! impl_into_systems { ($($resource: ident),*) => { #[rustfmt::skip] impl_into_foreach_systems!(($($resource,)*), (A)); #[rustfmt::skip] impl_into_foreach_systems!(($($resource,)*), (A,B)); #[rustfmt::skip] impl_into_foreach_systems!(($($resource,)*), (A,B,C)); #[rustfmt::skip] impl_into_foreach_systems!(($($resource,)*), (A,B,C,D)); #[rustfmt::skip] impl_into_foreach_systems!(($($resource,)*), (A,B,C,D,E)); #[rustfmt::skip] impl_into_foreach_systems!(($($resource,)*), (A,B,C,D,E,F)); #[rustfmt::skip] impl_into_foreach_systems!(($($resource,)*), (A,B,C,D,E,F,G)); #[rustfmt::skip] impl_into_foreach_systems!(($($resource,)*), (A,B,C,D,E,F,G,H)); #[rustfmt::skip] impl_into_query_systems!(($($resource,)*), ()); #[rustfmt::skip] impl_into_query_systems!(($($resource,)*), (A)); #[rustfmt::skip] impl_into_query_systems!(($($resource,)*), (A,B)); #[rustfmt::skip] impl_into_query_systems!(($($resource,)*), (A,B,C)); #[rustfmt::skip] impl_into_query_systems!(($($resource,)*), (A,B,C,D)); #[rustfmt::skip] impl_into_query_systems!(($($resource,)*), (A,B,C,D,E)); #[rustfmt::skip] impl_into_query_systems!(($($resource,)*), (A,B,C,D,E,F)); }; } #[rustfmt::skip] impl_into_systems!(); #[rustfmt::skip] impl_into_systems!(Ra); #[rustfmt::skip] impl_into_systems!(Ra,Rb); #[rustfmt::skip] impl_into_systems!(Ra,Rb,Rc); #[rustfmt::skip] impl_into_systems!(Ra,Rb,Rc,Rd); #[rustfmt::skip] impl_into_systems!(Ra,Rb,Rc,Rd,Re); #[rustfmt::skip] impl_into_systems!(Ra,Rb,Rc,Rd,Re,Rf); #[rustfmt::skip] impl_into_systems!(Ra,Rb,Rc,Rd,Re,Rf,Rg); #[rustfmt::skip] impl_into_systems!(Ra,Rb,Rc,Rd,Re,Rf,Rg,Rh); #[rustfmt::skip] impl_into_systems!(Ra,Rb,Rc,Rd,Re,Rf,Rg,Rh,Ri); #[rustfmt::skip] impl_into_systems!(Ra,Rb,Rc,Rd,Re,Rf,Rg,Rh,Ri,Rj); /// Converts `Self` into a thread local system pub trait IntoThreadLocalSystem { fn thread_local_system(self) -> Box; } impl IntoThreadLocalSystem for F where F: ThreadLocalSystemFn, { fn thread_local_system(mut self) -> Box { Box::new(SystemFn { state: (), thread_local_func: move |world, resources, _| { self.run(world, resources); }, func: |_, _, _, _| {}, init_func: |_| {}, set_archetype_access: |_, _, _| {}, thread_local_execution: ThreadLocalExecution::Immediate, name: core::any::type_name::().into(), id: SystemId::new(), resource_access: TypeAccess::default(), archetype_access: ArchetypeAccess::default(), }) } } /// A thread local system function pub trait ThreadLocalSystemFn: Send + Sync + 'static { fn run(&mut self, world: &mut World, resource: &mut Resources); } impl ThreadLocalSystemFn for F where F: FnMut(&mut World, &mut Resources) + Send + Sync + 'static, { fn run(&mut self, world: &mut World, resources: &mut Resources) { self(world, resources); } } #[cfg(test)] mod tests { use super::{IntoQuerySystem, Query}; use crate::{ resource::{ResMut, Resources}, schedule::Schedule, }; use hecs::{Entity, With, World}; struct A; struct B; struct C; struct D; #[test] fn query_system_gets() { fn query_system( mut ran: ResMut, mut entity_query: Query>, b_query: Query<&B>, a_c_query: Query<(&A, &C)>, d_query: Query<&D>, ) { let entities = entity_query.iter().iter().collect::>(); assert!( b_query.get::(entities[0]).is_err(), "entity 0 should not have B" ); assert!( b_query.get::(entities[1]).is_ok(), "entity 1 should have B" ); assert!( b_query.get::(entities[1]).is_ok(), "entity 1 should have A, and it should (unintuitively) be accessible from b_query because b_query grabs read access to the (A,B) archetype"); assert!( b_query.get::(entities[3]).is_err(), "entity 3 should have D, but it shouldn't be accessible from b_query" ); assert!( b_query.get::(entities[2]).is_err(), "entity 2 has C, but it shouldn't be accessible from b_query" ); assert!( a_c_query.get::(entities[2]).is_ok(), "entity 2 has C, and it should be accessible from a_c_query" ); assert!( a_c_query.get::(entities[3]).is_err(), "entity 3 should have D, but it shouldn't be accessible from b_query" ); assert!( d_query.get::(entities[3]).is_ok(), "entity 3 should have D" ); *ran = true; } let mut world = World::default(); let mut resources = Resources::default(); resources.insert(false); world.spawn((A,)); world.spawn((A, B)); world.spawn((A, C)); world.spawn((A, D)); let mut schedule = Schedule::default(); schedule.add_stage("update"); schedule.add_system_to_stage("update", query_system.system()); schedule.run(&mut world, &mut resources); assert!(*resources.get::().unwrap(), "system ran"); } }