use crate::{analyze::Analysis, check::Extra, codegen::util}; use proc_macro2::TokenStream as TokenStream2; use quote::quote; use rtic_syntax::{ast::App, Context}; pub fn codegen( ctxt: Context, shared_resources_tick: bool, local_resources_tick: bool, app: &App, analysis: &Analysis, extra: &Extra, ) -> TokenStream2 { let mut items = vec![]; let mut module_items = vec![]; let mut fields = vec![]; let mut values = vec![]; // Used to copy task cfgs to the whole module let mut task_cfgs = vec![]; let name = ctxt.ident(app); let mut lt = None; match ctxt { Context::Init => { fields.push(quote!( /// Core (Cortex-M) peripherals pub core: rtic::export::Peripherals )); if extra.peripherals { let device = &extra.device; fields.push(quote!( /// Device peripherals pub device: #device::Peripherals )); values.push(quote!(device: #device::Peripherals::steal())); } lt = Some(quote!('a)); fields.push(quote!( /// Critical section token for init pub cs: rtic::export::CriticalSection<#lt> )); values.push(quote!(cs: rtic::export::CriticalSection::new())); values.push(quote!(core)); } Context::Idle => {} Context::HardwareTask(_) => {} Context::SoftwareTask(_) => {} } // if ctxt.has_locals(app) { // let ident = util::locals_ident(ctxt, app); // module_items.push(quote!( // #[doc(inline)] // pub use super::#ident as Locals; // )); // } if ctxt.has_local_resources(app) { let ident = util::local_resources_ident(ctxt, app); let ident = util::mark_internal_ident(&ident); let lt = if local_resources_tick { lt = Some(quote!('a)); Some(quote!('a)) } else { None }; module_items.push(quote!( #[doc(inline)] pub use super::#ident as LocalResources; )); fields.push(quote!( /// Local Resources this task has access to pub local: #name::LocalResources<#lt> )); values.push(quote!(local: #name::LocalResources::new())); } if ctxt.has_shared_resources(app) { let ident = util::shared_resources_ident(ctxt, app); let ident = util::mark_internal_ident(&ident); let lt = if shared_resources_tick { lt = Some(quote!('a)); Some(quote!('a)) } else { None }; module_items.push(quote!( #[doc(inline)] pub use super::#ident as SharedResources; )); fields.push(quote!( /// Shared Resources this task has access to pub shared: #name::SharedResources<#lt> )); let priority = if ctxt.is_init() { None } else { Some(quote!(priority)) }; values.push(quote!(shared: #name::SharedResources::new(#priority))); } if let Context::Init = ctxt { let monotonic_types: Vec<_> = app .monotonics .iter() .map(|(_, monotonic)| { let mono = &monotonic.ty; quote! {#mono} }) .collect(); let internal_monotonics_ident = util::mark_internal_name("Monotonics"); items.push(quote!( /// Monotonics used by the system #[allow(non_snake_case)] pub struct #internal_monotonics_ident( #(pub #monotonic_types),* ); )); module_items.push(quote!( pub use super::#internal_monotonics_ident as Monotonics; )); } let doc = match ctxt { Context::Idle => "Idle loop", Context::Init => "Initialization function", Context::HardwareTask(_) => "Hardware task", Context::SoftwareTask(_) => "Software task", }; let v = Vec::new(); let cfgs = match ctxt { Context::HardwareTask(t) => { &app.hardware_tasks[t].cfgs // ... } Context::SoftwareTask(t) => { &app.software_tasks[t].cfgs // ... } _ => &v, }; let core = if ctxt.is_init() { Some(quote!(core: rtic::export::Peripherals,)) } else { None }; let priority = if ctxt.is_init() { None } else { Some(quote!(priority: &#lt rtic::export::Priority)) }; let internal_context_name = util::internal_task_ident(name, "Context"); items.push(quote!( #(#cfgs)* /// Execution context pub struct #internal_context_name<#lt> { #(#fields,)* } #(#cfgs)* impl<#lt> #internal_context_name<#lt> { #[inline(always)] pub unsafe fn new(#core #priority) -> Self { #internal_context_name { #(#values,)* } } } )); module_items.push(quote!( #(#cfgs)* pub use super::#internal_context_name as Context; )); if let Context::SoftwareTask(..) = ctxt { let spawnee = &app.software_tasks[name]; let priority = spawnee.args.priority; let t = util::spawn_t_ident(priority); let cfgs = &spawnee.cfgs; // Store a copy of the task cfgs task_cfgs = cfgs.clone(); let (args, tupled, untupled, ty) = util::regroup_inputs(&spawnee.inputs); let args = &args; let tupled = &tupled; let fq = util::fq_ident(name); let fq = util::mark_internal_ident(&fq); let rq = util::rq_ident(priority); let rq = util::mark_internal_ident(&rq); let inputs = util::inputs_ident(name); let inputs = util::mark_internal_ident(&inputs); let device = &extra.device; let enum_ = util::interrupt_ident(); let interrupt = &analysis .interrupts .get(&priority) .expect("RTIC-ICE: interrupt identifer not found") .0; let internal_spawn_ident = util::internal_task_ident(name, "spawn"); // Spawn caller items.push(quote!( #(#cfgs)* /// Spawns the task directly pub fn #internal_spawn_ident(#(#args,)*) -> Result<(), #ty> { let input = #tupled; unsafe { if let Some(index) = rtic::export::interrupt::free(|_| #fq.get_mut_unchecked().dequeue()) { #inputs .get_mut_unchecked() .get_unchecked_mut(usize::from(index)) .as_mut_ptr() .write(input); rtic::export::interrupt::free(|_| { #rq.get_mut_unchecked().enqueue_unchecked((#t::#name, index)); }); rtic::pend(#device::#enum_::#interrupt); Ok(()) } else { Err(input) } } })); module_items.push(quote!( #(#cfgs)* pub use super::#internal_spawn_ident as spawn; )); // Schedule caller for (_, monotonic) in &app.monotonics { let instants = util::monotonic_instants_ident(name, &monotonic.ident); let instants = util::mark_internal_ident(&instants); let monotonic_name = monotonic.ident.to_string(); let tq = util::tq_ident(&monotonic.ident.to_string()); let tq = util::mark_internal_ident(&tq); let t = util::schedule_t_ident(); let m = &monotonic.ident; let mono_type = &monotonic.ident; let m_ident = util::monotonic_ident(&monotonic_name); let m_ident = util::mark_internal_ident(&m_ident); let m_isr = &monotonic.args.binds; let enum_ = util::interrupt_ident(); let (enable_interrupt, pend) = if &*m_isr.to_string() == "SysTick" { ( quote!(core::mem::transmute::<_, cortex_m::peripheral::SYST>(()) .enable_interrupt()), quote!(cortex_m::peripheral::SCB::set_pendst()), ) } else { let rt_err = util::rt_err_ident(); ( quote!(rtic::export::NVIC::unmask(#rt_err::#enum_::#m_isr)), quote!(rtic::pend(#rt_err::#enum_::#m_isr)), ) }; let tq_marker = util::mark_internal_ident(&util::timer_queue_marker_ident()); // For future use // let doc = format!(" RTIC internal: {}:{}", file!(), line!()); // items.push(quote!(#[doc = #doc])); let internal_spawn_handle_ident = util::internal_monotonics_ident(name, m, "SpawnHandle"); let internal_spawn_at_ident = util::internal_monotonics_ident(name, m, "spawn_at"); let internal_spawn_after_ident = util::internal_monotonics_ident(name, m, "spawn_after"); if monotonic.args.default { module_items.push(quote!( pub use #m::spawn_after; pub use #m::spawn_at; pub use #m::SpawnHandle; )); } module_items.push(quote!( pub mod #m { pub use super::super::#internal_spawn_after_ident as spawn_after; pub use super::super::#internal_spawn_at_ident as spawn_at; pub use super::super::#internal_spawn_handle_ident as SpawnHandle; } )); items.push(quote!( #(#cfgs)* pub struct #internal_spawn_handle_ident { #[doc(hidden)] marker: u32, } #(#cfgs)* impl #internal_spawn_handle_ident { pub fn cancel(self) -> Result<#ty, ()> { rtic::export::interrupt::free(|_| unsafe { let tq = #tq.get_mut_unchecked(); if let Some((_task, index)) = tq.cancel_marker(self.marker) { // Get the message let msg = #inputs .get_unchecked() .get_unchecked(usize::from(index)) .as_ptr() .read(); // Return the index to the free queue #fq.get_mut_unchecked().split().0.enqueue_unchecked(index); Ok(msg) } else { Err(()) } }) } #[inline] pub fn reschedule_after(self, duration: D) -> Result where D: rtic::time::duration::Duration + rtic::time::fixed_point::FixedPoint, D::T: Into<<#mono_type as rtic::time::Clock>::T>, { self.reschedule_at(monotonics::#m::now() + duration) } pub fn reschedule_at(self, instant: rtic::time::Instant<#mono_type>) -> Result { rtic::export::interrupt::free(|_| unsafe { let marker = *#tq_marker.get_mut_unchecked(); *#tq_marker.get_mut_unchecked() = #tq_marker.get_mut_unchecked().wrapping_add(1); let tq = #tq.get_mut_unchecked(); tq.update_marker(self.marker, marker, instant, || #pend).map(|_| #name::#m::SpawnHandle { marker }) }) } } #(#cfgs)* /// Spawns the task after a set duration relative to the current time /// /// This will use the time `Instant::new(0)` as baseline if called in `#[init]`, /// so if you use a non-resetable timer use `spawn_at` when in `#[init]` pub fn #internal_spawn_after_ident( duration: D #(,#args)* ) -> Result<#name::#m::SpawnHandle, #ty> where D: rtic::time::duration::Duration + rtic::time::fixed_point::FixedPoint, D::T: Into<<#mono_type as rtic::time::Clock>::T>, { let instant = if rtic::export::interrupt::free(|_| unsafe { #m_ident.get_mut_unchecked().is_none() }) { rtic::time::Instant::new(0) } else { monotonics::#m::now() }; #internal_spawn_at_ident(instant + duration #(,#untupled)*) } #(#cfgs)* /// Spawns the task at a fixed time instant pub fn #internal_spawn_at_ident( instant: rtic::time::Instant<#mono_type> #(,#args)* ) -> Result<#name::#m::SpawnHandle, #ty> { unsafe { let input = #tupled; if let Some(index) = rtic::export::interrupt::free(|_| #fq.get_mut_unchecked().dequeue()) { #inputs .get_mut_unchecked() .get_unchecked_mut(usize::from(index)) .as_mut_ptr() .write(input); #instants .get_mut_unchecked() .get_unchecked_mut(usize::from(index)) .as_mut_ptr() .write(instant); rtic::export::interrupt::free(|_| { let marker = *#tq_marker.get_mut_unchecked(); let nr = rtic::export::NotReady { instant, index, task: #t::#name, marker, }; *#tq_marker.get_mut_unchecked() = #tq_marker.get_mut_unchecked().wrapping_add(1); let tq = #tq.get_mut_unchecked(); tq.enqueue_unchecked( nr, || #enable_interrupt, || #pend, #m_ident.get_mut_unchecked().as_mut()); Ok(#name::#m::SpawnHandle { marker }) }) } else { Err(input) } } } )); } } if !items.is_empty() { quote!( #(#items)* #[allow(non_snake_case)] #(#task_cfgs)* #[doc = #doc] pub mod #name { #(#module_items)* } ) } else { quote!() } }