#![deny(warnings)] use proc_macro::TokenStream; use std::{ collections::{BTreeMap, HashMap}, time::{SystemTime, UNIX_EPOCH}, }; use proc_macro2::Span; use quote::quote; use rand::{Rng, SeedableRng}; use syn::{parse_quote, ArgCaptured, Attribute, Ident, IntSuffix, LitInt}; use crate::{ analyze::{Analysis, Ownership}, syntax::{App, Idents, Static}, }; // NOTE to avoid polluting the user namespaces we map some identifiers to pseudo-hygienic names. // In some instances we also use the pseudo-hygienic names for safety, for example the user should // not modify the priority field of resources. type Aliases = BTreeMap; struct Context { // Alias #[cfg(feature = "timer-queue")] baseline: Ident, dispatchers: BTreeMap, // Alias (`fn`) idle: Ident, // Alias (`fn`) init: Ident, // Alias priority: Ident, // For non-singletons this maps the resource name to its `static mut` variable name statics: Aliases, /// Task -> Alias (`struct`) resources: HashMap, // Alias (`enum`) schedule_enum: Ident, // Task -> Alias (`fn`) schedule_fn: Aliases, tasks: BTreeMap, // Alias (`struct` / `static mut`) timer_queue: Ident, // Generator of Ident names or suffixes ident_gen: IdentGenerator, } struct Dispatcher { enum_: Ident, ready_queue: Ident, } struct Task { alias: Ident, free_queue: Ident, inputs: Ident, spawn_fn: Ident, #[cfg(feature = "timer-queue")] scheduleds: Ident, } impl Default for Context { fn default() -> Self { let mut ident_gen = IdentGenerator::new(); Context { #[cfg(feature = "timer-queue")] baseline: ident_gen.mk_ident(None, false), dispatchers: BTreeMap::new(), idle: ident_gen.mk_ident(Some("idle"), false), init: ident_gen.mk_ident(Some("init"), false), priority: ident_gen.mk_ident(None, false), statics: Aliases::new(), resources: HashMap::new(), schedule_enum: ident_gen.mk_ident(None, false), schedule_fn: Aliases::new(), tasks: BTreeMap::new(), timer_queue: ident_gen.mk_ident(None, false), ident_gen, } } } struct Resources { alias: Ident, decl: proc_macro2::TokenStream, } pub fn app(app: &App, analysis: &Analysis) -> TokenStream { let mut ctxt = Context::default(); let resources = resources(&mut ctxt, &app, analysis); let tasks = tasks(&mut ctxt, &app, analysis); let (dispatchers_data, dispatchers) = dispatchers(&mut ctxt, &app, analysis); let (init_fn, has_late_resources) = init(&mut ctxt, &app, analysis); let init_arg = if cfg!(feature = "timer-queue") { quote!(rtfm::Peripherals { CBP: p.CBP, CPUID: p.CPUID, DCB: &mut p.DCB, FPB: p.FPB, FPU: p.FPU, ITM: p.ITM, MPU: p.MPU, SCB: &mut p.SCB, TPIU: p.TPIU, }) } else { quote!(rtfm::Peripherals { CBP: p.CBP, CPUID: p.CPUID, DCB: p.DCB, DWT: p.DWT, FPB: p.FPB, FPU: p.FPU, ITM: p.ITM, MPU: p.MPU, SCB: &mut p.SCB, SYST: p.SYST, TPIU: p.TPIU, }) }; let init = &ctxt.init; let init_phase = if has_late_resources { let assigns = app .resources .iter() .filter_map(|(name, res)| { if res.expr.is_none() { let alias = &ctxt.statics[name]; Some(quote!(#alias.write(res.#name);)) } else { None } }) .collect::>(); quote!( let res = #init(#init_arg); #(#assigns)* ) } else { quote!(#init(#init_arg);) }; let post_init = post_init(&ctxt, &app, analysis); let (idle_fn, idle_expr) = idle(&mut ctxt, &app, analysis); let exceptions = exceptions(&mut ctxt, app, analysis); let (root_interrupts, scoped_interrupts) = interrupts(&mut ctxt, app, analysis); let spawn = spawn(&mut ctxt, app, analysis); let schedule = match () { #[cfg(feature = "timer-queue")] () => schedule(&ctxt, app), #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let timer_queue = timer_queue(&mut ctxt, app, analysis); let pre_init = pre_init(&ctxt, &app, analysis); let assertions = assertions(app, analysis); let main = ctxt.ident_gen.mk_ident(None, false); quote!( #resources #spawn #timer_queue #schedule #dispatchers_data #(#exceptions)* #root_interrupts const APP: () = { #scoped_interrupts #(#dispatchers)* }; #(#tasks)* #init_fn #idle_fn #[export_name = "main"] #[allow(unsafe_code)] #[doc(hidden)] unsafe fn #main() -> ! { #assertions rtfm::export::interrupt::disable(); #pre_init #init_phase #post_init rtfm::export::interrupt::enable(); #idle_expr } ) .into() } fn resources(ctxt: &mut Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream { let mut items = vec![]; let mut module = vec![]; for (name, res) in &app.resources { let cfgs = &res.cfgs; let attrs = &res.attrs; let mut_ = &res.mutability; let ty = &res.ty; let expr = &res.expr; if res.singleton { items.push(quote!( #(#attrs)* pub static #mut_ #name: #ty = #expr; )); let alias = ctxt.ident_gen.mk_ident(None, true); // XXX is randomness required? if let Some(Ownership::Shared { ceiling }) = analysis.ownerships.get(name) { items.push(mk_resource( ctxt, cfgs, name, quote!(#name), *ceiling, quote!(&mut <#name as owned_singleton::Singleton>::new()), app, Some(&mut module), )) } ctxt.statics.insert(name.clone(), alias); } else { let alias = ctxt.ident_gen.mk_ident(None, false); let symbol = format!("{}::{}", name, alias); items.push( expr.as_ref() .map(|expr| { quote!( #(#attrs)* #(#cfgs)* #[doc = #symbol] static mut #alias: #ty = #expr; ) }) .unwrap_or_else(|| { quote!( #(#attrs)* #(#cfgs)* #[doc = #symbol] static mut #alias: rtfm::export::MaybeUninit<#ty> = rtfm::export::MaybeUninit::uninit(); ) }), ); if let Some(Ownership::Shared { ceiling }) = analysis.ownerships.get(name) { if res.mutability.is_some() { let ptr = if res.expr.is_none() { quote!(unsafe { &mut *#alias.as_mut_ptr() }) } else { quote!(unsafe { &mut #alias }) }; items.push(mk_resource( ctxt, cfgs, name, quote!(#ty), *ceiling, ptr, app, Some(&mut module), )); } } ctxt.statics.insert(name.clone(), alias); } } if !module.is_empty() { items.push(quote!( /// Resource proxies pub mod resources { #(#module)* } )); } quote!(#(#items)*) } fn init(ctxt: &mut Context, app: &App, analysis: &Analysis) -> (proc_macro2::TokenStream, bool) { let attrs = &app.init.attrs; let locals = mk_locals(&app.init.statics, true); let stmts = &app.init.stmts; // TODO remove in v0.5.x let assigns = app .init .assigns .iter() .map(|assign| { let attrs = &assign.attrs; if app .resources .get(&assign.left) .map(|r| r.expr.is_none()) .unwrap_or(false) { let alias = &ctxt.statics[&assign.left]; let expr = &assign.right; quote!( #(#attrs)* unsafe { #alias.write(#expr); } ) } else { let left = &assign.left; let right = &assign.right; quote!( #(#attrs)* #left = #right; ) } }) .collect::>(); let prelude = prelude( ctxt, Kind::Init, &app.init.args.resources, &app.init.args.spawn, &app.init.args.schedule, app, 255, analysis, ); let (late_resources, late_resources_ident, ret) = if app.init.returns_late_resources { // create `LateResources` struct in the root of the crate let ident = ctxt.ident_gen.mk_ident(None, false); let fields = app .resources .iter() .filter_map(|(name, res)| { if res.expr.is_none() { let ty = &res.ty; Some(quote!(pub #name: #ty)) } else { None } }) .collect::>(); let late_resources = quote!( #[allow(non_snake_case)] pub struct #ident { #(#fields),* } ); ( Some(late_resources), Some(ident), Some(quote!(-> init::LateResources)), ) } else { (None, None, None) }; let has_late_resources = late_resources.is_some(); let module = module( ctxt, Kind::Init, !app.init.args.schedule.is_empty(), !app.init.args.spawn.is_empty(), app, late_resources_ident, ); #[cfg(feature = "timer-queue")] let baseline = &ctxt.baseline; let baseline_let = match () { #[cfg(feature = "timer-queue")] () => quote!(let ref #baseline = rtfm::Instant::artificial(0);), #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let start_let = match () { #[cfg(feature = "timer-queue")] () => quote!( #[allow(unused_variables)] let start = *#baseline; ), #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let unsafety = &app.init.unsafety; let device = &app.args.device; let init = &ctxt.init; ( quote!( #late_resources #module // unsafe trampoline to deter end-users from calling this non-reentrant function #(#attrs)* unsafe fn #init(core: rtfm::Peripherals) #ret { #[inline(always)] #unsafety fn init(mut core: rtfm::Peripherals) #ret { #(#locals)* #baseline_let #prelude let mut device = unsafe { #device::Peripherals::steal() }; #start_let #(#stmts)* #(#assigns)* } init(core) } ), has_late_resources, ) } fn post_init(ctxt: &Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream { let mut exprs = vec![]; // TODO turn the assertions that check that the priority is not larger than what's supported by // the device into compile errors let device = &app.args.device; let nvic_prio_bits = quote!(#device::NVIC_PRIO_BITS); for (handler, exception) in &app.exceptions { let name = exception.args.binds(handler); let priority = exception.args.priority; exprs.push(quote!(assert!(#priority <= (1 << #nvic_prio_bits)))); exprs.push(quote!(p.SCB.set_priority( rtfm::export::SystemHandler::#name, ((1 << #nvic_prio_bits) - #priority) << (8 - #nvic_prio_bits), ))); } if !analysis.timer_queue.tasks.is_empty() { let priority = analysis.timer_queue.priority; exprs.push(quote!(assert!(#priority <= (1 << #nvic_prio_bits)))); exprs.push(quote!(p.SCB.set_priority( rtfm::export::SystemHandler::SysTick, ((1 << #nvic_prio_bits) - #priority) << (8 - #nvic_prio_bits), ))); } if app.idle.is_none() { // Set SLEEPONEXIT bit to enter sleep mode when returning from ISR exprs.push(quote!(p.SCB.scr.modify(|r| r | 1 << 1))); } // Enable and start the system timer if !analysis.timer_queue.tasks.is_empty() { let tq = &ctxt.timer_queue; exprs.push( quote!((*#tq.as_mut_ptr()).syst.set_clock_source(rtfm::export::SystClkSource::Core)), ); exprs.push(quote!((*#tq.as_mut_ptr()).syst.enable_counter())); } // Enable cycle counter if cfg!(feature = "timer-queue") { exprs.push(quote!(p.DCB.enable_trace())); exprs.push(quote!(p.DWT.enable_cycle_counter())); } quote!(#(#exprs;)*) } /// This function creates creates a module for `init` / `idle` / a `task` (see `kind` argument) fn module( ctxt: &mut Context, kind: Kind, schedule: bool, spawn: bool, app: &App, late_resources: Option, ) -> proc_macro2::TokenStream { let mut items = vec![]; let mut fields = vec![]; let name = kind.ident(); let priority = &ctxt.priority; let device = &app.args.device; let mut lt = None; match kind { Kind::Init => { if cfg!(feature = "timer-queue") { fields.push(quote!( /// System start time = `Instant(0 /* cycles */)` pub start: rtfm::Instant, )); } fields.push(quote!( /// Core (Cortex-M) peripherals pub core: rtfm::Peripherals<'a>, /// Device specific peripherals pub device: #device::Peripherals, )); lt = Some(quote!('a)); } Kind::Idle => {} Kind::Exception(_) | Kind::Interrupt(_) => { if cfg!(feature = "timer-queue") { fields.push(quote!( /// Time at which this handler started executing pub start: rtfm::Instant, )); } } Kind::Task(_) => { if cfg!(feature = "timer-queue") { fields.push(quote!( /// The time at which this task was scheduled to run pub scheduled: rtfm::Instant, )); } } } if schedule { lt = Some(quote!('a)); fields.push(quote!( /// Tasks that can be scheduled from this context pub schedule: Schedule<'a>, )); items.push(quote!( /// Tasks that can be scheduled from this context #[derive(Clone, Copy)] pub struct Schedule<'a> { #[doc(hidden)] pub #priority: &'a rtfm::export::Priority, } )); } if spawn { lt = Some(quote!('a)); fields.push(quote!( /// Tasks that can be spawned from this context pub spawn: Spawn<'a>, )); if kind.is_idle() { items.push(quote!( /// Tasks that can be spawned from this context #[derive(Clone, Copy)] pub struct Spawn<'a> { #[doc(hidden)] pub #priority: &'a rtfm::export::Priority, } )); } else { let baseline_field = match () { #[cfg(feature = "timer-queue")] () => { let baseline = &ctxt.baseline; quote!( // NOTE this field is visible so we use a shared reference to make it // immutable #[doc(hidden)] pub #baseline: &'a rtfm::Instant, ) } #[cfg(not(feature = "timer-queue"))] () => quote!(), }; items.push(quote!( /// Tasks that can be spawned from this context #[derive(Clone, Copy)] pub struct Spawn<'a> { #baseline_field #[doc(hidden)] pub #priority: &'a rtfm::export::Priority, } )); } } let mut root = None; if let Some(resources) = ctxt.resources.get(&kind) { lt = Some(quote!('a)); root = Some(resources.decl.clone()); let alias = &resources.alias; items.push(quote!( #[doc(inline)] pub use super::#alias as Resources; )); fields.push(quote!( /// Resources available in this context pub resources: Resources<'a>, )); }; let doc = match kind { Kind::Exception(_) => "Exception handler", Kind::Idle => "Idle loop", Kind::Init => "Initialization function", Kind::Interrupt(_) => "Interrupt handler", Kind::Task(_) => "Software task", }; if let Some(late_resources) = late_resources { items.push(quote!( pub use super::#late_resources as LateResources; )); } quote!( #root #[doc = #doc] #[allow(non_snake_case)] pub mod #name { /// Variables injected into this context by the `app` attribute pub struct Context<#lt> { #(#fields)* } #(#items)* } ) } /// The prelude injects `resources`, `spawn`, `schedule` and `start` / `scheduled` (all values) into /// a function scope fn prelude( ctxt: &mut Context, kind: Kind, resources: &Idents, spawn: &Idents, schedule: &Idents, app: &App, logical_prio: u8, analysis: &Analysis, ) -> proc_macro2::TokenStream { let mut items = vec![]; let lt = if kind.runs_once() { quote!('static) } else { quote!('a) }; let module = kind.ident(); let priority = &ctxt.priority; if !resources.is_empty() { let mut defs = vec![]; let mut exprs = vec![]; // NOTE This field is just to avoid unused type parameter errors around `'a` defs.push(quote!(#[allow(dead_code)] pub #priority: &'a rtfm::export::Priority)); exprs.push(parse_quote!(#priority)); let mut may_call_lock = false; let mut needs_unsafe = false; for name in resources { let res = &app.resources[name]; let cfgs = &res.cfgs; let initialized = res.expr.is_some(); let singleton = res.singleton; let mut_ = res.mutability; let ty = &res.ty; if kind.is_init() { let mut force_mut = false; if !analysis.ownerships.contains_key(name) { // owned by Init if singleton { needs_unsafe = true; defs.push(quote!( #(#cfgs)* pub #name: #name )); exprs.push(quote!( #(#cfgs)* #name: <#name as owned_singleton::Singleton>::new() )); continue; } else { defs.push(quote!( #(#cfgs)* pub #name: &'static #mut_ #ty )); } } else { // owned by someone else if singleton { needs_unsafe = true; defs.push(quote!( #(#cfgs)* pub #name: &'a mut #name )); exprs.push(quote!( #(#cfgs)* #name: &mut <#name as owned_singleton::Singleton>::new() )); continue; } else { force_mut = true; defs.push(quote!( #(#cfgs)* pub #name: &'a mut #ty )); } } let alias = &ctxt.statics[name]; // Resources assigned to init are always const initialized needs_unsafe = true; if force_mut { exprs.push(quote!( #(#cfgs)* #name: &mut #alias )); } else { exprs.push(quote!( #(#cfgs)* #name: &#mut_ #alias )); } } else { let ownership = &analysis.ownerships[name]; let mut exclusive = false; if ownership.needs_lock(logical_prio) { may_call_lock = true; if singleton { if mut_.is_none() { needs_unsafe = true; defs.push(quote!( #(#cfgs)* pub #name: &'a #name )); exprs.push(quote!( #(#cfgs)* #name: &<#name as owned_singleton::Singleton>::new() )); continue; } else { // Generate a resource proxy defs.push(quote!( #(#cfgs)* pub #name: resources::#name<'a> )); exprs.push(quote!( #(#cfgs)* #name: resources::#name { #priority } )); continue; } } else { if mut_.is_none() { defs.push(quote!( #(#cfgs)* pub #name: &'a #ty )); } else { // Generate a resource proxy defs.push(quote!( #(#cfgs)* pub #name: resources::#name<'a> )); exprs.push(quote!( #(#cfgs)* #name: resources::#name { #priority } )); continue; } } } else { if singleton { if kind.runs_once() { needs_unsafe = true; defs.push(quote!( #(#cfgs)* pub #name: #name )); exprs.push(quote!( #(#cfgs)* #name: <#name as owned_singleton::Singleton>::new() )); } else { needs_unsafe = true; if ownership.is_owned() || mut_.is_none() { defs.push(quote!( #(#cfgs)* pub #name: &'a #mut_ #name )); // XXX is randomness required? let alias = ctxt.ident_gen.mk_ident(None, true); items.push(quote!( #(#cfgs)* let #mut_ #alias = unsafe { <#name as owned_singleton::Singleton>::new() }; )); exprs.push(quote!( #(#cfgs)* #name: &#mut_ #alias )); } else { may_call_lock = true; defs.push(quote!( #(#cfgs)* pub #name: rtfm::Exclusive<'a, #name> )); // XXX is randomness required? let alias = ctxt.ident_gen.mk_ident(None, true); items.push(quote!( #(#cfgs)* let #mut_ #alias = unsafe { <#name as owned_singleton::Singleton>::new() }; )); exprs.push(quote!( #(#cfgs)* #name: rtfm::Exclusive(&mut #alias) )); } } continue; } else { if ownership.is_owned() || mut_.is_none() { defs.push(quote!( #(#cfgs)* pub #name: &#lt #mut_ #ty )); } else { exclusive = true; may_call_lock = true; defs.push(quote!( #(#cfgs)* pub #name: rtfm::Exclusive<#lt, #ty> )); } } } let alias = &ctxt.statics[name]; needs_unsafe = true; if initialized { if exclusive { exprs.push(quote!( #(#cfgs)* #name: rtfm::Exclusive(&mut #alias) )); } else { exprs.push(quote!( #(#cfgs)* #name: &#mut_ #alias )); } } else { let expr = if mut_.is_some() { quote!(&mut *#alias.as_mut_ptr()) } else { quote!(&*#alias.as_ptr()) }; if exclusive { exprs.push(quote!( #(#cfgs)* #name: rtfm::Exclusive(#expr) )); } else { exprs.push(quote!( #(#cfgs)* #name: #expr )); } } } } let alias = ctxt.ident_gen.mk_ident(None, false); let unsafety = if needs_unsafe { Some(quote!(unsafe)) } else { None }; let defs = &defs; let doc = format!("`{}::Resources`", kind.ident().to_string()); let decl = quote!( #[doc = #doc] #[allow(non_snake_case)] pub struct #alias<'a> { #(#defs,)* } ); items.push(quote!( #[allow(unused_variables)] #[allow(unsafe_code)] #[allow(unused_mut)] let mut resources = #unsafety { #alias { #(#exprs,)* } }; )); ctxt.resources .insert(kind.clone(), Resources { alias, decl }); if may_call_lock { items.push(quote!( use rtfm::Mutex; )); } } if !spawn.is_empty() { if kind.is_idle() { items.push(quote!( #[allow(unused_variables)] let spawn = #module::Spawn { #priority }; )); } else { let baseline_expr = match () { #[cfg(feature = "timer-queue")] () => { let baseline = &ctxt.baseline; quote!(#baseline) } #[cfg(not(feature = "timer-queue"))] () => quote!(), }; items.push(quote!( #[allow(unused_variables)] let spawn = #module::Spawn { #priority, #baseline_expr }; )); } } if !schedule.is_empty() { // Populate `schedule_fn` for task in schedule { if ctxt.schedule_fn.contains_key(task) { continue; } ctxt.schedule_fn .insert(task.clone(), ctxt.ident_gen.mk_ident(None, false)); } items.push(quote!( #[allow(unused_imports)] use rtfm::U32Ext; #[allow(unused_variables)] let schedule = #module::Schedule { #priority }; )); } if items.is_empty() { quote!() } else { quote!( let ref #priority = unsafe { rtfm::export::Priority::new(#logical_prio) }; #(#items)* ) } } fn idle( ctxt: &mut Context, app: &App, analysis: &Analysis, ) -> (proc_macro2::TokenStream, proc_macro2::TokenStream) { if let Some(idle) = app.idle.as_ref() { let attrs = &idle.attrs; let locals = mk_locals(&idle.statics, true); let stmts = &idle.stmts; let prelude = prelude( ctxt, Kind::Idle, &idle.args.resources, &idle.args.spawn, &idle.args.schedule, app, 0, analysis, ); let module = module( ctxt, Kind::Idle, !idle.args.schedule.is_empty(), !idle.args.spawn.is_empty(), app, None, ); let unsafety = &idle.unsafety; let idle = &ctxt.idle; ( quote!( #module // unsafe trampoline to deter end-users from calling this non-reentrant function #(#attrs)* unsafe fn #idle() -> ! { #[inline(always)] #unsafety fn idle() -> ! { #(#locals)* #prelude #(#stmts)* } idle() } ), quote!(#idle()), ) } else { ( quote!(), quote!(loop { rtfm::export::wfi(); }), ) } } fn exceptions(ctxt: &mut Context, app: &App, analysis: &Analysis) -> Vec { app.exceptions .iter() .map(|(ident, exception)| { let attrs = &exception.attrs; let stmts = &exception.stmts; let kind = Kind::Exception(ident.clone()); let prelude = prelude( ctxt, kind.clone(), &exception.args.resources, &exception.args.spawn, &exception.args.schedule, app, exception.args.priority, analysis, ); let module = module( ctxt, kind, !exception.args.schedule.is_empty(), !exception.args.spawn.is_empty(), app, None, ); #[cfg(feature = "timer-queue")] let baseline = &ctxt.baseline; let baseline_let = match () { #[cfg(feature = "timer-queue")] () => quote!(let ref #baseline = rtfm::Instant::now();), #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let start_let = match () { #[cfg(feature = "timer-queue")] () => quote!( #[allow(unused_variables)] let start = *#baseline; ), #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let locals = mk_locals(&exception.statics, false); let symbol = exception.args.binds(ident).to_string(); let alias = ctxt.ident_gen.mk_ident(None, false); let unsafety = &exception.unsafety; quote!( #module // unsafe trampoline to deter end-users from calling this non-reentrant function #[export_name = #symbol] #(#attrs)* unsafe fn #alias() { #[inline(always)] #unsafety fn exception() { #(#locals)* #baseline_let #prelude #start_let rtfm::export::run(move || { #(#stmts)* }) } exception() } ) }) .collect() } fn interrupts( ctxt: &mut Context, app: &App, analysis: &Analysis, ) -> (proc_macro2::TokenStream, proc_macro2::TokenStream) { let mut root = vec![]; let mut scoped = vec![]; for (ident, interrupt) in &app.interrupts { let attrs = &interrupt.attrs; let stmts = &interrupt.stmts; let kind = Kind::Interrupt(ident.clone()); let prelude = prelude( ctxt, kind.clone(), &interrupt.args.resources, &interrupt.args.spawn, &interrupt.args.schedule, app, interrupt.args.priority, analysis, ); root.push(module( ctxt, kind, !interrupt.args.schedule.is_empty(), !interrupt.args.spawn.is_empty(), app, None, )); #[cfg(feature = "timer-queue")] let baseline = &ctxt.baseline; let baseline_let = match () { #[cfg(feature = "timer-queue")] () => quote!(let ref #baseline = rtfm::Instant::now();), #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let start_let = match () { #[cfg(feature = "timer-queue")] () => quote!( #[allow(unused_variables)] let start = *#baseline; ), #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let locals = mk_locals(&interrupt.statics, false); let alias = ctxt.ident_gen.mk_ident(None, false); let symbol = interrupt.args.binds(ident).to_string(); let unsafety = &interrupt.unsafety; scoped.push(quote!( // unsafe trampoline to deter end-users from calling this non-reentrant function #(#attrs)* #[export_name = #symbol] unsafe fn #alias() { #[inline(always)] #unsafety fn interrupt() { #(#locals)* #baseline_let #prelude #start_let rtfm::export::run(move || { #(#stmts)* }) } interrupt() } )); } (quote!(#(#root)*), quote!(#(#scoped)*)) } fn tasks(ctxt: &mut Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream { let mut items = vec![]; // first pass to generate buffers (statics and resources) and spawn aliases for (name, task) in &app.tasks { #[cfg(feature = "timer-queue")] let scheduleds_alias = ctxt.ident_gen.mk_ident(None, false); let free_alias = ctxt.ident_gen.mk_ident(None, false); let inputs_alias = ctxt.ident_gen.mk_ident(None, false); let task_alias = ctxt.ident_gen.mk_ident(Some(&name.to_string()), false); let inputs = &task.inputs; let ty = tuple_ty(inputs); let capacity = analysis.capacities[name]; let capacity_lit = mk_capacity_literal(capacity); let capacity_ty = mk_typenum_capacity(capacity, true); let resource = mk_resource( ctxt, &[], &free_alias, quote!(rtfm::export::FreeQueue<#capacity_ty>), *analysis.free_queues.get(name).unwrap_or(&0), if cfg!(feature = "nightly") { quote!(&mut #free_alias) } else { quote!(#free_alias.get_mut()) }, app, None, ); let scheduleds_static = match () { #[cfg(feature = "timer-queue")] () => { let scheduleds_symbol = format!("{}::SCHEDULED_TIMES::{}", name, scheduleds_alias); if cfg!(feature = "nightly") { let inits = (0..capacity).map(|_| quote!(rtfm::export::MaybeUninit::uninit())); quote!( #[doc = #scheduleds_symbol] static mut #scheduleds_alias: [rtfm::export::MaybeUninit; #capacity_lit] = [#(#inits),*]; ) } else { quote!( #[doc = #scheduleds_symbol] static mut #scheduleds_alias: rtfm::export::MaybeUninit<[rtfm::Instant; #capacity_lit]> = rtfm::export::MaybeUninit::uninit(); ) } } #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let inputs_symbol = format!("{}::INPUTS::{}", name, inputs_alias); let free_symbol = format!("{}::FREE_QUEUE::{}", name, free_alias); if cfg!(feature = "nightly") { let inits = (0..capacity).map(|_| quote!(rtfm::export::MaybeUninit::uninit())); items.push(quote!( #[doc = #free_symbol] static mut #free_alias: rtfm::export::FreeQueue<#capacity_ty> = unsafe { rtfm::export::FreeQueue::new_sc() }; #[doc = #inputs_symbol] static mut #inputs_alias: [rtfm::export::MaybeUninit<#ty>; #capacity_lit] = [#(#inits),*]; )); } else { items.push(quote!( #[doc = #free_symbol] static mut #free_alias: rtfm::export::MaybeUninit< rtfm::export::FreeQueue<#capacity_ty> > = rtfm::export::MaybeUninit::uninit(); #[doc = #inputs_symbol] static mut #inputs_alias: rtfm::export::MaybeUninit<[#ty; #capacity_lit]> = rtfm::export::MaybeUninit::uninit(); )); } items.push(quote!( #resource #scheduleds_static )); ctxt.tasks.insert( name.clone(), Task { alias: task_alias, free_queue: free_alias, inputs: inputs_alias, spawn_fn: ctxt.ident_gen.mk_ident(None, false), #[cfg(feature = "timer-queue")] scheduleds: scheduleds_alias, }, ); } // second pass to generate the actual task function for (name, task) in &app.tasks { let inputs = &task.inputs; let locals = mk_locals(&task.statics, false); let stmts = &task.stmts; let unsafety = &task.unsafety; let scheduled_let = match () { #[cfg(feature = "timer-queue")] () => { let baseline = &ctxt.baseline; quote!(let scheduled = *#baseline;) } #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let prelude = prelude( ctxt, Kind::Task(name.clone()), &task.args.resources, &task.args.spawn, &task.args.schedule, app, task.args.priority, analysis, ); items.push(module( ctxt, Kind::Task(name.clone()), !task.args.schedule.is_empty(), !task.args.spawn.is_empty(), app, None, )); let attrs = &task.attrs; let cfgs = &task.cfgs; let task_alias = &ctxt.tasks[name].alias; let (baseline, baseline_arg) = match () { #[cfg(feature = "timer-queue")] () => { let baseline = &ctxt.baseline; (quote!(#baseline,), quote!(#baseline: &rtfm::Instant,)) } #[cfg(not(feature = "timer-queue"))] () => (quote!(), quote!()), }; let pats = tuple_pat(inputs); items.push(quote!( // unsafe trampoline to deter end-users from calling this non-reentrant function #(#attrs)* #(#cfgs)* unsafe fn #task_alias(#baseline_arg #(#inputs,)*) { #[inline(always)] #unsafety fn task(#baseline_arg #(#inputs,)*) { #(#locals)* #prelude #scheduled_let #(#stmts)* } task(#baseline #pats) } )); } quote!(#(#items)*) } fn dispatchers( ctxt: &mut Context, app: &App, analysis: &Analysis, ) -> (proc_macro2::TokenStream, proc_macro2::TokenStream) { let mut data = vec![]; let mut dispatchers = vec![]; let device = &app.args.device; for (level, dispatcher) in &analysis.dispatchers { let ready_alias = ctxt.ident_gen.mk_ident(None, false); let enum_alias = ctxt.ident_gen.mk_ident(None, false); let capacity = mk_typenum_capacity(dispatcher.capacity, true); let variants = dispatcher .tasks .iter() .map(|task| { let task_ = &app.tasks[task]; let cfgs = &task_.cfgs; quote!( #(#cfgs)* #task ) }) .collect::>(); let symbol = format!("P{}::READY_QUEUE::{}", level, ready_alias); let e = quote!(rtfm::export); let ty = quote!(#e::ReadyQueue<#enum_alias, #capacity>); let ceiling = *analysis.ready_queues.get(&level).unwrap_or(&0); let resource = mk_resource( ctxt, &[], &ready_alias, ty.clone(), ceiling, if cfg!(feature = "nightly") { quote!(&mut #ready_alias) } else { quote!(#ready_alias.get_mut()) }, app, None, ); if cfg!(feature = "nightly") { data.push(quote!( #[doc = #symbol] static mut #ready_alias: #ty = unsafe { #e::ReadyQueue::new_sc() }; )); } else { data.push(quote!( #[doc = #symbol] static mut #ready_alias: #e::MaybeUninit<#ty> = #e::MaybeUninit::uninit(); )); } data.push(quote!( #[allow(dead_code)] #[allow(non_camel_case_types)] enum #enum_alias { #(#variants,)* } #resource )); let arms = dispatcher .tasks .iter() .map(|task| { let task_ = &ctxt.tasks[task]; let inputs = &task_.inputs; let free = &task_.free_queue; let alias = &task_.alias; let task__ = &app.tasks[task]; let pats = tuple_pat(&task__.inputs); let cfgs = &task__.cfgs; let baseline_let; let call; match () { #[cfg(feature = "timer-queue")] () => { let scheduleds = &task_.scheduleds; let scheduled = if cfg!(feature = "nightly") { quote!(#scheduleds.get_unchecked(usize::from(index)).as_ptr()) } else { quote!(#scheduleds.get_ref().get_unchecked(usize::from(index))) }; baseline_let = quote!( let baseline = ptr::read(#scheduled); ); call = quote!(#alias(&baseline, #pats)); } #[cfg(not(feature = "timer-queue"))] () => { baseline_let = quote!(); call = quote!(#alias(#pats)); } }; let (free_, input) = if cfg!(feature = "nightly") { ( quote!(#free), quote!(#inputs.get_unchecked(usize::from(index)).as_ptr()), ) } else { ( quote!(#free.get_mut()), quote!(#inputs.get_ref().get_unchecked(usize::from(index))), ) }; quote!( #(#cfgs)* #enum_alias::#task => { #baseline_let let input = ptr::read(#input); #free_.split().0.enqueue_unchecked(index); let (#pats) = input; #call } ) }) .collect::>(); let attrs = &dispatcher.attrs; let interrupt = &dispatcher.interrupt; let symbol = interrupt.to_string(); let alias = ctxt.ident_gen.mk_ident(None, false); let ready_alias_ = if cfg!(feature = "nightly") { quote!(#ready_alias) } else { quote!(#ready_alias.get_mut()) }; dispatchers.push(quote!( #(#attrs)* #[export_name = #symbol] unsafe fn #alias() { use core::ptr; // check that this interrupt exists let _ = #device::interrupt::#interrupt; rtfm::export::run(|| { while let Some((task, index)) = #ready_alias_.split().1.dequeue() { match task { #(#arms)* } } }); } )); ctxt.dispatchers.insert( *level, Dispatcher { ready_queue: ready_alias, enum_: enum_alias, }, ); } (quote!(#(#data)*), quote!(#(#dispatchers)*)) } fn spawn(ctxt: &Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream { let mut items = vec![]; // Generate `spawn` functions let device = &app.args.device; let priority = &ctxt.priority; #[cfg(feature = "timer-queue")] let baseline = &ctxt.baseline; for (name, task) in &ctxt.tasks { let alias = &task.spawn_fn; let task_ = &app.tasks[name]; let cfgs = &task_.cfgs; let free = &task.free_queue; let level = task_.args.priority; let dispatcher = &ctxt.dispatchers[&level]; let ready = &dispatcher.ready_queue; let enum_ = &dispatcher.enum_; let dispatcher = &analysis.dispatchers[&level].interrupt; let inputs = &task.inputs; let args = &task_.inputs; let ty = tuple_ty(args); let pats = tuple_pat(args); let scheduleds_write = match () { #[cfg(feature = "timer-queue")] () => { let scheduleds = &ctxt.tasks[name].scheduleds; if cfg!(feature = "nightly") { quote!( ptr::write( #scheduleds.get_unchecked_mut(usize::from(index)).as_mut_ptr(), #baseline, ); ) } else { quote!( ptr::write( #scheduleds.get_mut().get_unchecked_mut(usize::from(index)), #baseline, ); ) } } #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let baseline_arg = match () { #[cfg(feature = "timer-queue")] () => quote!(#baseline: rtfm::Instant,), #[cfg(not(feature = "timer-queue"))] () => quote!(), }; let input = if cfg!(feature = "nightly") { quote!(#inputs.get_unchecked_mut(usize::from(index)).as_mut_ptr()) } else { quote!(#inputs.get_mut().get_unchecked_mut(usize::from(index))) }; items.push(quote!( #[inline(always)] #(#cfgs)* unsafe fn #alias( #baseline_arg #priority: &rtfm::export::Priority, #(#args,)* ) -> Result<(), #ty> { use core::ptr; use rtfm::Mutex; if let Some(index) = (#free { #priority }).lock(|f| f.split().1.dequeue()) { ptr::write(#input, (#pats)); #scheduleds_write #ready { #priority }.lock(|rq| { rq.split().0.enqueue_unchecked((#enum_::#name, index)) }); rtfm::pend(#device::Interrupt::#dispatcher); Ok(()) } else { Err((#pats)) } } )) } // Generate `spawn` structs; these call the `spawn` functions generated above for (name, spawn) in app.spawn_callers() { if spawn.is_empty() { continue; } #[cfg(feature = "timer-queue")] let is_idle = name.to_string() == "idle"; let mut methods = vec![]; for task in spawn { let task_ = &app.tasks[task]; let alias = &ctxt.tasks[task].spawn_fn; let inputs = &task_.inputs; let cfgs = &task_.cfgs; let ty = tuple_ty(inputs); let pats = tuple_pat(inputs); let instant = match () { #[cfg(feature = "timer-queue")] () => { if is_idle { quote!(rtfm::Instant::now(),) } else { quote!(*self.#baseline,) } } #[cfg(not(feature = "timer-queue"))] () => quote!(), }; methods.push(quote!( #[allow(unsafe_code)] #[inline] #(#cfgs)* pub fn #task(&self, #(#inputs,)*) -> Result<(), #ty> { unsafe { #alias(#instant &self.#priority, #pats) } } )); } items.push(quote!( impl<'a> #name::Spawn<'a> { #(#methods)* } )); } quote!(#(#items)*) } #[cfg(feature = "timer-queue")] fn schedule(ctxt: &Context, app: &App) -> proc_macro2::TokenStream { let mut items = vec![]; // Generate `schedule` functions let priority = &ctxt.priority; let timer_queue = &ctxt.timer_queue; for (task, alias) in &ctxt.schedule_fn { let task_ = &ctxt.tasks[task]; let free = &task_.free_queue; let enum_ = &ctxt.schedule_enum; let inputs = &task_.inputs; let scheduleds = &task_.scheduleds; let task__ = &app.tasks[task]; let args = &task__.inputs; let cfgs = &task__.cfgs; let ty = tuple_ty(args); let pats = tuple_pat(args); let input = if cfg!(feature = "nightly") { quote!(#inputs.get_unchecked_mut(usize::from(index)).as_mut_ptr()) } else { quote!(#inputs.get_mut().get_unchecked_mut(usize::from(index))) }; let scheduled = if cfg!(feature = "nightly") { quote!(#scheduleds.get_unchecked_mut(usize::from(index)).as_mut_ptr()) } else { quote!(#scheduleds.get_mut().get_unchecked_mut(usize::from(index))) }; items.push(quote!( #[inline(always)] #(#cfgs)* unsafe fn #alias( #priority: &rtfm::export::Priority, instant: rtfm::Instant, #(#args,)* ) -> Result<(), #ty> { use core::ptr; use rtfm::Mutex; if let Some(index) = (#free { #priority }).lock(|f| f.split().1.dequeue()) { ptr::write(#input, (#pats)); ptr::write(#scheduled, instant); let nr = rtfm::export::NotReady { instant, index, task: #enum_::#task, }; ({#timer_queue { #priority }}).lock(|tq| tq.enqueue_unchecked(nr)); Ok(()) } else { Err((#pats)) } } )) } // Generate `Schedule` structs; these call the `schedule` functions generated above for (name, schedule) in app.schedule_callers() { if schedule.is_empty() { continue; } debug_assert!(!schedule.is_empty()); let mut methods = vec![]; for task in schedule { let alias = &ctxt.schedule_fn[task]; let task_ = &app.tasks[task]; let inputs = &task_.inputs; let cfgs = &task_.cfgs; let ty = tuple_ty(inputs); let pats = tuple_pat(inputs); methods.push(quote!( #[inline] #(#cfgs)* pub fn #task( &self, instant: rtfm::Instant, #(#inputs,)* ) -> Result<(), #ty> { unsafe { #alias(&self.#priority, instant, #pats) } } )); } items.push(quote!( impl<'a> #name::Schedule<'a> { #(#methods)* } )); } quote!(#(#items)*) } fn timer_queue(ctxt: &mut Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream { let tasks = &analysis.timer_queue.tasks; if tasks.is_empty() { return quote!(); } let mut items = vec![]; let variants = tasks .iter() .map(|task| { let cfgs = &app.tasks[task].cfgs; quote!( #(#cfgs)* #task ) }) .collect::>(); let enum_ = &ctxt.schedule_enum; items.push(quote!( #[allow(dead_code)] #[allow(non_camel_case_types)] #[derive(Clone, Copy)] enum #enum_ { #(#variants,)* } )); let cap = mk_typenum_capacity(analysis.timer_queue.capacity, false); let tq = &ctxt.timer_queue; let symbol = format!("TIMER_QUEUE::{}", tq); if cfg!(feature = "nightly") { items.push(quote!( #[doc = #symbol] static mut #tq: rtfm::export::MaybeUninit> = rtfm::export::MaybeUninit::uninit(); )); } else { items.push(quote!( #[doc = #symbol] static mut #tq: rtfm::export::MaybeUninit> = rtfm::export::MaybeUninit::uninit(); )); } items.push(mk_resource( ctxt, &[], tq, quote!(rtfm::export::TimerQueue<#enum_, #cap>), analysis.timer_queue.ceiling, quote!(&mut *#tq.as_mut_ptr()), app, None, )); let priority = &ctxt.priority; let device = &app.args.device; let arms = tasks .iter() .map(|task| { let task_ = &app.tasks[task]; let level = task_.args.priority; let cfgs = &task_.cfgs; let dispatcher_ = &ctxt.dispatchers[&level]; let tenum = &dispatcher_.enum_; let ready = &dispatcher_.ready_queue; let dispatcher = &analysis.dispatchers[&level].interrupt; quote!( #(#cfgs)* #enum_::#task => { (#ready { #priority }).lock(|rq| { rq.split().0.enqueue_unchecked((#tenum::#task, index)) }); rtfm::pend(#device::Interrupt::#dispatcher); } ) }) .collect::>(); let logical_prio = analysis.timer_queue.priority; let alias = ctxt.ident_gen.mk_ident(None, false); items.push(quote!( #[export_name = "SysTick"] #[doc(hidden)] unsafe fn #alias() { use rtfm::Mutex; let ref #priority = rtfm::export::Priority::new(#logical_prio); rtfm::export::run(|| { rtfm::export::sys_tick(#tq { #priority }, |task, index| { match task { #(#arms)* } }); }) } )); quote!(#(#items)*) } fn pre_init(ctxt: &Context, app: &App, analysis: &Analysis) -> proc_macro2::TokenStream { let mut exprs = vec![]; if !cfg!(feature = "nightly") { // these are `MaybeUninit` arrays for task in ctxt.tasks.values() { let inputs = &task.inputs; exprs.push(quote!(#inputs.write(core::mem::uninitialized());)) } #[cfg(feature = "timer-queue")] for task in ctxt.tasks.values() { let scheduleds = &task.scheduleds; exprs.push(quote!(#scheduleds.write(core::mem::uninitialized());)) } // these are `MaybeUninit` `ReadyQueue`s for dispatcher in ctxt.dispatchers.values() { let rq = &dispatcher.ready_queue; exprs.push(quote!(#rq.write(rtfm::export::ReadyQueue::new_sc());)) } // these are `MaybeUninit` `FreeQueue`s for task in ctxt.tasks.values() { let fq = &task.free_queue; exprs.push(quote!(#fq.write(rtfm::export::FreeQueue::new_sc());)) } } // Initialize the timer queue if !analysis.timer_queue.tasks.is_empty() { let tq = &ctxt.timer_queue; exprs.push(quote!(#tq.write(rtfm::export::TimerQueue::new(p.SYST));)); } // Populate the `FreeQueue`s for (name, task) in &ctxt.tasks { let fq = &task.free_queue; let fq_ = if cfg!(feature = "nightly") { quote!(#fq) } else { quote!(#fq.get_mut()) }; let capacity = analysis.capacities[name]; exprs.push(quote!( for i in 0..#capacity { #fq_.enqueue_unchecked(i); } )) } let device = &app.args.device; let nvic_prio_bits = quote!(#device::NVIC_PRIO_BITS); for (handler, interrupt) in &app.interrupts { let name = interrupt.args.binds(handler); let priority = interrupt.args.priority; exprs.push(quote!(p.NVIC.enable(#device::Interrupt::#name);)); exprs.push(quote!(let _ = [(); ((1 << #nvic_prio_bits) - #priority as usize)];)); exprs.push(quote!(p.NVIC.set_priority( #device::Interrupt::#name, ((1 << #nvic_prio_bits) - #priority) << (8 - #nvic_prio_bits), );)); } for (priority, dispatcher) in &analysis.dispatchers { let name = &dispatcher.interrupt; exprs.push(quote!(p.NVIC.enable(#device::Interrupt::#name);)); exprs.push(quote!(let _ = [(); ((1 << #nvic_prio_bits) - #priority as usize)];)); exprs.push(quote!(p.NVIC.set_priority( #device::Interrupt::#name, ((1 << #nvic_prio_bits) - #priority) << (8 - #nvic_prio_bits), );)); } // Set the cycle count to 0 and disable it while `init` executes if cfg!(feature = "timer-queue") { exprs.push(quote!(p.DWT.ctrl.modify(|r| r & !1);)); exprs.push(quote!(p.DWT.cyccnt.write(0);)); } quote!( let mut p = rtfm::export::Peripherals::steal(); #(#exprs)* ) } fn assertions(app: &App, analysis: &Analysis) -> proc_macro2::TokenStream { let mut items = vec![]; for ty in &analysis.assert_sync { items.push(quote!(rtfm::export::assert_sync::<#ty>())); } for task in &analysis.tasks_assert_send { let ty = tuple_ty(&app.tasks[task].inputs); items.push(quote!(rtfm::export::assert_send::<#ty>())); } // all late resources need to be `Send` for ty in &analysis.resources_assert_send { items.push(quote!(rtfm::export::assert_send::<#ty>())); } quote!(#(#items;)*) } fn mk_resource( ctxt: &Context, cfgs: &[Attribute], struct_: &Ident, ty: proc_macro2::TokenStream, ceiling: u8, ptr: proc_macro2::TokenStream, app: &App, module: Option<&mut Vec>, ) -> proc_macro2::TokenStream { let priority = &ctxt.priority; let device = &app.args.device; let mut items = vec![]; let path = if let Some(module) = module { let doc = format!("`{}`", ty); module.push(quote!( #[allow(non_camel_case_types)] #[doc = #doc] #(#cfgs)* pub struct #struct_<'a> { #[doc(hidden)] pub #priority: &'a rtfm::export::Priority, } )); quote!(resources::#struct_) } else { items.push(quote!( #(#cfgs)* struct #struct_<'a> { #priority: &'a rtfm::export::Priority, } )); quote!(#struct_) }; items.push(quote!( #(#cfgs)* impl<'a> rtfm::Mutex for #path<'a> { type T = #ty; #[inline] fn lock(&mut self, f: F) -> R where F: FnOnce(&mut Self::T) -> R, { unsafe { rtfm::export::claim( #ptr, &self.#priority, #ceiling, #device::NVIC_PRIO_BITS, f, ) } } } )); quote!(#(#items)*) } fn mk_capacity_literal(capacity: u8) -> LitInt { LitInt::new(u64::from(capacity), IntSuffix::None, Span::call_site()) } fn mk_typenum_capacity(capacity: u8, power_of_two: bool) -> proc_macro2::TokenStream { let capacity = if power_of_two { capacity .checked_next_power_of_two() .expect("capacity.next_power_of_two()") } else { capacity }; let ident = Ident::new(&format!("U{}", capacity), Span::call_site()); quote!(rtfm::export::consts::#ident) } struct IdentGenerator { call_count: u32, rng: rand::rngs::SmallRng, } impl IdentGenerator { fn new() -> IdentGenerator { let elapsed = SystemTime::now().duration_since(UNIX_EPOCH).unwrap(); let secs = elapsed.as_secs(); let nanos = elapsed.subsec_nanos(); let mut seed: [u8; 16] = [0; 16]; for (i, v) in seed.iter_mut().take(8).enumerate() { *v = ((secs >> (i * 8)) & 0xFF) as u8 } for (i, v) in seed.iter_mut().skip(8).take(4).enumerate() { *v = ((nanos >> (i * 8)) & 0xFF) as u8 } let rng = rand::rngs::SmallRng::from_seed(seed); IdentGenerator { call_count: 0, rng } } fn mk_ident(&mut self, name: Option<&str>, random: bool) -> Ident { let s = if let Some(name) = name { format!("{}_", name) } else { "__rtfm_internal_".to_string() }; let mut s = format!("{}{}", s, self.call_count); self.call_count += 1; if random { s.push('_'); for i in 0..4 { if i == 0 || self.rng.gen() { s.push(('a' as u8 + self.rng.gen::() % 25) as char) } else { s.push(('0' as u8 + self.rng.gen::() % 10) as char) } } } Ident::new(&s, Span::call_site()) } } // `once = true` means that these locals will be called from a function that will run *once* fn mk_locals(locals: &BTreeMap, once: bool) -> proc_macro2::TokenStream { let lt = if once { Some(quote!('static)) } else { None }; let locals = locals .iter() .map(|(name, static_)| { let attrs = &static_.attrs; let cfgs = &static_.cfgs; let expr = &static_.expr; let ident = name; let ty = &static_.ty; quote!( #[allow(non_snake_case)] #(#cfgs)* let #ident: &#lt mut #ty = { #(#attrs)* #(#cfgs)* static mut #ident: #ty = #expr; unsafe { &mut #ident } }; ) }) .collect::>(); quote!(#(#locals)*) } fn tuple_pat(inputs: &[ArgCaptured]) -> proc_macro2::TokenStream { if inputs.len() == 1 { let pat = &inputs[0].pat; quote!(#pat) } else { let pats = inputs.iter().map(|i| &i.pat).collect::>(); quote!(#(#pats,)*) } } fn tuple_ty(inputs: &[ArgCaptured]) -> proc_macro2::TokenStream { if inputs.len() == 1 { let ty = &inputs[0].ty; quote!(#ty) } else { let tys = inputs.iter().map(|i| &i.ty).collect::>(); quote!((#(#tys,)*)) } } #[derive(Clone, Debug, Eq, Hash, PartialEq)] enum Kind { Exception(Ident), Idle, Init, Interrupt(Ident), Task(Ident), } impl Kind { fn ident(&self) -> Ident { match self { Kind::Init => Ident::new("init", Span::call_site()), Kind::Idle => Ident::new("idle", Span::call_site()), Kind::Task(name) | Kind::Interrupt(name) | Kind::Exception(name) => name.clone(), } } fn is_idle(&self) -> bool { *self == Kind::Idle } fn is_init(&self) -> bool { *self == Kind::Init } fn runs_once(&self) -> bool { match *self { Kind::Init | Kind::Idle => true, _ => false, } } }