mirror of
https://github.com/rtic-rs/rtic.git
synced 2024-11-29 23:14:34 +01:00
302 lines
8.5 KiB
Rust
302 lines
8.5 KiB
Rust
use core::sync::atomic::{AtomicUsize, Ordering};
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use proc_macro2::{Span, TokenStream as TokenStream2};
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use quote::quote;
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use rtic_syntax::{ast::App, Context};
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use syn::{Attribute, Ident, LitInt, PatType};
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use crate::check::Extra;
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/// Turns `capacity` into an unsuffixed integer literal
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pub fn capacity_literal(capacity: u8) -> LitInt {
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LitInt::new(&capacity.to_string(), Span::call_site())
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}
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/// Turns `capacity` into a type-level (`typenum`) integer
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pub fn capacity_typenum(capacity: u8, round_up_to_power_of_two: bool) -> TokenStream2 {
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let capacity = if round_up_to_power_of_two {
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capacity.checked_next_power_of_two().expect("UNREACHABLE")
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} else {
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capacity
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};
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let ident = Ident::new(&format!("U{}", capacity), Span::call_site());
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quote!(rtic::export::consts::#ident)
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}
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/*
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/// Generates a `#[cfg(core = "0")]` attribute if we are in multi-core mode
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pub fn cfg_core(core: Core, cores: u8) -> Option<TokenStream2> {
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if cores == 1 {
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None
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} else if cfg!(feature = "heterogeneous") {
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let core = core.to_string();
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Some(quote!(#[cfg(core = #core)]))
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} else {
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None
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}
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}
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*/
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/// Identifier for the free queue
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///
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/// There may be more than one free queue per task because we need one for each sender core so we
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/// include the sender (e.g. `S0`) in the name
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pub fn fq_ident(task: &Ident) -> Ident {
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Ident::new(&format!("{}_FQ", task.to_string()), Span::call_site())
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}
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/// Generates a `Mutex` implementation
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pub fn impl_mutex(
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extra: &Extra,
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cfgs: &[Attribute],
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//cfg_core: Option<&TokenStream2>,
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resources_prefix: bool,
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name: &Ident,
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ty: TokenStream2,
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ceiling: u8,
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ptr: TokenStream2,
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) -> TokenStream2 {
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let (path, priority) = if resources_prefix {
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(quote!(resources::#name), quote!(self.priority()))
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} else {
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(quote!(#name), quote!(self.priority))
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};
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let device = extra.device;
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quote!(
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#(#cfgs)*
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//#cfg_core
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impl<'a> rtic::Mutex for #path<'a> {
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type T = #ty;
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#[inline(always)]
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fn lock<R>(&mut self, f: impl FnOnce(&mut #ty) -> R) -> R {
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/// Priority ceiling
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const CEILING: u8 = #ceiling;
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unsafe {
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rtic::export::lock(
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#ptr,
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#priority,
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CEILING,
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#device::NVIC_PRIO_BITS,
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f,
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)
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}
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}
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}
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)
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}
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/*
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/// Generates an identifier for a cross-initialization barrier
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pub fn init_barrier(initializer: Core) -> Ident {
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Ident::new(&format!("IB{}", initializer), Span::call_site())
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}
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*/
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/// Generates an identifier for the `INPUTS` buffer (`spawn` & `schedule` API)
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pub fn inputs_ident(task: &Ident) -> Ident {
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Ident::new(&format!("{}_INPUTS", task), Span::call_site())
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}
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/// Generates an identifier for the `INSTANTS` buffer (`schedule` API)
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pub fn instants_ident(task: &Ident) -> Ident {
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Ident::new(&format!("{}_INSTANTS", task), Span::call_site())
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}
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pub fn interrupt_ident() -> Ident {
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let span = Span::call_site();
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Ident::new("Interrupt", span)
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}
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/// Whether `name` is an exception with configurable priority
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pub fn is_exception(name: &Ident) -> bool {
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let s = name.to_string();
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match &*s {
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"MemoryManagement" | "BusFault" | "UsageFault" | "SecureFault" | "SVCall"
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| "DebugMonitor" | "PendSV" | "SysTick" => true,
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_ => false,
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}
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}
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/// Generates a pre-reexport identifier for the "late resources" struct
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pub fn late_resources_ident(init: &Ident) -> Ident {
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Ident::new(
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&format!("{}LateResources", init.to_string()),
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Span::call_site(),
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)
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}
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fn link_section_index() -> usize {
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static INDEX: AtomicUsize = AtomicUsize::new(0);
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INDEX.fetch_add(1, Ordering::Relaxed)
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}
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pub fn link_section(_section: &str) -> Option<TokenStream2> {
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/*
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if cfg!(feature = "homogeneous") {
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let section = format!(".{}_{}.rtic{}", section, core, link_section_index());
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Some(quote!(#[link_section = #section]))
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} else {
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None
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}
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*/
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None
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}
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// NOTE `None` means in shared memory
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pub fn link_section_uninit(empty_expr: bool) -> Option<TokenStream2> {
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let section = if empty_expr {
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let index = link_section_index();
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format!(".uninit.rtic{}", index)
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} else {
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format!(".uninit.rtic{}", link_section_index())
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};
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Some(quote!(#[link_section = #section]))
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}
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/// Generates a pre-reexport identifier for the "locals" struct
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pub fn locals_ident(ctxt: Context, app: &App) -> Ident {
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let mut s = match ctxt {
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Context::Init => app.inits[0].name.to_string(),
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Context::Idle => app.idles[0].name.to_string(),
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Context::HardwareTask(ident) | Context::SoftwareTask(ident) => ident.to_string(),
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};
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s.push_str("Locals");
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Ident::new(&s, Span::call_site())
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}
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/*
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/// Generates an identifier for a rendezvous barrier
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pub fn rendezvous_ident() -> Ident {
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Ident::new(&format!("RV"), Span::call_site())
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}
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*/
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// Regroups the inputs of a task
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//
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// `inputs` could be &[`input: Foo`] OR &[`mut x: i32`, `ref y: i64`]
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pub fn regroup_inputs(
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inputs: &[PatType],
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) -> (
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// args e.g. &[`_0`], &[`_0: i32`, `_1: i64`]
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Vec<TokenStream2>,
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// tupled e.g. `_0`, `(_0, _1)`
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TokenStream2,
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// untupled e.g. &[`_0`], &[`_0`, `_1`]
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Vec<TokenStream2>,
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// ty e.g. `Foo`, `(i32, i64)`
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TokenStream2,
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) {
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if inputs.len() == 1 {
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let ty = &inputs[0].ty;
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(
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vec![quote!(_0: #ty)],
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quote!(_0),
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vec![quote!(_0)],
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quote!(#ty),
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)
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} else {
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let mut args = vec![];
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let mut pats = vec![];
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let mut tys = vec![];
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for (i, input) in inputs.iter().enumerate() {
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let i = Ident::new(&format!("_{}", i), Span::call_site());
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let ty = &input.ty;
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args.push(quote!(#i: #ty));
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pats.push(quote!(#i));
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tys.push(quote!(#ty));
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}
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let tupled = {
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let pats = pats.clone();
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quote!((#(#pats,)*))
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};
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let ty = quote!((#(#tys,)*));
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(args, tupled, pats, ty)
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}
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}
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/// Generates a pre-reexport identifier for the "resources" struct
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pub fn resources_ident(ctxt: Context, app: &App) -> Ident {
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let mut s = match ctxt {
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Context::Init => app.inits[0].name.to_string(),
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Context::Idle => app.idles[0].name.to_string(),
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Context::HardwareTask(ident) | Context::SoftwareTask(ident) => ident.to_string(),
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};
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s.push_str("Resources");
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Ident::new(&s, Span::call_site())
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}
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/// Generates an identifier for a ready queue
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///
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/// Each core may have several task dispatchers, one for each priority level. Each task dispatcher
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/// in turn may use more than one ready queue because the queues are SPSC queues so one is needed
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/// per sender core.
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pub fn rq_ident(priority: u8) -> Ident {
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Ident::new(&format!("P{}_RQ", priority), Span::call_site())
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}
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/// Generates an identifier for a "schedule" function
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///
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/// The methods of the `Schedule` structs invoke these functions. As one task may be `schedule`-ed
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/// by different cores we need one "schedule" function per possible task-sender pair
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pub fn schedule_ident(name: &Ident) -> Ident {
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Ident::new(&format!("schedule_{}", name.to_string()), Span::call_site())
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}
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/// Generates an identifier for the `enum` of `schedule`-able tasks
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pub fn schedule_t_ident() -> Ident {
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Ident::new(&format!("T"), Span::call_site())
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}
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/*
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/// Generates an identifier for a cross-spawn barrier
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pub fn spawn_barrier() -> Ident {
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Ident::new(&format!("SB"), Span::call_site())
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}
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*/
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/// Generates an identifier for a "spawn" function
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///
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/// The methods of the `Spawn` structs invoke these functions. As one task may be `spawn`-ed by
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/// different cores we need one "spawn" function per possible task-sender pair
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pub fn spawn_ident(name: &Ident) -> Ident {
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Ident::new(&format!("spawn_{}", name.to_string()), Span::call_site())
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}
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/// Generates an identifier for the `enum` of `spawn`-able tasks
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///
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/// This identifier needs the same structure as the `RQ` identifier because there's one ready queue
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/// for each of these `T` enums
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pub fn spawn_t_ident(priority: u8) -> Ident {
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Ident::new(&format!("P{}_T", priority), Span::call_site())
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}
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pub fn suffixed(name: &str) -> Ident {
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let span = Span::call_site();
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Ident::new(name, span)
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}
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/// Generates an identifier for a timer queue
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///
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/// At most there's one timer queue per core
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pub fn tq_ident() -> Ident {
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Ident::new(&format!("TQ"), Span::call_site())
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}
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