rtic/macros/src/codegen/software_tasks.rs

170 lines
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use proc_macro2::TokenStream as TokenStream2;
use quote::quote;
use rtfm_syntax::{ast::App, Context};
use crate::{
analyze::Analysis,
check::Extra,
codegen::{locals, module, resources_struct, util},
};
pub fn codegen(
app: &App,
analysis: &Analysis,
extra: &Extra,
) -> (
// const_app_software_tasks -- free queues, buffers and `${task}Resources` constructors
Vec<TokenStream2>,
// root_software_tasks -- items that must be placed in the root of the crate:
// - `${task}Locals` structs
// - `${task}Resources` structs
// - `${task}` modules
Vec<TokenStream2>,
// user_software_tasks -- the `#[task]` functions written by the user
Vec<TokenStream2>,
) {
let mut const_app = vec![];
let mut root = vec![];
let mut user_tasks = vec![];
for (name, task) in &app.software_tasks {
let receiver = task.args.core;
let inputs = &task.inputs;
let (_, _, _, input_ty) = util::regroup_inputs(inputs);
let cap = task.args.capacity;
let cap_lit = util::capacity_literal(cap);
let cap_ty = util::capacity_typenum(cap, true);
// create free queues and inputs / instants buffers
if let Some(free_queues) = analysis.free_queues.get(name) {
for (&sender, &ceiling) in free_queues {
let cfg_sender = util::cfg_core(sender, app.args.cores);
let fq = util::fq_ident(name, sender);
let (loc, fq_ty, fq_expr) = if receiver == sender {
(
cfg_sender.clone(),
quote!(rtfm::export::SCFQ<#cap_ty>),
quote!(rtfm::export::Queue(unsafe {
rtfm::export::iQueue::u8_sc()
})),
)
} else {
(
Some(quote!(#[rtfm::export::shared])),
quote!(rtfm::export::MCFQ<#cap_ty>),
quote!(rtfm::export::Queue(rtfm::export::iQueue::u8())),
)
};
let loc = &loc;
const_app.push(quote!(
/// Queue version of a free-list that keeps track of empty slots in
/// the following buffers
#loc
static mut #fq: #fq_ty = #fq_expr;
));
// Generate a resource proxy if needed
if let Some(ceiling) = ceiling {
const_app.push(quote!(
#cfg_sender
struct #fq<'a> {
priority: &'a rtfm::export::Priority,
}
));
const_app.push(util::impl_mutex(
extra,
&[],
cfg_sender.as_ref(),
false,
&fq,
fq_ty,
ceiling,
quote!(&mut #fq),
));
}
let ref elems = (0..cap)
.map(|_| quote!(core::mem::MaybeUninit::uninit()))
.collect::<Vec<_>>();
if app.uses_schedule(receiver) {
let m = extra.monotonic();
let instants = util::instants_ident(name, sender);
const_app.push(quote!(
#loc
/// Buffer that holds the instants associated to the inputs of a task
static mut #instants:
[core::mem::MaybeUninit<<#m as rtfm::Monotonic>::Instant>; #cap_lit] =
[#(#elems,)*];
));
}
let inputs = util::inputs_ident(name, sender);
const_app.push(quote!(
#loc
/// Buffer that holds the inputs of a task
static mut #inputs: [core::mem::MaybeUninit<#input_ty>; #cap_lit] =
[#(#elems,)*];
));
}
}
// `${task}Resources`
let mut needs_lt = false;
if !task.args.resources.is_empty() {
let (item, constructor) = resources_struct::codegen(
Context::SoftwareTask(name),
task.args.priority,
&mut needs_lt,
app,
analysis,
);
root.push(item);
const_app.push(constructor);
}
// `${task}Locals`
let mut locals_pat = None;
if !task.locals.is_empty() {
let (struct_, pat) = locals::codegen(Context::SoftwareTask(name), &task.locals, app);
locals_pat = Some(pat);
root.push(struct_);
}
let cfg_receiver = util::cfg_core(receiver, app.args.cores);
let context = &task.context;
let attrs = &task.attrs;
let cfgs = &task.cfgs;
let stmts = &task.stmts;
user_tasks.push(quote!(
#(#attrs)*
#(#cfgs)*
#cfg_receiver
#[allow(non_snake_case)]
fn #name(#(#locals_pat,)* #context: #name::Context #(,#inputs)*) {
use rtfm::Mutex as _;
#(#stmts)*
}
));
root.push(module::codegen(
Context::SoftwareTask(name),
needs_lt,
app,
extra,
));
}
(const_app, root, user_tasks)
}