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|
#![deny(unused_must_use)]
use std::cell::RefCell;
use crate::diagnostics::diagnostic_builder::{DiagnosticDeriveBuilder, DiagnosticDeriveKind};
use crate::diagnostics::error::{span_err, DiagnosticDeriveError};
use crate::diagnostics::utils::SetOnce;
use proc_macro2::TokenStream;
use quote::quote;
use syn::spanned::Spanned;
use synstructure::Structure;
/// The central struct for constructing the `into_diagnostic` method from an annotated struct.
pub(crate) struct DiagnosticDerive<'a> {
structure: Structure<'a>,
builder: DiagnosticDeriveBuilder,
}
impl<'a> DiagnosticDerive<'a> {
pub(crate) fn new(diag: syn::Ident, handler: syn::Ident, structure: Structure<'a>) -> Self {
Self {
builder: DiagnosticDeriveBuilder {
diag,
kind: DiagnosticDeriveKind::Diagnostic { handler },
},
structure,
}
}
pub(crate) fn into_tokens(self) -> TokenStream {
let DiagnosticDerive { mut structure, mut builder } = self;
let slugs = RefCell::new(Vec::new());
let implementation = builder.each_variant(&mut structure, |mut builder, variant| {
let preamble = builder.preamble(variant);
let body = builder.body(variant);
let diag = &builder.parent.diag;
let DiagnosticDeriveKind::Diagnostic { handler } = &builder.parent.kind else {
unreachable!()
};
let init = match builder.slug.value_ref() {
None => {
span_err(builder.span, "diagnostic slug not specified")
.help(
"specify the slug as the first argument to the `#[diag(...)]` \
attribute, such as `#[diag(hir_analysis_example_error)]`",
)
.emit();
return DiagnosticDeriveError::ErrorHandled.to_compile_error();
}
Some(slug)
if let Some(Mismatch { slug_name, crate_name, slug_prefix }) =
Mismatch::check(slug) =>
{
span_err(slug.span().unwrap(), "diagnostic slug and crate name do not match")
.note(format!("slug is `{slug_name}` but the crate name is `{crate_name}`"))
.help(format!("expected a slug starting with `{slug_prefix}_...`"))
.emit();
return DiagnosticDeriveError::ErrorHandled.to_compile_error();
}
Some(slug) => {
slugs.borrow_mut().push(slug.clone());
quote! {
let mut #diag = #handler.struct_diagnostic(crate::fluent_generated::#slug);
}
}
};
let formatting_init = &builder.formatting_init;
quote! {
#init
#formatting_init
#preamble
#body
#diag
}
});
let DiagnosticDeriveKind::Diagnostic { handler } = &builder.kind else { unreachable!() };
let mut imp = structure.gen_impl(quote! {
gen impl<'__diagnostic_handler_sess, G>
rustc_errors::IntoDiagnostic<'__diagnostic_handler_sess, G>
for @Self
where G: rustc_errors::EmissionGuarantee
{
#[track_caller]
fn into_diagnostic(
self,
#handler: &'__diagnostic_handler_sess rustc_errors::Handler
) -> rustc_errors::DiagnosticBuilder<'__diagnostic_handler_sess, G> {
use rustc_errors::IntoDiagnosticArg;
#implementation
}
}
});
for test in slugs.borrow().iter().map(|s| generate_test(s, &structure)) {
imp.extend(test);
}
imp
}
}
/// The central struct for constructing the `decorate_lint` method from an annotated struct.
pub(crate) struct LintDiagnosticDerive<'a> {
structure: Structure<'a>,
builder: DiagnosticDeriveBuilder,
}
impl<'a> LintDiagnosticDerive<'a> {
pub(crate) fn new(diag: syn::Ident, structure: Structure<'a>) -> Self {
Self {
builder: DiagnosticDeriveBuilder { diag, kind: DiagnosticDeriveKind::LintDiagnostic },
structure,
}
}
pub(crate) fn into_tokens(self) -> TokenStream {
let LintDiagnosticDerive { mut structure, mut builder } = self;
let implementation = builder.each_variant(&mut structure, |mut builder, variant| {
let preamble = builder.preamble(variant);
let body = builder.body(variant);
let diag = &builder.parent.diag;
let formatting_init = &builder.formatting_init;
quote! {
#preamble
#formatting_init
#body
#diag
}
});
let slugs = RefCell::new(Vec::new());
let msg = builder.each_variant(&mut structure, |mut builder, variant| {
// Collect the slug by generating the preamble.
let _ = builder.preamble(variant);
match builder.slug.value_ref() {
None => {
span_err(builder.span, "diagnostic slug not specified")
.help(
"specify the slug as the first argument to the attribute, such as \
`#[diag(compiletest_example)]`",
)
.emit();
DiagnosticDeriveError::ErrorHandled.to_compile_error()
}
Some(slug)
if let Some(Mismatch { slug_name, crate_name, slug_prefix }) =
Mismatch::check(slug) =>
{
span_err(slug.span().unwrap(), "diagnostic slug and crate name do not match")
.note(format!("slug is `{slug_name}` but the crate name is `{crate_name}`"))
.help(format!("expected a slug starting with `{slug_prefix}_...`"))
.emit();
DiagnosticDeriveError::ErrorHandled.to_compile_error()
}
Some(slug) => {
slugs.borrow_mut().push(slug.clone());
quote! {
crate::fluent_generated::#slug.into()
}
}
}
});
let diag = &builder.diag;
let mut imp = structure.gen_impl(quote! {
gen impl<'__a> rustc_errors::DecorateLint<'__a, ()> for @Self {
#[track_caller]
fn decorate_lint<'__b>(
self,
#diag: &'__b mut rustc_errors::DiagnosticBuilder<'__a, ()>
) -> &'__b mut rustc_errors::DiagnosticBuilder<'__a, ()> {
use rustc_errors::IntoDiagnosticArg;
#implementation
}
fn msg(&self) -> rustc_errors::DiagnosticMessage {
#msg
}
}
});
for test in slugs.borrow().iter().map(|s| generate_test(s, &structure)) {
imp.extend(test);
}
imp
}
}
struct Mismatch {
slug_name: String,
crate_name: String,
slug_prefix: String,
}
impl Mismatch {
/// Checks whether the slug starts with the crate name it's in.
fn check(slug: &syn::Path) -> Option<Mismatch> {
// If this is missing we're probably in a test, so bail.
let crate_name = std::env::var("CARGO_CRATE_NAME").ok()?;
// If we're not in a "rustc_" crate, bail.
let Some(("rustc", slug_prefix)) = crate_name.split_once('_') else { return None };
let slug_name = slug.segments.first()?.ident.to_string();
if !slug_name.starts_with(slug_prefix) {
Some(Mismatch { slug_name, slug_prefix: slug_prefix.to_string(), crate_name })
} else {
None
}
}
}
/// Generates a `#[test]` that verifies that all referenced variables
/// exist on this structure.
fn generate_test(slug: &syn::Path, structure: &Structure<'_>) -> TokenStream {
// FIXME: We can't identify variables in a subdiagnostic
for field in structure.variants().iter().flat_map(|v| v.ast().fields.iter()) {
for attr_name in field.attrs.iter().filter_map(|at| at.path().get_ident()) {
if attr_name == "subdiagnostic" {
return quote!();
}
}
}
use std::sync::atomic::{AtomicUsize, Ordering};
// We need to make sure that the same diagnostic slug can be used multiple times without causing an
// error, so just have a global counter here.
static COUNTER: AtomicUsize = AtomicUsize::new(0);
let slug = slug.get_ident().unwrap();
let ident = quote::format_ident!("verify_{slug}_{}", COUNTER.fetch_add(1, Ordering::Relaxed));
let ref_slug = quote::format_ident!("{slug}_refs");
let struct_name = &structure.ast().ident;
let variables: Vec<_> = structure
.variants()
.iter()
.flat_map(|v| v.ast().fields.iter().filter_map(|f| f.ident.as_ref().map(|i| i.to_string())))
.collect();
// tidy errors on `#[test]` outside of test files, so we use `#[test ]` to work around this
quote! {
#[cfg(test)]
#[test ]
fn #ident() {
let variables = [#(#variables),*];
for vref in crate::fluent_generated::#ref_slug {
assert!(variables.contains(vref), "{}: variable `{vref}` not found ({})", stringify!(#struct_name), stringify!(#slug));
}
}
}
}
|
