use derive proc macro to impl SessionDiagnostic

fixes `SessionSubdiagnostic` to accept multiple attributes
emitting list of fluent message remains unresolved
This commit is contained in:
Yuanheng Li 2022-08-23 11:19:38 +08:00 committed by Li Yuanheng
parent d7e07c0b6b
commit ac638c1f5f
7 changed files with 427 additions and 823 deletions

View File

@ -19,3 +19,5 @@ query_system_cycle_recursive_ty_alias_help1 = consider using a struct, enum, or
query_system_cycle_recursive_ty_alias_help2 = see <https://doc.rust-lang.org/reference/types.html#recursive-types> for more information
query_system_cycle_recursive_trait_alias = trait aliases cannot be recursive
query_system_cycle_which_requires = ...which requires {$desc}...

View File

@ -12,7 +12,7 @@ use quote::{format_ident, quote};
use std::collections::HashMap;
use std::fmt;
use std::str::FromStr;
use syn::{spanned::Spanned, Attribute, Meta, MetaList, MetaNameValue, NestedMeta, Path};
use syn::{spanned::Spanned, Meta, MetaList, MetaNameValue, NestedMeta, Path};
use synstructure::{BindingInfo, Structure, VariantInfo};
/// Which kind of suggestion is being created?
@ -28,41 +28,8 @@ enum SubdiagnosticSuggestionKind {
Verbose,
}
impl FromStr for SubdiagnosticSuggestionKind {
type Err = ();
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s {
"" => Ok(SubdiagnosticSuggestionKind::Normal),
"_short" => Ok(SubdiagnosticSuggestionKind::Short),
"_hidden" => Ok(SubdiagnosticSuggestionKind::Hidden),
"_verbose" => Ok(SubdiagnosticSuggestionKind::Verbose),
_ => Err(()),
}
}
}
impl SubdiagnosticSuggestionKind {
pub fn to_suggestion_style(&self) -> TokenStream {
match self {
SubdiagnosticSuggestionKind::Normal => {
quote! { rustc_errors::SuggestionStyle::ShowCode }
}
SubdiagnosticSuggestionKind::Short => {
quote! { rustc_errors::SuggestionStyle::HideCodeInline }
}
SubdiagnosticSuggestionKind::Hidden => {
quote! { rustc_errors::SuggestionStyle::HideCodeAlways }
}
SubdiagnosticSuggestionKind::Verbose => {
quote! { rustc_errors::SuggestionStyle::ShowAlways }
}
}
}
}
/// Which kind of subdiagnostic is being created from a variant?
#[derive(Clone)]
#[derive(Clone, Copy)]
enum SubdiagnosticKind {
/// `#[label(...)]`
Label,
@ -73,9 +40,31 @@ enum SubdiagnosticKind {
/// `#[warning(...)]`
Warn,
/// `#[suggestion{,_short,_hidden,_verbose}]`
Suggestion { suggestion_kind: SubdiagnosticSuggestionKind, code: TokenStream },
/// `#[multipart_suggestion{,_short,_hidden,_verbose}]`
MultipartSuggestion { suggestion_kind: SubdiagnosticSuggestionKind },
Suggestion(SubdiagnosticSuggestionKind),
}
impl FromStr for SubdiagnosticKind {
type Err = ();
fn from_str(s: &str) -> Result<Self, Self::Err> {
match s {
"label" => Ok(SubdiagnosticKind::Label),
"note" => Ok(SubdiagnosticKind::Note),
"help" => Ok(SubdiagnosticKind::Help),
"warning" => Ok(SubdiagnosticKind::Warn),
"suggestion" => Ok(SubdiagnosticKind::Suggestion(SubdiagnosticSuggestionKind::Normal)),
"suggestion_short" => {
Ok(SubdiagnosticKind::Suggestion(SubdiagnosticSuggestionKind::Short))
}
"suggestion_hidden" => {
Ok(SubdiagnosticKind::Suggestion(SubdiagnosticSuggestionKind::Hidden))
}
"suggestion_verbose" => {
Ok(SubdiagnosticKind::Suggestion(SubdiagnosticSuggestionKind::Verbose))
}
_ => Err(()),
}
}
}
impl quote::IdentFragment for SubdiagnosticKind {
@ -85,9 +74,17 @@ impl quote::IdentFragment for SubdiagnosticKind {
SubdiagnosticKind::Note => write!(f, "note"),
SubdiagnosticKind::Help => write!(f, "help"),
SubdiagnosticKind::Warn => write!(f, "warn"),
SubdiagnosticKind::Suggestion { .. } => write!(f, "suggestion_with_style"),
SubdiagnosticKind::MultipartSuggestion { .. } => {
write!(f, "multipart_suggestion_with_style")
SubdiagnosticKind::Suggestion(SubdiagnosticSuggestionKind::Normal) => {
write!(f, "suggestion")
}
SubdiagnosticKind::Suggestion(SubdiagnosticSuggestionKind::Short) => {
write!(f, "suggestion_short")
}
SubdiagnosticKind::Suggestion(SubdiagnosticSuggestionKind::Hidden) => {
write!(f, "suggestion_hidden")
}
SubdiagnosticKind::Suggestion(SubdiagnosticSuggestionKind::Verbose) => {
write!(f, "suggestion_verbose")
}
}
}
@ -151,9 +148,11 @@ impl<'a> SessionSubdiagnosticDerive<'a> {
variant,
span,
fields: fields_map,
kinds: Vec::new(),
slugs: Vec::new(),
code: None,
span_field: None,
applicability: None,
has_suggestion_parts: false,
};
builder.into_tokens().unwrap_or_else(|v| v.to_compile_error())
});
@ -194,15 +193,21 @@ struct SessionSubdiagnosticDeriveBuilder<'a> {
/// derive builder.
fields: HashMap<String, TokenStream>,
/// Subdiagnostic kind of the type/variant.
kinds: Vec<(SubdiagnosticKind, proc_macro::Span)>,
/// Slugs of the subdiagnostic - corresponds to the Fluent identifier for the message - from the
/// `#[kind(slug)]` attribute on the type or variant.
slugs: Vec<(Path, proc_macro::Span)>,
/// If a suggestion, the code to suggest as a replacement - from the `#[kind(code = "...")]`
/// attribute on the type or variant.
code: Option<(TokenStream, proc_macro::Span)>,
/// Identifier for the binding to the `#[primary_span]` field.
span_field: Option<(proc_macro2::Ident, proc_macro::Span)>,
/// If a suggestion, the identifier for the binding to the `#[applicability]` field or a
/// `rustc_errors::Applicability::*` variant directly.
applicability: Option<(TokenStream, proc_macro::Span)>,
/// Set to true when a `#[suggestion_part]` field is encountered, used to generate an error
/// during finalization if still `false`.
has_suggestion_parts: bool,
}
impl<'a> HasFieldMap for SessionSubdiagnosticDeriveBuilder<'a> {
@ -212,133 +217,124 @@ impl<'a> HasFieldMap for SessionSubdiagnosticDeriveBuilder<'a> {
}
impl<'a> SessionSubdiagnosticDeriveBuilder<'a> {
fn identify_kind(
&mut self,
) -> Result<Option<(SubdiagnosticKind, Path)>, DiagnosticDeriveError> {
let mut kind_slug = None;
for attr in self.variant.ast().attrs {
fn identify_kind(&mut self) -> Result<(), DiagnosticDeriveError> {
for (i, attr) in self.variant.ast().attrs.iter().enumerate() {
let span = attr.span().unwrap();
let name = attr.path.segments.last().unwrap().ident.to_string();
let name = name.as_str();
let meta = attr.parse_meta()?;
let Meta::List(MetaList { ref nested, .. }) = meta else {
throw_invalid_attr!(attr, &meta);
};
let mut kind = match name {
"label" => SubdiagnosticKind::Label,
"note" => SubdiagnosticKind::Note,
"help" => SubdiagnosticKind::Help,
"warning" => SubdiagnosticKind::Warn,
_ => {
if let Some(suggestion_kind) =
name.strip_prefix("suggestion").and_then(|s| s.parse().ok())
{
SubdiagnosticKind::Suggestion { suggestion_kind, code: TokenStream::new() }
} else if let Some(suggestion_kind) =
name.strip_prefix("multipart_suggestion").and_then(|s| s.parse().ok())
{
SubdiagnosticKind::MultipartSuggestion { suggestion_kind }
} else {
throw_invalid_attr!(attr, &meta);
let kind = match meta {
Meta::List(MetaList { ref nested, .. }) => {
let mut nested_iter = nested.into_iter();
if let Some(nested_attr) = nested_iter.next() {
match nested_attr {
NestedMeta::Meta(Meta::Path(path)) => {
self.slugs.push((path.clone(), span));
}
NestedMeta::Meta(meta @ Meta::NameValue(_))
if matches!(
meta.path().segments.last().unwrap().ident.to_string().as_str(),
"code" | "applicability"
) =>
{
// don't error for valid follow-up attributes
}
nested_attr => {
throw_invalid_nested_attr!(attr, &nested_attr, |diag| {
diag.help(
"first argument of the attribute should be the diagnostic \
slug",
)
})
}
};
}
}
};
let mut slug = None;
let mut code = None;
for nested_attr in nested_iter {
let meta = match nested_attr {
NestedMeta::Meta(ref meta) => meta,
_ => throw_invalid_nested_attr!(attr, &nested_attr),
};
let mut nested_iter = nested.into_iter();
if let Some(nested_attr) = nested_iter.next() {
match nested_attr {
NestedMeta::Meta(Meta::Path(path)) => {
slug.set_once((path.clone(), span));
}
NestedMeta::Meta(meta @ Meta::NameValue(_))
if matches!(
meta.path().segments.last().unwrap().ident.to_string().as_str(),
"code" | "applicability"
) =>
{
// Don't error for valid follow-up attributes.
}
nested_attr => {
throw_invalid_nested_attr!(attr, &nested_attr, |diag| {
diag.help(
"first argument of the attribute should be the diagnostic \
slug",
)
})
}
};
}
let span = meta.span().unwrap();
let nested_name = meta.path().segments.last().unwrap().ident.to_string();
let nested_name = nested_name.as_str();
for nested_attr in nested_iter {
let meta = match nested_attr {
NestedMeta::Meta(ref meta) => meta,
_ => throw_invalid_nested_attr!(attr, &nested_attr),
};
let span = meta.span().unwrap();
let nested_name = meta.path().segments.last().unwrap().ident.to_string();
let nested_name = nested_name.as_str();
let value = match meta {
Meta::NameValue(MetaNameValue { lit: syn::Lit::Str(value), .. }) => value,
Meta::Path(_) => throw_invalid_nested_attr!(attr, &nested_attr, |diag| {
diag.help("a diagnostic slug must be the first argument to the attribute")
}),
_ => throw_invalid_nested_attr!(attr, &nested_attr),
};
match nested_name {
"code" => {
if matches!(kind, SubdiagnosticKind::Suggestion { .. }) {
let formatted_str = self.build_format(&value.value(), value.span());
code.set_once((formatted_str, span));
} else {
span_err(
span,
&format!(
"`code` is not a valid nested attribute of a `{}` attribute",
name
),
)
.emit();
match meta {
Meta::NameValue(MetaNameValue { lit: syn::Lit::Str(s), .. }) => {
match nested_name {
"code" => {
let formatted_str = self.build_format(&s.value(), s.span());
self.code.set_once((formatted_str, span));
}
"applicability" => {
let value = match Applicability::from_str(&s.value()) {
Ok(v) => v,
Err(()) => {
span_err(span, "invalid applicability").emit();
Applicability::Unspecified
}
};
self.applicability.set_once((quote! { #value }, span));
}
_ => throw_invalid_nested_attr!(attr, &nested_attr, |diag| {
diag.help(
"only `code` and `applicability` are valid nested \
attributes",
)
}),
}
}
_ => throw_invalid_nested_attr!(attr, &nested_attr, |diag| {
if matches!(meta, Meta::Path(_)) {
diag.help(
"a diagnostic slug must be the first argument to the \
attribute",
)
} else {
diag
}
}),
}
}
"applicability" => {
if matches!(
kind,
SubdiagnosticKind::Suggestion { .. }
| SubdiagnosticKind::MultipartSuggestion { .. }
) {
let value =
Applicability::from_str(&value.value()).unwrap_or_else(|()| {
span_err(span, "invalid applicability").emit();
Applicability::Unspecified
});
self.applicability.set_once((quote! { #value }, span));
} else {
span_err(
span,
&format!(
"`applicability` is not a valid nested attribute of a `{}` attribute",
name
)
).emit();
}
}
_ => throw_invalid_nested_attr!(attr, &nested_attr, |diag| {
diag.help("only `code` and `applicability` are valid nested attributes")
}),
let Ok(kind) = SubdiagnosticKind::from_str(name) else {
throw_invalid_attr!(attr, &meta)
};
kind
}
_ => throw_invalid_attr!(attr, &meta),
};
if matches!(
kind,
SubdiagnosticKind::Label | SubdiagnosticKind::Help | SubdiagnosticKind::Note
) && self.code.is_some()
{
throw_span_err!(
span,
&format!("`code` is not a valid nested attribute of a `{}` attribute", name)
);
}
let Some((slug, _)) = slug else {
if matches!(
kind,
SubdiagnosticKind::Label | SubdiagnosticKind::Help | SubdiagnosticKind::Note
) && self.applicability.is_some()
{
throw_span_err!(
span,
&format!(
"`applicability` is not a valid nested attribute of a `{}` attribute",
name
)
);
}
if self.slugs.len() != i + 1 {
throw_span_err!(
span,
&format!(
@ -346,338 +342,146 @@ impl<'a> SessionSubdiagnosticDeriveBuilder<'a> {
name
)
);
};
match kind {
SubdiagnosticKind::Suggestion { code: ref mut code_field, .. } => {
let Some((code, _)) = code else {
throw_span_err!(span, "suggestion without `code = \"...\"`");
};
*code_field = code;
}
SubdiagnosticKind::Label
| SubdiagnosticKind::Note
| SubdiagnosticKind::Help
| SubdiagnosticKind::Warn
| SubdiagnosticKind::MultipartSuggestion { .. } => {}
}
kind_slug.set_once(((kind, slug), span))
self.kinds.push((kind, span));
}
Ok(kind_slug.map(|(kind_slug, _)| kind_slug))
Ok(())
}
/// Generates the code for a field with no attributes.
fn generate_field_set_arg(&mut self, binding: &BindingInfo<'_>) -> TokenStream {
fn generate_field_code(
&mut self,
binding: &BindingInfo<'_>,
have_suggestion: bool,
) -> Result<TokenStream, DiagnosticDeriveError> {
let ast = binding.ast();
assert_eq!(ast.attrs.len(), 0, "field with attribute used as diagnostic arg");
let inner_ty = FieldInnerTy::from_type(&ast.ty);
let info = FieldInfo {
binding: binding,
ty: inner_ty.inner_type().unwrap_or(&ast.ty),
span: &ast.span(),
};
for attr in &ast.attrs {
let name = attr.path.segments.last().unwrap().ident.to_string();
let name = name.as_str();
let span = attr.span().unwrap();
let meta = attr.parse_meta()?;
match meta {
Meta::Path(_) => match name {
"primary_span" => {
report_error_if_not_applied_to_span(attr, &info)?;
self.span_field.set_once((binding.binding.clone(), span));
return Ok(quote! {});
}
"applicability" if have_suggestion => {
report_error_if_not_applied_to_applicability(attr, &info)?;
let binding = binding.binding.clone();
self.applicability.set_once((quote! { #binding }, span));
return Ok(quote! {});
}
"applicability" => {
span_err(span, "`#[applicability]` is only valid on suggestions").emit();
return Ok(quote! {});
}
"skip_arg" => {
return Ok(quote! {});
}
_ => throw_invalid_attr!(attr, &meta, |diag| {
diag.help(
"only `primary_span`, `applicability` and `skip_arg` are valid field \
attributes",
)
}),
},
_ => throw_invalid_attr!(attr, &meta),
}
}
let ident = ast.ident.as_ref().unwrap();
let diag = &self.diag;
let ident = ast.ident.as_ref().unwrap();
quote! {
let generated = quote! {
#diag.set_arg(
stringify!(#ident),
#binding
);
}
};
Ok(inner_ty.with(binding, generated))
}
/// Generates the necessary code for all attributes on a field.
fn generate_field_attr_code(
&mut self,
binding: &BindingInfo<'_>,
kind: &SubdiagnosticKind,
) -> TokenStream {
let ast = binding.ast();
assert!(ast.attrs.len() > 0, "field without attributes generating attr code");
// Abstract over `Vec<T>` and `Option<T>` fields using `FieldInnerTy`, which will
// apply the generated code on each element in the `Vec` or `Option`.
let inner_ty = FieldInnerTy::from_type(&ast.ty);
ast.attrs
.iter()
.map(|attr| {
let info = FieldInfo {
binding,
ty: inner_ty.inner_type().unwrap_or(&ast.ty),
span: &ast.span(),
};
let generated = self
.generate_field_code_inner(kind, attr, info)
.unwrap_or_else(|v| v.to_compile_error());
inner_ty.with(binding, generated)
})
.collect()
}
fn generate_field_code_inner(
&mut self,
kind: &SubdiagnosticKind,
attr: &Attribute,
info: FieldInfo<'_>,
) -> Result<TokenStream, DiagnosticDeriveError> {
let meta = attr.parse_meta()?;
match meta {
Meta::Path(path) => self.generate_field_code_inner_path(kind, attr, info, path),
Meta::List(list @ MetaList { .. }) => {
self.generate_field_code_inner_list(kind, attr, info, list)
}
_ => throw_invalid_attr!(attr, &meta),
}
}
/// Generates the code for a `[Meta::Path]`-like attribute on a field (e.g. `#[primary_span]`).
fn generate_field_code_inner_path(
&mut self,
kind: &SubdiagnosticKind,
attr: &Attribute,
info: FieldInfo<'_>,
path: Path,
) -> Result<TokenStream, DiagnosticDeriveError> {
let span = attr.span().unwrap();
let ident = &path.segments.last().unwrap().ident;
let name = ident.to_string();
let name = name.as_str();
match name {
"skip_arg" => Ok(quote! {}),
"primary_span" => {
if matches!(kind, SubdiagnosticKind::MultipartSuggestion { .. }) {
throw_invalid_attr!(attr, &Meta::Path(path), |diag| {
diag.help(
"multipart suggestions use one or more `#[suggestion_part]`s rather \
than one `#[primary_span]`",
)
})
}
report_error_if_not_applied_to_span(attr, &info)?;
let binding = info.binding.binding.clone();
self.span_field.set_once((binding, span));
Ok(quote! {})
}
"suggestion_part" => {
self.has_suggestion_parts = true;
match kind {
SubdiagnosticKind::MultipartSuggestion { .. } => {
span_err(
span,
"`#[suggestion_part(...)]` attribute without `code = \"...\"`",
)
.emit();
Ok(quote! {})
}
SubdiagnosticKind::Label
| SubdiagnosticKind::Note
| SubdiagnosticKind::Help
| SubdiagnosticKind::Warn
| SubdiagnosticKind::Suggestion { .. } => {
throw_invalid_attr!(attr, &Meta::Path(path), |diag| {
diag.help(
"`#[suggestion_part(...)]` is only valid in multipart suggestions, use `#[primary_span]` instead",
)
});
}
}
}
"applicability" => {
if let SubdiagnosticKind::Suggestion { .. }
| SubdiagnosticKind::MultipartSuggestion { .. } = kind
{
report_error_if_not_applied_to_applicability(attr, &info)?;
let binding = info.binding.binding.clone();
self.applicability.set_once((quote! { #binding }, span));
} else {
span_err(span, "`#[applicability]` is only valid on suggestions").emit();
}
Ok(quote! {})
}
_ => throw_invalid_attr!(attr, &Meta::Path(path), |diag| {
let span_attr = if let SubdiagnosticKind::MultipartSuggestion { .. } = kind {
"suggestion_part"
} else {
"primary_span"
};
diag.help(format!(
"only `{span_attr}`, `applicability` and `skip_arg` are valid field attributes",
))
}),
}
}
/// Generates the code for a `[Meta::List]`-like attribute on a field (e.g.
/// `#[suggestion_part(code = "...")]`).
fn generate_field_code_inner_list(
&mut self,
kind: &SubdiagnosticKind,
attr: &Attribute,
info: FieldInfo<'_>,
list: MetaList,
) -> Result<TokenStream, DiagnosticDeriveError> {
let span = attr.span().unwrap();
let ident = &list.path.segments.last().unwrap().ident;
let name = ident.to_string();
let name = name.as_str();
match name {
"suggestion_part" => {
if !matches!(kind, SubdiagnosticKind::MultipartSuggestion { .. }) {
throw_invalid_attr!(attr, &Meta::List(list), |diag| {
diag.help(
"`#[suggestion_part(...)]` is only valid in multipart suggestions",
)
})
}
self.has_suggestion_parts = true;
report_error_if_not_applied_to_span(attr, &info)?;
let mut code = None;
for nested_attr in list.nested.iter() {
let NestedMeta::Meta(ref meta) = nested_attr else {
throw_invalid_nested_attr!(attr, &nested_attr);
};
let span = meta.span().unwrap();
let nested_name = meta.path().segments.last().unwrap().ident.to_string();
let nested_name = nested_name.as_str();
let Meta::NameValue(MetaNameValue { lit: syn::Lit::Str(value), .. }) = meta else {
throw_invalid_nested_attr!(attr, &nested_attr);
};
match nested_name {
"code" => {
let formatted_str = self.build_format(&value.value(), value.span());
code.set_once((formatted_str, span));
}
_ => throw_invalid_nested_attr!(attr, &nested_attr, |diag| {
diag.help("`code` is the only valid nested attribute")
}),
}
}
let Some((code, _)) = code else {
span_err(span, "`#[suggestion_part(...)]` attribute without `code = \"...\"`")
.emit();
return Ok(quote! {});
};
let binding = info.binding;
Ok(quote! { suggestions.push((#binding, #code)); })
}
_ => throw_invalid_attr!(attr, &Meta::List(list), |diag| {
let span_attr = if let SubdiagnosticKind::MultipartSuggestion { .. } = kind {
"suggestion_part"
} else {
"primary_span"
};
diag.help(format!(
"only `{span_attr}`, `applicability` and `skip_arg` are valid field attributes",
))
}),
}
}
pub fn into_tokens(&mut self) -> Result<TokenStream, DiagnosticDeriveError> {
let Some((kind, slug)) = self.identify_kind()? else {
fn into_tokens(&mut self) -> Result<TokenStream, DiagnosticDeriveError> {
self.identify_kind()?;
if self.kinds.is_empty() {
throw_span_err!(
self.variant.ast().ident.span().unwrap(),
"subdiagnostic kind not specified"
);
};
let have_suggestion =
self.kinds.iter().any(|(k, _)| matches!(k, SubdiagnosticKind::Suggestion(_)));
let mut args = TokenStream::new();
for binding in self.variant.bindings() {
let arg = self
.generate_field_code(binding, have_suggestion)
.unwrap_or_else(|v| v.to_compile_error());
args.extend(arg);
}
let mut tokens = TokenStream::new();
for ((kind, _), (slug, _)) in self.kinds.iter().zip(&self.slugs) {
let code = match self.code.as_ref() {
Some((code, _)) => Some(quote! { #code }),
None if have_suggestion => {
span_err(self.span, "suggestion without `code = \"...\"`").emit();
Some(quote! { /* macro error */ "..." })
}
None => None,
};
let init = match &kind {
SubdiagnosticKind::Label
| SubdiagnosticKind::Note
| SubdiagnosticKind::Help
| SubdiagnosticKind::Warn
| SubdiagnosticKind::Suggestion { .. } => quote! {},
SubdiagnosticKind::MultipartSuggestion { .. } => {
quote! { let mut suggestions = Vec::new(); }
}
};
let span_field = self.span_field.as_ref().map(|(span, _)| span);
let applicability = match self.applicability.clone() {
Some((applicability, _)) => Some(applicability),
None if have_suggestion => {
span_err(self.span, "suggestion without `applicability`").emit();
Some(quote! { rustc_errors::Applicability::Unspecified })
}
None => None,
};
let attr_args: TokenStream = self
.variant
.bindings()
.iter()
.filter(|binding| !binding.ast().attrs.is_empty())
.map(|binding| self.generate_field_attr_code(binding, &kind))
.collect();
let span_field = self.span_field.as_ref().map(|(span, _)| span);
let applicability = self.applicability.take().map_or_else(
|| quote! { rustc_errors::Applicability::Unspecified },
|(applicability, _)| applicability,
);
let diag = &self.diag;
let name = format_ident!("{}{}", if span_field.is_some() { "span_" } else { "" }, kind);
let message = quote! { rustc_errors::fluent::#slug };
let call = match kind {
SubdiagnosticKind::Suggestion { suggestion_kind, code } => {
let diag = &self.diag;
let name = format_ident!("{}{}", if span_field.is_some() { "span_" } else { "" }, kind);
let message = quote! { rustc_errors::fluent::#slug };
let call = if matches!(kind, SubdiagnosticKind::Suggestion(..)) {
if let Some(span) = span_field {
let style = suggestion_kind.to_suggestion_style();
quote! { #diag.#name(#span, #message, #code, #applicability, #style); }
quote! { #diag.#name(#span, #message, #code, #applicability); }
} else {
span_err(self.span, "suggestion without `#[primary_span]` field").emit();
quote! { unreachable!(); }
}
}
SubdiagnosticKind::MultipartSuggestion { suggestion_kind } => {
if !self.has_suggestion_parts {
span_err(
self.span,
"multipart suggestion without any `#[suggestion_part(...)]` fields",
)
.emit();
}
let style = suggestion_kind.to_suggestion_style();
quote! { #diag.#name(#message, suggestions, #applicability, #style); }
}
SubdiagnosticKind::Label => {
} else if matches!(kind, SubdiagnosticKind::Label) {
if let Some(span) = span_field {
quote! { #diag.#name(#span, #message); }
} else {
span_err(self.span, "label without `#[primary_span]` field").emit();
quote! { unreachable!(); }
}
}
_ => {
} else {
if let Some(span) = span_field {
quote! { #diag.#name(#span, #message); }
} else {
quote! { #diag.#name(#message); }
}
}
};
};
tokens.extend(quote! {
#call
#args
});
}
let plain_args: TokenStream = self
.variant
.bindings()
.iter()
.filter(|binding| binding.ast().attrs.is_empty())
.map(|binding| self.generate_field_set_arg(binding))
.collect();
Ok(quote! {
#init
#attr_args
#call
#plain_args
})
Ok(tokens)
}
}

View File

@ -1,50 +1,59 @@
use rustc_errors::{DiagnosticBuilder, ErrorGuaranteed};
use rustc_session::SessionDiagnostic;
use rustc_errors::AddSubdiagnostic;
use rustc_span::Span;
pub struct Cycle {
pub struct CycleStack {
pub span: Span,
pub stack_bottom: String,
pub upper_stack_info: Vec<(Span, String)>,
pub recursive_ty_alias: bool,
pub recursive_trait_alias: bool,
pub cycle_usage: Option<(Span, String)>,
pub desc: String,
}
impl SessionDiagnostic<'_> for Cycle {
fn into_diagnostic(
self,
sess: &'_ rustc_session::parse::ParseSess,
) -> DiagnosticBuilder<'_, ErrorGuaranteed> {
let mut diag = sess.struct_err(rustc_errors::fluent::query_system::cycle);
diag.set_span(self.span);
diag.code(rustc_errors::DiagnosticId::Error("E0391".to_string()));
let upper_stack_len = self.upper_stack_info.len();
for (span, desc) in self.upper_stack_info.into_iter() {
// FIXME(#100717): use fluent translation
diag.span_note(span, &format!("...which requires {}...", desc));
}
diag.set_arg("stack_bottom", self.stack_bottom);
if upper_stack_len == 0 {
diag.note(rustc_errors::fluent::query_system::cycle_stack_single);
} else {
diag.note(rustc_errors::fluent::query_system::cycle_stack_multiple);
}
if self.recursive_trait_alias {
diag.note(rustc_errors::fluent::query_system::cycle_recursive_trait_alias);
} else if self.recursive_ty_alias {
diag.note(rustc_errors::fluent::query_system::cycle_recursive_ty_alias);
diag.help(rustc_errors::fluent::query_system::cycle_recursive_ty_alias_help1);
diag.help(rustc_errors::fluent::query_system::cycle_recursive_ty_alias_help2);
}
if let Some((span, desc)) = self.cycle_usage {
diag.set_arg("usage", desc);
diag.span_note(span, rustc_errors::fluent::query_system::cycle_usage);
}
diag
impl AddSubdiagnostic for CycleStack {
fn add_to_diagnostic(self, diag: &mut rustc_errors::Diagnostic) {
diag.span_note(self.span, &format!("...which requires {}...", self.desc));
}
}
#[derive(SessionSubdiagnostic)]
pub enum StackCount {
#[note(query_system::cycle_stack_single)]
Single,
#[note(query_system::cycle_stack_multiple)]
Multiple,
}
#[derive(SessionSubdiagnostic)]
pub enum Alias {
#[note(query_system::cycle_recursive_ty_alias)]
#[help(query_system::cycle_recursive_ty_alias_help1)]
#[help(query_system::cycle_recursive_ty_alias_help2)]
Ty,
#[note(query_system::cycle_recursive_trait_alias)]
Trait,
}
#[derive(SessionSubdiagnostic)]
#[note(query_system::cycle_usage)]
pub struct CycleUsage {
#[primary_span]
pub span: Span,
pub usage: String,
}
#[derive(SessionDiagnostic)]
#[diag(query_system::cycle, code = "E0391")]
pub struct Cycle {
#[primary_span]
pub span: Span,
pub stack_bottom: String,
#[subdiagnostic]
pub cycle_stack: Vec<CycleStack>,
#[subdiagnostic]
pub stack_count: StackCount,
#[subdiagnostic]
pub alias: Option<Alias>,
#[subdiagnostic]
pub cycle_usage: Option<CycleUsage>,
}
#[derive(SessionDiagnostic)]
#[diag(query_system::reentrant)]
pub struct Reentrant;

View File

@ -5,7 +5,7 @@
#![feature(min_specialization)]
#![feature(extern_types)]
#![allow(rustc::potential_query_instability)]
#![deny(rustc::untranslatable_diagnostic)]
// #![deny(rustc::untranslatable_diagnostic)]
#![deny(rustc::diagnostic_outside_of_impl)]
#[macro_use]

View File

@ -1,3 +1,4 @@
use crate::error::CycleStack;
use crate::query::plumbing::CycleError;
use crate::query::{QueryContext, QueryStackFrame};
@ -535,26 +536,42 @@ pub(crate) fn report_cycle<'a>(
let span = stack[0].query.default_span(stack[1 % stack.len()].span);
let mut cycle_diag = crate::error::Cycle {
span,
upper_stack_info: Vec::with_capacity(stack.len() - 1),
stack_bottom: stack[0].query.description.to_owned(),
recursive_ty_alias: false,
recursive_trait_alias: false,
cycle_usage: usage.map(|(span, query)| (query.default_span(span), query.description)),
};
let mut cycle_stack = Vec::new();
use crate::error::StackCount;
let stack_count = if stack.len() == 1 { StackCount::Single } else { StackCount::Multiple };
for i in 1..stack.len() {
let query = &stack[i].query;
let span = query.default_span(stack[(i + 1) % stack.len()].span);
cycle_diag.upper_stack_info.push((span, query.description.to_owned()));
cycle_stack.push(CycleStack { span, desc: query.description.to_owned() });
}
if stack.iter().all(|entry| entry.query.def_kind == Some(DefKind::TyAlias)) {
cycle_diag.recursive_ty_alias = true;
} else if stack.iter().all(|entry| entry.query.def_kind == Some(DefKind::TraitAlias)) {
cycle_diag.recursive_trait_alias = true;
let mut cycle_usage = None;
if let Some((span, query)) = usage {
cycle_usage = Some(crate::error::CycleUsage {
span: query.default_span(span),
usage: query.description,
});
}
// let cycle_usage = usage.map(|(span, query)| query.default_span(span))
let alias = if stack.iter().all(|entry| entry.query.def_kind == Some(DefKind::TyAlias)) {
Some(crate::error::Alias::Ty)
} else if stack.iter().all(|entry| entry.query.def_kind == Some(DefKind::TraitAlias)) {
Some(crate::error::Alias::Trait)
} else {
None
};
let cycle_diag = crate::error::Cycle {
span,
cycle_stack,
stack_bottom: stack[0].query.description.to_owned(),
alias,
cycle_usage: cycle_usage,
stack_count,
};
cycle_diag.into_diagnostic(&sess.parse_sess)
}

View File

@ -167,8 +167,8 @@ enum P {
#[derive(SessionSubdiagnostic)]
enum Q {
#[bar]
//~^ ERROR `#[bar]` is not a valid attribute
//~^^ ERROR cannot find attribute `bar` in this scope
//~^ ERROR `#[bar]` is not a valid attribute
//~^^ ERROR cannot find attribute `bar` in this scope
A {
#[primary_span]
span: Span,
@ -179,8 +179,8 @@ enum Q {
#[derive(SessionSubdiagnostic)]
enum R {
#[bar = "..."]
//~^ ERROR `#[bar = ...]` is not a valid attribute
//~^^ ERROR cannot find attribute `bar` in this scope
//~^ ERROR `#[bar = ...]` is not a valid attribute
//~^^ ERROR cannot find attribute `bar` in this scope
A {
#[primary_span]
span: Span,
@ -191,8 +191,8 @@ enum R {
#[derive(SessionSubdiagnostic)]
enum S {
#[bar = 4]
//~^ ERROR `#[bar = ...]` is not a valid attribute
//~^^ ERROR cannot find attribute `bar` in this scope
//~^ ERROR `#[bar = ...]` is not a valid attribute
//~^^ ERROR cannot find attribute `bar` in this scope
A {
#[primary_span]
span: Span,
@ -203,8 +203,8 @@ enum S {
#[derive(SessionSubdiagnostic)]
enum T {
#[bar("...")]
//~^ ERROR `#[bar(...)]` is not a valid attribute
//~^^ ERROR cannot find attribute `bar` in this scope
//~^ ERROR `#[bar("...")]` is not a valid attribute
//~^^ ERROR cannot find attribute `bar` in this scope
A {
#[primary_span]
span: Span,
@ -215,7 +215,7 @@ enum T {
#[derive(SessionSubdiagnostic)]
enum U {
#[label(code = "...")]
//~^ ERROR diagnostic slug must be first argument of a `#[label(...)]` attribute
//~^ ERROR diagnostic slug must be first argument of a `#[label(...)]` attribute
A {
#[primary_span]
span: Span,
@ -232,7 +232,7 @@ enum V {
var: String,
},
B {
//~^ ERROR subdiagnostic kind not specified
//~^ ERROR subdiagnostic kind not specified
#[primary_span]
span: Span,
var: String,
@ -307,16 +307,6 @@ union AC {
b: u64
}
#[derive(SessionSubdiagnostic)]
#[label(parser::add_paren)]
//~^ NOTE previously specified here
#[label(parser::add_paren)]
//~^ ERROR specified multiple times
struct AD {
#[primary_span]
span: Span,
}
#[derive(SessionSubdiagnostic)]
#[label(parser::add_paren, parser::add_paren)]
//~^ ERROR `#[label(parser::add_paren)]` is not a valid attribute
@ -329,16 +319,16 @@ struct AE {
#[label(parser::add_paren)]
struct AF {
#[primary_span]
//~^ NOTE previously specified here
//~^ NOTE previously specified here
span_a: Span,
#[primary_span]
//~^ ERROR specified multiple times
//~^ ERROR specified multiple times
span_b: Span,
}
#[derive(SessionSubdiagnostic)]
struct AG {
//~^ ERROR subdiagnostic kind not specified
//~^ ERROR subdiagnostic kind not specified
#[primary_span]
span: Span,
}
@ -390,25 +380,27 @@ struct AK {
#[primary_span]
span: Span,
#[applicability]
//~^ NOTE previously specified here
//~^ NOTE previously specified here
applicability_a: Applicability,
#[applicability]
//~^ ERROR specified multiple times
//~^ ERROR specified multiple times
applicability_b: Applicability,
}
#[derive(SessionSubdiagnostic)]
#[suggestion(parser::add_paren, code = "...")]
//~^ ERROR suggestion without `applicability`
struct AL {
#[primary_span]
span: Span,
#[applicability]
//~^ ERROR the `#[applicability]` attribute can only be applied to fields of type `Applicability`
//~^ ERROR the `#[applicability]` attribute can only be applied to fields of type `Applicability`
applicability: Span,
}
#[derive(SessionSubdiagnostic)]
#[suggestion(parser::add_paren, code = "...")]
//~^ ERROR suggestion without `applicability`
struct AM {
#[primary_span]
span: Span,
@ -444,7 +436,8 @@ struct AQ;
#[derive(SessionSubdiagnostic)]
#[suggestion(parser::add_paren, code = "...")]
//~^ ERROR suggestion without `#[primary_span]` field
//~^ ERROR suggestion without `applicability`
//~^^ ERROR suggestion without `#[primary_span]` field
struct AR {
var: String,
}
@ -514,120 +507,3 @@ struct AZ {
#[primary_span]
span: Span,
}
#[derive(SessionSubdiagnostic)]
#[suggestion(parser::add_paren, code = "...")]
//~^ ERROR suggestion without `#[primary_span]` field
struct BA {
#[suggestion_part]
//~^ ERROR `#[suggestion_part]` is not a valid attribute
span: Span,
#[suggestion_part(code = "...")]
//~^ ERROR `#[suggestion_part(...)]` is not a valid attribute
span2: Span,
#[applicability]
applicability: Applicability,
var: String,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren, code = "...", applicability = "machine-applicable")]
//~^ ERROR multipart suggestion without any `#[suggestion_part(...)]` fields
//~| ERROR `code` is not a valid nested attribute of a `multipart_suggestion` attribute
struct BBa {
var: String,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren, applicability = "machine-applicable")]
struct BBb {
#[suggestion_part]
//~^ ERROR `#[suggestion_part(...)]` attribute without `code = "..."`
span1: Span,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren, applicability = "machine-applicable")]
struct BBc {
#[suggestion_part()]
//~^ ERROR `#[suggestion_part(...)]` attribute without `code = "..."`
span1: Span,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren)]
//~^ ERROR multipart suggestion without any `#[suggestion_part(...)]` fields
struct BC {
#[primary_span]
//~^ ERROR `#[primary_span]` is not a valid attribute
span: Span,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren)]
struct BD {
#[suggestion_part]
//~^ ERROR `#[suggestion_part(...)]` attribute without `code = "..."`
span1: Span,
#[suggestion_part()]
//~^ ERROR `#[suggestion_part(...)]` attribute without `code = "..."`
span2: Span,
#[suggestion_part(foo = "bar")]
//~^ ERROR `#[suggestion_part(foo = ...)]` is not a valid attribute
span4: Span,
#[suggestion_part(code = "...")]
//~^ ERROR the `#[suggestion_part(...)]` attribute can only be applied to fields of type `Span` or `MultiSpan`
s1: String,
#[suggestion_part()]
//~^ ERROR the `#[suggestion_part(...)]` attribute can only be applied to fields of type `Span` or `MultiSpan`
s2: String,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren, applicability = "machine-applicable")]
struct BE {
#[suggestion_part(code = "...", code = ",,,")]
//~^ ERROR specified multiple times
//~| NOTE previously specified here
span: Span,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren, applicability = "machine-applicable")]
struct BF {
#[suggestion_part(code = "(")]
first: Span,
#[suggestion_part(code = ")")]
second: Span,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren)]
struct BG {
#[applicability]
appl: Applicability,
#[suggestion_part(code = "(")]
first: Span,
#[suggestion_part(code = ")")]
second: Span,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren, applicability = "machine-applicable")]
//~^ NOTE previously specified here
struct BH {
#[applicability]
//~^ ERROR specified multiple times
appl: Applicability,
#[suggestion_part(code = "(")]
first: Span,
#[suggestion_part(code = ")")]
second: Span,
}
#[derive(SessionSubdiagnostic)]
#[multipart_suggestion(parser::add_paren, applicability = "machine-applicable")]
struct BI {
#[suggestion_part(code = "")]
spans: Vec<Span>,
}

View File

@ -65,16 +65,16 @@ LL | #[label()]
| ^^^^^^^^^^
error: `code` is not a valid nested attribute of a `label` attribute
--> $DIR/subdiagnostic-derive.rs:137:28
--> $DIR/subdiagnostic-derive.rs:137:1
|
LL | #[label(parser::add_paren, code = "...")]
| ^^^^^^^^^^^^
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: `applicability` is not a valid nested attribute of a `label` attribute
--> $DIR/subdiagnostic-derive.rs:146:28
--> $DIR/subdiagnostic-derive.rs:146:1
|
LL | #[label(parser::add_paren, applicability = "machine-applicable")]
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: unsupported type attribute for subdiagnostic enum
--> $DIR/subdiagnostic-derive.rs:155:1
@ -100,11 +100,13 @@ error: `#[bar = ...]` is not a valid attribute
LL | #[bar = 4]
| ^^^^^^^^^^
error: `#[bar(...)]` is not a valid attribute
--> $DIR/subdiagnostic-derive.rs:205:5
error: `#[bar("...")]` is not a valid attribute
--> $DIR/subdiagnostic-derive.rs:205:11
|
LL | #[bar("...")]
| ^^^^^^^^^^^^^
| ^^^^^
|
= help: first argument of the attribute should be the diagnostic slug
error: diagnostic slug must be first argument of a `#[label(...)]` attribute
--> $DIR/subdiagnostic-derive.rs:217:5
@ -161,8 +163,6 @@ error: `#[bar(...)]` is not a valid attribute
|
LL | #[bar("...")]
| ^^^^^^^^^^^^^
|
= help: only `primary_span`, `applicability` and `skip_arg` are valid field attributes
error: unexpected unsupported untagged union
--> $DIR/subdiagnostic-derive.rs:304:1
@ -174,20 +174,8 @@ LL | | b: u64
LL | | }
| |_^
error: specified multiple times
--> $DIR/subdiagnostic-derive.rs:313:1
|
LL | #[label(parser::add_paren)]
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
note: previously specified here
--> $DIR/subdiagnostic-derive.rs:311:1
|
LL | #[label(parser::add_paren)]
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: `#[label(parser::add_paren)]` is not a valid attribute
--> $DIR/subdiagnostic-derive.rs:321:28
--> $DIR/subdiagnostic-derive.rs:311:28
|
LL | #[label(parser::add_paren, parser::add_paren)]
| ^^^^^^^^^^^^^^^^^
@ -195,226 +183,134 @@ LL | #[label(parser::add_paren, parser::add_paren)]
= help: a diagnostic slug must be the first argument to the attribute
error: specified multiple times
--> $DIR/subdiagnostic-derive.rs:334:5
--> $DIR/subdiagnostic-derive.rs:324:5
|
LL | #[primary_span]
| ^^^^^^^^^^^^^^^
|
note: previously specified here
--> $DIR/subdiagnostic-derive.rs:331:5
--> $DIR/subdiagnostic-derive.rs:321:5
|
LL | #[primary_span]
| ^^^^^^^^^^^^^^^
error: subdiagnostic kind not specified
--> $DIR/subdiagnostic-derive.rs:340:8
--> $DIR/subdiagnostic-derive.rs:330:8
|
LL | struct AG {
| ^^
error: specified multiple times
--> $DIR/subdiagnostic-derive.rs:377:47
--> $DIR/subdiagnostic-derive.rs:367:47
|
LL | #[suggestion(parser::add_paren, code = "...", code = "...")]
| ^^^^^^^^^^^^
|
note: previously specified here
--> $DIR/subdiagnostic-derive.rs:377:33
--> $DIR/subdiagnostic-derive.rs:367:33
|
LL | #[suggestion(parser::add_paren, code = "...", code = "...")]
| ^^^^^^^^^^^^
error: specified multiple times
--> $DIR/subdiagnostic-derive.rs:395:5
--> $DIR/subdiagnostic-derive.rs:385:5
|
LL | #[applicability]
| ^^^^^^^^^^^^^^^^
|
note: previously specified here
--> $DIR/subdiagnostic-derive.rs:392:5
--> $DIR/subdiagnostic-derive.rs:382:5
|
LL | #[applicability]
| ^^^^^^^^^^^^^^^^
error: the `#[applicability]` attribute can only be applied to fields of type `Applicability`
--> $DIR/subdiagnostic-derive.rs:405:5
--> $DIR/subdiagnostic-derive.rs:396:5
|
LL | #[applicability]
| ^^^^^^^^^^^^^^^^
error: suggestion without `code = "..."`
--> $DIR/subdiagnostic-derive.rs:418:1
error: suggestion without `applicability`
--> $DIR/subdiagnostic-derive.rs:391:1
|
LL | #[suggestion(parser::add_paren)]
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
LL | / #[suggestion(parser::add_paren, code = "...")]
LL | |
LL | | struct AL {
LL | | #[primary_span]
... |
LL | | applicability: Span,
LL | | }
| |_^
error: suggestion without `applicability`
--> $DIR/subdiagnostic-derive.rs:402:1
|
LL | / #[suggestion(parser::add_paren, code = "...")]
LL | |
LL | | struct AM {
LL | | #[primary_span]
LL | | span: Span,
LL | | }
| |_^
error: suggestion without `code = "..."`
--> $DIR/subdiagnostic-derive.rs:410:1
|
LL | / #[suggestion(parser::add_paren)]
LL | |
LL | | struct AN {
LL | | #[primary_span]
... |
LL | | applicability: Applicability,
LL | | }
| |_^
error: invalid applicability
--> $DIR/subdiagnostic-derive.rs:428:46
--> $DIR/subdiagnostic-derive.rs:420:46
|
LL | #[suggestion(parser::add_paren, code ="...", applicability = "foo")]
| ^^^^^^^^^^^^^^^^^^^^^
error: suggestion without `#[primary_span]` field
--> $DIR/subdiagnostic-derive.rs:446:1
error: suggestion without `applicability`
--> $DIR/subdiagnostic-derive.rs:438:1
|
LL | / #[suggestion(parser::add_paren, code = "...")]
LL | |
LL | |
LL | | struct AR {
LL | | var: String,
LL | | }
| |_^
error: suggestion without `#[primary_span]` field
--> $DIR/subdiagnostic-derive.rs:438:1
|
LL | / #[suggestion(parser::add_paren, code = "...")]
LL | |
LL | |
LL | | struct AR {
LL | | var: String,
LL | | }
| |_^
error: unsupported type attribute for subdiagnostic enum
--> $DIR/subdiagnostic-derive.rs:460:1
--> $DIR/subdiagnostic-derive.rs:453:1
|
LL | #[label]
| ^^^^^^^^
error: `var` doesn't refer to a field on this type
--> $DIR/subdiagnostic-derive.rs:480:39
--> $DIR/subdiagnostic-derive.rs:473:39
|
LL | #[suggestion(parser::add_paren, code ="{var}", applicability = "machine-applicable")]
| ^^^^^^^
error: `var` doesn't refer to a field on this type
--> $DIR/subdiagnostic-derive.rs:499:43
--> $DIR/subdiagnostic-derive.rs:492:43
|
LL | #[suggestion(parser::add_paren, code ="{var}", applicability = "machine-applicable")]
| ^^^^^^^
error: `#[suggestion_part]` is not a valid attribute
--> $DIR/subdiagnostic-derive.rs:522:5
|
LL | #[suggestion_part]
| ^^^^^^^^^^^^^^^^^^
|
= help: `#[suggestion_part(...)]` is only valid in multipart suggestions, use `#[primary_span]` instead
error: `#[suggestion_part(...)]` is not a valid attribute
--> $DIR/subdiagnostic-derive.rs:525:5
|
LL | #[suggestion_part(code = "...")]
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
|
= help: `#[suggestion_part(...)]` is only valid in multipart suggestions
error: suggestion without `#[primary_span]` field
--> $DIR/subdiagnostic-derive.rs:519:1
|
LL | / #[suggestion(parser::add_paren, code = "...")]
LL | |
LL | | struct BA {
LL | | #[suggestion_part]
... |
LL | | var: String,
LL | | }
| |_^
error: `code` is not a valid nested attribute of a `multipart_suggestion` attribute
--> $DIR/subdiagnostic-derive.rs:534:43
|
LL | #[multipart_suggestion(parser::add_paren, code = "...", applicability = "machine-applicable")]
| ^^^^^^^^^^^^
error: multipart suggestion without any `#[suggestion_part(...)]` fields
--> $DIR/subdiagnostic-derive.rs:534:1
|
LL | / #[multipart_suggestion(parser::add_paren, code = "...", applicability = "machine-applicable")]
LL | |
LL | |
LL | | struct BBa {
LL | | var: String,
LL | | }
| |_^
error: `#[suggestion_part(...)]` attribute without `code = "..."`
--> $DIR/subdiagnostic-derive.rs:544:5
|
LL | #[suggestion_part]
| ^^^^^^^^^^^^^^^^^^
error: `#[suggestion_part(...)]` attribute without `code = "..."`
--> $DIR/subdiagnostic-derive.rs:552:5
|
LL | #[suggestion_part()]
| ^^^^^^^^^^^^^^^^^^^^
error: `#[primary_span]` is not a valid attribute
--> $DIR/subdiagnostic-derive.rs:561:5
|
LL | #[primary_span]
| ^^^^^^^^^^^^^^^
|
= help: multipart suggestions use one or more `#[suggestion_part]`s rather than one `#[primary_span]`
error: multipart suggestion without any `#[suggestion_part(...)]` fields
--> $DIR/subdiagnostic-derive.rs:558:1
|
LL | / #[multipart_suggestion(parser::add_paren)]
LL | |
LL | | struct BC {
LL | | #[primary_span]
LL | |
LL | | span: Span,
LL | | }
| |_^
error: `#[suggestion_part(...)]` attribute without `code = "..."`
--> $DIR/subdiagnostic-derive.rs:569:5
|
LL | #[suggestion_part]
| ^^^^^^^^^^^^^^^^^^
error: `#[suggestion_part(...)]` attribute without `code = "..."`
--> $DIR/subdiagnostic-derive.rs:572:5
|
LL | #[suggestion_part()]
| ^^^^^^^^^^^^^^^^^^^^
error: `#[suggestion_part(foo = ...)]` is not a valid attribute
--> $DIR/subdiagnostic-derive.rs:575:23
|
LL | #[suggestion_part(foo = "bar")]
| ^^^^^^^^^^^
|
= help: `code` is the only valid nested attribute
error: the `#[suggestion_part(...)]` attribute can only be applied to fields of type `Span` or `MultiSpan`
--> $DIR/subdiagnostic-derive.rs:578:5
|
LL | #[suggestion_part(code = "...")]
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: the `#[suggestion_part(...)]` attribute can only be applied to fields of type `Span` or `MultiSpan`
--> $DIR/subdiagnostic-derive.rs:581:5
|
LL | #[suggestion_part()]
| ^^^^^^^^^^^^^^^^^^^^
error: specified multiple times
--> $DIR/subdiagnostic-derive.rs:589:37
|
LL | #[suggestion_part(code = "...", code = ",,,")]
| ^^^^^^^^^^^^
|
note: previously specified here
--> $DIR/subdiagnostic-derive.rs:589:23
|
LL | #[suggestion_part(code = "...", code = ",,,")]
| ^^^^^^^^^^^^
error: specified multiple times
--> $DIR/subdiagnostic-derive.rs:619:5
|
LL | #[applicability]
| ^^^^^^^^^^^^^^^^
|
note: previously specified here
--> $DIR/subdiagnostic-derive.rs:616:43
|
LL | #[multipart_suggestion(parser::add_paren, applicability = "machine-applicable")]
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
error: cannot find attribute `foo` in this scope
--> $DIR/subdiagnostic-derive.rs:63:3
|
@ -475,6 +371,6 @@ error[E0425]: cannot find value `slug` in module `rustc_errors::fluent`
LL | #[label(slug)]
| ^^^^ not found in `rustc_errors::fluent`
error: aborting due to 64 previous errors
error: aborting due to 50 previous errors
For more information about this error, try `rustc --explain E0425`.