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rust/compiler/rustc_attr/src/builtin.rs
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//! Parsing and validation of builtin attributes
use rustc_ast::{self as ast, attr};
use rustc_ast::{Attribute, LitKind, MetaItem, MetaItemKind, MetaItemLit, NestedMetaItem, NodeId};
use rustc_ast_pretty::pprust;
use rustc_feature::{find_gated_cfg, is_builtin_attr_name, Features, GatedCfg};
use rustc_macros::HashStable_Generic;
use rustc_session::lint::builtin::UNEXPECTED_CFGS;
use rustc_session::lint::BuiltinLintDiagnostics;
use rustc_session::parse::{feature_err, ParseSess};
use rustc_session::Session;
use rustc_span::hygiene::Transparency;
use rustc_span::{symbol::sym, symbol::Symbol, Span};
use std::num::NonZeroU32;
use crate::session_diagnostics::{self, IncorrectReprFormatGenericCause};
/// The version placeholder that recently stabilized features contain inside the
/// `since` field of the `#[stable]` attribute.
///
/// For more, see [this pull request](https://github.com/rust-lang/rust/pull/100591).
pub const VERSION_PLACEHOLDER: &str = "CURRENT_RUSTC_VERSION";
pub fn rust_version_symbol() -> Symbol {
let version = option_env!("CFG_VERSION").unwrap_or("<current>");
let version = version.split(' ').next().unwrap();
Symbol::intern(&version)
}
pub fn is_builtin_attr(attr: &Attribute) -> bool {
attr.is_doc_comment() || attr.ident().filter(|ident| is_builtin_attr_name(ident.name)).is_some()
}
enum AttrError {
MultipleItem(String),
UnknownMetaItem(String, &'static [&'static str]),
MissingSince,
NonIdentFeature,
MissingFeature,
MultipleStabilityLevels,
UnsupportedLiteral(UnsupportedLiteralReason, /* is_bytestr */ bool),
}
pub(crate) enum UnsupportedLiteralReason {
Generic,
CfgString,
DeprecatedString,
DeprecatedKvPair,
}
fn handle_errors(sess: &ParseSess, span: Span, error: AttrError) {
match error {
AttrError::MultipleItem(item) => {
sess.emit_err(session_diagnostics::MultipleItem { span, item });
}
AttrError::UnknownMetaItem(item, expected) => {
sess.emit_err(session_diagnostics::UnknownMetaItem { span, item, expected });
}
AttrError::MissingSince => {
sess.emit_err(session_diagnostics::MissingSince { span });
}
AttrError::NonIdentFeature => {
sess.emit_err(session_diagnostics::NonIdentFeature { span });
}
AttrError::MissingFeature => {
sess.emit_err(session_diagnostics::MissingFeature { span });
}
AttrError::MultipleStabilityLevels => {
sess.emit_err(session_diagnostics::MultipleStabilityLevels { span });
}
AttrError::UnsupportedLiteral(reason, is_bytestr) => {
sess.emit_err(session_diagnostics::UnsupportedLiteral {
span,
reason,
is_bytestr,
start_point_span: sess.source_map().start_point(span),
});
}
}
}
#[derive(Copy, Clone, PartialEq, Encodable, Decodable, Debug, HashStable_Generic)]
pub enum InlineAttr {
None,
Hint,
Always,
Never,
}
#[derive(Clone, Encodable, Decodable, Debug, PartialEq, Eq, HashStable_Generic)]
pub enum InstructionSetAttr {
ArmA32,
ArmT32,
}
#[derive(Clone, Encodable, Decodable, Debug, HashStable_Generic)]
pub enum OptimizeAttr {
None,
Speed,
Size,
}
/// Represents the following attributes:
///
/// - `#[stable]`
/// - `#[unstable]`
#[derive(Encodable, Decodable, Copy, Clone, Debug, PartialEq, Eq, Hash)]
#[derive(HashStable_Generic)]
pub struct Stability {
pub level: StabilityLevel,
pub feature: Symbol,
}
impl Stability {
pub fn is_unstable(&self) -> bool {
self.level.is_unstable()
}
pub fn is_stable(&self) -> bool {
self.level.is_stable()
}
}
/// Represents the `#[rustc_const_unstable]` and `#[rustc_const_stable]` attributes.
#[derive(Encodable, Decodable, Copy, Clone, Debug, PartialEq, Eq, Hash)]
#[derive(HashStable_Generic)]
pub struct ConstStability {
pub level: StabilityLevel,
pub feature: Symbol,
/// whether the function has a `#[rustc_promotable]` attribute
pub promotable: bool,
}
impl ConstStability {
pub fn is_const_unstable(&self) -> bool {
self.level.is_unstable()
}
pub fn is_const_stable(&self) -> bool {
self.level.is_stable()
}
}
/// Represents the `#[rustc_default_body_unstable]` attribute.
#[derive(Encodable, Decodable, Copy, Clone, Debug, PartialEq, Eq, Hash)]
#[derive(HashStable_Generic)]
pub struct DefaultBodyStability {
pub level: StabilityLevel,
pub feature: Symbol,
}
/// The available stability levels.
#[derive(Encodable, Decodable, PartialEq, Copy, Clone, Debug, Eq, Hash)]
#[derive(HashStable_Generic)]
pub enum StabilityLevel {
/// `#[unstable]`
Unstable {
/// Reason for the current stability level.
reason: UnstableReason,
/// Relevant `rust-lang/rust` issue.
issue: Option<NonZeroU32>,
is_soft: bool,
/// If part of a feature is stabilized and a new feature is added for the remaining parts,
/// then the `implied_by` attribute is used to indicate which now-stable feature previously
/// contained a item.
///
/// ```pseudo-Rust
/// #[unstable(feature = "foo", issue = "...")]
/// fn foo() {}
/// #[unstable(feature = "foo", issue = "...")]
/// fn foobar() {}
/// ```
///
/// ...becomes...
///
/// ```pseudo-Rust
/// #[stable(feature = "foo", since = "1.XX.X")]
/// fn foo() {}
/// #[unstable(feature = "foobar", issue = "...", implied_by = "foo")]
/// fn foobar() {}
/// ```
implied_by: Option<Symbol>,
},
/// `#[stable]`
Stable {
/// Rust release which stabilized this feature.
since: Symbol,
/// Is this item allowed to be referred to on stable, despite being contained in unstable
/// modules?
allowed_through_unstable_modules: bool,
},
}
impl StabilityLevel {
pub fn is_unstable(&self) -> bool {
matches!(self, StabilityLevel::Unstable { .. })
}
pub fn is_stable(&self) -> bool {
matches!(self, StabilityLevel::Stable { .. })
}
}
#[derive(Encodable, Decodable, PartialEq, Copy, Clone, Debug, Eq, Hash)]
#[derive(HashStable_Generic)]
pub enum UnstableReason {
None,
Default,
Some(Symbol),
}
impl UnstableReason {
fn from_opt_reason(reason: Option<Symbol>) -> Self {
// UnstableReason::Default constructed manually
match reason {
Some(r) => Self::Some(r),
None => Self::None,
}
}
pub fn to_opt_reason(&self) -> Option<Symbol> {
match self {
Self::None => None,
Self::Default => Some(sym::unstable_location_reason_default),
Self::Some(r) => Some(*r),
}
}
}
/// Collects stability info from `stable`/`unstable`/`rustc_allowed_through_unstable_modules`
/// attributes in `attrs`. Returns `None` if no stability attributes are found.
pub fn find_stability(
sess: &Session,
attrs: &[Attribute],
item_sp: Span,
) -> Option<(Stability, Span)> {
let mut stab: Option<(Stability, Span)> = None;
let mut allowed_through_unstable_modules = false;
for attr in attrs {
match attr.name_or_empty() {
sym::rustc_allowed_through_unstable_modules => allowed_through_unstable_modules = true,
sym::unstable => {
if stab.is_some() {
handle_errors(&sess.parse_sess, attr.span, AttrError::MultipleStabilityLevels);
break;
}
if let Some((feature, level)) = parse_unstability(sess, attr) {
stab = Some((Stability { level, feature }, attr.span));
}
}
sym::stable => {
if stab.is_some() {
handle_errors(&sess.parse_sess, attr.span, AttrError::MultipleStabilityLevels);
break;
}
if let Some((feature, level)) = parse_stability(sess, attr) {
stab = Some((Stability { level, feature }, attr.span));
}
}
_ => {}
}
}
if allowed_through_unstable_modules {
match &mut stab {
Some((
Stability {
level: StabilityLevel::Stable { allowed_through_unstable_modules, .. },
..
},
_,
)) => *allowed_through_unstable_modules = true,
_ => {
sess.emit_err(session_diagnostics::RustcAllowedUnstablePairing { span: item_sp });
}
}
}
stab
}
/// Collects stability info from `rustc_const_stable`/`rustc_const_unstable`/`rustc_promotable`
/// attributes in `attrs`. Returns `None` if no stability attributes are found.
pub fn find_const_stability(
sess: &Session,
attrs: &[Attribute],
item_sp: Span,
) -> Option<(ConstStability, Span)> {
let mut const_stab: Option<(ConstStability, Span)> = None;
let mut promotable = false;
for attr in attrs {
match attr.name_or_empty() {
sym::rustc_promotable => promotable = true,
sym::rustc_const_unstable => {
if const_stab.is_some() {
handle_errors(&sess.parse_sess, attr.span, AttrError::MultipleStabilityLevels);
break;
}
if let Some((feature, level)) = parse_unstability(sess, attr) {
const_stab =
Some((ConstStability { level, feature, promotable: false }, attr.span));
}
}
sym::rustc_const_stable => {
if const_stab.is_some() {
handle_errors(&sess.parse_sess, attr.span, AttrError::MultipleStabilityLevels);
break;
}
if let Some((feature, level)) = parse_stability(sess, attr) {
const_stab =
Some((ConstStability { level, feature, promotable: false }, attr.span));
}
}
_ => {}
}
}
// Merge the const-unstable info into the stability info
if promotable {
match &mut const_stab {
Some((stab, _)) => stab.promotable = promotable,
_ => _ = sess.emit_err(session_diagnostics::RustcPromotablePairing { span: item_sp }),
}
}
const_stab
}
/// Collects stability info from `rustc_default_body_unstable` attributes in `attrs`.
/// Returns `None` if no stability attributes are found.
pub fn find_body_stability(
sess: &Session,
attrs: &[Attribute],
) -> Option<(DefaultBodyStability, Span)> {
let mut body_stab: Option<(DefaultBodyStability, Span)> = None;
for attr in attrs {
if attr.has_name(sym::rustc_default_body_unstable) {
if body_stab.is_some() {
handle_errors(&sess.parse_sess, attr.span, AttrError::MultipleStabilityLevels);
break;
}
if let Some((feature, level)) = parse_unstability(sess, attr) {
body_stab = Some((DefaultBodyStability { level, feature }, attr.span));
}
}
}
body_stab
}
/// Read the content of a `stable`/`rustc_const_stable` attribute, and return the feature name and
/// its stability information.
fn parse_stability(sess: &Session, attr: &Attribute) -> Option<(Symbol, StabilityLevel)> {
let meta = attr.meta()?;
let MetaItem { kind: MetaItemKind::List(ref metas), .. } = meta else { return None };
let insert_or_error = |meta: &MetaItem, item: &mut Option<Symbol>| {
if item.is_some() {
handle_errors(
&sess.parse_sess,
meta.span,
AttrError::MultipleItem(pprust::path_to_string(&meta.path)),
);
return false;
}
if let Some(v) = meta.value_str() {
*item = Some(v);
true
} else {
sess.emit_err(session_diagnostics::IncorrectMetaItem { span: meta.span });
false
}
};
let mut feature = None;
let mut since = None;
for meta in metas {
let Some(mi) = meta.meta_item() else {
handle_errors(
&sess.parse_sess,
meta.span(),
AttrError::UnsupportedLiteral(UnsupportedLiteralReason::Generic, false),
);
return None;
};
match mi.name_or_empty() {
sym::feature => {
if !insert_or_error(mi, &mut feature) {
return None;
}
}
sym::since => {
if !insert_or_error(mi, &mut since) {
return None;
}
}
_ => {
handle_errors(
&sess.parse_sess,
meta.span(),
AttrError::UnknownMetaItem(
pprust::path_to_string(&mi.path),
&["feature", "since"],
),
);
return None;
}
}
}
if let Some(s) = since && s.as_str() == VERSION_PLACEHOLDER {
since = Some(rust_version_symbol());
}
match (feature, since) {
(Some(feature), Some(since)) => {
let level = StabilityLevel::Stable { since, allowed_through_unstable_modules: false };
Some((feature, level))
}
(None, _) => {
handle_errors(&sess.parse_sess, attr.span, AttrError::MissingFeature);
None
}
_ => {
handle_errors(&sess.parse_sess, attr.span, AttrError::MissingSince);
None
}
}
}
/// Read the content of a `unstable`/`rustc_const_unstable`/`rustc_default_body_unstable`
/// attribute, and return the feature name and its stability information.
fn parse_unstability(sess: &Session, attr: &Attribute) -> Option<(Symbol, StabilityLevel)> {
let meta = attr.meta()?;
let MetaItem { kind: MetaItemKind::List(ref metas), .. } = meta else { return None };
let insert_or_error = |meta: &MetaItem, item: &mut Option<Symbol>| {
if item.is_some() {
handle_errors(
&sess.parse_sess,
meta.span,
AttrError::MultipleItem(pprust::path_to_string(&meta.path)),
);
return false;
}
if let Some(v) = meta.value_str() {
*item = Some(v);
true
} else {
sess.emit_err(session_diagnostics::IncorrectMetaItem { span: meta.span });
false
}
};
let mut feature = None;
let mut reason = None;
let mut issue = None;
let mut issue_num = None;
let mut is_soft = false;
let mut implied_by = None;
for meta in metas {
let Some(mi) = meta.meta_item() else {
handle_errors(
&sess.parse_sess,
meta.span(),
AttrError::UnsupportedLiteral(UnsupportedLiteralReason::Generic, false),
);
return None;
};
match mi.name_or_empty() {
sym::feature => {
if !insert_or_error(mi, &mut feature) {
return None;
}
}
sym::reason => {
if !insert_or_error(mi, &mut reason) {
return None;
}
}
sym::issue => {
if !insert_or_error(mi, &mut issue) {
return None;
}
// These unwraps are safe because `insert_or_error` ensures the meta item
// is a name/value pair string literal.
issue_num = match issue.unwrap().as_str() {
"none" => None,
issue => match issue.parse::<NonZeroU32>() {
Ok(num) => Some(num),
Err(err) => {
sess.emit_err(
session_diagnostics::InvalidIssueString {
span: mi.span,
cause: session_diagnostics::InvalidIssueStringCause::from_int_error_kind(
mi.name_value_literal_span().unwrap(),
err.kind(),
),
},
);
return None;
}
},
};
}
sym::soft => {
if !mi.is_word() {
sess.emit_err(session_diagnostics::SoftNoArgs { span: mi.span });
}
is_soft = true;
}
sym::implied_by => {
if !insert_or_error(mi, &mut implied_by) {
return None;
}
}
_ => {
handle_errors(
&sess.parse_sess,
meta.span(),
AttrError::UnknownMetaItem(
pprust::path_to_string(&mi.path),
&["feature", "reason", "issue", "soft", "implied_by"],
),
);
return None;
}
}
}
match (feature, reason, issue) {
(Some(feature), reason, Some(_)) => {
if !rustc_lexer::is_ident(feature.as_str()) {
handle_errors(&sess.parse_sess, attr.span, AttrError::NonIdentFeature);
return None;
}
let level = StabilityLevel::Unstable {
reason: UnstableReason::from_opt_reason(reason),
issue: issue_num,
is_soft,
implied_by,
};
Some((feature, level))
}
(None, _, _) => {
handle_errors(&sess.parse_sess, attr.span, AttrError::MissingFeature);
return None;
}
_ => {
sess.emit_err(session_diagnostics::MissingIssue { span: attr.span });
return None;
}
}
}
pub fn find_crate_name(attrs: &[Attribute]) -> Option<Symbol> {
attr::first_attr_value_str_by_name(attrs, sym::crate_name)
}
#[derive(Clone, Debug)]
pub struct Condition {
pub name: Symbol,
pub name_span: Span,
pub value: Option<Symbol>,
pub value_span: Option<Span>,
pub span: Span,
}
/// Tests if a cfg-pattern matches the cfg set
pub fn cfg_matches(
cfg: &ast::MetaItem,
sess: &ParseSess,
lint_node_id: NodeId,
features: Option<&Features>,
) -> bool {
eval_condition(cfg, sess, features, &mut |cfg| {
try_gate_cfg(cfg.name, cfg.span, sess, features);
if let Some(names_valid) = &sess.check_config.names_valid {
if !names_valid.contains(&cfg.name) {
sess.buffer_lint_with_diagnostic(
UNEXPECTED_CFGS,
cfg.span,
lint_node_id,
"unexpected `cfg` condition name",
BuiltinLintDiagnostics::UnexpectedCfg((cfg.name, cfg.name_span), None),
);
}
}
if let Some(value) = cfg.value {
if let Some(values) = &sess.check_config.values_valid.get(&cfg.name) {
if !values.contains(&value) {
sess.buffer_lint_with_diagnostic(
UNEXPECTED_CFGS,
cfg.span,
lint_node_id,
"unexpected `cfg` condition value",
BuiltinLintDiagnostics::UnexpectedCfg(
(cfg.name, cfg.name_span),
cfg.value_span.map(|vs| (value, vs)),
),
);
}
}
}
sess.config.contains(&(cfg.name, cfg.value))
})
}
fn try_gate_cfg(name: Symbol, span: Span, sess: &ParseSess, features: Option<&Features>) {
let gate = find_gated_cfg(|sym| sym == name);
if let (Some(feats), Some(gated_cfg)) = (features, gate) {
gate_cfg(&gated_cfg, span, sess, feats);
}
}
fn gate_cfg(gated_cfg: &GatedCfg, cfg_span: Span, sess: &ParseSess, features: &Features) {
let (cfg, feature, has_feature) = gated_cfg;
if !has_feature(features) && !cfg_span.allows_unstable(*feature) {
let explain = format!("`cfg({cfg})` is experimental and subject to change");
feature_err(sess, *feature, cfg_span, &explain).emit();
}
}
#[derive(Clone, Debug, PartialEq, Eq, PartialOrd, Ord)]
struct Version {
major: u16,
minor: u16,
patch: u16,
}
fn parse_version(s: &str, allow_appendix: bool) -> Option<Version> {
let mut components = s.split('-');
let d = components.next()?;
if !allow_appendix && components.next().is_some() {
return None;
}
let mut digits = d.splitn(3, '.');
let major = digits.next()?.parse().ok()?;
let minor = digits.next()?.parse().ok()?;
let patch = digits.next().unwrap_or("0").parse().ok()?;
Some(Version { major, minor, patch })
}
/// Evaluate a cfg-like condition (with `any` and `all`), using `eval` to
/// evaluate individual items.
pub fn eval_condition(
cfg: &ast::MetaItem,
sess: &ParseSess,
features: Option<&Features>,
eval: &mut impl FnMut(Condition) -> bool,
) -> bool {
match &cfg.kind {
ast::MetaItemKind::List(mis) if cfg.name_or_empty() == sym::version => {
try_gate_cfg(sym::version, cfg.span, sess, features);
let (min_version, span) = match &mis[..] {
[NestedMetaItem::Lit(MetaItemLit { kind: LitKind::Str(sym, ..), span, .. })] => {
(sym, span)
}
[
NestedMetaItem::Lit(MetaItemLit { span, .. })
| NestedMetaItem::MetaItem(MetaItem { span, .. }),
] => {
sess.emit_err(session_diagnostics::ExpectedVersionLiteral { span: *span });
return false;
}
[..] => {
sess.emit_err(session_diagnostics::ExpectedSingleVersionLiteral {
span: cfg.span,
});
return false;
}
};
let Some(min_version) = parse_version(min_version.as_str(), false) else {
sess.emit_warning(session_diagnostics::UnknownVersionLiteral { span: *span });
return false;
};
let rustc_version = parse_version(env!("CFG_RELEASE"), true).unwrap();
// See https://github.com/rust-lang/rust/issues/64796#issuecomment-640851454 for details
if sess.assume_incomplete_release {
rustc_version > min_version
} else {
rustc_version >= min_version
}
}
ast::MetaItemKind::List(mis) => {
for mi in mis.iter() {
if !mi.is_meta_item() {
handle_errors(
sess,
mi.span(),
AttrError::UnsupportedLiteral(UnsupportedLiteralReason::Generic, false),
);
return false;
}
}
// The unwraps below may look dangerous, but we've already asserted
// that they won't fail with the loop above.
match cfg.name_or_empty() {
sym::any => mis
.iter()
// We don't use any() here, because we want to evaluate all cfg condition
// as eval_condition can (and does) extra checks
.fold(false, |res, mi| {
res | eval_condition(mi.meta_item().unwrap(), sess, features, eval)
}),
sym::all => mis
.iter()
// We don't use all() here, because we want to evaluate all cfg condition
// as eval_condition can (and does) extra checks
.fold(true, |res, mi| {
res & eval_condition(mi.meta_item().unwrap(), sess, features, eval)
}),
sym::not => {
if mis.len() != 1 {
sess.emit_err(session_diagnostics::ExpectedOneCfgPattern {
span: cfg.span,
});
return false;
}
!eval_condition(mis[0].meta_item().unwrap(), sess, features, eval)
}
sym::target => {
if let Some(features) = features && !features.cfg_target_compact {
feature_err(
sess,
sym::cfg_target_compact,
cfg.span,
"compact `cfg(target(..))` is experimental and subject to change"
).emit();
}
mis.iter().fold(true, |res, mi| {
let mut mi = mi.meta_item().unwrap().clone();
if let [seg, ..] = &mut mi.path.segments[..] {
seg.ident.name = Symbol::intern(&format!("target_{}", seg.ident.name));
}
res & eval_condition(&mi, sess, features, eval)
})
}
_ => {
sess.emit_err(session_diagnostics::InvalidPredicate {
span: cfg.span,
predicate: pprust::path_to_string(&cfg.path),
});
false
}
}
}
ast::MetaItemKind::Word | MetaItemKind::NameValue(..) if cfg.path.segments.len() != 1 => {
sess.emit_err(session_diagnostics::CfgPredicateIdentifier { span: cfg.path.span });
true
}
MetaItemKind::NameValue(lit) if !lit.kind.is_str() => {
handle_errors(
sess,
lit.span,
AttrError::UnsupportedLiteral(
UnsupportedLiteralReason::CfgString,
lit.kind.is_bytestr(),
),
);
true
}
ast::MetaItemKind::Word | ast::MetaItemKind::NameValue(..) => {
let ident = cfg.ident().expect("multi-segment cfg predicate");
eval(Condition {
name: ident.name,
name_span: ident.span,
value: cfg.value_str(),
value_span: cfg.name_value_literal_span(),
span: cfg.span,
})
}
}
}
#[derive(Copy, Debug, Encodable, Decodable, Clone, HashStable_Generic)]
pub struct Deprecation {
pub since: Option<Symbol>,
/// The note to issue a reason.
pub note: Option<Symbol>,
/// A text snippet used to completely replace any use of the deprecated item in an expression.
///
/// This is currently unstable.
pub suggestion: Option<Symbol>,
/// Whether to treat the since attribute as being a Rust version identifier
/// (rather than an opaque string).
pub is_since_rustc_version: bool,
}
/// Finds the deprecation attribute. `None` if none exists.
pub fn find_deprecation(sess: &Session, attrs: &[Attribute]) -> Option<(Deprecation, Span)> {
find_deprecation_generic(sess, attrs.iter())
}
fn find_deprecation_generic<'a, I>(sess: &Session, attrs_iter: I) -> Option<(Deprecation, Span)>
where
I: Iterator<Item = &'a Attribute>,
{
let mut depr: Option<(Deprecation, Span)> = None;
let is_rustc = sess.features_untracked().staged_api;
'outer: for attr in attrs_iter {
if !attr.has_name(sym::deprecated) {
continue;
}
let Some(meta) = attr.meta() else {
continue;
};
let mut since = None;
let mut note = None;
let mut suggestion = None;
match &meta.kind {
MetaItemKind::Word => {}
MetaItemKind::NameValue(..) => note = meta.value_str(),
MetaItemKind::List(list) => {
let get = |meta: &MetaItem, item: &mut Option<Symbol>| {
if item.is_some() {
handle_errors(
&sess.parse_sess,
meta.span,
AttrError::MultipleItem(pprust::path_to_string(&meta.path)),
);
return false;
}
if let Some(v) = meta.value_str() {
*item = Some(v);
true
} else {
if let Some(lit) = meta.name_value_literal() {
handle_errors(
&sess.parse_sess,
lit.span,
AttrError::UnsupportedLiteral(
UnsupportedLiteralReason::DeprecatedString,
lit.kind.is_bytestr(),
),
);
} else {
sess.emit_err(session_diagnostics::IncorrectMetaItem2 {
span: meta.span,
});
}
false
}
};
for meta in list {
match meta {
NestedMetaItem::MetaItem(mi) => match mi.name_or_empty() {
sym::since => {
if !get(mi, &mut since) {
continue 'outer;
}
}
sym::note => {
if !get(mi, &mut note) {
continue 'outer;
}
}
sym::suggestion => {
if !sess.features_untracked().deprecated_suggestion {
sess.emit_err(session_diagnostics::DeprecatedItemSuggestion {
span: mi.span,
is_nightly: sess.is_nightly_build().then_some(()),
details: (),
});
}
if !get(mi, &mut suggestion) {
continue 'outer;
}
}
_ => {
handle_errors(
&sess.parse_sess,
meta.span(),
AttrError::UnknownMetaItem(
pprust::path_to_string(&mi.path),
if sess.features_untracked().deprecated_suggestion {
&["since", "note", "suggestion"]
} else {
&["since", "note"]
},
),
);
continue 'outer;
}
},
NestedMetaItem::Lit(lit) => {
handle_errors(
&sess.parse_sess,
lit.span,
AttrError::UnsupportedLiteral(
UnsupportedLiteralReason::DeprecatedKvPair,
false,
),
);
continue 'outer;
}
}
}
}
}
if is_rustc {
if since.is_none() {
handle_errors(&sess.parse_sess, attr.span, AttrError::MissingSince);
continue;
}
if note.is_none() {
sess.emit_err(session_diagnostics::MissingNote { span: attr.span });
continue;
}
}
depr = Some((
Deprecation { since, note, suggestion, is_since_rustc_version: is_rustc },
attr.span,
));
}
depr
}
#[derive(PartialEq, Debug, Encodable, Decodable, Copy, Clone)]
pub enum ReprAttr {
ReprInt(IntType),
ReprC,
ReprPacked(u32),
ReprSimd,
ReprTransparent,
ReprAlign(u32),
}
#[derive(Eq, PartialEq, Debug, Copy, Clone)]
#[derive(Encodable, Decodable, HashStable_Generic)]
pub enum IntType {
SignedInt(ast::IntTy),
UnsignedInt(ast::UintTy),
}
impl IntType {
#[inline]
pub fn is_signed(self) -> bool {
use IntType::*;
match self {
SignedInt(..) => true,
UnsignedInt(..) => false,
}
}
}
/// Parse #[repr(...)] forms.
///
/// Valid repr contents: any of the primitive integral type names (see
/// `int_type_of_word`, below) to specify enum discriminant type; `C`, to use
/// the same discriminant size that the corresponding C enum would or C
/// structure layout, `packed` to remove padding, and `transparent` to delegate representation
/// concerns to the only non-ZST field.
pub fn find_repr_attrs(sess: &Session, attr: &Attribute) -> Vec<ReprAttr> {
if attr.has_name(sym::repr) { parse_repr_attr(sess, attr) } else { Vec::new() }
}
pub fn parse_repr_attr(sess: &Session, attr: &Attribute) -> Vec<ReprAttr> {
assert!(attr.has_name(sym::repr), "expected `#[repr(..)]`, found: {attr:?}");
use ReprAttr::*;
let mut acc = Vec::new();
let diagnostic = &sess.parse_sess.span_diagnostic;
if let Some(items) = attr.meta_item_list() {
for item in items {
let mut recognised = false;
if item.is_word() {
let hint = match item.name_or_empty() {
sym::C => Some(ReprC),
sym::packed => Some(ReprPacked(1)),
sym::simd => Some(ReprSimd),
sym::transparent => Some(ReprTransparent),
sym::align => {
sess.emit_err(session_diagnostics::InvalidReprAlignNeedArg {
span: item.span(),
});
recognised = true;
None
}
name => int_type_of_word(name).map(ReprInt),
};
if let Some(h) = hint {
recognised = true;
acc.push(h);
}
} else if let Some((name, value)) = item.name_value_literal() {
let mut literal_error = None;
if name == sym::align {
recognised = true;
match parse_alignment(&value.kind) {
Ok(literal) => acc.push(ReprAlign(literal)),
Err(message) => literal_error = Some(message),
};
} else if name == sym::packed {
recognised = true;
match parse_alignment(&value.kind) {
Ok(literal) => acc.push(ReprPacked(literal)),
Err(message) => literal_error = Some(message),
};
} else if matches!(name, sym::C | sym::simd | sym::transparent)
|| int_type_of_word(name).is_some()
{
recognised = true;
sess.emit_err(session_diagnostics::InvalidReprHintNoParen {
span: item.span(),
name: name.to_ident_string(),
});
}
if let Some(literal_error) = literal_error {
sess.emit_err(session_diagnostics::InvalidReprGeneric {
span: item.span(),
repr_arg: name.to_ident_string(),
error_part: literal_error,
});
}
} else if let Some(meta_item) = item.meta_item() {
match &meta_item.kind {
MetaItemKind::NameValue(value) => {
if meta_item.has_name(sym::align) || meta_item.has_name(sym::packed) {
let name = meta_item.name_or_empty().to_ident_string();
recognised = true;
sess.emit_err(session_diagnostics::IncorrectReprFormatGeneric {
span: item.span(),
repr_arg: &name,
cause: IncorrectReprFormatGenericCause::from_lit_kind(
item.span(),
&value.kind,
&name,
),
});
} else if matches!(
meta_item.name_or_empty(),
sym::C | sym::simd | sym::transparent
) || int_type_of_word(meta_item.name_or_empty()).is_some()
{
recognised = true;
sess.emit_err(session_diagnostics::InvalidReprHintNoValue {
span: meta_item.span,
name: meta_item.name_or_empty().to_ident_string(),
});
}
}
MetaItemKind::List(_) => {
if meta_item.has_name(sym::align) {
recognised = true;
sess.emit_err(session_diagnostics::IncorrectReprFormatAlignOneArg {
span: meta_item.span,
});
} else if meta_item.has_name(sym::packed) {
recognised = true;
sess.emit_err(
session_diagnostics::IncorrectReprFormatPackedOneOrZeroArg {
span: meta_item.span,
},
);
} else if matches!(
meta_item.name_or_empty(),
sym::C | sym::simd | sym::transparent
) || int_type_of_word(meta_item.name_or_empty()).is_some()
{
recognised = true;
sess.emit_err(session_diagnostics::InvalidReprHintNoParen {
span: meta_item.span,
name: meta_item.name_or_empty().to_ident_string(),
});
}
}
_ => (),
}
}
if !recognised {
// Not a word we recognize. This will be caught and reported by
// the `check_mod_attrs` pass, but this pass doesn't always run
// (e.g. if we only pretty-print the source), so we have to gate
// the `delay_span_bug` call as follows:
if sess.opts.pretty.map_or(true, |pp| pp.needs_analysis()) {
diagnostic.delay_span_bug(item.span(), "unrecognized representation hint");
}
}
}
}
acc
}
fn int_type_of_word(s: Symbol) -> Option<IntType> {
use IntType::*;
match s {
sym::i8 => Some(SignedInt(ast::IntTy::I8)),
sym::u8 => Some(UnsignedInt(ast::UintTy::U8)),
sym::i16 => Some(SignedInt(ast::IntTy::I16)),
sym::u16 => Some(UnsignedInt(ast::UintTy::U16)),
sym::i32 => Some(SignedInt(ast::IntTy::I32)),
sym::u32 => Some(UnsignedInt(ast::UintTy::U32)),
sym::i64 => Some(SignedInt(ast::IntTy::I64)),
sym::u64 => Some(UnsignedInt(ast::UintTy::U64)),
sym::i128 => Some(SignedInt(ast::IntTy::I128)),
sym::u128 => Some(UnsignedInt(ast::UintTy::U128)),
sym::isize => Some(SignedInt(ast::IntTy::Isize)),
sym::usize => Some(UnsignedInt(ast::UintTy::Usize)),
_ => None,
}
}
pub enum TransparencyError {
UnknownTransparency(Symbol, Span),
MultipleTransparencyAttrs(Span, Span),
}
pub fn find_transparency(
attrs: &[Attribute],
macro_rules: bool,
) -> (Transparency, Option<TransparencyError>) {
let mut transparency = None;
let mut error = None;
for attr in attrs {
if attr.has_name(sym::rustc_macro_transparency) {
if let Some((_, old_span)) = transparency {
error = Some(TransparencyError::MultipleTransparencyAttrs(old_span, attr.span));
break;
} else if let Some(value) = attr.value_str() {
transparency = Some((
match value {
sym::transparent => Transparency::Transparent,
sym::semitransparent => Transparency::SemiTransparent,
sym::opaque => Transparency::Opaque,
_ => {
error = Some(TransparencyError::UnknownTransparency(value, attr.span));
continue;
}
},
attr.span,
));
}
}
}
let fallback = if macro_rules { Transparency::SemiTransparent } else { Transparency::Opaque };
(transparency.map_or(fallback, |t| t.0), error)
}
pub fn allow_internal_unstable<'a>(
sess: &'a Session,
attrs: &'a [Attribute],
) -> impl Iterator<Item = Symbol> + 'a {
allow_unstable(sess, attrs, sym::allow_internal_unstable)
}
pub fn rustc_allow_const_fn_unstable<'a>(
sess: &'a Session,
attrs: &'a [Attribute],
) -> impl Iterator<Item = Symbol> + 'a {
allow_unstable(sess, attrs, sym::rustc_allow_const_fn_unstable)
}
fn allow_unstable<'a>(
sess: &'a Session,
attrs: &'a [Attribute],
symbol: Symbol,
) -> impl Iterator<Item = Symbol> + 'a {
let attrs = attr::filter_by_name(attrs, symbol);
let list = attrs
.filter_map(move |attr| {
attr.meta_item_list().or_else(|| {
sess.emit_err(session_diagnostics::ExpectsFeatureList {
span: attr.span,
name: symbol.to_ident_string(),
});
None
})
})
.flatten();
list.into_iter().filter_map(move |it| {
let name = it.ident().map(|ident| ident.name);
if name.is_none() {
sess.emit_err(session_diagnostics::ExpectsFeatures {
span: it.span(),
name: symbol.to_ident_string(),
});
}
name
})
}
pub fn parse_alignment(node: &ast::LitKind) -> Result<u32, &'static str> {
if let ast::LitKind::Int(literal, ast::LitIntType::Unsuffixed) = node {
if literal.is_power_of_two() {
// rustc_middle::ty::layout::Align restricts align to <= 2^29
if *literal <= 1 << 29 { Ok(*literal as u32) } else { Err("larger than 2^29") }
} else {
Err("not a power of two")
}
} else {
Err("not an unsuffixed integer")
}
}
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