compiler/rustc_attr_parsing/src/attributes/stability.rs - rust-lang/rust - Git at Google

 use std::num::NonZero;

 use rustc_attr_data_structures::{
     AttributeKind, DefaultBodyStability, PartialConstStability, Stability, StabilityLevel,
     StableSince, UnstableReason, VERSION_PLACEHOLDER,
 };
 use rustc_errors::ErrorGuaranteed;
 use rustc_feature::{AttributeTemplate, template};
 use rustc_span::{Ident, Span, Symbol, sym};

 use super::util::parse_version;
 use super::{AcceptMapping, AttributeOrder, AttributeParser, OnDuplicate, SingleAttributeParser};
 use crate::context::{AcceptContext, FinalizeContext, Stage};
 use crate::parser::{ArgParser, MetaItemParser};
 use crate::session_diagnostics::{self, UnsupportedLiteralReason};

 macro_rules! reject_outside_std {
     ($cx: ident) => {
         // Emit errors for non-staged-api crates.
         if !$cx.features().staged_api() {
             $cx.emit_err(session_diagnostics::StabilityOutsideStd { span: $cx.attr_span });
             return;
         }
     };
 }

 #[derive(Default)]
 pub(crate) struct StabilityParser {
     allowed_through_unstable_modules: Option<Symbol>,
     stability: Option<(Stability, Span)>,
 }

 impl StabilityParser {
     /// Checks, and emits an error when a stability (or unstability) was already set, which would be a duplicate.
     fn check_duplicate<S: Stage>(&self, cx: &AcceptContext<'_, '_, S>) -> bool {
         if let Some((_, _)) = self.stability {
             cx.emit_err(session_diagnostics::MultipleStabilityLevels { span: cx.attr_span });
             true
         } else {
             false
         }
     }
 }

 impl<S: Stage> AttributeParser<S> for StabilityParser {
     const ATTRIBUTES: AcceptMapping<Self, S> = &[
         (
             &[sym::stable],
             template!(List: r#"feature = "name", since = "version""#),
             |this, cx, args| {
                 reject_outside_std!(cx);
                 if !this.check_duplicate(cx)
                     && let Some((feature, level)) = parse_stability(cx, args)
                 {
                     this.stability = Some((Stability { level, feature }, cx.attr_span));
                 }
             },
         ),
         (
             &[sym::unstable],
             template!(List: r#"feature = "name", reason = "...", issue = "N""#),
             |this, cx, args| {
                 reject_outside_std!(cx);
                 if !this.check_duplicate(cx)
                     && let Some((feature, level)) = parse_unstability(cx, args)
                 {
                     this.stability = Some((Stability { level, feature }, cx.attr_span));
                 }
             },
         ),
         (
             &[sym::rustc_allowed_through_unstable_modules],
             template!(NameValueStr: "deprecation message"),
             |this, cx, args| {
                 reject_outside_std!(cx);
                 this.allowed_through_unstable_modules =
                     args.name_value().and_then(|i| i.value_as_str())
             },
         ),
     ];

     fn finalize(mut self, cx: &FinalizeContext<'_, '_, S>) -> Option<AttributeKind> {
         if let Some(atum) = self.allowed_through_unstable_modules {
             if let Some((
                 Stability {
                     level: StabilityLevel::Stable { ref mut allowed_through_unstable_modules, .. },
                     ..
                 },
                 _,
             )) = self.stability
             {
                 *allowed_through_unstable_modules = Some(atum);
             } else {
                 cx.dcx().emit_err(session_diagnostics::RustcAllowedUnstablePairing {
                     span: cx.target_span,
                 });
             }
         }

         let (stability, span) = self.stability?;

         Some(AttributeKind::Stability { stability, span })
     }
 }

 // FIXME(jdonszelmann) change to Single
 #[derive(Default)]
 pub(crate) struct BodyStabilityParser {
     stability: Option<(DefaultBodyStability, Span)>,
 }

 impl<S: Stage> AttributeParser<S> for BodyStabilityParser {
     const ATTRIBUTES: AcceptMapping<Self, S> = &[(
         &[sym::rustc_default_body_unstable],
         template!(List: r#"feature = "name", reason = "...", issue = "N""#),
         |this, cx, args| {
             reject_outside_std!(cx);
             if this.stability.is_some() {
                 cx.dcx()
                     .emit_err(session_diagnostics::MultipleStabilityLevels { span: cx.attr_span });
             } else if let Some((feature, level)) = parse_unstability(cx, args) {
                 this.stability = Some((DefaultBodyStability { level, feature }, cx.attr_span));
             }
         },
     )];

     fn finalize(self, _cx: &FinalizeContext<'_, '_, S>) -> Option<AttributeKind> {
         let (stability, span) = self.stability?;

         Some(AttributeKind::BodyStability { stability, span })
     }
 }

 pub(crate) struct ConstStabilityIndirectParser;
 // FIXME(jdonszelmann): single word attribute group when we have these
 impl<S: Stage> SingleAttributeParser<S> for ConstStabilityIndirectParser {
     const PATH: &[Symbol] = &[sym::rustc_const_stable_indirect];
     const ATTRIBUTE_ORDER: AttributeOrder = AttributeOrder::KeepFirst;
     const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::Ignore;
     const TEMPLATE: AttributeTemplate = template!(Word);

     fn convert(_cx: &mut AcceptContext<'_, '_, S>, _args: &ArgParser<'_>) -> Option<AttributeKind> {
         Some(AttributeKind::ConstStabilityIndirect)
     }
 }

 #[derive(Default)]
 pub(crate) struct ConstStabilityParser {
     promotable: bool,
     stability: Option<(PartialConstStability, Span)>,
 }

 impl ConstStabilityParser {
     /// Checks, and emits an error when a stability (or unstability) was already set, which would be a duplicate.
     fn check_duplicate<S: Stage>(&self, cx: &AcceptContext<'_, '_, S>) -> bool {
         if let Some((_, _)) = self.stability {
             cx.emit_err(session_diagnostics::MultipleStabilityLevels { span: cx.attr_span });
             true
         } else {
             false
         }
     }
 }

 impl<S: Stage> AttributeParser<S> for ConstStabilityParser {
     const ATTRIBUTES: AcceptMapping<Self, S> = &[
         (&[sym::rustc_const_stable], template!(List: r#"feature = "name""#), |this, cx, args| {
             reject_outside_std!(cx);

             if !this.check_duplicate(cx)
                 && let Some((feature, level)) = parse_stability(cx, args)
             {
                 this.stability = Some((
                     PartialConstStability { level, feature, promotable: false },
                     cx.attr_span,
                 ));
             }
         }),
         (&[sym::rustc_const_unstable], template!(List: r#"feature = "name""#), |this, cx, args| {
             reject_outside_std!(cx);
             if !this.check_duplicate(cx)
                 && let Some((feature, level)) = parse_unstability(cx, args)
             {
                 this.stability = Some((
                     PartialConstStability { level, feature, promotable: false },
                     cx.attr_span,
                 ));
             }
         }),
         (&[sym::rustc_promotable], template!(Word), |this, cx, _| {
             reject_outside_std!(cx);
             this.promotable = true;
         }),
     ];

     fn finalize(mut self, cx: &FinalizeContext<'_, '_, S>) -> Option<AttributeKind> {
         if self.promotable {
             if let Some((ref mut stab, _)) = self.stability {
                 stab.promotable = true;
             } else {
                 cx.dcx()
                     .emit_err(session_diagnostics::RustcPromotablePairing { span: cx.target_span });
             }
         }

         let (stability, span) = self.stability?;

         Some(AttributeKind::ConstStability { stability, span })
     }
 }

 /// Tries to insert the value of a `key = value` meta item into an option.
 ///
 /// Emits an error when either the option was already Some, or the arguments weren't of form
 /// `name = value`
 fn insert_value_into_option_or_error<S: Stage>(
     cx: &AcceptContext<'_, '_, S>,
     param: &MetaItemParser<'_>,
     item: &mut Option<Symbol>,
     name: Ident,
 ) -> Option<()> {
     if item.is_some() {
         cx.duplicate_key(name.span, name.name);
         None
     } else if let Some(v) = param.args().name_value()
         && let Some(s) = v.value_as_str()
     {
         *item = Some(s);
         Some(())
     } else {
         cx.expected_name_value(param.span(), Some(name.name));
         None
     }
 }

 /// Read the content of a `stable`/`rustc_const_stable` attribute, and return the feature name and
 /// its stability information.
 pub(crate) fn parse_stability<S: Stage>(
     cx: &AcceptContext<'_, '_, S>,
     args: &ArgParser<'_>,
 ) -> Option<(Symbol, StabilityLevel)> {
     let mut feature = None;
     let mut since = None;

     for param in args.list()?.mixed() {
         let param_span = param.span();
         let Some(param) = param.meta_item() else {
             cx.emit_err(session_diagnostics::UnsupportedLiteral {
                 span: param_span,
                 reason: UnsupportedLiteralReason::Generic,
                 is_bytestr: false,
                 start_point_span: cx.sess().source_map().start_point(param_span),
             });
             return None;
         };

         let word = param.path().word();
         match word.map(|i| i.name) {
             Some(sym::feature) => {
                 insert_value_into_option_or_error(cx, &param, &mut feature, word.unwrap())?
             }
             Some(sym::since) => {
                 insert_value_into_option_or_error(cx, &param, &mut since, word.unwrap())?
             }
             _ => {
                 cx.emit_err(session_diagnostics::UnknownMetaItem {
                     span: param_span,
                     item: param.path().to_string(),
                     expected: &["feature", "since"],
                 });
                 return None;
             }
         }
     }

     let feature = match feature {
         Some(feature) if rustc_lexer::is_ident(feature.as_str()) => Ok(feature),
         Some(_bad_feature) => {
             Err(cx.emit_err(session_diagnostics::NonIdentFeature { span: cx.attr_span }))
         }
         None => Err(cx.emit_err(session_diagnostics::MissingFeature { span: cx.attr_span })),
     };

     let since = if let Some(since) = since {
         if since.as_str() == VERSION_PLACEHOLDER {
             StableSince::Current
         } else if let Some(version) = parse_version(since) {
             StableSince::Version(version)
         } else {
             cx.emit_err(session_diagnostics::InvalidSince { span: cx.attr_span });
             StableSince::Err
         }
     } else {
         cx.emit_err(session_diagnostics::MissingSince { span: cx.attr_span });
         StableSince::Err
     };

     match feature {
         Ok(feature) => {
             let level = StabilityLevel::Stable { since, allowed_through_unstable_modules: None };
             Some((feature, level))
         }
         Err(ErrorGuaranteed { .. }) => None,
     }
 }

 // Read the content of a `unstable`/`rustc_const_unstable`/`rustc_default_body_unstable`
 /// attribute, and return the feature name and its stability information.
 pub(crate) fn parse_unstability<S: Stage>(
     cx: &AcceptContext<'_, '_, S>,
     args: &ArgParser<'_>,
 ) -> Option<(Symbol, StabilityLevel)> {
     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;
     let mut old_name = None;
     for param in args.list()?.mixed() {
         let Some(param) = param.meta_item() else {
             cx.emit_err(session_diagnostics::UnsupportedLiteral {
                 span: param.span(),
                 reason: UnsupportedLiteralReason::Generic,
                 is_bytestr: false,
                 start_point_span: cx.sess().source_map().start_point(param.span()),
             });
             return None;
         };

         let word = param.path().word();
         match word.map(|i| i.name) {
             Some(sym::feature) => {
                 insert_value_into_option_or_error(cx, &param, &mut feature, word.unwrap())?
             }
             Some(sym::reason) => {
                 insert_value_into_option_or_error(cx, &param, &mut reason, word.unwrap())?
             }
             Some(sym::issue) => {
                 insert_value_into_option_or_error(cx, &param, &mut issue, word.unwrap())?;

                 // These unwraps are safe because `insert_value_into_option_or_error` ensures the meta item
                 // is a name/value pair string literal.
                 issue_num = match issue.unwrap().as_str() {
                     "none" => None,
                     issue_str => match issue_str.parse::<NonZero<u32>>() {
                         Ok(num) => Some(num),
                         Err(err) => {
                             cx.emit_err(
                                 session_diagnostics::InvalidIssueString {
                                     span: param.span(),
                                     cause: session_diagnostics::InvalidIssueStringCause::from_int_error_kind(
                                         param.args().name_value().unwrap().value_span,
                                         err.kind(),
                                     ),
                                 },
                             );
                             return None;
                         }
                     },
                 };
             }
             Some(sym::soft) => {
                 if !param.args().no_args() {
                     cx.emit_err(session_diagnostics::SoftNoArgs { span: param.span() });
                 }
                 is_soft = true;
             }
             Some(sym::implied_by) => {
                 insert_value_into_option_or_error(cx, &param, &mut implied_by, word.unwrap())?
             }
             Some(sym::old_name) => {
                 insert_value_into_option_or_error(cx, &param, &mut old_name, word.unwrap())?
             }
             _ => {
                 cx.emit_err(session_diagnostics::UnknownMetaItem {
                     span: param.span(),
                     item: param.path().to_string(),
                     expected: &["feature", "reason", "issue", "soft", "implied_by", "old_name"],
                 });
                 return None;
             }
         }
     }

     let feature = match feature {
         Some(feature) if rustc_lexer::is_ident(feature.as_str()) => Ok(feature),
         Some(_bad_feature) => {
             Err(cx.emit_err(session_diagnostics::NonIdentFeature { span: cx.attr_span }))
         }
         None => Err(cx.emit_err(session_diagnostics::MissingFeature { span: cx.attr_span })),
     };

     let issue =
         issue.ok_or_else(|| cx.emit_err(session_diagnostics::MissingIssue { span: cx.attr_span }));

     match (feature, issue) {
         (Ok(feature), Ok(_)) => {
             let level = StabilityLevel::Unstable {
                 reason: UnstableReason::from_opt_reason(reason),
                 issue: issue_num,
                 is_soft,
                 implied_by,
                 old_name,
             };
             Some((feature, level))
         }
         (Err(ErrorGuaranteed { .. }), _) | (_, Err(ErrorGuaranteed { .. })) => None,
     }
 }
	use std::num::NonZero;

	use rustc_attr_data_structures::{
	AttributeKind, DefaultBodyStability, PartialConstStability, Stability, StabilityLevel,
	StableSince, UnstableReason, VERSION_PLACEHOLDER,
	};
	use rustc_errors::ErrorGuaranteed;
	use rustc_feature::{AttributeTemplate, template};
	use rustc_span::{Ident, Span, Symbol, sym};

	use super::util::parse_version;
	use super::{AcceptMapping, AttributeOrder, AttributeParser, OnDuplicate, SingleAttributeParser};
	use crate::context::{AcceptContext, FinalizeContext, Stage};
	use crate::parser::{ArgParser, MetaItemParser};
	use crate::session_diagnostics::{self, UnsupportedLiteralReason};

	macro_rules! reject_outside_std {
	($cx: ident) => {
	// Emit errors for non-staged-api crates.
	if !$cx.features().staged_api() {
	$cx.emit_err(session_diagnostics::StabilityOutsideStd { span: $cx.attr_span });
	return;
	}
	};
	}

	#[derive(Default)]
	pub(crate) struct StabilityParser {
	allowed_through_unstable_modules: Option<Symbol>,
	stability: Option<(Stability, Span)>,
	}

	impl StabilityParser {
	/// Checks, and emits an error when a stability (or unstability) was already set, which would be a duplicate.
	fn check_duplicate<S: Stage>(&self, cx: &AcceptContext<'_, '_, S>) -> bool {
	if let Some((_, _)) = self.stability {
	cx.emit_err(session_diagnostics::MultipleStabilityLevels { span: cx.attr_span });
	true
	} else {
	false
	}
	}
	}

	impl<S: Stage> AttributeParser<S> for StabilityParser {
	const ATTRIBUTES: AcceptMapping<Self, S> = &[
	(
	&[sym::stable],
	template!(List: r#"feature = "name", since = "version""#),
	\|this, cx, args\| {
	reject_outside_std!(cx);
	if !this.check_duplicate(cx)
	&& let Some((feature, level)) = parse_stability(cx, args)
	{
	this.stability = Some((Stability { level, feature }, cx.attr_span));
	}
	},
	),
	(
	&[sym::unstable],
	template!(List: r#"feature = "name", reason = "...", issue = "N""#),
	\|this, cx, args\| {
	reject_outside_std!(cx);
	if !this.check_duplicate(cx)
	&& let Some((feature, level)) = parse_unstability(cx, args)
	{
	this.stability = Some((Stability { level, feature }, cx.attr_span));
	}
	},
	),
	(
	&[sym::rustc_allowed_through_unstable_modules],
	template!(NameValueStr: "deprecation message"),
	\|this, cx, args\| {
	reject_outside_std!(cx);
	this.allowed_through_unstable_modules =
	args.name_value().and_then(\|i\| i.value_as_str())
	},
	),
	];

	fn finalize(mut self, cx: &FinalizeContext<'_, '_, S>) -> Option<AttributeKind> {
	if let Some(atum) = self.allowed_through_unstable_modules {
	if let Some((
	Stability {
	level: StabilityLevel::Stable { ref mut allowed_through_unstable_modules, .. },
	..
	},
	_,
	)) = self.stability
	{
	*allowed_through_unstable_modules = Some(atum);
	} else {
	cx.dcx().emit_err(session_diagnostics::RustcAllowedUnstablePairing {
	span: cx.target_span,
	});
	}
	}

	let (stability, span) = self.stability?;

	Some(AttributeKind::Stability { stability, span })
	}
	}

	// FIXME(jdonszelmann) change to Single
	#[derive(Default)]
	pub(crate) struct BodyStabilityParser {
	stability: Option<(DefaultBodyStability, Span)>,
	}

	impl<S: Stage> AttributeParser<S> for BodyStabilityParser {
	const ATTRIBUTES: AcceptMapping<Self, S> = &[(
	&[sym::rustc_default_body_unstable],
	template!(List: r#"feature = "name", reason = "...", issue = "N""#),
	\|this, cx, args\| {
	reject_outside_std!(cx);
	if this.stability.is_some() {
	cx.dcx()
	.emit_err(session_diagnostics::MultipleStabilityLevels { span: cx.attr_span });
	} else if let Some((feature, level)) = parse_unstability(cx, args) {
	this.stability = Some((DefaultBodyStability { level, feature }, cx.attr_span));
	}
	},
	)];

	fn finalize(self, _cx: &FinalizeContext<'_, '_, S>) -> Option<AttributeKind> {
	let (stability, span) = self.stability?;

	Some(AttributeKind::BodyStability { stability, span })
	}
	}

	pub(crate) struct ConstStabilityIndirectParser;
	// FIXME(jdonszelmann): single word attribute group when we have these
	impl<S: Stage> SingleAttributeParser<S> for ConstStabilityIndirectParser {
	const PATH: &[Symbol] = &[sym::rustc_const_stable_indirect];
	const ATTRIBUTE_ORDER: AttributeOrder = AttributeOrder::KeepFirst;
	const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::Ignore;
	const TEMPLATE: AttributeTemplate = template!(Word);

	fn convert(_cx: &mut AcceptContext<'_, '_, S>, _args: &ArgParser<'_>) -> Option<AttributeKind> {
	Some(AttributeKind::ConstStabilityIndirect)
	}
	}

	#[derive(Default)]
	pub(crate) struct ConstStabilityParser {
	promotable: bool,
	stability: Option<(PartialConstStability, Span)>,
	}

	impl ConstStabilityParser {
	/// Checks, and emits an error when a stability (or unstability) was already set, which would be a duplicate.
	fn check_duplicate<S: Stage>(&self, cx: &AcceptContext<'_, '_, S>) -> bool {
	if let Some((_, _)) = self.stability {
	cx.emit_err(session_diagnostics::MultipleStabilityLevels { span: cx.attr_span });
	true
	} else {
	false
	}
	}
	}

	impl<S: Stage> AttributeParser<S> for ConstStabilityParser {
	const ATTRIBUTES: AcceptMapping<Self, S> = &[
	(&[sym::rustc_const_stable], template!(List: r#"feature = "name""#), \|this, cx, args\| {
	reject_outside_std!(cx);

	if !this.check_duplicate(cx)
	&& let Some((feature, level)) = parse_stability(cx, args)
	{
	this.stability = Some((
	PartialConstStability { level, feature, promotable: false },
	cx.attr_span,
	));
	}
	}),
	(&[sym::rustc_const_unstable], template!(List: r#"feature = "name""#), \|this, cx, args\| {
	reject_outside_std!(cx);
	if !this.check_duplicate(cx)
	&& let Some((feature, level)) = parse_unstability(cx, args)
	{
	this.stability = Some((
	PartialConstStability { level, feature, promotable: false },
	cx.attr_span,
	));
	}
	}),
	(&[sym::rustc_promotable], template!(Word), \|this, cx, _\| {
	reject_outside_std!(cx);
	this.promotable = true;
	}),
	];

	fn finalize(mut self, cx: &FinalizeContext<'_, '_, S>) -> Option<AttributeKind> {
	if self.promotable {
	if let Some((ref mut stab, _)) = self.stability {
	stab.promotable = true;
	} else {
	cx.dcx()
	.emit_err(session_diagnostics::RustcPromotablePairing { span: cx.target_span });
	}
	}

	let (stability, span) = self.stability?;

	Some(AttributeKind::ConstStability { stability, span })
	}
	}

	/// Tries to insert the value of a `key = value` meta item into an option.
	///
	/// Emits an error when either the option was already Some, or the arguments weren't of form
	/// `name = value`
	fn insert_value_into_option_or_error<S: Stage>(
	cx: &AcceptContext<'_, '_, S>,
	param: &MetaItemParser<'_>,
	item: &mut Option<Symbol>,
	name: Ident,
	) -> Option<()> {
	if item.is_some() {
	cx.duplicate_key(name.span, name.name);
	None
	} else if let Some(v) = param.args().name_value()
	&& let Some(s) = v.value_as_str()
	{
	*item = Some(s);
	Some(())
	} else {
	cx.expected_name_value(param.span(), Some(name.name));
	None
	}
	}

	/// Read the content of a `stable`/`rustc_const_stable` attribute, and return the feature name and
	/// its stability information.
	pub(crate) fn parse_stability<S: Stage>(
	cx: &AcceptContext<'_, '_, S>,
	args: &ArgParser<'_>,
	) -> Option<(Symbol, StabilityLevel)> {
	let mut feature = None;
	let mut since = None;

	for param in args.list()?.mixed() {
	let param_span = param.span();
	let Some(param) = param.meta_item() else {
	cx.emit_err(session_diagnostics::UnsupportedLiteral {
	span: param_span,
	reason: UnsupportedLiteralReason::Generic,
	is_bytestr: false,
	start_point_span: cx.sess().source_map().start_point(param_span),
	});
	return None;
	};

	let word = param.path().word();
	match word.map(\|i\| i.name) {
	Some(sym::feature) => {
	insert_value_into_option_or_error(cx, &param, &mut feature, word.unwrap())?
	}
	Some(sym::since) => {
	insert_value_into_option_or_error(cx, &param, &mut since, word.unwrap())?
	}
	_ => {
	cx.emit_err(session_diagnostics::UnknownMetaItem {
	span: param_span,
	item: param.path().to_string(),
	expected: &["feature", "since"],
	});
	return None;
	}
	}
	}

	let feature = match feature {
	Some(feature) if rustc_lexer::is_ident(feature.as_str()) => Ok(feature),
	Some(_bad_feature) => {
	Err(cx.emit_err(session_diagnostics::NonIdentFeature { span: cx.attr_span }))
	}
	None => Err(cx.emit_err(session_diagnostics::MissingFeature { span: cx.attr_span })),
	};

	let since = if let Some(since) = since {
	if since.as_str() == VERSION_PLACEHOLDER {
	StableSince::Current
	} else if let Some(version) = parse_version(since) {
	StableSince::Version(version)
	} else {
	cx.emit_err(session_diagnostics::InvalidSince { span: cx.attr_span });
	StableSince::Err
	}
	} else {
	cx.emit_err(session_diagnostics::MissingSince { span: cx.attr_span });
	StableSince::Err
	};

	match feature {
	Ok(feature) => {
	let level = StabilityLevel::Stable { since, allowed_through_unstable_modules: None };
	Some((feature, level))
	}
	Err(ErrorGuaranteed { .. }) => None,
	}
	}

	// Read the content of a `unstable`/`rustc_const_unstable`/`rustc_default_body_unstable`
	/// attribute, and return the feature name and its stability information.
	pub(crate) fn parse_unstability<S: Stage>(
	cx: &AcceptContext<'_, '_, S>,
	args: &ArgParser<'_>,
	) -> Option<(Symbol, StabilityLevel)> {
	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;
	let mut old_name = None;
	for param in args.list()?.mixed() {
	let Some(param) = param.meta_item() else {
	cx.emit_err(session_diagnostics::UnsupportedLiteral {
	span: param.span(),
	reason: UnsupportedLiteralReason::Generic,
	is_bytestr: false,
	start_point_span: cx.sess().source_map().start_point(param.span()),
	});
	return None;
	};

	let word = param.path().word();
	match word.map(\|i\| i.name) {
	Some(sym::feature) => {
	insert_value_into_option_or_error(cx, &param, &mut feature, word.unwrap())?
	}
	Some(sym::reason) => {
	insert_value_into_option_or_error(cx, &param, &mut reason, word.unwrap())?
	}
	Some(sym::issue) => {
	insert_value_into_option_or_error(cx, &param, &mut issue, word.unwrap())?;

	// These unwraps are safe because `insert_value_into_option_or_error` ensures the meta item
	// is a name/value pair string literal.
	issue_num = match issue.unwrap().as_str() {
	"none" => None,
	issue_str => match issue_str.parse::<NonZero<u32>>() {
	Ok(num) => Some(num),
	Err(err) => {
	cx.emit_err(
	session_diagnostics::InvalidIssueString {
	span: param.span(),
	cause: session_diagnostics::InvalidIssueStringCause::from_int_error_kind(
	param.args().name_value().unwrap().value_span,
	err.kind(),
	),
	},
	);
	return None;
	}
	},
	};
	}
	Some(sym::soft) => {
	if !param.args().no_args() {
	cx.emit_err(session_diagnostics::SoftNoArgs { span: param.span() });
	}
	is_soft = true;
	}
	Some(sym::implied_by) => {
	insert_value_into_option_or_error(cx, &param, &mut implied_by, word.unwrap())?
	}
	Some(sym::old_name) => {
	insert_value_into_option_or_error(cx, &param, &mut old_name, word.unwrap())?
	}
	_ => {
	cx.emit_err(session_diagnostics::UnknownMetaItem {
	span: param.span(),
	item: param.path().to_string(),
	expected: &["feature", "reason", "issue", "soft", "implied_by", "old_name"],
	});
	return None;
	}
	}
	}

	let feature = match feature {
	Some(feature) if rustc_lexer::is_ident(feature.as_str()) => Ok(feature),
	Some(_bad_feature) => {
	Err(cx.emit_err(session_diagnostics::NonIdentFeature { span: cx.attr_span }))
	}
	None => Err(cx.emit_err(session_diagnostics::MissingFeature { span: cx.attr_span })),
	};

	let issue =
	issue.ok_or_else(\|\| cx.emit_err(session_diagnostics::MissingIssue { span: cx.attr_span }));

	match (feature, issue) {
	(Ok(feature), Ok(_)) => {
	let level = StabilityLevel::Unstable {
	reason: UnstableReason::from_opt_reason(reason),
	issue: issue_num,
	is_soft,
	implied_by,
	old_name,
	};
	Some((feature, level))
	}
	(Err(ErrorGuaranteed { .. }), _) \| (_, Err(ErrorGuaranteed { .. })) => None,
	}
	}