| use super::prelude::*; |
| |
| pub(crate) struct CrateNameParser; |
| |
| impl<S: Stage> SingleAttributeParser<S> for CrateNameParser { |
| const PATH: &[Symbol] = &[sym::crate_name]; |
| const ATTRIBUTE_ORDER: AttributeOrder = AttributeOrder::KeepOutermost; |
| const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::WarnButFutureError; |
| const TEMPLATE: AttributeTemplate = template!(NameValueStr: "name"); |
| const ALLOWED_TARGETS: AllowedTargets = AllowedTargets::CrateLevel; |
| |
| fn convert(cx: &mut AcceptContext<'_, '_, S>, args: &ArgParser<'_>) -> Option<AttributeKind> { |
| let ArgParser::NameValue(n) = args else { |
| cx.expected_name_value(cx.attr_span, None); |
| return None; |
| }; |
| |
| let Some(name) = n.value_as_str() else { |
| cx.expected_string_literal(n.value_span, Some(n.value_as_lit())); |
| return None; |
| }; |
| |
| Some(AttributeKind::CrateName { |
| name, |
| name_span: n.value_span, |
| attr_span: cx.attr_span, |
| style: cx.attr_style, |
| }) |
| } |
| } |
| |
| pub(crate) struct RecursionLimitParser; |
| |
| impl<S: Stage> SingleAttributeParser<S> for RecursionLimitParser { |
| const PATH: &[Symbol] = &[sym::recursion_limit]; |
| const ATTRIBUTE_ORDER: AttributeOrder = AttributeOrder::KeepOutermost; |
| const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::WarnButFutureError; |
| const TEMPLATE: AttributeTemplate = template!(NameValueStr: "N", "https://doc.rust-lang.org/reference/attributes/limits.html#the-recursion_limit-attribute"); |
| const ALLOWED_TARGETS: AllowedTargets = AllowedTargets::CrateLevel; |
| |
| fn convert(cx: &mut AcceptContext<'_, '_, S>, args: &ArgParser<'_>) -> Option<AttributeKind> { |
| let ArgParser::NameValue(nv) = args else { |
| cx.expected_name_value(cx.attr_span, None); |
| return None; |
| }; |
| |
| Some(AttributeKind::RecursionLimit { |
| limit: cx.parse_limit_int(nv)?, |
| attr_span: cx.attr_span, |
| limit_span: nv.value_span, |
| }) |
| } |
| } |
| |
| pub(crate) struct MoveSizeLimitParser; |
| |
| impl<S: Stage> SingleAttributeParser<S> for MoveSizeLimitParser { |
| const PATH: &[Symbol] = &[sym::move_size_limit]; |
| const ATTRIBUTE_ORDER: AttributeOrder = AttributeOrder::KeepOutermost; |
| const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::Error; |
| const TEMPLATE: AttributeTemplate = template!(NameValueStr: "N"); |
| const ALLOWED_TARGETS: AllowedTargets = AllowedTargets::CrateLevel; |
| |
| fn convert(cx: &mut AcceptContext<'_, '_, S>, args: &ArgParser<'_>) -> Option<AttributeKind> { |
| let ArgParser::NameValue(nv) = args else { |
| cx.expected_name_value(cx.attr_span, None); |
| return None; |
| }; |
| |
| Some(AttributeKind::MoveSizeLimit { |
| limit: cx.parse_limit_int(nv)?, |
| attr_span: cx.attr_span, |
| limit_span: nv.value_span, |
| }) |
| } |
| } |
| |
| pub(crate) struct TypeLengthLimitParser; |
| |
| impl<S: Stage> SingleAttributeParser<S> for TypeLengthLimitParser { |
| const PATH: &[Symbol] = &[sym::type_length_limit]; |
| const ATTRIBUTE_ORDER: AttributeOrder = AttributeOrder::KeepOutermost; |
| const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::WarnButFutureError; |
| const TEMPLATE: AttributeTemplate = template!(NameValueStr: "N"); |
| const ALLOWED_TARGETS: AllowedTargets = AllowedTargets::CrateLevel; |
| |
| fn convert(cx: &mut AcceptContext<'_, '_, S>, args: &ArgParser<'_>) -> Option<AttributeKind> { |
| let ArgParser::NameValue(nv) = args else { |
| cx.expected_name_value(cx.attr_span, None); |
| return None; |
| }; |
| |
| Some(AttributeKind::TypeLengthLimit { |
| limit: cx.parse_limit_int(nv)?, |
| attr_span: cx.attr_span, |
| limit_span: nv.value_span, |
| }) |
| } |
| } |
| |
| pub(crate) struct PatternComplexityLimitParser; |
| |
| impl<S: Stage> SingleAttributeParser<S> for PatternComplexityLimitParser { |
| const PATH: &[Symbol] = &[sym::pattern_complexity_limit]; |
| const ATTRIBUTE_ORDER: AttributeOrder = AttributeOrder::KeepOutermost; |
| const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::Error; |
| const TEMPLATE: AttributeTemplate = template!(NameValueStr: "N"); |
| const ALLOWED_TARGETS: AllowedTargets = AllowedTargets::CrateLevel; |
| |
| fn convert(cx: &mut AcceptContext<'_, '_, S>, args: &ArgParser<'_>) -> Option<AttributeKind> { |
| let ArgParser::NameValue(nv) = args else { |
| cx.expected_name_value(cx.attr_span, None); |
| return None; |
| }; |
| |
| Some(AttributeKind::PatternComplexityLimit { |
| limit: cx.parse_limit_int(nv)?, |
| attr_span: cx.attr_span, |
| limit_span: nv.value_span, |
| }) |
| } |
| } |
| |
| pub(crate) struct NoCoreParser; |
| |
| impl<S: Stage> NoArgsAttributeParser<S> for NoCoreParser { |
| const PATH: &[Symbol] = &[sym::no_core]; |
| const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::Warn; |
| const ALLOWED_TARGETS: AllowedTargets = AllowedTargets::CrateLevel; |
| const CREATE: fn(Span) -> AttributeKind = AttributeKind::NoCore; |
| } |
| |
| pub(crate) struct NoStdParser; |
| |
| impl<S: Stage> NoArgsAttributeParser<S> for NoStdParser { |
| const PATH: &[Symbol] = &[sym::no_std]; |
| const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::Warn; |
| const ALLOWED_TARGETS: AllowedTargets = AllowedTargets::CrateLevel; |
| const CREATE: fn(Span) -> AttributeKind = AttributeKind::NoStd; |
| } |
| |
| pub(crate) struct RustcCoherenceIsCoreParser; |
| |
| impl<S: Stage> NoArgsAttributeParser<S> for RustcCoherenceIsCoreParser { |
| const PATH: &[Symbol] = &[sym::rustc_coherence_is_core]; |
| const ON_DUPLICATE: OnDuplicate<S> = OnDuplicate::Error; |
| const ALLOWED_TARGETS: AllowedTargets = AllowedTargets::CrateLevel; |
| const CREATE: fn(Span) -> AttributeKind = AttributeKind::RustcCoherenceIsCore; |
| } |
