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//! Functions dealing with attributes and meta items.

mod builtin;

pub use builtin::*;
pub use IntType::*;
pub use ReprAttr::*;
pub use StabilityLevel::*;
pub use crate::ast::Attribute;

use crate::ast;
use crate::ast::{AttrItem, AttrId, AttrKind, AttrStyle, Name, Ident, Path, PathSegment};
use crate::ast::{MacArgs, MacDelimiter, MetaItem, MetaItemKind, NestedMetaItem};
use crate::ast::{Lit, LitKind, Expr, Item, Local, Stmt, StmtKind, GenericParam};
use crate::mut_visit::visit_clobber;
use crate::source_map::{BytePos, Spanned};
use crate::token::{self, Token};
use crate::ptr::P;
use crate::symbol::{sym, Symbol};
use crate::ThinVec;
use crate::tokenstream::{DelimSpan, TokenStream, TokenTree, TreeAndJoint};
use crate::GLOBALS;

use log::debug;
use syntax_pos::Span;

use std::iter;
use std::ops::DerefMut;

pub fn mark_used(attr: &Attribute) {
    debug!("marking {:?} as used", attr);
    GLOBALS.with(|globals| {
        globals.used_attrs.lock().insert(attr.id);
    });
}

pub fn is_used(attr: &Attribute) -> bool {
    GLOBALS.with(|globals| {
        globals.used_attrs.lock().contains(attr.id)
    })
}

pub fn mark_known(attr: &Attribute) {
    debug!("marking {:?} as known", attr);
    GLOBALS.with(|globals| {
        globals.known_attrs.lock().insert(attr.id);
    });
}

pub fn is_known(attr: &Attribute) -> bool {
    GLOBALS.with(|globals| {
        globals.known_attrs.lock().contains(attr.id)
    })
}

pub fn is_known_lint_tool(m_item: Ident) -> bool {
    [sym::clippy, sym::rustc].contains(&m_item.name)
}

impl NestedMetaItem {
    /// Returns the `MetaItem` if `self` is a `NestedMetaItem::MetaItem`.
    pub fn meta_item(&self) -> Option<&MetaItem> {
        match *self {
            NestedMetaItem::MetaItem(ref item) => Some(item),
            _ => None
        }
    }

    /// Returns the `Lit` if `self` is a `NestedMetaItem::Literal`s.
    pub fn literal(&self) -> Option<&Lit> {
        match *self {
            NestedMetaItem::Literal(ref lit) => Some(lit),
            _ => None
        }
    }

    /// Returns `true` if this list item is a MetaItem with a name of `name`.
    pub fn check_name(&self, name: Symbol) -> bool {
        self.meta_item().map_or(false, |meta_item| meta_item.check_name(name))
    }

    /// For a single-segment meta item, returns its name; otherwise, returns `None`.
    pub fn ident(&self) -> Option<Ident> {
        self.meta_item().and_then(|meta_item| meta_item.ident())
    }
    pub fn name_or_empty(&self) -> Symbol {
        self.ident().unwrap_or(Ident::invalid()).name
    }

    /// Gets the string value if `self` is a `MetaItem` and the `MetaItem` is a
    /// `MetaItemKind::NameValue` variant containing a string, otherwise `None`.
    pub fn value_str(&self) -> Option<Symbol> {
        self.meta_item().and_then(|meta_item| meta_item.value_str())
    }

    /// Returns a name and single literal value tuple of the `MetaItem`.
    pub fn name_value_literal(&self) -> Option<(Name, &Lit)> {
        self.meta_item().and_then(
            |meta_item| meta_item.meta_item_list().and_then(
                |meta_item_list| {
                    if meta_item_list.len() == 1 {
                        if let Some(ident) = meta_item.ident() {
                            if let Some(lit) = meta_item_list[0].literal() {
                                return Some((ident.name, lit));
                            }
                        }
                    }
                    None
                }))
    }

    /// Gets a list of inner meta items from a list `MetaItem` type.
    pub fn meta_item_list(&self) -> Option<&[NestedMetaItem]> {
        self.meta_item().and_then(|meta_item| meta_item.meta_item_list())
    }

    /// Returns `true` if the variant is `MetaItem`.
    pub fn is_meta_item(&self) -> bool {
        self.meta_item().is_some()
    }

    /// Returns `true` if the variant is `Literal`.
    pub fn is_literal(&self) -> bool {
        self.literal().is_some()
    }

    /// Returns `true` if `self` is a `MetaItem` and the meta item is a word.
    pub fn is_word(&self) -> bool {
        self.meta_item().map_or(false, |meta_item| meta_item.is_word())
    }

    /// Returns `true` if `self` is a `MetaItem` and the meta item is a `ValueString`.
    pub fn is_value_str(&self) -> bool {
        self.value_str().is_some()
    }

    /// Returns `true` if `self` is a `MetaItem` and the meta item is a list.
    pub fn is_meta_item_list(&self) -> bool {
        self.meta_item_list().is_some()
    }
}

impl Attribute {
    pub fn has_name(&self, name: Symbol) -> bool {
        match self.kind {
            AttrKind::Normal(ref item) => item.path == name,
            AttrKind::DocComment(_) => name == sym::doc,
        }
    }

    /// Returns `true` if the attribute's path matches the argument. If it matches, then the
    /// attribute is marked as used.
    pub fn check_name(&self, name: Symbol) -> bool {
        let matches = self.has_name(name);
        if matches {
            mark_used(self);
        }
        matches
    }

    /// For a single-segment attribute, returns its name; otherwise, returns `None`.
    pub fn ident(&self) -> Option<Ident> {
        match self.kind {
            AttrKind::Normal(ref item) => {
                if item.path.segments.len() == 1 {
                    Some(item.path.segments[0].ident)
                } else {
                    None
                }
            }
            AttrKind::DocComment(_) => Some(Ident::new(sym::doc, self.span)),
        }
    }
    pub fn name_or_empty(&self) -> Symbol {
        self.ident().unwrap_or(Ident::invalid()).name
    }

    pub fn value_str(&self) -> Option<Symbol> {
        match self.kind {
            AttrKind::Normal(ref item) => {
                item.meta(self.span).and_then(|meta| meta.value_str())
            }
            AttrKind::DocComment(comment) => Some(comment),
        }
    }

    pub fn meta_item_list(&self) -> Option<Vec<NestedMetaItem>> {
        match self.kind {
            AttrKind::Normal(ref item) => {
                match item.meta(self.span) {
                    Some(MetaItem { kind: MetaItemKind::List(list), .. }) => Some(list),
                    _ => None
                }
            }
            AttrKind::DocComment(_) => None,
        }
    }

    pub fn is_word(&self) -> bool {
        if let AttrKind::Normal(item) = &self.kind {
            matches!(item.args, MacArgs::Empty)
        } else {
            false
        }
    }

    pub fn is_meta_item_list(&self) -> bool {
        self.meta_item_list().is_some()
    }

    /// Indicates if the attribute is a `ValueString`.
    pub fn is_value_str(&self) -> bool {
        self.value_str().is_some()
    }
}

impl MetaItem {
    /// For a single-segment meta item, returns its name; otherwise, returns `None`.
    pub fn ident(&self) -> Option<Ident> {
        if self.path.segments.len() == 1 {
            Some(self.path.segments[0].ident)
        } else {
            None
        }
    }
    pub fn name_or_empty(&self) -> Symbol {
        self.ident().unwrap_or(Ident::invalid()).name
    }

    // Example:
    //     #[attribute(name = "value")]
    //                 ^^^^^^^^^^^^^^
    pub fn name_value_literal(&self) -> Option<&Lit> {
        match &self.kind {
            MetaItemKind::NameValue(v) => Some(v),
            _ => None,
        }
    }

    pub fn value_str(&self) -> Option<Symbol> {
        match self.kind {
            MetaItemKind::NameValue(ref v) => {
                match v.kind {
                    LitKind::Str(ref s, _) => Some(*s),
                    _ => None,
                }
            },
            _ => None
        }
    }

    pub fn meta_item_list(&self) -> Option<&[NestedMetaItem]> {
        match self.kind {
            MetaItemKind::List(ref l) => Some(&l[..]),
            _ => None
        }
    }

    pub fn is_word(&self) -> bool {
        match self.kind {
            MetaItemKind::Word => true,
            _ => false,
        }
    }

    pub fn check_name(&self, name: Symbol) -> bool {
        self.path == name
    }

    pub fn is_value_str(&self) -> bool {
        self.value_str().is_some()
    }

    pub fn is_meta_item_list(&self) -> bool {
        self.meta_item_list().is_some()
    }
}

impl AttrItem {
    pub fn meta(&self, span: Span) -> Option<MetaItem> {
        Some(MetaItem {
            path: self.path.clone(),
            kind: MetaItemKind::from_mac_args(&self.args)?,
            span,
        })
    }
}

impl Attribute {
    pub fn is_doc_comment(&self) -> bool {
        match self.kind {
            AttrKind::Normal(_) => false,
            AttrKind::DocComment(_) => true,
        }
    }

    pub fn get_normal_item(&self) -> &AttrItem {
        match self.kind {
            AttrKind::Normal(ref item) => item,
            AttrKind::DocComment(_) => panic!("unexpected sugared doc"),
        }
    }

    pub fn unwrap_normal_item(self) -> AttrItem {
        match self.kind {
            AttrKind::Normal(item) => item,
            AttrKind::DocComment(_) => panic!("unexpected sugared doc"),
        }
    }

    /// Extracts the MetaItem from inside this Attribute.
    pub fn meta(&self) -> Option<MetaItem> {
        match self.kind {
            AttrKind::Normal(ref item) => item.meta(self.span),
            AttrKind::DocComment(comment) =>
                Some(mk_name_value_item_str(Ident::new(sym::doc, self.span), comment, self.span)),
        }
    }
}

/* Constructors */

pub fn mk_name_value_item_str(ident: Ident, str: Symbol, str_span: Span) -> MetaItem {
    let lit_kind = LitKind::Str(str, ast::StrStyle::Cooked);
    mk_name_value_item(ident, lit_kind, str_span)
}

pub fn mk_name_value_item(ident: Ident, lit_kind: LitKind, lit_span: Span) -> MetaItem {
    let lit = Lit::from_lit_kind(lit_kind, lit_span);
    let span = ident.span.to(lit_span);
    MetaItem { path: Path::from_ident(ident), span, kind: MetaItemKind::NameValue(lit) }
}

pub fn mk_list_item(ident: Ident, items: Vec<NestedMetaItem>) -> MetaItem {
    MetaItem { path: Path::from_ident(ident), span: ident.span, kind: MetaItemKind::List(items) }
}

pub fn mk_word_item(ident: Ident) -> MetaItem {
    MetaItem { path: Path::from_ident(ident), span: ident.span, kind: MetaItemKind::Word }
}

pub fn mk_nested_word_item(ident: Ident) -> NestedMetaItem {
    NestedMetaItem::MetaItem(mk_word_item(ident))
}

crate fn mk_attr_id() -> AttrId {
    use std::sync::atomic::AtomicUsize;
    use std::sync::atomic::Ordering;

    static NEXT_ATTR_ID: AtomicUsize = AtomicUsize::new(0);

    let id = NEXT_ATTR_ID.fetch_add(1, Ordering::SeqCst);
    assert!(id != ::std::usize::MAX);
    AttrId(id)
}

pub fn mk_attr(style: AttrStyle, path: Path, args: MacArgs, span: Span) -> Attribute {
    mk_attr_from_item(style, AttrItem { path, args }, span)
}

pub fn mk_attr_from_item(style: AttrStyle, item: AttrItem, span: Span) -> Attribute {
    Attribute {
        kind: AttrKind::Normal(item),
        id: mk_attr_id(),
        style,
        span,
    }
}

/// Returns an inner attribute with the given value and span.
pub fn mk_attr_inner(item: MetaItem) -> Attribute {
    mk_attr(AttrStyle::Inner, item.path, item.kind.mac_args(item.span), item.span)
}

/// Returns an outer attribute with the given value and span.
pub fn mk_attr_outer(item: MetaItem) -> Attribute {
    mk_attr(AttrStyle::Outer, item.path, item.kind.mac_args(item.span), item.span)
}

pub fn mk_doc_comment(style: AttrStyle, comment: Symbol, span: Span) -> Attribute {
    Attribute {
        kind: AttrKind::DocComment(comment),
        id: mk_attr_id(),
        style,
        span,
    }
}

pub fn list_contains_name(items: &[NestedMetaItem], name: Symbol) -> bool {
    items.iter().any(|item| {
        item.check_name(name)
    })
}

pub fn contains_name(attrs: &[Attribute], name: Symbol) -> bool {
    attrs.iter().any(|item| {
        item.check_name(name)
    })
}

pub fn find_by_name(attrs: &[Attribute], name: Symbol) -> Option<&Attribute> {
    attrs.iter().find(|attr| attr.check_name(name))
}

pub fn allow_internal_unstable<'a>(
    attrs: &[Attribute],
    span_diagnostic: &'a errors::Handler,
) -> Option<impl Iterator<Item = Symbol> + 'a> {
    find_by_name(attrs, sym::allow_internal_unstable).and_then(|attr| {
        attr.meta_item_list().or_else(|| {
            span_diagnostic.span_err(
                attr.span,
                "allow_internal_unstable expects list of feature names"
            );
            None
        }).map(|features| features.into_iter().filter_map(move |it| {
            let name = it.ident().map(|ident| ident.name);
            if name.is_none() {
                span_diagnostic.span_err(
                    it.span(),
                    "`allow_internal_unstable` expects feature names",
                )
            }
            name
        }))
    })
}

pub fn filter_by_name(attrs: &[Attribute], name: Symbol)
                      -> impl Iterator<Item=&Attribute> {
    attrs.iter().filter(move |attr| attr.check_name(name))
}

pub fn first_attr_value_str_by_name(attrs: &[Attribute], name: Symbol) -> Option<Symbol> {
    attrs.iter()
        .find(|at| at.check_name(name))
        .and_then(|at| at.value_str())
}

impl MetaItem {
    fn token_trees_and_joints(&self) -> Vec<TreeAndJoint> {
        let mut idents = vec![];
        let mut last_pos = BytePos(0 as u32);
        for (i, segment) in self.path.segments.iter().enumerate() {
            let is_first = i == 0;
            if !is_first {
                let mod_sep_span = Span::new(last_pos,
                                             segment.ident.span.lo(),
                                             segment.ident.span.ctxt());
                idents.push(TokenTree::token(token::ModSep, mod_sep_span).into());
            }
            idents.push(TokenTree::Token(Token::from_ast_ident(segment.ident)).into());
            last_pos = segment.ident.span.hi();
        }
        idents.extend(self.kind.token_trees_and_joints(self.span));
        idents
    }

    fn from_tokens<I>(tokens: &mut iter::Peekable<I>) -> Option<MetaItem>
        where I: Iterator<Item = TokenTree>,
    {
        // FIXME: Share code with `parse_path`.
        let path = match tokens.next() {
            Some(TokenTree::Token(Token { kind: kind @ token::Ident(..), span })) |
            Some(TokenTree::Token(Token { kind: kind @ token::ModSep, span })) => 'arm: {
                let mut segments = if let token::Ident(name, _) = kind {
                    if let Some(TokenTree::Token(Token { kind: token::ModSep, .. }))
                            = tokens.peek() {
                        tokens.next();
                        vec![PathSegment::from_ident(Ident::new(name, span))]
                    } else {
                        break 'arm Path::from_ident(Ident::new(name, span));
                    }
                } else {
                    vec![PathSegment::path_root(span)]
                };
                loop {
                    if let Some(TokenTree::Token(Token { kind: token::Ident(name, _), span }))
                            = tokens.next() {
                        segments.push(PathSegment::from_ident(Ident::new(name, span)));
                    } else {
                        return None;
                    }
                    if let Some(TokenTree::Token(Token { kind: token::ModSep, .. }))
                            = tokens.peek() {
                        tokens.next();
                    } else {
                        break;
                    }
                }
                let span = span.with_hi(segments.last().unwrap().ident.span.hi());
                Path { span, segments }
            }
            Some(TokenTree::Token(Token { kind: token::Interpolated(nt), .. })) => match *nt {
                token::Nonterminal::NtIdent(ident, _) => Path::from_ident(ident),
                token::Nonterminal::NtMeta(ref item) => return item.meta(item.path.span),
                token::Nonterminal::NtPath(ref path) => path.clone(),
                _ => return None,
            },
            _ => return None,
        };
        let list_closing_paren_pos = tokens.peek().map(|tt| tt.span().hi());
        let kind = MetaItemKind::from_tokens(tokens)?;
        let hi = match kind {
            MetaItemKind::NameValue(ref lit) => lit.span.hi(),
            MetaItemKind::List(..) => list_closing_paren_pos.unwrap_or(path.span.hi()),
            _ => path.span.hi(),
        };
        let span = path.span.with_hi(hi);
        Some(MetaItem { path, kind, span })
    }
}

impl MetaItemKind {
    pub fn mac_args(&self, span: Span) -> MacArgs {
        match self {
            MetaItemKind::Word => MacArgs::Empty,
            MetaItemKind::NameValue(lit) => MacArgs::Eq(span, lit.token_tree().into()),
            MetaItemKind::List(list) => {
                let mut tts = Vec::new();
                for (i, item) in list.iter().enumerate() {
                    if i > 0 {
                        tts.push(TokenTree::token(token::Comma, span).into());
                    }
                    tts.extend(item.token_trees_and_joints())
                }
                MacArgs::Delimited(
                    DelimSpan::from_single(span), MacDelimiter::Parenthesis, TokenStream::new(tts)
                )
            }
        }
    }

    fn token_trees_and_joints(&self, span: Span) -> Vec<TreeAndJoint> {
        match *self {
            MetaItemKind::Word => vec![],
            MetaItemKind::NameValue(ref lit) => {
                vec![
                    TokenTree::token(token::Eq, span).into(),
                    lit.token_tree().into(),
                ]
            }
            MetaItemKind::List(ref list) => {
                let mut tokens = Vec::new();
                for (i, item) in list.iter().enumerate() {
                    if i > 0 {
                        tokens.push(TokenTree::token(token::Comma, span).into());
                    }
                    tokens.extend(item.token_trees_and_joints())
                }
                vec![
                    TokenTree::Delimited(
                        DelimSpan::from_single(span),
                        token::Paren,
                        TokenStream::new(tokens).into(),
                    ).into()
                ]
            }
        }
    }

    fn list_from_tokens(tokens: TokenStream) -> Option<MetaItemKind> {
        let mut tokens = tokens.into_trees().peekable();
        let mut result = Vec::new();
        while let Some(..) = tokens.peek() {
            let item = NestedMetaItem::from_tokens(&mut tokens)?;
            result.push(item);
            match tokens.next() {
                None | Some(TokenTree::Token(Token { kind: token::Comma, .. })) => {}
                _ => return None,
            }
        }
        Some(MetaItemKind::List(result))
    }

    fn name_value_from_tokens(
        tokens: &mut impl Iterator<Item = TokenTree>,
    ) -> Option<MetaItemKind> {
        match tokens.next() {
            Some(TokenTree::Token(token)) =>
                Lit::from_token(&token).ok().map(MetaItemKind::NameValue),
            _ => None,
        }
    }

    fn from_mac_args(args: &MacArgs) -> Option<MetaItemKind> {
        match args {
            MacArgs::Delimited(_, MacDelimiter::Parenthesis, tokens) =>
                MetaItemKind::list_from_tokens(tokens.clone()),
            MacArgs::Delimited(..) => None,
            MacArgs::Eq(_, tokens) => {
                assert!(tokens.len() == 1);
                MetaItemKind::name_value_from_tokens(&mut tokens.trees())
            }
            MacArgs::Empty => Some(MetaItemKind::Word),
        }
    }

    fn from_tokens(
        tokens: &mut iter::Peekable<impl Iterator<Item = TokenTree>>,
    ) -> Option<MetaItemKind> {
        match tokens.peek() {
            Some(TokenTree::Delimited(_, token::Paren, inner_tokens)) => {
                let inner_tokens = inner_tokens.clone();
                tokens.next();
                MetaItemKind::list_from_tokens(inner_tokens)
            }
            Some(TokenTree::Delimited(..)) => None,
            Some(TokenTree::Token(Token { kind: token::Eq, .. })) => {
                tokens.next();
                MetaItemKind::name_value_from_tokens(tokens)
            }
            _ => Some(MetaItemKind::Word),
        }
    }
}

impl NestedMetaItem {
    pub fn span(&self) -> Span {
        match *self {
            NestedMetaItem::MetaItem(ref item) => item.span,
            NestedMetaItem::Literal(ref lit) => lit.span,
        }
    }

    fn token_trees_and_joints(&self) -> Vec<TreeAndJoint> {
        match *self {
            NestedMetaItem::MetaItem(ref item) => item.token_trees_and_joints(),
            NestedMetaItem::Literal(ref lit) => vec![lit.token_tree().into()],
        }
    }

    fn from_tokens<I>(tokens: &mut iter::Peekable<I>) -> Option<NestedMetaItem>
        where I: Iterator<Item = TokenTree>,
    {
        if let Some(TokenTree::Token(token)) = tokens.peek() {
            if let Ok(lit) = Lit::from_token(token) {
                tokens.next();
                return Some(NestedMetaItem::Literal(lit));
            }
        }

        MetaItem::from_tokens(tokens).map(NestedMetaItem::MetaItem)
    }
}

pub trait HasAttrs: Sized {
    fn attrs(&self) -> &[ast::Attribute];
    fn visit_attrs<F: FnOnce(&mut Vec<ast::Attribute>)>(&mut self, f: F);
}

impl<T: HasAttrs> HasAttrs for Spanned<T> {
    fn attrs(&self) -> &[ast::Attribute] { self.node.attrs() }
    fn visit_attrs<F: FnOnce(&mut Vec<ast::Attribute>)>(&mut self, f: F) {
        self.node.visit_attrs(f);
    }
}

impl HasAttrs for Vec<Attribute> {
    fn attrs(&self) -> &[Attribute] {
        self
    }
    fn visit_attrs<F: FnOnce(&mut Vec<Attribute>)>(&mut self, f: F) {
        f(self)
    }
}

impl HasAttrs for ThinVec<Attribute> {
    fn attrs(&self) -> &[Attribute] {
        self
    }
    fn visit_attrs<F: FnOnce(&mut Vec<Attribute>)>(&mut self, f: F) {
        visit_clobber(self, |this| {
            let mut vec = this.into();
            f(&mut vec);
            vec.into()
        });
    }
}

impl<T: HasAttrs + 'static> HasAttrs for P<T> {
    fn attrs(&self) -> &[Attribute] {
        (**self).attrs()
    }
    fn visit_attrs<F: FnOnce(&mut Vec<Attribute>)>(&mut self, f: F) {
        (**self).visit_attrs(f);
    }
}

impl HasAttrs for StmtKind {
    fn attrs(&self) -> &[Attribute] {
        match *self {
            StmtKind::Local(ref local) => local.attrs(),
            StmtKind::Item(..) => &[],
            StmtKind::Expr(ref expr) | StmtKind::Semi(ref expr) => expr.attrs(),
            StmtKind::Mac(ref mac) => {
                let (_, _, ref attrs) = **mac;
                attrs.attrs()
            }
        }
    }

    fn visit_attrs<F: FnOnce(&mut Vec<Attribute>)>(&mut self, f: F) {
        match self {
            StmtKind::Local(local) => local.visit_attrs(f),
            StmtKind::Item(..) => {}
            StmtKind::Expr(expr) => expr.visit_attrs(f),
            StmtKind::Semi(expr) => expr.visit_attrs(f),
            StmtKind::Mac(mac) => {
                let (_mac, _style, attrs) = mac.deref_mut();
                attrs.visit_attrs(f);
            }
        }
    }
}

impl HasAttrs for Stmt {
    fn attrs(&self) -> &[ast::Attribute] {
        self.kind.attrs()
    }

    fn visit_attrs<F: FnOnce(&mut Vec<ast::Attribute>)>(&mut self, f: F) {
        self.kind.visit_attrs(f);
    }
}

impl HasAttrs for GenericParam {
    fn attrs(&self) -> &[ast::Attribute] {
        &self.attrs
    }

    fn visit_attrs<F: FnOnce(&mut Vec<Attribute>)>(&mut self, f: F) {
        self.attrs.visit_attrs(f);
    }
}

macro_rules! derive_has_attrs {
    ($($ty:path),*) => { $(
        impl HasAttrs for $ty {
            fn attrs(&self) -> &[Attribute] {
                &self.attrs
            }

            fn visit_attrs<F: FnOnce(&mut Vec<Attribute>)>(&mut self, f: F) {
                self.attrs.visit_attrs(f);
            }
        }
    )* }
}

derive_has_attrs! {
    Item, Expr, Local, ast::ForeignItem, ast::StructField, ast::ImplItem, ast::TraitItem, ast::Arm,
    ast::Field, ast::FieldPat, ast::Variant, ast::Param
}