use crate::{errors, parse_in};
use rustc_ast::token::Delimiter;
use rustc_ast::tokenstream::DelimSpan;
use rustc_ast::MetaItemKind;
use rustc_ast::{self as ast, AttrArgs, AttrArgsEq, Attribute, DelimArgs, MetaItem};
use rustc_errors::{Applicability, FatalError, PResult};
use rustc_feature::{AttributeTemplate, BuiltinAttribute, BUILTIN_ATTRIBUTE_MAP};
use rustc_session::errors::report_lit_error;
use rustc_session::lint::builtin::ILL_FORMED_ATTRIBUTE_INPUT;
use rustc_session::parse::ParseSess;
use rustc_span::{sym, Span, Symbol};
pub fn check_attr(psess: &ParseSess, attr: &Attribute) {
if attr.is_doc_comment() {
return;
}
let attr_info = attr.ident().and_then(|ident| BUILTIN_ATTRIBUTE_MAP.get(&ident.name));
match attr_info {
Some(BuiltinAttribute { name, template, .. }) if *name != sym::rustc_dummy => {
check_builtin_attribute(psess, attr, *name, *template)
}
_ if let AttrArgs::Eq(..) = attr.get_normal_item().args => {
parse_meta(psess, attr)
.map_err(|err| {
err.emit();
})
.ok();
}
_ => {}
}
}
pub fn parse_meta<'a>(psess: &'a ParseSess, attr: &Attribute) -> PResult<'a, MetaItem> {
let item = attr.get_normal_item();
Ok(MetaItem {
span: attr.span,
path: item.path.clone(),
kind: match &item.args {
AttrArgs::Empty => MetaItemKind::Word,
AttrArgs::Delimited(DelimArgs { dspan, delim, tokens }) => {
check_meta_bad_delim(psess, *dspan, *delim);
let nmis =
parse_in(psess, tokens.clone(), "meta list", |p| p.parse_meta_seq_top())?;
MetaItemKind::List(nmis)
}
AttrArgs::Eq(_, AttrArgsEq::Ast(expr)) => {
if let ast::ExprKind::Lit(token_lit) = expr.kind {
let res = ast::MetaItemLit::from_token_lit(token_lit, expr.span);
let res = match res {
Ok(lit) => {
if token_lit.suffix.is_some() {
let mut err = psess.dcx.struct_span_err(
expr.span,
"suffixed literals are not allowed in attributes",
);
err.help(
"instead of using a suffixed literal (`1u8`, `1.0f32`, etc.), \
use an unsuffixed version (`1`, `1.0`, etc.)",
);
return Err(err);
} else {
MetaItemKind::NameValue(lit)
}
}
Err(err) => {
let guar = report_lit_error(psess, err, token_lit, expr.span);
let lit = ast::MetaItemLit {
symbol: token_lit.symbol,
suffix: token_lit.suffix,
kind: ast::LitKind::Err(guar),
span: expr.span,
};
MetaItemKind::NameValue(lit)
}
};
res
} else {
let msg = "attribute value must be a literal";
let mut err = psess.dcx.struct_span_err(expr.span, msg);
if let ast::ExprKind::Err(_) = expr.kind {
err.downgrade_to_delayed_bug();
}
return Err(err);
}
}
AttrArgs::Eq(_, AttrArgsEq::Hir(lit)) => MetaItemKind::NameValue(lit.clone()),
},
})
}
pub fn check_meta_bad_delim(psess: &ParseSess, span: DelimSpan, delim: Delimiter) {
if let Delimiter::Parenthesis = delim {
return;
}
psess.dcx.emit_err(errors::MetaBadDelim {
span: span.entire(),
sugg: errors::MetaBadDelimSugg { open: span.open, close: span.close },
});
}
pub fn check_cfg_attr_bad_delim(psess: &ParseSess, span: DelimSpan, delim: Delimiter) {
if let Delimiter::Parenthesis = delim {
return;
}
psess.dcx.emit_err(errors::CfgAttrBadDelim {
span: span.entire(),
sugg: errors::MetaBadDelimSugg { open: span.open, close: span.close },
});
}
fn is_attr_template_compatible(template: &AttributeTemplate, meta: &ast::MetaItemKind) -> bool {
match meta {
MetaItemKind::Word => template.word,
MetaItemKind::List(..) => template.list.is_some(),
MetaItemKind::NameValue(lit) if lit.kind.is_str() => template.name_value_str.is_some(),
MetaItemKind::NameValue(..) => false,
}
}
pub fn check_builtin_attribute(
psess: &ParseSess,
attr: &Attribute,
name: Symbol,
template: AttributeTemplate,
) {
match parse_meta(psess, attr) {
Ok(meta) => check_builtin_meta_item(psess, &meta, attr.style, name, template),
Err(err) => {
err.emit();
}
}
}
pub fn check_builtin_meta_item(
psess: &ParseSess,
meta: &MetaItem,
style: ast::AttrStyle,
name: Symbol,
template: AttributeTemplate,
) {
let should_skip = |name| name == sym::cfg;
if !should_skip(name) && !is_attr_template_compatible(&template, &meta.kind) {
emit_malformed_attribute(psess, style, meta.span, name, template);
}
}
fn emit_malformed_attribute(
psess: &ParseSess,
style: ast::AttrStyle,
span: Span,
name: Symbol,
template: AttributeTemplate,
) {
let should_warn = |name| {
matches!(name, sym::doc | sym::ignore | sym::inline | sym::link | sym::test | sym::bench)
};
let error_msg = format!("malformed `{name}` attribute input");
let mut msg = "attribute must be of the form ".to_owned();
let mut suggestions = vec![];
let mut first = true;
let inner = if style == ast::AttrStyle::Inner { "!" } else { "" };
if template.word {
first = false;
let code = format!("#{inner}[{name}]");
msg.push_str(&format!("`{code}`"));
suggestions.push(code);
}
if let Some(descr) = template.list {
if !first {
msg.push_str(" or ");
}
first = false;
let code = format!("#{inner}[{name}({descr})]");
msg.push_str(&format!("`{code}`"));
suggestions.push(code);
}
if let Some(descr) = template.name_value_str {
if !first {
msg.push_str(" or ");
}
let code = format!("#{inner}[{name} = \"{descr}\"]");
msg.push_str(&format!("`{code}`"));
suggestions.push(code);
}
suggestions.sort();
if should_warn(name) {
psess.buffer_lint(ILL_FORMED_ATTRIBUTE_INPUT, span, ast::CRATE_NODE_ID, msg);
} else {
psess
.dcx
.struct_span_err(span, error_msg)
.with_span_suggestions(
span,
if suggestions.len() == 1 {
"must be of the form"
} else {
"the following are the possible correct uses"
},
suggestions,
Applicability::HasPlaceholders,
)
.emit();
}
}
pub fn emit_fatal_malformed_builtin_attribute(
psess: &ParseSess,
attr: &Attribute,
name: Symbol,
) -> ! {
let template = BUILTIN_ATTRIBUTE_MAP.get(&name).expect("builtin attr defined").template;
emit_malformed_attribute(psess, attr.style, attr.span, name, template);
FatalError.raise()
}