1use std::ops::Range;
2
3use rustc_errors::E0232;
4use rustc_hir::AttrPath;
5use rustc_hir::attrs::diagnostic::{
6 Directive, FilterFormatString, Flag, FormatArg, FormatString, LitOrArg, Name, NameValue,
7 OnUnimplementedCondition, Piece, Predicate,
8};
9use rustc_hir::lints::{AttributeLintKind, FormatWarning};
10use rustc_macros::Diagnostic;
11use rustc_parse_format::{
12 Argument, FormatSpec, ParseError, ParseMode, Parser, Piece as RpfPiece, Position,
13};
14use rustc_session::lint::builtin::{
15 MALFORMED_DIAGNOSTIC_ATTRIBUTES, MALFORMED_DIAGNOSTIC_FORMAT_LITERALS,
16};
17use rustc_span::{Ident, InnerSpan, Span, Symbol, kw, sym};
18use thin_vec::{ThinVec, thin_vec};
19
20use crate::context::{AcceptContext, Stage};
21use crate::parser::{ArgParser, MetaItemListParser, MetaItemOrLitParser, MetaItemParser};
22
23pub(crate) mod do_not_recommend;
24pub(crate) mod on_const;
25pub(crate) mod on_move;
26pub(crate) mod on_unimplemented;
27
28#[derive(#[automatically_derived]
impl ::core::marker::Copy for Mode { }Copy, #[automatically_derived]
impl ::core::clone::Clone for Mode {
#[inline]
fn clone(&self) -> Mode { *self }
}Clone)]
29pub(crate) enum Mode {
30 RustcOnUnimplemented,
32 DiagnosticOnUnimplemented,
34 DiagnosticOnConst,
36 DiagnosticOnMove,
38}
39
40fn merge_directives<S: Stage>(
41 cx: &mut AcceptContext<'_, '_, S>,
42 first: &mut Option<(Span, Directive)>,
43 later: (Span, Directive),
44) {
45 if let Some((_, first)) = first {
46 if first.is_rustc_attr || later.1.is_rustc_attr {
47 cx.emit_err(DupesNotAllowed);
48 }
49
50 merge(cx, &mut first.message, later.1.message, sym::message);
51 merge(cx, &mut first.label, later.1.label, sym::label);
52 first.notes.extend(later.1.notes);
53 } else {
54 *first = Some(later);
55 }
56}
57
58fn merge<T, S: Stage>(
59 cx: &mut AcceptContext<'_, '_, S>,
60 first: &mut Option<(Span, T)>,
61 later: Option<(Span, T)>,
62 option_name: Symbol,
63) {
64 match (first, later) {
65 (Some(_) | None, None) => {}
66 (Some((first_span, _)), Some((later_span, _))) => {
67 cx.emit_lint(
68 MALFORMED_DIAGNOSTIC_ATTRIBUTES,
69 AttributeLintKind::IgnoredDiagnosticOption {
70 first_span: *first_span,
71 later_span,
72 option_name,
73 },
74 later_span,
75 );
76 }
77 (first @ None, Some(later)) => {
78 first.get_or_insert(later);
79 }
80 }
81}
82
83fn parse_directive_items<'p, S: Stage>(
84 cx: &mut AcceptContext<'_, '_, S>,
85 mode: Mode,
86 items: impl Iterator<Item = &'p MetaItemOrLitParser>,
87 is_root: bool,
88) -> Option<Directive> {
89 let condition = None;
90 let mut message: Option<(Span, _)> = None;
91 let mut label: Option<(Span, _)> = None;
92 let mut notes = ThinVec::new();
93 let mut parent_label = None;
94 let mut subcommands = ThinVec::new();
95
96 for item in items {
97 let span = item.span();
98
99 macro malformed() {{
100 match mode {
101 Mode::RustcOnUnimplemented => {
102 cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
103 }
104 Mode::DiagnosticOnUnimplemented => {
105 cx.emit_lint(
106 MALFORMED_DIAGNOSTIC_ATTRIBUTES,
107 AttributeLintKind::MalformedOnUnimplementedAttr { span },
108 span,
109 );
110 }
111 Mode::DiagnosticOnConst => {
112 cx.emit_lint(
113 MALFORMED_DIAGNOSTIC_ATTRIBUTES,
114 AttributeLintKind::MalformedOnConstAttr { span },
115 span,
116 );
117 }
118 Mode::DiagnosticOnMove => {
119 cx.emit_lint(
120 MALFORMED_DIAGNOSTIC_ATTRIBUTES,
121 AttributeLintKind::MalformedOnMoveAttr { span },
122 span,
123 );
124 }
125 }
126 continue;
127 }}
128
129 macro or_malformed($($code:tt)*) {{
130 let Some(ret) = (||{
131 Some($($code)*)
132 })() else {
133 malformed!()
134 };
135 ret
136 }}
137
138 macro duplicate($name: ident, $($first_span:tt)*) {{
139 match mode {
140 Mode::RustcOnUnimplemented => {
141 cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
142 }
143 Mode::DiagnosticOnUnimplemented |Mode::DiagnosticOnConst | Mode::DiagnosticOnMove => {
144 cx.emit_lint(
145 MALFORMED_DIAGNOSTIC_ATTRIBUTES,
146 AttributeLintKind::IgnoredDiagnosticOption {
147 first_span: $($first_span)*,
148 later_span: span,
149 option_name: $name,
150 },
151 span,
152 );
153 }
154 }
155 }}
156
157 let item: &MetaItemParser = {
let Some(ret) =
(||
{
Some(item.meta_item()?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(item.meta_item()?);
158 let name = {
let Some(ret) =
(||
{
Some(item.ident()?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(item.ident()?).name;
159
160 let value: Option<Ident> = match item.args().name_value() {
168 Some(nv) => Some({
let Some(ret) =
(||
{
Some(nv.value_as_ident()?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(nv.value_as_ident()?)),
169 None => None,
170 };
171
172 let mut parse_format = |input: Ident| {
173 let snippet = cx.sess.source_map().span_to_snippet(input.span).ok();
174 let is_snippet = snippet.is_some();
175 match parse_format_string(input.name, snippet, input.span, mode) {
176 Ok((f, warnings)) => {
177 for warning in warnings {
178 let (FormatWarning::InvalidSpecifier { span, .. }
179 | FormatWarning::PositionalArgument { span, .. }) = warning;
180 cx.emit_lint(
181 MALFORMED_DIAGNOSTIC_FORMAT_LITERALS,
182 AttributeLintKind::MalformedDiagnosticFormat { warning },
183 span,
184 );
185 }
186
187 f
188 }
189 Err(e) => {
190 cx.emit_lint(
191 MALFORMED_DIAGNOSTIC_FORMAT_LITERALS,
192 AttributeLintKind::DiagnosticWrappedParserError {
193 description: e.description,
194 label: e.label,
195 span: slice_span(input.span, e.span, is_snippet),
196 },
197 input.span,
198 );
199 FormatString {
201 input: input.name,
202 span: input.span,
203 pieces: {
let len = [()].len();
let mut vec = ::thin_vec::ThinVec::with_capacity(len);
vec.push(Piece::Lit(input.name));
vec
}thin_vec![Piece::Lit(input.name)],
204 }
205 }
206 }
207 };
208 match (mode, name) {
209 (_, sym::message) => {
210 let value = {
let Some(ret) =
(||
{
Some(value?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(value?);
211 if let Some(message) = &message {
212 {
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented | Mode::DiagnosticOnConst |
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::IgnoredDiagnosticOption {
first_span: message.0,
later_span: span,
option_name: name,
}, span);
}
}
}duplicate!(name, message.0)
213 } else {
214 message = Some((item.span(), parse_format(value)));
215 }
216 }
217 (_, sym::label) => {
218 let value = {
let Some(ret) =
(||
{
Some(value?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(value?);
219 if let Some(label) = &label {
220 {
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented | Mode::DiagnosticOnConst |
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::IgnoredDiagnosticOption {
first_span: label.0,
later_span: span,
option_name: name,
}, span);
}
}
}duplicate!(name, label.0)
221 } else {
222 label = Some((item.span(), parse_format(value)));
223 }
224 }
225 (_, sym::note) => {
226 let value = {
let Some(ret) =
(||
{
Some(value?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(value?);
227 notes.push(parse_format(value))
228 }
229 (Mode::RustcOnUnimplemented, sym::parent_label) => {
230 let value = {
let Some(ret) =
(||
{
Some(value?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(value?);
231 if parent_label.is_none() {
232 parent_label = Some(parse_format(value));
233 } else {
234 {
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented | Mode::DiagnosticOnConst |
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::IgnoredDiagnosticOption {
first_span: span,
later_span: span,
option_name: name,
}, span);
}
}
}duplicate!(name, span)
235 }
236 }
237 (Mode::RustcOnUnimplemented, sym::on) => {
238 if is_root {
239 let items = {
let Some(ret) =
(||
{
Some(item.args().list()?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(item.args().list()?);
240 let mut iter = items.mixed();
241 let condition: &MetaItemOrLitParser = match iter.next() {
242 Some(c) => c,
243 None => {
244 cx.emit_err(InvalidOnClause::Empty { span });
245 continue;
246 }
247 };
248
249 let condition = parse_condition(condition);
250
251 if items.len() < 2 {
252 {
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
};malformed!();
255 }
256
257 let mut directive =
258 {
let Some(ret) =
(||
{
Some(parse_directive_items(cx, mode, iter, false)?)
})() else {
{
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
}
};
ret
}or_malformed!(parse_directive_items(cx, mode, iter, false)?);
259
260 match condition {
261 Ok(c) => {
262 directive.condition = Some(c);
263 subcommands.push(directive);
264 }
265 Err(e) => {
266 cx.emit_err(e);
267 }
268 }
269 } else {
270 {
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
};malformed!();
271 }
272 }
273
274 _other => {
275 {
match mode {
Mode::RustcOnUnimplemented => {
cx.emit_err(NoValueInOnUnimplemented { span: item.span() });
}
Mode::DiagnosticOnUnimplemented => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnUnimplementedAttr { span },
span);
}
Mode::DiagnosticOnConst => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnConstAttr { span }, span);
}
Mode::DiagnosticOnMove => {
cx.emit_lint(MALFORMED_DIAGNOSTIC_ATTRIBUTES,
AttributeLintKind::MalformedOnMoveAttr { span }, span);
}
}
continue;
};malformed!();
276 }
277 }
278 }
279
280 Some(Directive {
281 is_rustc_attr: #[allow(non_exhaustive_omitted_patterns)] match mode {
Mode::RustcOnUnimplemented => true,
_ => false,
}matches!(mode, Mode::RustcOnUnimplemented),
282 condition,
283 subcommands,
284 message,
285 label,
286 notes,
287 parent_label,
288 })
289}
290
291pub(crate) fn parse_format_string(
292 input: Symbol,
293 snippet: Option<String>,
294 span: Span,
295 mode: Mode,
296) -> Result<(FormatString, Vec<FormatWarning>), ParseError> {
297 let s = input.as_str();
298 let mut parser = Parser::new(s, None, snippet, false, ParseMode::Diagnostic);
299 let pieces: Vec<_> = parser.by_ref().collect();
300
301 if let Some(err) = parser.errors.into_iter().next() {
302 return Err(err);
303 }
304 let mut warnings = Vec::new();
305
306 let pieces = pieces
307 .into_iter()
308 .map(|piece| match piece {
309 RpfPiece::Lit(lit) => Piece::Lit(Symbol::intern(lit)),
310 RpfPiece::NextArgument(arg) => {
311 warn_on_format_spec(&arg.format, &mut warnings, span, parser.is_source_literal);
312 let arg = parse_arg(&arg, mode, &mut warnings, span, parser.is_source_literal);
313 Piece::Arg(arg)
314 }
315 })
316 .collect();
317
318 Ok((FormatString { input, pieces, span }, warnings))
319}
320
321fn parse_arg(
322 arg: &Argument<'_>,
323 mode: Mode,
324 warnings: &mut Vec<FormatWarning>,
325 input_span: Span,
326 is_source_literal: bool,
327) -> FormatArg {
328 let span = slice_span(input_span, arg.position_span.clone(), is_source_literal);
329
330 match arg.position {
331 Position::ArgumentNamed(name) => match (mode, Symbol::intern(name)) {
333 (Mode::RustcOnUnimplemented { .. }, sym::ItemContext) => FormatArg::ItemContext,
335 (Mode::RustcOnUnimplemented { .. }, sym::This) => FormatArg::This,
336 (Mode::RustcOnUnimplemented { .. }, sym::Trait) => FormatArg::Trait,
337 (_, kw::SelfUpper) => FormatArg::SelfUpper,
339 (_, generic_param) => FormatArg::GenericParam { generic_param, span },
340 },
341
342 Position::ArgumentIs(idx) => {
344 warnings.push(FormatWarning::PositionalArgument {
345 span,
346 help: ::alloc::__export::must_use({
::alloc::fmt::format(format_args!("use `{{{0}}}` to print a number in braces",
idx))
})format!("use `{{{idx}}}` to print a number in braces"),
347 });
348 FormatArg::AsIs(Symbol::intern(&::alloc::__export::must_use({
::alloc::fmt::format(format_args!("{{{0}}}", idx))
})format!("{{{idx}}}")))
349 }
350 Position::ArgumentImplicitlyIs(_) => {
351 warnings.push(FormatWarning::PositionalArgument {
352 span,
353 help: String::from("use `{{}}` to print empty braces"),
354 });
355 FormatArg::AsIs(sym::empty_braces)
356 }
357 }
358}
359
360fn warn_on_format_spec(
363 spec: &FormatSpec<'_>,
364 warnings: &mut Vec<FormatWarning>,
365 input_span: Span,
366 is_source_literal: bool,
367) {
368 if spec.ty != "" {
369 let span = spec
370 .ty_span
371 .as_ref()
372 .map(|inner| slice_span(input_span, inner.clone(), is_source_literal))
373 .unwrap_or(input_span);
374 warnings.push(FormatWarning::InvalidSpecifier { span, name: spec.ty.into() })
375 }
376}
377
378fn slice_span(input: Span, Range { start, end }: Range<usize>, is_source_literal: bool) -> Span {
379 if is_source_literal { input.from_inner(InnerSpan { start, end }) } else { input }
380}
381
382pub(crate) fn parse_condition(
383 input: &MetaItemOrLitParser,
384) -> Result<OnUnimplementedCondition, InvalidOnClause> {
385 let span = input.span();
386 let pred = parse_predicate(input)?;
387 Ok(OnUnimplementedCondition { span, pred })
388}
389
390fn parse_predicate(input: &MetaItemOrLitParser) -> Result<Predicate, InvalidOnClause> {
391 let Some(meta_item) = input.meta_item() else {
392 return Err(InvalidOnClause::UnsupportedLiteral { span: input.span() });
393 };
394
395 let Some(predicate) = meta_item.ident() else {
396 return Err(InvalidOnClause::ExpectedIdentifier {
397 span: meta_item.path().span(),
398 path: meta_item.path().get_attribute_path(),
399 });
400 };
401
402 match meta_item.args() {
403 ArgParser::List(mis) => match predicate.name {
404 sym::any => Ok(Predicate::Any(parse_predicate_sequence(mis)?)),
405 sym::all => Ok(Predicate::All(parse_predicate_sequence(mis)?)),
406 sym::not => {
407 if let Some(single) = mis.single() {
408 Ok(Predicate::Not(Box::new(parse_predicate(single)?)))
409 } else {
410 Err(InvalidOnClause::ExpectedOnePredInNot { span: mis.span })
411 }
412 }
413 invalid_pred => {
414 Err(InvalidOnClause::InvalidPredicate { span: predicate.span, invalid_pred })
415 }
416 },
417 ArgParser::NameValue(p) => {
418 let Some(value) = p.value_as_ident() else {
419 return Err(InvalidOnClause::UnsupportedLiteral { span: p.args_span() });
420 };
421 let name = parse_name(predicate.name);
422 let value = parse_filter(value.name);
423 let kv = NameValue { name, value };
424 Ok(Predicate::Match(kv))
425 }
426 ArgParser::NoArgs => {
427 let flag = parse_flag(predicate)?;
428 Ok(Predicate::Flag(flag))
429 }
430 }
431}
432
433fn parse_predicate_sequence(
434 sequence: &MetaItemListParser,
435) -> Result<ThinVec<Predicate>, InvalidOnClause> {
436 sequence.mixed().map(parse_predicate).collect()
437}
438
439fn parse_flag(Ident { name, span }: Ident) -> Result<Flag, InvalidOnClause> {
440 match name {
441 sym::crate_local => Ok(Flag::CrateLocal),
442 sym::direct => Ok(Flag::Direct),
443 sym::from_desugaring => Ok(Flag::FromDesugaring),
444 invalid_flag => Err(InvalidOnClause::InvalidFlag { invalid_flag, span }),
445 }
446}
447
448fn parse_name(name: Symbol) -> Name {
449 match name {
450 kw::SelfUpper => Name::SelfUpper,
451 sym::from_desugaring => Name::FromDesugaring,
452 sym::cause => Name::Cause,
453 generic => Name::GenericArg(generic),
454 }
455}
456
457fn parse_filter(input: Symbol) -> FilterFormatString {
458 let pieces = Parser::new(input.as_str(), None, None, false, ParseMode::Diagnostic)
459 .map(|p| match p {
460 RpfPiece::Lit(s) => LitOrArg::Lit(Symbol::intern(s)),
461 RpfPiece::NextArgument(a) => match a.position {
463 Position::ArgumentNamed(
471 arg @ ("integer" | "integral" | "float" | "union" | "enum" | "struct"),
472 ) => LitOrArg::Lit(Symbol::intern(&::alloc::__export::must_use({
::alloc::fmt::format(format_args!("{{{0}}}", arg))
})format!("{{{arg}}}"))),
473
474 Position::ArgumentNamed(arg) => LitOrArg::Arg(Symbol::intern(arg)),
475 Position::ArgumentImplicitlyIs(_) => LitOrArg::Lit(sym::empty_braces),
476 Position::ArgumentIs(idx) => LitOrArg::Lit(Symbol::intern(&::alloc::__export::must_use({
::alloc::fmt::format(format_args!("{{{0}}}", idx))
})format!("{{{idx}}}"))),
477 },
478 })
479 .collect();
480 FilterFormatString { pieces }
481}
482
483#[derive(const _: () =
{
impl<'_sess, G> rustc_errors::Diagnostic<'_sess, G> for
InvalidOnClause where G: rustc_errors::EmissionGuarantee {
#[track_caller]
fn into_diag(self, dcx: rustc_errors::DiagCtxtHandle<'_sess>,
level: rustc_errors::Level) -> rustc_errors::Diag<'_sess, G> {
match self {
InvalidOnClause::Empty { span: __binding_0 } => {
let mut diag =
rustc_errors::Diag::new(dcx, level,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("empty `on`-clause in `#[rustc_on_unimplemented]`")));
diag.code(E0232);
;
diag.span(__binding_0);
diag.span_label(__binding_0,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("empty `on`-clause here")));
diag
}
InvalidOnClause::ExpectedOnePredInNot { span: __binding_0 }
=> {
let mut diag =
rustc_errors::Diag::new(dcx, level,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("expected a single predicate in `not(..)`")));
diag.code(E0232);
;
diag.span(__binding_0);
diag.span_label(__binding_0,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("unexpected quantity of predicates here")));
diag
}
InvalidOnClause::UnsupportedLiteral { span: __binding_0 } =>
{
let mut diag =
rustc_errors::Diag::new(dcx, level,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("literals inside `on`-clauses are not supported")));
diag.code(E0232);
;
diag.span(__binding_0);
diag.span_label(__binding_0,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("unexpected literal here")));
diag
}
InvalidOnClause::ExpectedIdentifier {
span: __binding_0, path: __binding_1 } => {
let mut diag =
rustc_errors::Diag::new(dcx, level,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("expected an identifier inside this `on`-clause")));
diag.code(E0232);
;
diag.arg("path", __binding_1);
diag.span(__binding_0);
diag.span_label(__binding_0,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("expected an identifier here, not `{$path}`")));
diag
}
InvalidOnClause::InvalidPredicate {
span: __binding_0, invalid_pred: __binding_1 } => {
let mut diag =
rustc_errors::Diag::new(dcx, level,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("this predicate is invalid")));
diag.code(E0232);
;
diag.arg("invalid_pred", __binding_1);
diag.span(__binding_0);
diag.span_label(__binding_0,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("expected one of `any`, `all` or `not` here, not `{$invalid_pred}`")));
diag
}
InvalidOnClause::InvalidFlag {
span: __binding_0, invalid_flag: __binding_1 } => {
let mut diag =
rustc_errors::Diag::new(dcx, level,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("invalid flag in `on`-clause")));
diag.code(E0232);
;
diag.arg("invalid_flag", __binding_1);
diag.span(__binding_0);
diag.span_label(__binding_0,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("expected one of the `crate_local`, `direct` or `from_desugaring` flags, not `{$invalid_flag}`")));
diag
}
}
}
}
};Diagnostic)]
484pub(crate) enum InvalidOnClause {
485 #[diag("empty `on`-clause in `#[rustc_on_unimplemented]`", code = E0232)]
486 Empty {
487 #[primary_span]
488 #[label("empty `on`-clause here")]
489 span: Span,
490 },
491 #[diag("expected a single predicate in `not(..)`", code = E0232)]
492 ExpectedOnePredInNot {
493 #[primary_span]
494 #[label("unexpected quantity of predicates here")]
495 span: Span,
496 },
497 #[diag("literals inside `on`-clauses are not supported", code = E0232)]
498 UnsupportedLiteral {
499 #[primary_span]
500 #[label("unexpected literal here")]
501 span: Span,
502 },
503 #[diag("expected an identifier inside this `on`-clause", code = E0232)]
504 ExpectedIdentifier {
505 #[primary_span]
506 #[label("expected an identifier here, not `{$path}`")]
507 span: Span,
508 path: AttrPath,
509 },
510 #[diag("this predicate is invalid", code = E0232)]
511 InvalidPredicate {
512 #[primary_span]
513 #[label("expected one of `any`, `all` or `not` here, not `{$invalid_pred}`")]
514 span: Span,
515 invalid_pred: Symbol,
516 },
517 #[diag("invalid flag in `on`-clause", code = E0232)]
518 InvalidFlag {
519 #[primary_span]
520 #[label(
521 "expected one of the `crate_local`, `direct` or `from_desugaring` flags, not `{$invalid_flag}`"
522 )]
523 span: Span,
524 invalid_flag: Symbol,
525 },
526}
527
528#[derive(const _: () =
{
impl<'_sess, G> rustc_errors::Diagnostic<'_sess, G> for
NoValueInOnUnimplemented where G: rustc_errors::EmissionGuarantee
{
#[track_caller]
fn into_diag(self, dcx: rustc_errors::DiagCtxtHandle<'_sess>,
level: rustc_errors::Level) -> rustc_errors::Diag<'_sess, G> {
match self {
NoValueInOnUnimplemented { span: __binding_0 } => {
let mut diag =
rustc_errors::Diag::new(dcx, level,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("this attribute must have a value")));
diag.code(E0232);
diag.note(rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("e.g. `#[rustc_on_unimplemented(message=\"foo\")]`")));
;
diag.span(__binding_0);
diag.span_label(__binding_0,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("expected value here")));
diag
}
}
}
}
};Diagnostic)]
529#[diag("this attribute must have a value", code = E0232)]
530#[note("e.g. `#[rustc_on_unimplemented(message=\"foo\")]`")]
531pub(crate) struct NoValueInOnUnimplemented {
532 #[primary_span]
533 #[label("expected value here")]
534 pub span: Span,
535}
536
537#[derive(const _: () =
{
impl<'_sess, G> rustc_errors::Diagnostic<'_sess, G> for
DupesNotAllowed where G: rustc_errors::EmissionGuarantee {
#[track_caller]
fn into_diag(self, dcx: rustc_errors::DiagCtxtHandle<'_sess>,
level: rustc_errors::Level) -> rustc_errors::Diag<'_sess, G> {
match self {
DupesNotAllowed => {
let mut diag =
rustc_errors::Diag::new(dcx, level,
rustc_errors::DiagMessage::Inline(std::borrow::Cow::Borrowed("using multiple `rustc_on_unimplemented` (or mixing it with `diagnostic::on_unimplemented`) is not supported")));
;
diag
}
}
}
}
};Diagnostic)]
538#[diag(
539 "using multiple `rustc_on_unimplemented` (or mixing it with `diagnostic::on_unimplemented`) is not supported"
540)]
541pub(crate) struct DupesNotAllowed;