rustc has three diagnostic traits that can be used to create diagnostics:
Diagnostic
, LintDiagnostic
, and Subdiagnostic
. For simple diagnostics,
instead of using the Diag
API to create and emit diagnostics,
derived impls can be used. They are only suitable for simple diagnostics that
don't require much logic in deciding whether or not to add additional
subdiagnostics.
Such diagnostic can be translated into different languages and each has a slug that uniquely identifies the diagnostic.
Consider the definition of the "field already declared" diagnostic shown below:
#[derive(Diagnostic)]
#[diag(hir_analysis_field_already_declared, code = E0124)]
pub struct FieldAlreadyDeclared {
pub field_name: Ident,
#[primary_span]
#[label]
pub span: Span,
#[label(previous_decl_label)]
pub prev_span: Span,
}
Diagnostic
can only be derived on structs and enums.
Attributes that are placed on the type for structs are placed on each
variants for enums (or vice versa). Each Diagnostic
has to have one
attribute, #[diag(...)]
, applied to the struct or each enum variant.
If an error has an error code (e.g. "E0624"), then that can be specified using
the code
sub-attribute. Specifying a code
isn't mandatory, but if you are
porting a diagnostic that uses Diag
to use Diagnostic
then you should keep the code if there was one.
#[diag(..)]
must provide a slug as the first positional argument (a path to an
item in rustc_errors::fluent::*
). A slug uniquely identifies the diagnostic
and is also how the compiler knows what error message to emit (in the default
locale of the compiler, or in the locale requested by the user). See
translation documentation to learn more about how
translatable error messages are written and how slug items are generated.
In our example, the Fluent message for the "field already declared" diagnostic looks like this:
hir_analysis_field_already_declared =
field `{$field_name}` is already declared
.label = field already declared
.previous_decl_label = `{$field_name}` first declared here
hir_analysis_field_already_declared
is the slug from our example and is followed
by the diagnostic message.
Every field of the Diagnostic
which does not have an annotation is
available in Fluent messages as a variable, like field_name
in the example
above. Fields can be annotated #[skip_arg]
if this is undesired.
Using the #[primary_span]
attribute on a field (that has type Span
)
indicates the primary span of the diagnostic which will have the main message
of the diagnostic.
Diagnostics are more than just their primary message, they often include
labels, notes, help messages and suggestions, all of which can also be
specified on a Diagnostic
.
#[label]
, #[help]
, #[warning]
and #[note]
can all be applied to fields which have the
type Span
. Applying any of these attributes will create the corresponding
subdiagnostic with that Span
. These attributes will look for their
diagnostic message in a Fluent attribute attached to the primary Fluent
message. In our example, #[label]
will look for
hir_analysis_field_already_declared.label
(which has the message "field already
declared"). If there is more than one subdiagnostic of the same type, then
these attributes can also take a value that is the attribute name to look for
(e.g. previous_decl_label
in our example).
Other types have special behavior when used in a Diagnostic
derive:
- Any attribute applied to an
Option<T>
will only emit a subdiagnostic if the option isSome(..)
. - Any attribute applied to a
Vec<T>
will be repeated for each element of the vector.
#[help]
, #[warning]
and #[note]
can also be applied to the struct itself, in which case
they work exactly like when applied to fields except the subdiagnostic won't
have a Span
. These attributes can also be applied to fields of type ()
for
the same effect, which when combined with the Option
type can be used to
represent optional #[note]
/#[help]
/#[warning]
subdiagnostics.
Suggestions can be emitted using one of four field attributes:
#[suggestion(slug, code = "...", applicability = "...")]
#[suggestion_hidden(slug, code = "...", applicability = "...")]
#[suggestion_short(slug, code = "...", applicability = "...")]
#[suggestion_verbose(slug, code = "...", applicability = "...")]
Suggestions must be applied on either a Span
field or a (Span, MachineApplicability)
field. Similarly to other field attributes, the slug
specifies the Fluent attribute with the message and defaults to the equivalent
of .suggestion
. code
specifies the code that should be suggested as a
replacement and is a format string (e.g. {field_name}
would be replaced by
the value of the field_name
field of the struct), not a Fluent identifier.
applicability
can be used to specify the applicability in the attribute, it
cannot be used when the field's type contains an Applicability
.
In the end, the Diagnostic
derive will generate an implementation of
Diagnostic
that looks like the following:
impl<'a, G: EmissionGuarantee> Diagnostic<'a> for FieldAlreadyDeclared {
fn into_diag(self, dcx: &'a DiagCtxt, level: Level) -> Diag<'a, G> {
let mut diag = Diag::new(dcx, level, fluent::hir_analysis_field_already_declared);
diag.set_span(self.span);
diag.span_label(
self.span,
fluent::hir_analysis_label
);
diag.span_label(
self.prev_span,
fluent::hir_analysis_previous_decl_label
);
diag
}
}
Now that we've defined our diagnostic, how do we use it? It's quite
straightforward, just create an instance of the struct and pass it to
emit_err
(or emit_warning
):
tcx.dcx().emit_err(FieldAlreadyDeclared {
field_name: f.ident,
span: f.span,
prev_span,
});
#[derive(Diagnostic)]
and #[derive(LintDiagnostic)]
support the
following attributes:
#[diag(slug, code = "...")]
- Applied to struct or enum variant.
- Mandatory
- Defines the text and error code to be associated with the diagnostic.
- Slug (Mandatory)
- Uniquely identifies the diagnostic and corresponds to its Fluent message, mandatory.
- A path to an item in
rustc_errors::fluent
, e.g.rustc_errors::fluent::hir_analysis_field_already_declared
(rustc_errors::fluent
is implicit in the attribute, so justhir_analysis_field_already_declared
). - See translation documentation.
code = "..."
(Optional)- Specifies the error code.
#[note]
or#[note(slug)]
(Optional)- Applied to struct or struct fields of type
Span
,Option<()>
or()
. - Adds a note subdiagnostic.
- Value is a path to an item in
rustc_errors::fluent
for the note's message.- Defaults to equivalent of
.note
.
- Defaults to equivalent of
- If applied to a
Span
field, creates a spanned note.
- Applied to struct or struct fields of type
#[help]
or#[help(slug)]
(Optional)- Applied to struct or struct fields of type
Span
,Option<()>
or()
. - Adds a help subdiagnostic.
- Value is a path to an item in
rustc_errors::fluent
for the note's message.- Defaults to equivalent of
.help
.
- Defaults to equivalent of
- If applied to a
Span
field, creates a spanned help.
- Applied to struct or struct fields of type
#[label]
or#[label(slug)]
(Optional)- Applied to
Span
fields. - Adds a label subdiagnostic.
- Value is a path to an item in
rustc_errors::fluent
for the note's message.- Defaults to equivalent of
.label
.
- Defaults to equivalent of
- Applied to
#[warning]
or#[warning(slug)]
(Optional)- Applied to struct or struct fields of type
Span
,Option<()>
or()
. - Adds a warning subdiagnostic.
- Value is a path to an item in
rustc_errors::fluent
for the note's message.- Defaults to equivalent of
.warn
.
- Defaults to equivalent of
- Applied to struct or struct fields of type
#[suggestion{,_hidden,_short,_verbose}(slug, code = "...", applicability = "...")]
(Optional)- Applied to
(Span, MachineApplicability)
orSpan
fields. - Adds a suggestion subdiagnostic.
- Slug (Mandatory)
- A path to an item in
rustc_errors::fluent
, e.g.rustc_errors::fluent::hir_analysis_field_already_declared
(rustc_errors::fluent
is implicit in the attribute, so justhir_analysis_field_already_declared
). Fluent attributes for all messages exist as top-level items in that module (sohir_analysis_message.attr
is justattr
). - See translation documentation.
- Defaults to
rustc_errors::fluent::_subdiag::suggestion
(or .suggestion
in Fluent).
- A path to an item in
code = "..."
/code("...", ...)
(Mandatory)- One or multiple format strings indicating the code to be suggested as a replacement. Multiple values signify multiple possible replacements.
applicability = "..."
(Optional)- String which must be one of
machine-applicable
,maybe-incorrect
,has-placeholders
orunspecified
.
- String which must be one of
- Applied to
#[subdiagnostic]
- Applied to a type that implements
Subdiagnostic
(from#[derive(Subdiagnostic)]
). - Adds the subdiagnostic represented by the subdiagnostic struct.
- Applied to a type that implements
#[primary_span]
(Optional)- Applied to
Span
fields onSubdiagnostic
s. Not used forLintDiagnostic
s. - Indicates the primary span of the diagnostic.
- Applied to
#[skip_arg]
(Optional)- Applied to any field.
- Prevents the field from being provided as a diagnostic argument.
It is common in the compiler to write a function that conditionally adds a
specific subdiagnostic to an error if it is applicable. Oftentimes these
subdiagnostics could be represented using a diagnostic struct even if the
overall diagnostic could not. In this circumstance, the Subdiagnostic
derive can be used to represent a partial diagnostic (e.g a note, label, help or
suggestion) as a struct.
Consider the definition of the "expected return type" label shown below:
#[derive(Subdiagnostic)]
pub enum ExpectedReturnTypeLabel<'tcx> {
#[label(hir_analysis_expected_default_return_type)]
Unit {
#[primary_span]
span: Span,
},
#[label(hir_analysis_expected_return_type)]
Other {
#[primary_span]
span: Span,
expected: Ty<'tcx>,
},
}
Like Diagnostic
, Subdiagnostic
can be derived for structs or
enums. Attributes that are placed on the type for structs are placed on each
variants for enums (or vice versa). Each Subdiagnostic
should have one
attribute applied to the struct or each variant, one of:
#[label(..)]
for defining a label#[note(..)]
for defining a note#[help(..)]
for defining a help#[warning(..)]
for defining a warning#[suggestion{,_hidden,_short,_verbose}(..)]
for defining a suggestion
All of the above must provide a slug as the first positional argument (a path
to an item in rustc_errors::fluent::*
). A slug uniquely identifies the
diagnostic and is also how the compiler knows what error message to emit (in
the default locale of the compiler, or in the locale requested by the user).
See translation documentation to learn more about how
translatable error messages are written and how slug items are generated.
In our example, the Fluent message for the "expected return type" label looks like this:
hir_analysis_expected_default_return_type = expected `()` because of default return type
hir_analysis_expected_return_type = expected `{$expected}` because of return type
Using the #[primary_span]
attribute on a field (with type Span
) will denote
the primary span of the subdiagnostic. A primary span is only necessary for a
label or suggestion, which can not be spanless.
Every field of the type/variant which does not have an annotation is available
in Fluent messages as a variable. Fields can be annotated #[skip_arg]
if this
is undesired.
Like Diagnostic
, Subdiagnostic
supports Option<T>
and
Vec<T>
fields.
Suggestions can be emitted using one of four attributes on the type/variant:
#[suggestion(..., code = "...", applicability = "...")]
#[suggestion_hidden(..., code = "...", applicability = "...")]
#[suggestion_short(..., code = "...", applicability = "...")]
#[suggestion_verbose(..., code = "...", applicability = "...")]
Suggestions require #[primary_span]
be set on a field and can have the
following sub-attributes:
- The first positional argument specifies the path to a item in
rustc_errors::fluent
corresponding to the Fluent attribute with the message and defaults to the equivalent of.suggestion
. code
specifies the code that should be suggested as a replacement and is a format string (e.g.{field_name}
would be replaced by the value of thefield_name
field of the struct), not a Fluent identifier.applicability
can be used to specify the applicability in the attribute, it cannot be used when the field's type contains anApplicability
.
Applicabilities can also be specified as a field (of type Applicability
)
using the #[applicability]
attribute.
In the end, the Subdiagnostic
derive will generate an implementation
of Subdiagnostic
that looks like the following:
impl<'tcx> Subdiagnostic for ExpectedReturnTypeLabel<'tcx> {
fn add_to_diag(self, diag: &mut rustc_errors::Diagnostic) {
use rustc_errors::{Applicability, IntoDiagArg};
match self {
ExpectedReturnTypeLabel::Unit { span } => {
diag.span_label(span, rustc_errors::fluent::hir_analysis_expected_default_return_type)
}
ExpectedReturnTypeLabel::Other { span, expected } => {
diag.set_arg("expected", expected);
diag.span_label(span, rustc_errors::fluent::hir_analysis_expected_return_type)
}
}
}
}
Once defined, a subdiagnostic can be used by passing it to the subdiagnostic
function (example and example) on a
diagnostic or by assigning it to a #[subdiagnostic]
-annotated field of a
diagnostic struct.
#[derive(Subdiagnostic)]
supports the following attributes:
#[label(slug)]
,#[help(slug)]
,#[warning(slug)]
or#[note(slug)]
- Applied to struct or enum variant. Mutually exclusive with struct/enum variant attributes.
- Mandatory
- Defines the type to be representing a label, help or note.
- Slug (Mandatory)
- Uniquely identifies the diagnostic and corresponds to its Fluent message, mandatory.
- A path to an item in
rustc_errors::fluent
, e.g.rustc_errors::fluent::hir_analysis_field_already_declared
(rustc_errors::fluent
is implicit in the attribute, so justhir_analysis_field_already_declared
). - See translation documentation.
#[suggestion{,_hidden,_short,_verbose}(slug, code = "...", applicability = "...")]
- Applied to struct or enum variant. Mutually exclusive with struct/enum variant attributes.
- Mandatory
- Defines the type to be representing a suggestion.
- Slug (Mandatory)
- A path to an item in
rustc_errors::fluent
, e.g.rustc_errors::fluent::hir_analysis_field_already_declared
(rustc_errors::fluent
is implicit in the attribute, so justhir_analysis::field_already_declared
). Fluent attributes for all messages exist as top-level items in that module (sohir_analysis_message.attr
is justhir_analysis::attr
). - See translation documentation.
- Defaults to
rustc_errors::fluent::_subdiag::suggestion
(or .suggestion
in Fluent).
- A path to an item in
code = "..."
/code("...", ...)
(Mandatory)- One or multiple format strings indicating the code to be suggested as a replacement. Multiple values signify multiple possible replacements.
applicability = "..."
(Optional)- Mutually exclusive with
#[applicability]
on a field. - Value is the applicability of the suggestion.
- String which must be one of:
machine-applicable
maybe-incorrect
has-placeholders
unspecified
- Mutually exclusive with
#[multipart_suggestion{,_hidden,_short,_verbose}(slug, applicability = "...")]
- Applied to struct or enum variant. Mutually exclusive with struct/enum variant attributes.
- Mandatory
- Defines the type to be representing a multipart suggestion.
- Slug (Mandatory): see
#[suggestion]
applicability = "..."
(Optional): see#[suggestion]
#[primary_span]
(Mandatory for labels and suggestions; optional otherwise; not applicable to multipart suggestions)- Applied to
Span
fields. - Indicates the primary span of the subdiagnostic.
- Applied to
#[suggestion_part(code = "...")]
(Mandatory; only applicable to multipart suggestions)- Applied to
Span
fields. - Indicates the span to be one part of the multipart suggestion.
code = "..."
(Mandatory)- Value is a format string indicating the code to be suggested as a replacement.
- Applied to
#[applicability]
(Optional; only applicable to (simple and multipart) suggestions)- Applied to
Applicability
fields. - Indicates the applicability of the suggestion.
- Applied to
#[skip_arg]
(Optional)- Applied to any field.
- Prevents the field from being provided as a diagnostic argument.