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Syntax
InnerAttribute :
#
!
[
Attr]
OuterAttribute :
#
[
Attr]
Attr :
SimplePath AttrInput?AttrInput :
DelimTokenTree
|=
LiteralExpressionwithout suffix
An attribute is a general, free-form metadatum that is interpreted according to name, convention, language, and compiler version. Attributes are modeled on Attributes in ECMA-335, with the syntax coming from ECMA-334 (C#).
Inner attributes, written with a bang (!
) after the hash (#
), apply to the
item that the attribute is declared within. Outer attributes, written without
the bang after the hash, apply to the thing that follows the attribute.
The attribute consists of a path to the attribute, followed by an optional
delimited token tree whose interpretation is defined by the attribute.
Attributes other than macro attributes also allow the input to be an equals
sign (=
) followed by a literal expression. See the meta item
syntax below for more details.
Attributes can be classified into the following kinds:
Attributes may be applied to many things in the language:
- All item declarations accept outer attributes while external blocks, functions, implementations, and modules accept inner attributes.
- Most statements accept outer attributes (see Expression Attributes for limitations on expression statements).
- Block expressions accept outer and inner attributes, but only when they are the outer expression of an expression statement or the final expression of another block expression.
- Enum variants and struct and union fields accept outer attributes.
- Match expression arms accept outer attributes.
- Generic lifetime or type parameter accept outer attributes.
- Expressions accept outer attributes in limited situations, see Expression Attributes for details.
- Function, closure and function pointer
parameters accept outer attributes. This includes attributes on variadic parameters
denoted with
...
in function pointers and external blocks.
Some examples of attributes:
// General metadata applied to the enclosing module or crate.
#![crate_type = "lib"]
// A function marked as a unit test
#[test]
fn test_foo() {
/* ... */
}
// A conditionally-compiled module
#[cfg(target_os = "linux")]
mod bar {
/* ... */
}
// A lint attribute used to suppress a warning/error
#[allow(non_camel_case_types)]
type int8_t = i8;
// Inner attribute applies to the entire function.
fn some_unused_variables() {
#![allow(unused_variables)]
let x = ();
let y = ();
let z = ();
}
A "meta item" is the syntax used for the Attr rule by most built-in attributes. It has the following grammar:
Syntax
MetaItem :
SimplePath
| SimplePath=
LiteralExpressionwithout suffix
| SimplePath(
MetaSeq?)
MetaSeq :
MetaItemInner (,
MetaItemInner )*,
?MetaItemInner :
MetaItem
| LiteralExpressionwithout suffix
Literal expressions in meta items must not include integer or float type suffixes.
Various built-in attributes use different subsets of the meta item syntax to specify their inputs. The following grammar rules show some commonly used forms:
Syntax
MetaWord:
IDENTIFIERMetaNameValueStr:
IDENTIFIER=
(STRING_LITERAL | RAW_STRING_LITERAL)MetaListPaths:
IDENTIFIER(
( SimplePath (,
SimplePath)*,
? )?)
MetaListIdents:
IDENTIFIER(
( IDENTIFIER (,
IDENTIFIER)*,
? )?)
MetaListNameValueStr:
IDENTIFIER(
( MetaNameValueStr (,
MetaNameValueStr)*,
? )?)
Some examples of meta items are:
Style | Example |
---|---|
MetaWord | no_std |
MetaNameValueStr | doc = "example" |
MetaListPaths | allow(unused, clippy::inline_always) |
MetaListIdents | macro_use(foo, bar) |
MetaListNameValueStr | link(name = "CoreFoundation", kind = "framework") |
An attribute is either active or inert. During attribute processing, active attributes remove themselves from the thing they are on while inert attributes stay on.
The cfg
and cfg_attr
attributes are active. The test
attribute is
inert when compiling for tests and active otherwise. Attribute macros are
active. All other attributes are inert.
The compiler may allow attributes for external tools where each tool resides in its own namespace in the tool prelude. The first segment of the attribute path is the name of the tool, with one or more additional segments whose interpretation is up to the tool.
When a tool is not in use, the tool's attributes are accepted without a warning. When the tool is in use, the tool is responsible for processing and interpretation of its attributes.
Tool attributes are not available if the no_implicit_prelude
attribute is
used.
// Tells the rustfmt tool to not format the following element.
#[rustfmt::skip]
struct S {
}
// Controls the "cyclomatic complexity" threshold for the clippy tool.
#[clippy::cyclomatic_complexity = "100"]
pub fn f() {}
Note:
rustc
currently recognizes the tools "clippy" and "rustfmt".
The following is an index of all built-in attributes.
- Conditional compilation
- Testing
test
— Marks a function as a test.ignore
— Disables a test function.should_panic
— Indicates a test should generate a panic.
- Derive
derive
— Automatic trait implementations.automatically_derived
— Marker for implementations created byderive
.
- Macros
macro_export
— Exports amacro_rules
macro for cross-crate usage.macro_use
— Expands macro visibility, or imports macros from other crates.proc_macro
— Defines a function-like macro.proc_macro_derive
— Defines a derive macro.proc_macro_attribute
— Defines an attribute macro.
- Diagnostics
- ABI, linking, symbols, and FFI
link
— Specifies a native library to link with anextern
block.link_name
— Specifies the name of the symbol for functions or statics in anextern
block.no_link
— Prevents linking an extern crate.repr
— Controls type layout.crate_type
— Specifies the type of crate (library, executable, etc.).no_main
— Disables emitting themain
symbol.export_name
— Specifies the exported symbol name for a function or static.link_section
— Specifies the section of an object file to use for a function or static.no_mangle
— Disables symbol name encoding.used
— Forces the compiler to keep a static item in the output object file.crate_name
— Specifies the crate name.
- Code generation
inline
— Hint to inline code.cold
— Hint that a function is unlikely to be called.no_builtins
— Disables use of certain built-in functions.target_feature
— Configure platform-specific code generation.track_caller
- Pass the parent call location tostd::panic::Location::caller()
.
- Documentation
doc
— Specifies documentation. See The Rustdoc Book for more information. Doc comments are transformed intodoc
attributes.
- Preludes
no_std
— Removes std from the prelude.no_implicit_prelude
— Disables prelude lookups within a module.
- Modules
path
— Specifies the filename for a module.
- Limits
recursion_limit
— Sets the maximum recursion limit for certain compile-time operations.type_length_limit
— Sets the maximum size of a polymorphic type.
- Runtime
panic_handler
— Sets the function to handle panics.global_allocator
— Sets the global memory allocator.windows_subsystem
— Specifies the windows subsystem to link with.
- Features
feature
— Used to enable unstable or experimental compiler features. See The Unstable Book for features implemented inrustc
.
- Type System
non_exhaustive
— Indicate that a type will have more fields/variants added in future.