Macro bits
macro_rules! bits { (static mut Cell<$store:ident>, $order:ty; $val:expr; $len:expr) => { ... }; (static mut $store:ident, $order:ident; $val:expr; $len:expr) => { ... }; (static mut Cell<$store:ident>, $order:ident; $($val:expr),* $(,)?) => { ... }; (static mut $store:ident, $order:ident; $($val:expr),* $(,)?) => { ... }; (static mut $val:expr; $len:expr) => { ... }; (static mut $($val:expr),* $(,)?) => { ... }; (static Cell<$store:ident>, $order:ty; $val:expr; $len:expr) => { ... }; (static Cell<$store:ident>, $order:ident; $($val:expr),* $(,)?) => { ... }; (static $store:ident, $order:ident; $val:expr; $len:expr) => { ... }; (static $val:expr; $len:expr) => { ... }; (static $store:ident, $order:ident; $($val:expr),* $(,)?) => { ... }; (static $($val:expr),* $(,)?) => { ... }; (mut Cell<$store:ident>, $order:ident; $($val:expr),* $(,)?) => { ... }; (mut Cell<$store:ident>, $order:path; $($val:expr),* $(,)?) => { ... }; (mut $store:ident, $order:ident; $($val:expr),* $(,)?) => { ... }; (mut $store:ident, $order:path; $($val:expr),* $(,)?) => { ... }; (mut $store:ty, $order:ty; $val:expr; $len:expr) => { ... }; (mut $val:expr; $len:expr) => { ... }; (mut $($val:expr),* $(,)?) => { ... }; ($store:ty, $order:ty; $val:expr; $len:expr) => { ... }; (Cell<$store:ident>, $order:ident; $($val:expr),* $(,)?) => { ... }; ($store:ident, $order:ident; $($val:expr),* $(,)?) => { ... }; (Cell<$store:ident>, $order:path; $($val:expr),* $(,)?) => { ... }; ($store:ident, $order:path; $($val:expr),* $(,)?) => { ... }; ($val:expr; $len:expr) => { ... }; ($($val:expr),* $(,)?) => { ... }; }
Expand description
§Bit-Slice Region Constructor
This macro provides a bit-initializer syntax for BitSlice
reference values.
It takes a superset of the vec!
arguments, and is capable of producing
bit-slices in const
contexts (for known type parameters).
Like vec!
, it can accept a sequence of comma-separated bit values, or a
semicolon-separated pair of a bit value and a repetition counter. Bit values may
be any integer or name of a const
integer, but should only be 0
or 1
.
§Argument Syntax
It accepts two modifier prefixes, zero or two type parameters, and the bit expressions described above.
The modifier prefixes are separated from the remaining arguments by clearspace.
static
: If the first argument is the keywordstatic
, then this produces a&'static BitSlice
reference bound into a (hidden, unnameable)static BitArray
item. If not, then it produces a stack temporary that the Rust compiler automatically extends to have the lifetime of the returned reference. Note that non-static
invocations rely on the compiler’s escape analysis, and you should typically not try to move them up the call stack.mut
: If the first argument is the keywordmut
, then this produces a&mut
writableBitSlice
.static mut
: These can be combined to create a&'static mut BitSlice
. It is always safe to use this reference, because thestatic mut BitArray
it creates is concealed and unreachable by any other codepath, and so the produced reference is always the sole handle that can reach it.
The next possible arguments are a pair of BitOrder
/BitStore
type parameters.
-
$order ,
: When this is one of the three literal tokensLocalBits
,Lsb0
, orMsb0
, then the macro is able to compute the encoded bit-array contents at compile time, including inconst
contexts. When it is anything else, the encoding must take place at runtime. The name or path chosen must be in scope at the macro invocation site.When not provided, this defaults to
Lsb0
. -
$store ;
: This must be one ofuTYPE
,Cell<uTYPE>
,AtomicUTYPE
, orRadiumUTYPE
whereTYPE
is one of8
,16
,32
,64
, orsize
. The macro recognizes this token textually, and does not have access to the type system resolver, so it will not accept aliases or qualified paths.When not provided, this defaults to
usize
.
The static
/mut
modifiers may be individually present or absent independently
of the type-parameter pair. The pair must be either both absent or both present
together.
Previous versions of
bitvec
supported $order`-only arguments. This has been removed for clarity of use and ease of implementation.
§Safety
Rust considers all static mut
bindings to be unsafe
to use. While bits!
can prevent some of this unsafety by preventing direct access to the created
static mut
buffer, there are still ways to create multiple names referring to
the same underlying buffer.
use bitvec::prelude::*;
fn unsound() -> &'static mut BitSlice<usize, Lsb0> {
unsafe { bits![static mut 0; 64] }
}
let a = unsound();
let b = unsound();
The two names a
and b
can be used to produce aliasing &mut [usize]
references.
You must not invoke bits![static mut …]
in a context where it can be used
to create multiple escaping names. This, and only this, argument combination
of the macro produces a value that requires a call-site unsafe
block to use.
If you do not use this behavior to create multiple names over the same
underlying buffer, then the macro’s expansion is safe to use, as bitvec
’s
existing alias-protection behavior suffices.
§Examples
use bitvec::prelude::*;
use core::cell::Cell;
use radium::types::*;
let a: &BitSlice = bits![0, 1, 0, 0, 1];
let b: &BitSlice = bits![1; 5];
assert_eq!(b.len(), 5);
let c = bits![u16, Lsb0; 0, 1, 0, 0, 1];
let d = bits![static Cell<u16>, Msb0; 1; 10];
let e = unsafe { bits![static mut u32, LocalBits; 0; 15] };
let f = bits![RadiumU32, Msb0; 1; 20];