Crates.io | mvbitfield |
lib.rs | mvbitfield |
version | 0.2.0 |
source | src |
created_at | 2023-05-07 04:28:34.061835 |
updated_at | 2023-05-29 00:47:10.414773 |
description | Generates types to work with bit-aligned fields. |
homepage | |
repository | https://github.com/mvanbem/mvbitfield |
max_upload_size | |
id | 858945 |
size | 56,477 |
A bitfield library for Rust.
mvbitfield
generates types to work with bit-aligned fields.
Bitfield structs serve roughly the same use cases as C/C++ structs with bit-field members and are:
Bitfield enums are unit-only Rust enums with a declared bit width that provide safe zero-cost conversions to and from an integer type and can be used as accessors in a bitfield struct.
// Recommended, but not required. The mvbitfield prelude includes
// the bitint prelude.
use mvbitfield::prelude::*;
bitfield! {
#[lsb_first] // Field packing order.
#[derive(PartialOrd, Ord)] // Other attributes pass through.
pub struct MyBitfieldStruct: 32 {
// The lowest three bits with public bitint::U3 accessors.
pub some_number: 3,
// The next eight bits with public bitint::U8 accessors.
pub another_number: 8,
// No accessors for field names starting with _.
_padding: 2,
// Private bitint::U11 accessors.
internal_number: 11,
// Skip unused bits, in this case five bits.
..,
// The two next-to-most significant bits with public
// MyBitfieldEnum accessors.
pub an_enum: 2 as MyBitfieldEnum,
// Private bool accessors.
high_bit_flag: 1 as bool,
}
pub enum MyBitfieldEnum: 2 {
// Declare up to 2^width unit variants with optional
// explicit discriminants.
Three = 3,
Zero = 0,
One,
// Generates `Unused2` to complete the enum.
..
}
}
#[bitint_literals]
fn main() {
// Use generated with_* methods to build bitfield structs.
let x = MyBitfieldStruct::zero()
.with_some_number(6_U3)
.with_another_number(0xa5_U8)
.with_internal_number(1025_U11)
.with_an_enum(MyBitfieldEnum::One)
.with_high_bit_flag(true);
// Default accessors return bitints.
assert_eq!(x.some_number(), 6_U3);
assert_eq!(x.some_number().to_primitive(), 6);
assert_eq!(x.another_number(), 0xa5_U8);
assert_eq!(x.another_number().to_primitive(), 0xa5);
assert_eq!(x.internal_number(), 1025_U11);
assert_eq!(x.internal_number().to_primitive(), 1025);
// Custom accessors return the chosen type, which must have Into
// conversions to and from the default accessor bitint.
assert_eq!(x.an_enum(), MyBitfieldEnum::One);
assert_eq!(x.high_bit_flag(), true);
// Zero-cost conversions to and from bitints and to primitive.
// For bitfield structs:
assert_eq!(
x.to_bitint(),
0b1_01_00000_10000000001_00_10100101_110_U32,
);
assert_eq!(
x.to_primitive(),
0b1_01_00000_10000000001_00_10100101_110,
);
assert_eq!(x, MyBitfieldStruct::from_bitint(0xa080252e_U32));
// For bitfield enums:
assert_eq!(MyBitfieldEnum::One.to_bitint(), 1_U2);
assert_eq!(MyBitfieldEnum::One.to_primitive(), 1);
assert_eq!(
MyBitfieldEnum::One,
MyBitfieldEnum::from_bitint(1_U2),
);
// Zero-cost conversion from primitive, only for primitive-sized
// bitfield structs and enums.
assert_eq!(x, MyBitfieldStruct::from_primitive(0xa080252e));
bitfield! { enum MyU8Enum: 8 { X = 192, .. } }
assert_eq!(MyU8Enum::X, MyU8Enum::from_primitive(192));
// Bitfield enums optionally generate placeholder variants for
// unused discriminants with `..`. The name is always "Unused"
// followed by the discriminant value in base 10.
assert_eq!(MyBitfieldEnum::Unused2.to_bitint(), 2_U2);
assert_eq!(
MyBitfieldEnum::Unused2,
MyBitfieldEnum::from_bitint(2_U2),
);
}