Crate laron_primitives

unprim contains primitive types from 8 into 256 bit. it is unstable and not intended for production use.

use laron_primitives::*;

let a = U256::from(100);
let b = U256::from(2);

assert_eq!(a * b, 200u64.into());

Or you can use .into() method to init the types.

use laron_primitives::*;

let a: U24 = 100u64.into();
let b: U24 = 2u64.into();
let c: u32 = (a * b).into();

assert_eq!(c, 200);

You can use macro to define new types. In example if you want to define a type with 512 bit, you can use the macro.

use laron_primitives::*;

define!(U512, 64, "512 bit");

let a = U512::from(100);
let b = U512::from(2);
let c = a * b;
assert_eq!(c, 200u64.into());

Modules

macros

Macros

bit_size

byte_size

define

doc

from_prim

impl_bit_ops

impl_def_trait

impl_math_ops

impl_maths

impl_serde

impl_shift

impl_stringr

Structs

U24

24-bit unsigned integer represented as little-endian byte order.

U40

40-bit unsigned integer represented as little-endian byte order.

U48

48-bit unsigned integer represented as little-endian byte order.

U56

56-bit unsigned integer represented as little-endian byte order.

U72

72-bit unsigned integer represented as little-endian byte order.

U80

80-bit unsigned integer represented as little-endian byte order.

U88

88-bit unsigned integer represented as little-endian byte order.

U96

96-bit unsigned integer represented as little-endian byte order.

U104

104-bit unsigned integer represented as little-endian byte order.

U112

112-bit unsigned integer represented as little-endian byte order.

U120

120-bit unsigned integer represented as little-endian byte order.

U136

136-bit unsigned integer represented as little-endian byte order.

U144

144-bit unsigned integer represented as little-endian byte order.

U152

152-bit unsigned integer represented as little-endian byte order.

U160

160-bit unsigned integer represented as little-endian byte order.

U168

168-bit unsigned integer represented as little-endian byte order.

U176

176-bit unsigned integer represented as little-endian byte order.

U184

184-bit unsigned integer represented as little-endian byte order.

U192

192-bit unsigned integer represented as little-endian byte order.

U200

200-bit unsigned integer represented as little-endian byte order.

U208

208-bit unsigned integer represented as little-endian byte order.

U216

216-bit unsigned integer represented as little-endian byte order.

U224

224-bit unsigned integer represented as little-endian byte order.

U232

232-bit unsigned integer represented as little-endian byte order.

U240

240-bit unsigned integer represented as little-endian byte order.

U248

248-bit unsigned integer represented as little-endian byte order.

U256

256-bit unsigned integer represented as little-endian byte order.

Traits

Add

The addition operator +.

AddAssign

The addition assignment operator +=.

BitAnd

The bitwise AND operator &.

BitAndAssign

The bitwise AND assignment operator &=.

BitOr

The bitwise OR operator |.

BitOrAssign

The bitwise OR assignment operator |=.

BitXor

The bitwise XOR operator ^.

BitXorAssign

The bitwise XOR assignment operator ^=.

Deserialize

A data structure that can be deserialized from any data format supported by Serde.

Div

The division operator /.

DivAssign

The division assignment operator /=.

FromStr

Parse a value from a string

Mul

The multiplication operator *.

MulAssign

The multiplication assignment operator *=.

Not

The unary logical negation operator !.

Rem

The remainder operator %.

RemAssign

The remainder assignment operator %=.

Serialize

A data structure that can be serialized into any data format supported by Serde.

Shl

The left shift operator <<. Note that because this trait is implemented for all integer types with multiple right-hand-side types, Rust’s type checker has special handling for _ << _, setting the result type for integer operations to the type of the left-hand-side operand. This means that though a << b and a.shl(b) are one and the same from an evaluation standpoint, they are different when it comes to type inference.

ShlAssign

The left shift assignment operator <<=.

Shr

The right shift operator >>. Note that because this trait is implemented for all integer types with multiple right-hand-side types, Rust’s type checker has special handling for _ >> _, setting the result type for integer operations to the type of the left-hand-side operand. This means that though a >> b and a.shr(b) are one and the same from an evaluation standpoint, they are different when it comes to type inference.

ShrAssign

The right shift assignment operator >>=.

Sub

The subtraction operator -.

SubAssign

The subtraction assignment operator -=.

Functions

add_slice

Computes x += y where x and y is a slice. requires: len(x) >= len(y).

div8

Computes 16-bit division of two 8-bit numbers and return the quotient and remainder.

div_rem_2by1

Devides <uh, ul> / d, returns the quotient and remainder. It use provided d’s reciprocal. Implementation is ported from https://github.com/holiman/uint250.

mul8

mul_carry

mul_r

reciprocal_2by1

Computes <!d, !0> / d.

sub_mul

Computes x -= y * multiplier. requires: len(x) >= len(y).