crypto_bigint

Type Alias U768

Source
pub type U768 = Uint<{ _ }>;
Expand description

768-bit unsigned big integer.

Aliased Type§

struct U768 { /* private fields */ }

Implementations§

Source§

impl U768

Source

pub const fn split(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number in half, returning its high and low components respectively.

Trait Implementations§

Source§

impl Encoding for U768

Source§

type Repr = [u8; 96]

Byte array representation.
Source§

fn from_be_bytes(bytes: Self::Repr) -> Self

Decode from big endian bytes.
Source§

fn from_le_bytes(bytes: Self::Repr) -> Self

Decode from little endian bytes.
Source§

fn to_be_bytes(&self) -> Self::Repr

Encode to big endian bytes.
Source§

fn to_le_bytes(&self) -> Self::Repr

Encode to little endian bytes.
Source§

impl Split for U768

Source§

type Output = Uint<{ <$name>::LIMBS / 2 }>

Split output: high/low components of the value.
Source§

fn split(&self) -> (Self::Output, Self::Output)

Split this number in half, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
Source§

impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

Source§

fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.

Layout§

Note: Most layout information is completely unstable and may even differ between compilations. The only exception is types with certain repr(...) attributes. Please see the Rust Reference's “Type Layout” chapter for details on type layout guarantees.

Size: 96 bytes