Struct crypto_bigint::Uint

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pub struct Uint<const LIMBS: usize> { /* private fields */ }
Expand description

Stack-allocated big unsigned integer.

Generic over the given number of LIMBS

Encoding support

This type supports many different types of encodings, either via the Encoding trait or various const fn decoding and encoding functions that can be used with Uint constants.

Optional crate features for encoding (off-by-default):

Implementations§

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn adc(&self, rhs: &Self, carry: Limb) -> (Self, Limb)

Computes a + b + carry, returning the result along with the new carry.

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pub const fn saturating_add(&self, rhs: &Self) -> Self

Perform saturating addition, returning MAX on overflow.

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pub const fn wrapping_add(&self, rhs: &Self) -> Self

Perform wrapping addition, discarding overflow.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn add_mod(&self, rhs: &Uint<LIMBS>, p: &Uint<LIMBS>) -> Uint<LIMBS>

Computes self + rhs mod p.

Assumes self + rhs as unbounded integer is < 2p.

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pub const fn add_mod_special(&self, rhs: &Self, c: Limb) -> Self

Computes self + rhs mod p for the special modulus p = MAX+1-c where c is small enough to fit in a single Limb.

Assumes self + rhs as unbounded integer is < 2p.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn bitand(&self, rhs: &Self) -> Self

Computes bitwise a & b.

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pub const fn wrapping_and(&self, rhs: &Self) -> Self

Perform wrapping bitwise AND.

There’s no way wrapping could ever happen. This function exists so that all operations are accounted for in the wrapping operations

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pub fn checked_and(&self, rhs: &Self) -> CtOption<Self>

Perform checked bitwise AND, returning a CtOption which is_some always

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn not(&self) -> Self

Computes bitwise !a.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn bitor(&self, rhs: &Self) -> Self

Computes bitwise a & b.

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pub const fn wrapping_or(&self, rhs: &Self) -> Self

Perform wrapping bitwise OR.

There’s no way wrapping could ever happen. This function exists so that all operations are accounted for in the wrapping operations

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pub fn checked_or(&self, rhs: &Self) -> CtOption<Self>

Perform checked bitwise OR, returning a CtOption which is_some always

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn bitxor(&self, rhs: &Self) -> Self

Computes bitwise a ^ b.

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pub const fn wrapping_xor(&self, rhs: &Self) -> Self

Perform wrapping bitwise `XOR``.

There’s no way wrapping could ever happen. This function exists so that all operations are accounted for in the wrapping operations

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pub fn checked_xor(&self, rhs: &Self) -> CtOption<Self>

Perform checked bitwise XOR, returning a CtOption which is_some always

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn bit_vartime(&self, index: usize) -> bool

Returns true if the bit at position index is set, false otherwise.

Remarks

This operation is variable time with respect to index only.

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pub const fn bits_vartime(&self) -> usize

Calculate the number of bits needed to represent this number.

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pub const fn leading_zeros(&self) -> usize

Calculate the number of leading zeros in the binary representation of this number.

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pub const fn leading_zeros_vartime(&self) -> usize

Calculate the number of leading zeros in the binary representation of this number, variable time in self.

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pub const fn trailing_zeros(&self) -> usize

Calculate the number of trailing zeros in the binary representation of this number.

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pub const fn trailing_zeros_vartime(&self) -> usize

Calculate the number of trailing zeros in the binary representation of this number, variable time in self.

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pub const fn trailing_ones(&self) -> usize

Calculate the number of trailing ones in the binary representation of this number.

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pub const fn trailing_ones_vartime(&self) -> usize

Calculate the number of trailing ones in the binary representation of this number, variable time in self.

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pub const fn bits(&self) -> usize

Calculate the number of bits needed to represent this number.

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pub const fn bit(&self, index: usize) -> CtChoice

Get the value of the bit at position index, as a truthy or falsy CtChoice. Returns the falsy value for indices out of range.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn cmp_vartime(&self, rhs: &Self) -> Ordering

Returns the Ordering between self and rhs in variable time.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn ct_div_rem_limb_with_reciprocal( &self, reciprocal: &Reciprocal ) -> (Self, Limb)

Computes self / rhs using a pre-made reciprocal, returns the quotient (q) and remainder (r).

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pub fn div_rem_limb_with_reciprocal( &self, reciprocal: &CtOption<Reciprocal> ) -> CtOption<(Self, Limb)>

Computes self / rhs using a pre-made reciprocal, returns the quotient (q) and remainder (r).

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pub fn div_rem_limb(&self, rhs: NonZero<Limb>) -> (Self, Limb)

Computes self / rhs, returns the quotient (q) and remainder (r).

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pub const fn const_rem(&self, rhs: &Self) -> (Self, CtChoice)

Computes self % rhs, returns the remainder and and the truthy value for is_some or the falsy value for is_none.

NOTE: Use only if you need to access const fn. Otherwise use Self::rem. This is variable only with respect to rhs.

When used with a fixed rhs, this function is constant-time with respect to self.

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pub const fn const_rem_wide( lower_upper: (Self, Self), rhs: &Self ) -> (Self, CtChoice)

Computes self % rhs, returns the remainder and and the truthy value for is_some or the falsy value for is_none.

This is variable only with respect to rhs.

When used with a fixed rhs, this function is constant-time with respect to self.

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pub const fn rem2k(&self, k: usize) -> Self

Computes self % 2^k. Faster than reduce since its a power of 2. Limited to 2^16-1 since Uint doesn’t support higher.

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pub fn div_rem(&self, rhs: &NonZero<Self>) -> (Self, Self)

Computes self / rhs, returns the quotient, remainder.

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pub fn rem(&self, rhs: &NonZero<Self>) -> Self

Computes self % rhs, returns the remainder.

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pub const fn wrapping_div(&self, rhs: &Self) -> Self

Wrapped division is just normal division i.e. self / rhs There’s no way wrapping could ever happen. This function exists, so that all operations are accounted for in the wrapping operations.

Panics if rhs == 0.

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pub fn checked_div(&self, rhs: &Self) -> CtOption<Self>

Perform checked division, returning a CtOption which is_some only if the rhs != 0

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pub const fn wrapping_rem(&self, rhs: &Self) -> Self

Wrapped (modular) remainder calculation is just self % rhs. There’s no way wrapping could ever happen. This function exists, so that all operations are accounted for in the wrapping operations.

Panics if rhs == 0.

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pub fn checked_rem(&self, rhs: &Self) -> CtOption<Self>

Perform checked reduction, returning a CtOption which is_some only if the rhs != 0

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn from_be_slice(bytes: &[u8]) -> Self

Create a new Uint from the provided big endian bytes.

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pub const fn from_be_hex(hex: &str) -> Self

Create a new Uint from the provided big endian hex string.

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pub const fn from_le_slice(bytes: &[u8]) -> Self

Create a new Uint from the provided little endian bytes.

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pub const fn from_le_hex(hex: &str) -> Self

Create a new Uint from the provided little endian hex string.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn from_u8(n: u8) -> Self

Create a Uint from a u8 (const-friendly)

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pub const fn from_u16(n: u16) -> Self

Create a Uint from a u16 (const-friendly)

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pub const fn from_u32(n: u32) -> Self

Create a Uint from a u32 (const-friendly)

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pub const fn from_u64(n: u64) -> Self

Available on 64-bit only.

Create a Uint from a u64 (const-friendly)

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pub const fn from_u128(n: u128) -> Self

Create a Uint from a u128 (const-friendly)

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pub const fn from_word(n: Word) -> Self

Create a Uint from a Word (const-friendly)

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pub const fn from_wide_word(n: WideWord) -> Self

Create a Uint from a WideWord (const-friendly)

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn inv_mod2k_vartime(&self, k: usize) -> Self

Computes 1/self mod 2^k. This method is constant-time w.r.t. self but not k.

Conditions: self < 2^k and self must be odd

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pub const fn inv_mod2k(&self, k: usize) -> Self

Computes 1/self mod 2^k.

Conditions: self < 2^k and self must be odd

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pub const fn inv_odd_mod_bounded( &self, modulus: &Self, bits: usize, modulus_bits: usize ) -> (Self, CtChoice)

Computes the multiplicative inverse of self mod modulus, where modulus is odd. In other words self^-1 mod modulus. bits and modulus_bits are the bounds on the bit size of self and modulus, respectively (the inversion speed will be proportional to bits + modulus_bits). The second element of the tuple is the truthy value if an inverse exists, otherwise it is a falsy value.

Note: variable time in bits and modulus_bits.

The algorithm is the same as in GMP 6.2.1’s mpn_sec_invert.

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pub const fn inv_odd_mod(&self, modulus: &Self) -> (Self, CtChoice)

Computes the multiplicative inverse of self mod modulus, where modulus is odd. Returns (inverse, CtChoice::TRUE) if an inverse exists, otherwise (undefined, CtChoice::FALSE).

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pub const fn inv_mod(&self, modulus: &Self) -> (Self, CtChoice)

Computes the multiplicative inverse of self mod modulus. Returns (inverse, CtChoice::TRUE) if an inverse exists, otherwise (undefined, CtChoice::FALSE).

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impl<const LIMBS: usize> Uint<LIMBS>

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pub fn mul<const HLIMBS: usize>( &self, rhs: &Uint<HLIMBS> ) -> <Uint<HLIMBS> as ConcatMixed<Self>>::MixedOutputwhere Uint<HLIMBS>: ConcatMixed<Self>,

Multiply self by rhs, returning a concatenated “wide” result.

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pub const fn mul_wide<const HLIMBS: usize>( &self, rhs: &Uint<HLIMBS> ) -> (Self, Uint<HLIMBS>)

Compute “wide” multiplication, with a product twice the size of the input.

Returns a tuple containing the (lo, hi) components of the product.

Ordering note

Releases of crypto-bigint prior to v0.3 used (hi, lo) ordering instead. This has been changed for better consistency with the rest of the APIs in this crate.

For more info see: https://github.com/RustCrypto/crypto-bigint/issues/4

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pub const fn saturating_mul<const HLIMBS: usize>( &self, rhs: &Uint<HLIMBS> ) -> Self

Perform saturating multiplication, returning MAX on overflow.

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pub const fn wrapping_mul<const H: usize>(&self, rhs: &Uint<H>) -> Self

Perform wrapping multiplication, discarding overflow.

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pub fn square(&self) -> <Self as Concat>::Outputwhere Self: Concat,

Square self, returning a concatenated “wide” result.

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pub const fn square_wide(&self) -> (Self, Self)

Square self, returning a “wide” result in two parts as (lo, hi).

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn mul_mod_special(&self, rhs: &Self, c: Limb) -> Self

Computes self * rhs mod p for the special modulus p = MAX+1-c where c is small enough to fit in a single Limb. For the modulus reduction, this function implements Algorithm 14.47 from the “Handbook of Applied Cryptography”, by A. Menezes, P. van Oorschot, and S. Vanstone, CRC Press, 1996.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn wrapping_neg(&self) -> Self

Perform wrapping negation.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn neg_mod(&self, p: &Self) -> Self

Computes -a mod p. Assumes self is in [0, p).

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pub const fn neg_mod_special(&self, c: Limb) -> Self

Computes -a mod p for the special modulus p = MAX+1-c where c is small enough to fit in a single Limb.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn resize<const T: usize>(&self) -> Uint<T>

Construct a Uint<T> from the unsigned integer value, truncating the upper bits if the value is too large to be represented.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn shl_vartime(&self, n: usize) -> Self

Computes self << shift.

NOTE: this operation is variable time with respect to n ONLY.

When used with a fixed n, this function is constant-time with respect to self.

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pub const fn shl_vartime_wide( lower_upper: (Self, Self), n: usize ) -> (Self, Self)

Computes a left shift on a wide input as (lo, hi).

NOTE: this operation is variable time with respect to n ONLY.

When used with a fixed n, this function is constant-time with respect to self.

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pub const fn shl(&self, shift: usize) -> Self

Computes self << n. Returns zero if n >= Self::BITS.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn shr_vartime(&self, shift: usize) -> Self

Computes self >> n.

NOTE: this operation is variable time with respect to n ONLY.

When used with a fixed n, this function is constant-time with respect to self.

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pub const fn shr_vartime_wide( lower_upper: (Self, Self), n: usize ) -> (Self, Self)

Computes a right shift on a wide input as (lo, hi).

NOTE: this operation is variable time with respect to n ONLY.

When used with a fixed n, this function is constant-time with respect to self.

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pub const fn shr(&self, shift: usize) -> Self

Computes self << n. Returns zero if n >= Self::BITS.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn sqrt(&self) -> Self

👎Deprecated since 0.5.3: This functionality will be moved to sqrt_vartime in a future release.
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pub const fn sqrt_vartime(&self) -> Self

Computes √(self) Uses Brent & Zimmermann, Modern Computer Arithmetic, v0.5.9, Algorithm 1.13

Callers can check if self is a square by squaring the result

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pub const fn wrapping_sqrt(&self) -> Self

👎Deprecated since 0.5.3: This functionality will be moved to wrapping_sqrt_vartime in a future release.
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pub const fn wrapping_sqrt_vartime(&self) -> Self

Wrapped sqrt is just normal √(self) There’s no way wrapping could ever happen. This function exists, so that all operations are accounted for in the wrapping operations.

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pub fn checked_sqrt(&self) -> CtOption<Self>

👎Deprecated since 0.5.3: This functionality will be moved to checked_sqrt_vartime in a future release.
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pub fn checked_sqrt_vartime(&self) -> CtOption<Self>

Perform checked sqrt, returning a CtOption which is_some only if the √(self)² == self

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn sbb(&self, rhs: &Self, borrow: Limb) -> (Self, Limb)

Computes a - (b + borrow), returning the result along with the new borrow.

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pub const fn saturating_sub(&self, rhs: &Self) -> Self

Perform saturating subtraction, returning ZERO on underflow.

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pub const fn wrapping_sub(&self, rhs: &Self) -> Self

Perform wrapping subtraction, discarding underflow and wrapping around the boundary of the type.

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impl<const LIMBS: usize> Uint<LIMBS>

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pub const fn sub_mod(&self, rhs: &Uint<LIMBS>, p: &Uint<LIMBS>) -> Uint<LIMBS>

Computes self - rhs mod p.

Assumes self - rhs as unbounded signed integer is in [-p, p).

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pub const fn sub_mod_special(&self, rhs: &Self, c: Limb) -> Self

Computes self - rhs mod p for the special modulus p = MAX+1-c where c is small enough to fit in a single Limb.

Assumes self - rhs as unbounded signed integer is in [-p, p).

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U1152

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U1408

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U1664

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U1920

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U2176

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U2304

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U2432

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U2560

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U2688

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U2816

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U2944

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U3200

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U3328

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U3456

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U3712

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U3840

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U3968

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U4480

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U4608

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U4736

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U4864

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U4992

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

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pub const fn concat(&self, lo: &Uint<{ _ }>) -> U5120

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U5248

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U5376

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U5504

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U5632

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U5760

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U5888

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U6016

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U6272

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U6400

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U6528

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U6656

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U6784

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U6912

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U7040

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U7168

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U7296

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U7424

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U7552

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U7680

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U7808

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U7936

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U8064

Available on crate feature extra-sizes only.

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

Available on crate feature extra-sizes only.

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

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impl<const LIMBS: usize> Uint<LIMBS>

source

pub const ZERO: Self = _

The value 0.

source

pub const ONE: Self = _

The value 1.

source

pub const MAX: Self = _

Maximum value this Uint can express.

source

pub const BITS: usize = _

Total size of the represented integer in bits.

source

pub const BYTES: usize = _

Total size of the represented integer in bytes.

source

pub const LIMBS: usize = LIMBS

The number of limbs used on this platform.

source

pub const fn new(limbs: [Limb; LIMBS]) -> Self

Const-friendly Uint constructor.

source

pub const fn from_words(arr: [Word; LIMBS]) -> Self

Create a Uint from an array of Words (i.e. word-sized unsigned integers).

source

pub const fn to_words(self) -> [Word; LIMBS]

Create an array of Words (i.e. word-sized unsigned integers) from a Uint.

source

pub const fn as_words(&self) -> &[Word; LIMBS]

Borrow the inner limbs as an array of Words.

source

pub fn as_words_mut(&mut self) -> &mut [Word; LIMBS]

Borrow the inner limbs as a mutable array of Words.

source

pub const fn as_limbs(&self) -> &[Limb; LIMBS]

Borrow the limbs of this Uint.

source

pub fn as_limbs_mut(&mut self) -> &mut [Limb; LIMBS]

Borrow the limbs of this Uint mutably.

source

pub const fn to_limbs(self) -> [Limb; LIMBS]

Convert this Uint into its inner limbs.

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U128

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U256

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U384

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U512

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U640

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U768

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U896

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U1024

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U1280

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U1536

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U1792

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U2048

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U3072

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U3584

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U4096

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U4224

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U4352

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U6144

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

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

source§

impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U8192

Concatenate the two values, with self as most significant and rhs as the least significant.

source§

impl Uint<{nlimbs!($bits)}>

source

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

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

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impl Uint<{ _ }>

source

pub const fn concat(&self, lo: &Uint<{ _ }>) -> U16384

Concatenate the two values, with self as most significant and rhs as the least significant.

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impl Uint<{nlimbs!($bits)}>

source

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

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

Trait Implementations§

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impl<const LIMBS: usize> AddMod for Uint<LIMBS>

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type Output = Uint<LIMBS>

Output type.
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fn add_mod(&self, rhs: &Self, p: &Self) -> Self

Compute self + rhs mod p. Read more
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impl<const LIMBS: usize> AsMut<[Limb]> for Uint<LIMBS>

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fn as_mut(&mut self) -> &mut [Limb]

Converts this type into a mutable reference of the (usually inferred) input type.
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impl<const LIMBS: usize> AsMut<[u64; LIMBS]> for Uint<LIMBS>

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fn as_mut(&mut self) -> &mut [Word; LIMBS]

Converts this type into a mutable reference of the (usually inferred) input type.
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impl<const LIMBS: usize> AsRef<[Limb]> for Uint<LIMBS>

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fn as_ref(&self) -> &[Limb]

Converts this type into a shared reference of the (usually inferred) input type.
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impl<const LIMBS: usize> AsRef<[u64; LIMBS]> for Uint<LIMBS>

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fn as_ref(&self) -> &[Word; LIMBS]

Converts this type into a shared reference of the (usually inferred) input type.
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impl<const LIMBS: usize> BitAnd<&Uint<LIMBS>> for &Uint<LIMBS>

§

type Output = Uint<LIMBS>

The resulting type after applying the & operator.
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fn bitand(self, rhs: &Uint<LIMBS>) -> Uint<LIMBS>

Performs the & operation. Read more
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impl<const LIMBS: usize> BitAnd<&Uint<LIMBS>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the & operator.
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fn bitand(self, rhs: &Uint<LIMBS>) -> Uint<LIMBS>

Performs the & operation. Read more
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impl<const LIMBS: usize> BitAnd<Uint<LIMBS>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the & operator.
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fn bitand(self, rhs: Uint<LIMBS>) -> Uint<LIMBS>

Performs the & operation. Read more
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impl<const LIMBS: usize> BitAnd for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the & operator.
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fn bitand(self, rhs: Self) -> Uint<LIMBS>

Performs the & operation. Read more
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impl<const LIMBS: usize> BitAndAssign<&Uint<LIMBS>> for Uint<LIMBS>

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fn bitand_assign(&mut self, other: &Self)

Performs the &= operation. Read more
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impl<const LIMBS: usize> BitAndAssign for Uint<LIMBS>

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fn bitand_assign(&mut self, other: Self)

Performs the &= operation. Read more
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impl<const LIMBS: usize> BitOr<&Uint<LIMBS>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the | operator.
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fn bitor(self, rhs: &Uint<LIMBS>) -> Uint<LIMBS>

Performs the | operation. Read more
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impl<const LIMBS: usize> BitOr<&Uint<LIMBS>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the | operator.
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fn bitor(self, rhs: &Uint<LIMBS>) -> Uint<LIMBS>

Performs the | operation. Read more
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impl<const LIMBS: usize> BitOr<Uint<LIMBS>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the | operator.
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fn bitor(self, rhs: Uint<LIMBS>) -> Uint<LIMBS>

Performs the | operation. Read more
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impl<const LIMBS: usize> BitOr for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the | operator.
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fn bitor(self, rhs: Self) -> Uint<LIMBS>

Performs the | operation. Read more
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impl<const LIMBS: usize> BitOrAssign<&Uint<LIMBS>> for Uint<LIMBS>

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fn bitor_assign(&mut self, other: &Self)

Performs the |= operation. Read more
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impl<const LIMBS: usize> BitOrAssign for Uint<LIMBS>

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fn bitor_assign(&mut self, other: Self)

Performs the |= operation. Read more
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impl<const LIMBS: usize> BitXor<&Uint<LIMBS>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the ^ operator.
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fn bitxor(self, rhs: &Uint<LIMBS>) -> Uint<LIMBS>

Performs the ^ operation. Read more
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impl<const LIMBS: usize> BitXor<&Uint<LIMBS>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the ^ operator.
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fn bitxor(self, rhs: &Uint<LIMBS>) -> Uint<LIMBS>

Performs the ^ operation. Read more
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impl<const LIMBS: usize> BitXor<Uint<LIMBS>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the ^ operator.
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fn bitxor(self, rhs: Uint<LIMBS>) -> Uint<LIMBS>

Performs the ^ operation. Read more
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impl<const LIMBS: usize> BitXor for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the ^ operator.
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fn bitxor(self, rhs: Self) -> Uint<LIMBS>

Performs the ^ operation. Read more
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impl<const LIMBS: usize> BitXorAssign<&Uint<LIMBS>> for Uint<LIMBS>

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fn bitxor_assign(&mut self, other: &Self)

Performs the ^= operation. Read more
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impl<const LIMBS: usize> BitXorAssign for Uint<LIMBS>

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fn bitxor_assign(&mut self, other: Self)

Performs the ^= operation. Read more
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impl<const LIMBS: usize> Bounded for Uint<LIMBS>

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const BITS: usize = Self::BITS

Size of this integer in bits.
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const BYTES: usize = Self::BYTES

Size of this integer in bytes.
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impl<const LIMBS: usize> CheckedAdd<&Uint<LIMBS>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

Output type.
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fn checked_add(&self, rhs: &Self) -> CtOption<Self>

Perform checked subtraction, returning a CtOption which is_some only if the operation did not overflow.
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impl<const LIMBS: usize, const HLIMBS: usize> CheckedMul<&Uint<HLIMBS>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

Output type.
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fn checked_mul(&self, rhs: &Uint<HLIMBS>) -> CtOption<Self>

Perform checked multiplication, returning a CtOption which is_some only if the operation did not overflow.
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impl<const LIMBS: usize> CheckedSub<&Uint<LIMBS>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

Output type.
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fn checked_sub(&self, rhs: &Self) -> CtOption<Self>

Perform checked subtraction, returning a CtOption which is_some only if the operation did not underflow.
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impl<const LIMBS: usize> Clone for Uint<LIMBS>

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fn clone(&self) -> Uint<LIMBS>

Returns a copy of the value. Read more
1.0.0 · source§

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ <$name>::LIMBS / 2 }>> for Uint<{ _ }>

Available on crate feature extra-sizes only.
§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
source§

impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

§

type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
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fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl ConcatMixed<Uint<{ U64::LIMBS * $size }>> for Uint<{ _ }>

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type MixedOutput = Uint<{nlimbs!($bits)}>

Concatenated output: combination of Lo and Self.
source§

fn concat_mixed(&self, lo: &Uint<{ _ }>) -> Self::MixedOutput

Concatenate the two values, with self as most significant and lo as the least significant.
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impl<const LIMBS: usize> ConditionallySelectable for Uint<LIMBS>

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fn conditional_select(a: &Self, b: &Self, choice: Choice) -> Self

Select a or b according to choice. Read more
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fn conditional_assign(&mut self, other: &Self, choice: Choice)

Conditionally assign other to self, according to choice. Read more
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fn conditional_swap(a: &mut Self, b: &mut Self, choice: Choice)

Conditionally swap self and other if choice == 1; otherwise, reassign both unto themselves. Read more
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impl<const LIMBS: usize> ConstantTimeEq for Uint<LIMBS>

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fn ct_eq(&self, other: &Self) -> Choice

Determine if two items are equal. Read more
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fn ct_ne(&self, other: &Self) -> Choice

Determine if two items are NOT equal. Read more
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impl<const LIMBS: usize> ConstantTimeGreater for Uint<LIMBS>

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fn ct_gt(&self, other: &Self) -> Choice

Determine whether self > other. Read more
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impl<const LIMBS: usize> ConstantTimeLess for Uint<LIMBS>

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fn ct_lt(&self, other: &Self) -> Choice

Determine whether self < other. Read more
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impl<const LIMBS: usize> Debug for Uint<LIMBS>

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl<const LIMBS: usize> Decodable for Uint<LIMBS>where Self: Encoding, <Self as Encoding>::Repr: Default,

Available on crate feature rlp only.
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fn decode(rlp: &Rlp<'_>) -> Result<Self, DecoderError>

Decode a value from RLP bytes
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impl<'a, const LIMBS: usize> DecodeValue<'a> for Uint<LIMBS>where Uint<LIMBS>: ArrayEncoding,

Available on crate features der and generic-array only.
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fn decode_value<R: Reader<'a>>(reader: &mut R, header: Header) -> Result<Self>

Attempt to decode this message using the provided Reader.
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impl<const LIMBS: usize> Default for Uint<LIMBS>

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fn default() -> Self

Returns the “default value” for a type. Read more
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impl<'de, const LIMBS: usize> Deserialize<'de> for Uint<LIMBS>where Uint<LIMBS>: Encoding,

Available on crate feature serde only.
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fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>where D: Deserializer<'de>,

Deserialize this value from the given Serde deserializer. Read more
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impl<const LIMBS: usize> Display for Uint<LIMBS>

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl<const LIMBS: usize> Div<&NonZero<Limb>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the / operator.
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fn div(self, rhs: &NonZero<Limb>) -> Self::Output

Performs the / operation. Read more
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impl<const LIMBS: usize> Div<&NonZero<Limb>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the / operator.
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fn div(self, rhs: &NonZero<Limb>) -> Self::Output

Performs the / operation. Read more
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impl<const LIMBS: usize> Div<&NonZero<Uint<LIMBS>>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the / operator.
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fn div(self, rhs: &NonZero<Uint<LIMBS>>) -> Self::Output

Performs the / operation. Read more
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impl<const LIMBS: usize> Div<&NonZero<Uint<LIMBS>>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the / operator.
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fn div(self, rhs: &NonZero<Uint<LIMBS>>) -> Self::Output

Performs the / operation. Read more
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impl<const LIMBS: usize> Div<NonZero<Limb>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the / operator.
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fn div(self, rhs: NonZero<Limb>) -> Self::Output

Performs the / operation. Read more
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impl<const LIMBS: usize> Div<NonZero<Limb>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the / operator.
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fn div(self, rhs: NonZero<Limb>) -> Self::Output

Performs the / operation. Read more
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impl<const LIMBS: usize> Div<NonZero<Uint<LIMBS>>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the / operator.
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fn div(self, rhs: NonZero<Uint<LIMBS>>) -> Self::Output

Performs the / operation. Read more
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impl<const LIMBS: usize> Div<NonZero<Uint<LIMBS>>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the / operator.
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fn div(self, rhs: NonZero<Uint<LIMBS>>) -> Self::Output

Performs the / operation. Read more
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impl<const LIMBS: usize> DivAssign<&NonZero<Limb>> for Uint<LIMBS>

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fn div_assign(&mut self, rhs: &NonZero<Limb>)

Performs the /= operation. Read more
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impl<const LIMBS: usize> DivAssign<&NonZero<Uint<LIMBS>>> for Uint<LIMBS>

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fn div_assign(&mut self, rhs: &NonZero<Uint<LIMBS>>)

Performs the /= operation. Read more
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impl<const LIMBS: usize> DivAssign<NonZero<Limb>> for Uint<LIMBS>

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fn div_assign(&mut self, rhs: NonZero<Limb>)

Performs the /= operation. Read more
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impl<const LIMBS: usize> DivAssign<NonZero<Uint<LIMBS>>> for Uint<LIMBS>

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fn div_assign(&mut self, rhs: NonZero<Uint<LIMBS>>)

Performs the /= operation. Read more
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impl<const LIMBS: usize> Encodable for Uint<LIMBS>where Self: Encoding,

Available on crate feature rlp only.
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fn rlp_append(&self, stream: &mut RlpStream)

Append a value to the stream
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fn rlp_bytes(&self) -> BytesMut

Get rlp-encoded bytes for this instance
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impl<const LIMBS: usize> EncodeValue for Uint<LIMBS>where Uint<LIMBS>: ArrayEncoding,

Available on crate features der and generic-array only.
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fn value_len(&self) -> Result<Length>

Compute the length of this value (sans [Tag]+Length header) when encoded as ASN.1 DER.
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fn encode_value(&self, encoder: &mut impl Writer) -> Result<()>

Encode value (sans [Tag]+Length header) as ASN.1 DER using the provided Writer.
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fn header(&self) -> Result<Header, Error>where Self: Tagged,

Get the Header used to encode this value.
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impl<const LIMBS: usize> FixedTag for Uint<LIMBS>where Uint<LIMBS>: ArrayEncoding,

Available on crate features der and generic-array only.
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const TAG: Tag = Tag::Integer

ASN.1 tag
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impl<const L: usize, const H: usize, const LIMBS: usize> From<&(Uint<L>, Uint<H>)> for Uint<LIMBS>where Uint<H>: ConcatMixed<Uint<L>, MixedOutput = Uint<LIMBS>>,

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fn from(nums: &(Uint<L>, Uint<H>)) -> Uint<LIMBS>

Converts to this type from the input type.
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impl<const LIMBS: usize, const LIMBS2: usize> From<&Uint<LIMBS>> for Uint<LIMBS2>

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fn from(num: &Uint<LIMBS>) -> Uint<LIMBS2>

Converts to this type from the input type.
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impl<const LIMBS: usize> From<[Limb; LIMBS]> for Uint<LIMBS>

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fn from(limbs: [Limb; LIMBS]) -> Self

Converts to this type from the input type.
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impl<const LIMBS: usize> From<[u64; LIMBS]> for Uint<LIMBS>

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fn from(arr: [Word; LIMBS]) -> Self

Converts to this type from the input type.
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impl<const L: usize, const H: usize, const LIMBS: usize> From<(Uint<L>, Uint<H>)> for Uint<LIMBS>where Uint<H>: ConcatMixed<Uint<L>, MixedOutput = Uint<LIMBS>>,

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fn from(nums: (Uint<L>, Uint<H>)) -> Uint<LIMBS>

Converts to this type from the input type.
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impl<const LIMBS: usize> From<Limb> for Uint<LIMBS>

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fn from(limb: Limb) -> Self

Converts to this type from the input type.
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impl From<Uint<{nlimbs!($bits)}>> for u128

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fn from(n: U128) -> u128

Converts to this type from the input type.
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impl From<Uint<{nlimbs!($bits)}>> for u64

Available on 64-bit only.
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fn from(n: U64) -> u64

Converts to this type from the input type.
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impl<const LIMBS: usize> From<Uint<LIMBS>> for [Limb; LIMBS]

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fn from(n: Uint<LIMBS>) -> [Limb; LIMBS]

Converts to this type from the input type.
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impl<const LIMBS: usize> From<Uint<LIMBS>> for [Word; LIMBS]

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fn from(n: Uint<LIMBS>) -> [Word; LIMBS]

Converts to this type from the input type.
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impl<const L: usize, const H: usize, const LIMBS: usize> From<Uint<LIMBS>> for (Uint<L>, Uint<H>)

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fn from(num: Uint<LIMBS>) -> (Uint<L>, Uint<H>)

Converts to this type from the input type.
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impl<const LIMBS: usize> From<u128> for Uint<LIMBS>

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fn from(n: u128) -> Self

Converts to this type from the input type.
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impl<const LIMBS: usize> From<u16> for Uint<LIMBS>

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fn from(n: u16) -> Self

Converts to this type from the input type.
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impl<const LIMBS: usize> From<u32> for Uint<LIMBS>

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fn from(n: u32) -> Self

Converts to this type from the input type.
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impl<const LIMBS: usize> From<u64> for Uint<LIMBS>

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fn from(n: u64) -> Self

Converts to this type from the input type.
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impl<const LIMBS: usize> From<u8> for Uint<LIMBS>

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fn from(n: u8) -> Self

Converts to this type from the input type.
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impl<const LIMBS: usize> Hash for Uint<LIMBS>

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fn hash<__H: Hasher>(&self, state: &mut __H)

Feeds this value into the given Hasher. Read more
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fn hash_slice<H>(data: &[Self], state: &mut H)where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher. Read more
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impl<const LIMBS: usize> Integer for Uint<LIMBS>

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const ONE: Self = Self::ONE

The value 1.
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const MAX: Self = Self::MAX

Maximum value this integer can express.
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const BITS: usize = Self::BITS

Total size of the represented integer in bits.
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const BYTES: usize = Self::BYTES

Total size of the represented integer in bytes.
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const LIMBS: usize = Self::LIMBS

The number of limbs used on this platform.
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fn is_odd(&self) -> Choice

Is this integer value an odd number? Read more
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fn is_even(&self) -> Choice

Is this integer value an even number? Read more
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impl<const LIMBS: usize> LowerHex for Uint<LIMBS>

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.
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impl<const LIMBS: usize, const HLIMBS: usize> Mul<&Uint<HLIMBS>> for &Uint<LIMBS>where Uint<HLIMBS>: ConcatMixed<Uint<LIMBS>>,

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type Output = <Uint<HLIMBS> as ConcatMixed<Uint<LIMBS>>>::MixedOutput

The resulting type after applying the * operator.
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fn mul(self, other: &Uint<HLIMBS>) -> Self::Output

Performs the * operation. Read more
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impl<const LIMBS: usize, const HLIMBS: usize> Mul<&Uint<HLIMBS>> for Uint<LIMBS>where Uint<HLIMBS>: ConcatMixed<Uint<LIMBS>>,

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type Output = <Uint<HLIMBS> as ConcatMixed<Uint<LIMBS>>>::MixedOutput

The resulting type after applying the * operator.
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fn mul(self, other: &Uint<HLIMBS>) -> Self::Output

Performs the * operation. Read more
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impl<const LIMBS: usize, const HLIMBS: usize> Mul<Uint<HLIMBS>> for &Uint<LIMBS>where Uint<HLIMBS>: ConcatMixed<Uint<LIMBS>>,

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type Output = <Uint<HLIMBS> as ConcatMixed<Uint<LIMBS>>>::MixedOutput

The resulting type after applying the * operator.
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fn mul(self, other: Uint<HLIMBS>) -> Self::Output

Performs the * operation. Read more
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impl<const LIMBS: usize, const HLIMBS: usize> Mul<Uint<HLIMBS>> for Uint<LIMBS>where Uint<HLIMBS>: ConcatMixed<Uint<LIMBS>>,

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type Output = <Uint<HLIMBS> as ConcatMixed<Uint<LIMBS>>>::MixedOutput

The resulting type after applying the * operator.
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fn mul(self, other: Uint<HLIMBS>) -> Self::Output

Performs the * operation. Read more
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impl<const LIMBS: usize, const RHS_LIMBS: usize> MultiExponentiateBoundedExp<Uint<RHS_LIMBS>, [(DynResidue<LIMBS>, Uint<RHS_LIMBS>)]> for DynResidue<LIMBS>

Available on crate feature alloc only.
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fn multi_exponentiate_bounded_exp( bases_and_exponents: &[(Self, Uint<RHS_LIMBS>)], exponent_bits: usize ) -> Self

Calculates x1 ^ k1 * ... * xn ^ kn.
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impl<const N: usize, const LIMBS: usize, const RHS_LIMBS: usize> MultiExponentiateBoundedExp<Uint<RHS_LIMBS>, [(DynResidue<LIMBS>, Uint<RHS_LIMBS>); N]> for DynResidue<LIMBS>

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fn multi_exponentiate_bounded_exp( bases_and_exponents: &[(Self, Uint<RHS_LIMBS>); N], exponent_bits: usize ) -> Self

Calculates x1 ^ k1 * ... * xn ^ kn.
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impl<MOD: ResidueParams<LIMBS>, const LIMBS: usize, const RHS_LIMBS: usize> MultiExponentiateBoundedExp<Uint<RHS_LIMBS>, [(Residue<MOD, LIMBS>, Uint<RHS_LIMBS>)]> for Residue<MOD, LIMBS>

Available on crate feature alloc only.
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fn multi_exponentiate_bounded_exp( bases_and_exponents: &[(Self, Uint<RHS_LIMBS>)], exponent_bits: usize ) -> Self

Calculates x1 ^ k1 * ... * xn ^ kn.
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impl<const N: usize, MOD: ResidueParams<LIMBS>, const LIMBS: usize, const RHS_LIMBS: usize> MultiExponentiateBoundedExp<Uint<RHS_LIMBS>, [(Residue<MOD, LIMBS>, Uint<RHS_LIMBS>); N]> for Residue<MOD, LIMBS>

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fn multi_exponentiate_bounded_exp( bases_and_exponents: &[(Self, Uint<RHS_LIMBS>); N], exponent_bits: usize ) -> Self

Calculates x1 ^ k1 * ... * xn ^ kn.
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impl<const LIMBS: usize> NegMod for Uint<LIMBS>

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type Output = Uint<LIMBS>

Output type.
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fn neg_mod(&self, p: &Self) -> Self

Compute -self mod p.
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impl<const LIMBS: usize> Not for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the ! operator.
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fn not(self) -> <Self as Not>::Output

Performs the unary ! operation. Read more
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impl<const LIMBS: usize> Ord for Uint<LIMBS>

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fn cmp(&self, other: &Self) -> Ordering

This method returns an Ordering between self and other. Read more
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fn max(self, other: Self) -> Selfwhere Self: Sized,

Compares and returns the maximum of two values. Read more
1.21.0 · source§

fn min(self, other: Self) -> Selfwhere Self: Sized,

Compares and returns the minimum of two values. Read more
1.50.0 · source§

fn clamp(self, min: Self, max: Self) -> Selfwhere Self: Sized + PartialOrd,

Restrict a value to a certain interval. Read more
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impl<const LIMBS: usize> PartialEq for Uint<LIMBS>

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fn eq(&self, other: &Self) -> bool

This method tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl<const LIMBS: usize> PartialOrd for Uint<LIMBS>

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fn partial_cmp(&self, other: &Self) -> Option<Ordering>

This method returns an ordering between self and other values if one exists. Read more
1.0.0 · source§

fn lt(&self, other: &Rhs) -> bool

This method tests less than (for self and other) and is used by the < operator. Read more
1.0.0 · source§

fn le(&self, other: &Rhs) -> bool

This method tests less than or equal to (for self and other) and is used by the <= operator. Read more
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fn gt(&self, other: &Rhs) -> bool

This method tests greater than (for self and other) and is used by the > operator. Read more
1.0.0 · source§

fn ge(&self, other: &Rhs) -> bool

This method tests greater than or equal to (for self and other) and is used by the >= operator. Read more
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impl<const LIMBS: usize, const RHS_LIMBS: usize> PowBoundedExp<Uint<RHS_LIMBS>> for DynResidue<LIMBS>

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fn pow_bounded_exp( &self, exponent: &Uint<RHS_LIMBS>, exponent_bits: usize ) -> Self

Raises to the exponent power, with exponent_bits representing the number of (least significant) bits to take into account for the exponent. Read more
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impl<MOD: ResidueParams<LIMBS>, const LIMBS: usize, const RHS_LIMBS: usize> PowBoundedExp<Uint<RHS_LIMBS>> for Residue<MOD, LIMBS>

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fn pow_bounded_exp( &self, exponent: &Uint<RHS_LIMBS>, exponent_bits: usize ) -> Self

Raises to the exponent power, with exponent_bits representing the number of (least significant) bits to take into account for the exponent. Read more
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impl<const LIMBS: usize> Random for Uint<LIMBS>

Available on crate feature rand_core only.
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fn random(rng: &mut impl CryptoRngCore) -> Self

Generate a cryptographically secure random Uint.

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impl<const LIMBS: usize> RandomMod for Uint<LIMBS>

Available on crate feature rand_core only.
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fn random_mod(rng: &mut impl CryptoRngCore, modulus: &NonZero<Self>) -> Self

Generate a cryptographically secure random Uint which is less than a given modulus.

This function uses rejection sampling, a method which produces an unbiased distribution of in-range values provided the underlying CSRNG is unbiased, but runs in variable-time.

The variable-time nature of the algorithm should not pose a security issue so long as the underlying random number generator is truly a CSRNG, where previous outputs are unrelated to subsequent outputs and do not reveal information about the RNG’s internal state.

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impl<const LIMBS: usize> Rem<&NonZero<Limb>> for &Uint<LIMBS>

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type Output = Limb

The resulting type after applying the % operator.
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fn rem(self, rhs: &NonZero<Limb>) -> Self::Output

Performs the % operation. Read more
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impl<const LIMBS: usize> Rem<&NonZero<Limb>> for Uint<LIMBS>

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type Output = Limb

The resulting type after applying the % operator.
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fn rem(self, rhs: &NonZero<Limb>) -> Self::Output

Performs the % operation. Read more
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impl<const LIMBS: usize> Rem<&NonZero<Uint<LIMBS>>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the % operator.
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fn rem(self, rhs: &NonZero<Uint<LIMBS>>) -> Self::Output

Performs the % operation. Read more
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impl<const LIMBS: usize> Rem<&NonZero<Uint<LIMBS>>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the % operator.
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fn rem(self, rhs: &NonZero<Uint<LIMBS>>) -> Self::Output

Performs the % operation. Read more
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impl<const LIMBS: usize> Rem<NonZero<Limb>> for &Uint<LIMBS>

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type Output = Limb

The resulting type after applying the % operator.
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fn rem(self, rhs: NonZero<Limb>) -> Self::Output

Performs the % operation. Read more
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impl<const LIMBS: usize> Rem<NonZero<Limb>> for Uint<LIMBS>

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type Output = Limb

The resulting type after applying the % operator.
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fn rem(self, rhs: NonZero<Limb>) -> Self::Output

Performs the % operation. Read more
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impl<const LIMBS: usize> Rem<NonZero<Uint<LIMBS>>> for &Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the % operator.
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fn rem(self, rhs: NonZero<Uint<LIMBS>>) -> Self::Output

Performs the % operation. Read more
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impl<const LIMBS: usize> Rem<NonZero<Uint<LIMBS>>> for Uint<LIMBS>

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type Output = Uint<LIMBS>

The resulting type after applying the % operator.
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fn rem(self, rhs: NonZero<Uint<LIMBS>>) -> Self::Output

Performs the % operation. Read more
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impl<const LIMBS: usize> RemAssign<&NonZero<Limb>> for Uint<LIMBS>

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fn rem_assign(&mut self, rhs: &NonZero<Limb>)

Performs the %= operation. Read more
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impl<const LIMBS: usize> RemAssign<&NonZero<Uint<LIMBS>>> for Uint<LIMBS>

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fn rem_assign(&mut self, rhs: &NonZero<Uint<LIMBS>>)

Performs the %= operation. Read more
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impl<const LIMBS: usize> RemAssign<NonZero<Limb>> for Uint<LIMBS>

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fn rem_assign(&mut self, rhs: NonZero<Limb>)

Performs the %= operation. Read more
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impl<const LIMBS: usize> RemAssign<NonZero<Uint<LIMBS>>> for Uint<LIMBS>

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fn rem_assign(&mut self, rhs: NonZero<Uint<LIMBS>>)

Performs the %= operation. Read more
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impl<const LIMBS: usize> Serialize for Uint<LIMBS>where Uint<LIMBS>: Encoding,

Available on crate feature serde only.
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fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>where S: Serializer,

Serialize this value into the given Serde serializer. Read more
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impl<const LIMBS: usize> Shl<usize> for &Uint<LIMBS>

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fn shl(self, rhs: usize) -> Uint<LIMBS>

NOTE: this operation is variable time with respect to rhs ONLY.

When used with a fixed rhs, this function is constant-time with respect to self.

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type Output = Uint<LIMBS>

The resulting type after applying the << operator.
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impl<const LIMBS: usize> Shl<usize> for Uint<LIMBS>

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fn shl(self, rhs: usize) -> Uint<LIMBS>

NOTE: this operation is variable time with respect to rhs ONLY.

When used with a fixed rhs, this function is constant-time with respect to self.

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type Output = Uint<LIMBS>

The resulting type after applying the << operator.
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impl<const LIMBS: usize> ShlAssign<usize> for Uint<LIMBS>

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fn shl_assign(&mut self, rhs: usize)

NOTE: this operation is variable time with respect to rhs ONLY.

When used with a fixed rhs, this function is constant-time with respect to self.

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impl<const LIMBS: usize> Shr<usize> for &Uint<LIMBS>

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fn shr(self, rhs: usize) -> Uint<LIMBS>

NOTE: this operation is variable time with respect to rhs ONLY.

When used with a fixed rhs, this function is constant-time with respect to self.

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type Output = Uint<LIMBS>

The resulting type after applying the >> operator.
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impl<const LIMBS: usize> Shr<usize> for Uint<LIMBS>

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fn shr(self, rhs: usize) -> Uint<LIMBS>

NOTE: this operation is variable time with respect to rhs ONLY.

When used with a fixed rhs, this function is constant-time with respect to self.

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type Output = Uint<LIMBS>

The resulting type after applying the >> operator.
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impl<const LIMBS: usize> ShrAssign<usize> for Uint<LIMBS>

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fn shr_assign(&mut self, rhs: usize)

Performs the >>= operation. Read more
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U4864

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U128

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U3712

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U3328

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U5760

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U7296

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U4992

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U2688

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U2560

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U2048

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U1536

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U2816

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U7552

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U6656

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U3584

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U3968

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U8064

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U7424

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U3200

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U4480

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U2176

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U1792

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U256

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U8192

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U1664

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U5504

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U6528

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U896

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U2304

Available on crate feature extra-sizes only.
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fn split_mixed(&self) -> (Uint<{ _ }>, Uint<{ _ }>)

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U6144

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U640

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U7936

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U7680

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U6272

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U4352

source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U6400

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U1152

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U1280

source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U384

source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U3456

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U1408

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U3840

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U3072

source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U1920

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U512

source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U6784

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U4608

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U5120

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U4224

source§

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

Split this number into parts, 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<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U2432

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U7808

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U7040

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U7168

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U5888

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U5632

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U1024

source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U6016

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U2944

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U5376

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U4736

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U4096

source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U6912

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U5248

Available on crate feature extra-sizes only.
source§

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

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

impl SplitMixed<Uint<{ <$name>::LIMBS / 2 }>, Uint<{ <$name>::LIMBS / 2 }>> for U16384

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 U896

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 U832

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 U320

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 U896

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 U960

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 U320

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 U1024

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 U896

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 U1024

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 U832

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 U384

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 U1024

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 U576

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 U832

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 U704

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 U960

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 U960

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 U704

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 U192

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 U896

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 U896

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 U832

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 U1024

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 U896

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 U1024

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 U832

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 U704

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 U512

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 U832

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 U576

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 U576

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 U1024

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 U384

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 U512

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 U896

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 U512

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 U512

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 U576

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 U704

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 U448

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 U704

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 U1024

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 U832

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 U704

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 U576

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 U960

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 U576

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 U960

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 U1024

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U448

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U320

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U896

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U256

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U640

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U256

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U1024

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U1024

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U384

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U448

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U1024

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U704

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U896

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U832

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U512

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U320

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U704

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U832

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U1024

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U640

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U896

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U640

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U832

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U832

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U640

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U448

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U704

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U640

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U448

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U192

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U832

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U512

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U576

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U704

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U640

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U1024

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U896

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U448

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U384

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U640

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U768

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U576

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U896

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U1024

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U960

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

Split this number into parts, returning its high and low components respectively.
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impl SplitMixed<Uint<{ U64::LIMBS * $size }>, Uint<{ <$name>::LIMBS - U64::LIMBS * $size }>> for U640

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

Split this number into parts, returning its high and low components respectively.
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impl<const LIMBS: usize> SubMod for Uint<LIMBS>

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type Output = Uint<LIMBS>

Output type.
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fn sub_mod(&self, rhs: &Self, p: &Self) -> Self

Compute self - rhs mod p. Read more
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impl<'a, const LIMBS: usize> TryFrom<AnyRef<'a>> for Uint<LIMBS>where Uint<LIMBS>: ArrayEncoding,

Available on crate features der and generic-array only.
§

type Error = Error

The type returned in the event of a conversion error.
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fn try_from(any: AnyRef<'a>) -> Result<Uint<LIMBS>>

Performs the conversion.
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impl<'a, const LIMBS: usize> TryFrom<UintRef<'a>> for Uint<LIMBS>where Uint<LIMBS>: ArrayEncoding,

Available on crate features der and generic-array only.
§

type Error = Error

The type returned in the event of a conversion error.
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fn try_from(bytes: UintRef<'a>) -> Result<Uint<LIMBS>>

Performs the conversion.
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impl<const LIMBS: usize> UpperHex for Uint<LIMBS>

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.
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impl<const LIMBS: usize> Zero for Uint<LIMBS>

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const ZERO: Self = Self::ZERO

The value 0.
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fn is_zero(&self) -> Choice

Determine if this value is equal to zero. Read more
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impl<const LIMBS: usize> Copy for Uint<LIMBS>

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impl<const LIMBS: usize> DefaultIsZeroes for Uint<LIMBS>

Available on crate feature zeroize only.
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impl<const LIMBS: usize> Eq for Uint<LIMBS>

Auto Trait Implementations§

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impl<const LIMBS: usize> RefUnwindSafe for Uint<LIMBS>

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impl<const LIMBS: usize> Send for Uint<LIMBS>

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impl<const LIMBS: usize> Sync for Uint<LIMBS>

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impl<const LIMBS: usize> Unpin for Uint<LIMBS>

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impl<const LIMBS: usize> UnwindSafe for Uint<LIMBS>

Blanket Implementations§

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impl<T> Any for Twhere T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for Twhere T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for Twhere T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<'a, T> Choice<'a> for Twhere T: Decode<'a> + FixedTag,

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fn can_decode(tag: Tag) -> bool

Is the provided Tag decodable as a variant of this CHOICE?
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impl<T> Concat for Twhere T: ConcatMixed,

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type Output = <T as ConcatMixed>::MixedOutput

Concatenated output: twice the width of Self.
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fn concat(&self, lo: &Self) -> Self::Output

Concatenate the two halves, with self as most significant and lo as the least significant.
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impl<'a, T> Decode<'a> for Twhere T: DecodeValue<'a> + FixedTag,

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fn decode<R>(reader: &mut R) -> Result<T, Error>where R: Reader<'a>,

Attempt to decode this message using the provided decoder.
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fn from_der(bytes: &'a [u8]) -> Result<Self, Error>

Parse Self from the provided DER-encoded byte slice.
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impl<T> Encode for Twhere T: EncodeValue + Tagged,

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fn encoded_len(&self) -> Result<Length, Error>

Compute the length of this value in bytes when encoded as ASN.1 DER.

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fn encode(&self, writer: &mut impl Writer) -> Result<(), Error>

Encode this value as ASN.1 DER using the provided Writer.

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fn encode_to_slice<'a>(&self, buf: &'a mut [u8]) -> Result<&'a [u8], Error>

Encode this value to the provided byte slice, returning a sub-slice containing the encoded message.
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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T, U> Into<U> for Twhere U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T> Same for T

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type Output = T

Should always be Self
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impl<T> Tagged for Twhere T: FixedTag,

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fn tag(&self) -> Tag

Get the ASN.1 tag that this type is encoded with.
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impl<T> ToOwned for Twhere T: Clone,

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type Owned = T

The resulting type after obtaining ownership.
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fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
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fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
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impl<T> ToString for Twhere T: Display + ?Sized,

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default fn to_string(&self) -> String

Converts the given value to a String. Read more
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impl<T, U> TryFrom<U> for Twhere U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for Twhere U: TryFrom<T>,

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type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.
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impl<Z> Zeroize for Zwhere Z: DefaultIsZeroes,

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fn zeroize(&mut self)

Zero out this object from memory using Rust intrinsics which ensure the zeroization operation is not “optimized away” by the compiler.
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impl<T> DecodeOwned for Twhere T: for<'a> Decode<'a>,

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impl<T> DeserializeOwned for Twhere T: for<'de> Deserialize<'de>,