Type Alias crypto_bigint::U960

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pub type U960 = Uint<{ _ }>;
Expand description

960-bit unsigned big integer.

Aliased Type§

struct U960 { /* private fields */ }

Trait Implementations§

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impl Encoding for U960

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type Repr = [u8; 120]

Byte array representation.
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fn from_be_bytes(bytes: Self::Repr) -> Self

Decode from big endian bytes.
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fn from_le_bytes(bytes: Self::Repr) -> Self

Decode from little endian bytes.
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fn to_be_bytes(&self) -> Self::Repr

Encode to big endian bytes.
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fn to_le_bytes(&self) -> Self::Repr

Encode to little endian bytes.
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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 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 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 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 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 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 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 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 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 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 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 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 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 U960

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

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