struct ZERO_VALUE_CALL_SELECTOR {
__private_field: (),
}
Fields§
§__private_field: ()
Methods from Deref<Target = U256>§
pub fn to_base_le(&self, base: u64) -> impl Iterator<Item = u64>
pub fn to_base_le(&self, base: u64) -> impl Iterator<Item = u64>
Returns an iterator over the base base
digits of the number in
little-endian order.
Pro tip: instead of setting base = 10
, set it to the highest
power of 10
that still fits u64
. This way much fewer iterations
are required to extract all the digits.
§Panics
Panics if the base is less than 2.
pub fn to_base_be(&self, base: u64) -> impl Iterator<Item = u64>
pub fn to_base_be(&self, base: u64) -> impl Iterator<Item = u64>
Returns an iterator over the base base
digits of the number in
big-endian order.
Pro tip: instead of setting base = 10
, set it to the highest
power of 10
that still fits u64
. This way much fewer iterations
are required to extract all the digits.
§Panics
Panics if the base is less than 2.
pub fn bit(&self, index: usize) -> bool
pub fn bit(&self, index: usize) -> bool
Returns whether a specific bit is set.
Returns false
if index
exceeds the bit width of the number.
pub fn byte(&self, index: usize) -> u8
pub fn byte(&self, index: usize) -> u8
Returns a specific byte. The byte at index 0
is the least significant
byte (little endian).
§Panics
Panics if index
exceeds the byte width of the number.
§Examples
let x = uint!(0x1234567890_U64);
let bytes = [
x.byte(0), // 0x90
x.byte(1), // 0x78
x.byte(2), // 0x56
x.byte(3), // 0x34
x.byte(4), // 0x12
x.byte(5), // 0x00
x.byte(6), // 0x00
x.byte(7), // 0x00
];
assert_eq!(bytes, x.to_le_bytes());
Panics if out of range.
let x = uint!(0x1234567890_U64);
let _ = x.byte(8);
pub fn leading_zeros(&self) -> usize
pub fn leading_zeros(&self) -> usize
Returns the number of leading zeros in the binary representation of
self
.
pub fn leading_ones(&self) -> usize
pub fn leading_ones(&self) -> usize
Returns the number of leading ones in the binary representation of
self
.
pub fn trailing_zeros(&self) -> usize
pub fn trailing_zeros(&self) -> usize
Returns the number of trailing zeros in the binary representation of
self
.
pub fn trailing_ones(&self) -> usize
pub fn trailing_ones(&self) -> usize
Returns the number of trailing ones in the binary representation of
self
.
pub fn count_ones(&self) -> usize
pub fn count_ones(&self) -> usize
Returns the number of ones in the binary representation of self
.
pub fn count_zeros(&self) -> usize
pub fn count_zeros(&self) -> usize
Returns the number of zeros in the binary representation of self
.
pub fn most_significant_bits(&self) -> (u64, usize)
pub fn most_significant_bits(&self) -> (u64, usize)
Returns the most significant 64 bits of the number and the exponent.
Given return value $(\mathtt{bits}, \mathtt{exponent})$, the self
can
be approximated as
$$ \mathtt{self} ≈ \mathtt{bits} ⋅ 2^\mathtt{exponent} $$
If self
is $<≥> 2^{63}$, then exponent
will be zero and bits
will
have leading zeros.
pub const BYTES: usize = _
pub fn as_le_slice(&self) -> &[u8] ⓘ
pub fn as_le_slice(&self) -> &[u8] ⓘ
Access the underlying store as a little-endian slice of bytes.
Only available on little-endian targets.
If BITS
does not evenly divide 8, it is padded with zero bits in the
most significant position.
pub fn as_le_bytes(&self) -> Cow<'_, [u8]>
pub fn as_le_bytes(&self) -> Cow<'_, [u8]>
Access the underlying store as a little-endian bytes.
Uses an optimized implementation on little-endian targets.
pub fn as_le_bytes_trimmed(&self) -> Cow<'_, [u8]>
pub fn as_le_bytes_trimmed(&self) -> Cow<'_, [u8]>
Access the underlying store as a little-endian bytes with trailing zeros removed.
Uses an optimized implementation on little-endian targets.
pub fn to_le_bytes<const BYTES: usize>(&self) -> [u8; BYTES]
pub fn to_le_bytes<const BYTES: usize>(&self) -> [u8; BYTES]
pub fn to_le_bytes_vec(&self) -> Vec<u8> ⓘ
pub fn to_le_bytes_vec(&self) -> Vec<u8> ⓘ
Converts the [Uint
] to a little-endian byte vector of size exactly
[Self::BYTES
].
This method is useful when [Self::to_le_bytes
] can not be used because
byte size is not known compile time.
pub fn to_le_bytes_trimmed_vec(&self) -> Vec<u8> ⓘ
pub fn to_le_bytes_trimmed_vec(&self) -> Vec<u8> ⓘ
Converts the [Uint
] to a little-endian byte vector with trailing zeros
bytes removed.
pub fn to_be_bytes<const BYTES: usize>(&self) -> [u8; BYTES]
pub fn to_be_bytes<const BYTES: usize>(&self) -> [u8; BYTES]
pub fn to_be_bytes_vec(&self) -> Vec<u8> ⓘ
pub fn to_be_bytes_vec(&self) -> Vec<u8> ⓘ
Converts the [Uint
] to a big-endian byte vector of size exactly
[Self::BYTES
].
This method is useful when [Self::to_be_bytes
] can not be used because
byte size is not known compile time.
pub fn to_be_bytes_trimmed_vec(&self) -> Vec<u8> ⓘ
pub fn to_be_bytes_trimmed_vec(&self) -> Vec<u8> ⓘ
Converts the [Uint
] to a big-endian byte vector with leading zeros
bytes removed.
pub fn wrapping_to<T>(&self) -> Twhere
Uint<BITS, LIMBS>: UintTryTo<T>,
pub fn wrapping_to<T>(&self) -> Twhere
Uint<BITS, LIMBS>: UintTryTo<T>,
§Examples
assert_eq!(300_U12.wrapping_to::<i8>(), 44_i8);
assert_eq!(255_U32.wrapping_to::<i8>(), -1_i8);
assert_eq!(0x1337cafec0d3_U256.wrapping_to::<U32>(), 0xcafec0d3_U32);
pub fn saturating_to<T>(&self) -> Twhere
Uint<BITS, LIMBS>: UintTryTo<T>,
pub fn saturating_to<T>(&self) -> Twhere
Uint<BITS, LIMBS>: UintTryTo<T>,
§Examples
assert_eq!(300_U12.saturating_to::<i16>(), 300_i16);
assert_eq!(255_U32.saturating_to::<i8>(), 127);
assert_eq!(0x1337cafec0d3_U256.saturating_to::<U32>(), U32::MAX);
pub const LIMBS: usize = _
pub const MASK: u64 = _
pub const BITS: usize = BITS
pub const ZERO: Uint<BITS, LIMBS> = _
pub const MIN: Uint<BITS, LIMBS> = Self::ZERO
pub const MAX: Uint<BITS, LIMBS> = _
Trait Implementations§
Source§impl Deref for ZERO_VALUE_CALL_SELECTOR
impl Deref for ZERO_VALUE_CALL_SELECTOR
impl LazyStatic for ZERO_VALUE_CALL_SELECTOR
Auto Trait Implementations§
impl Freeze for ZERO_VALUE_CALL_SELECTOR
impl RefUnwindSafe for ZERO_VALUE_CALL_SELECTOR
impl Send for ZERO_VALUE_CALL_SELECTOR
impl Sync for ZERO_VALUE_CALL_SELECTOR
impl Unpin for ZERO_VALUE_CALL_SELECTOR
impl UnwindSafe for ZERO_VALUE_CALL_SELECTOR
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