Struct rasn_mib::ip::AdEntBcastAddr
source · #[repr(transparent)]pub struct AdEntBcastAddr(pub Integer);
Expand description
The value of the least-significant bit in the IP broadcast address used for sending datagrams on the (logical) interface associated with the IP address of this entry.
For example, when the Internet standard all-ones broadcast address is used, the value will be 1. This value applies to both the subnet and network broadcasts addresses used by the entity on this (logical) interface.
The value of the least-significant bit in the IP broadcast address used for sending datagrams on the (logical) interface associated with the IP address of this entry.
For example, when the Internet standard all-ones broadcast address is used, the value will be 1. This value applies to both the subnet and network broadcasts addresses used by the entity on this (logical) interface.
Tuple Fields§
§0: Integer
Methods from Deref<Target = Integer>§
pub const ZERO: BigInt = _
sourcepub fn assign_from_slice(&mut self, sign: Sign, slice: &[u32])
pub fn assign_from_slice(&mut self, sign: Sign, slice: &[u32])
Reinitializes a BigInt
.
The base 232 digits are ordered least significant digit first.
sourcepub fn to_bytes_be(&self) -> (Sign, Vec<u8>)
pub fn to_bytes_be(&self) -> (Sign, Vec<u8>)
sourcepub fn to_bytes_le(&self) -> (Sign, Vec<u8>)
pub fn to_bytes_le(&self) -> (Sign, Vec<u8>)
sourcepub fn to_u32_digits(&self) -> (Sign, Vec<u32>)
pub fn to_u32_digits(&self) -> (Sign, Vec<u32>)
Returns the sign and the u32
digits representation of the BigInt
ordered least
significant digit first.
§Examples
use num_bigint::{BigInt, Sign};
assert_eq!(BigInt::from(-1125).to_u32_digits(), (Sign::Minus, vec![1125]));
assert_eq!(BigInt::from(4294967295u32).to_u32_digits(), (Sign::Plus, vec![4294967295]));
assert_eq!(BigInt::from(4294967296u64).to_u32_digits(), (Sign::Plus, vec![0, 1]));
assert_eq!(BigInt::from(-112500000000i64).to_u32_digits(), (Sign::Minus, vec![830850304, 26]));
assert_eq!(BigInt::from(112500000000i64).to_u32_digits(), (Sign::Plus, vec![830850304, 26]));
sourcepub fn to_u64_digits(&self) -> (Sign, Vec<u64>)
pub fn to_u64_digits(&self) -> (Sign, Vec<u64>)
Returns the sign and the u64
digits representation of the BigInt
ordered least
significant digit first.
§Examples
use num_bigint::{BigInt, Sign};
assert_eq!(BigInt::from(-1125).to_u64_digits(), (Sign::Minus, vec![1125]));
assert_eq!(BigInt::from(4294967295u32).to_u64_digits(), (Sign::Plus, vec![4294967295]));
assert_eq!(BigInt::from(4294967296u64).to_u64_digits(), (Sign::Plus, vec![4294967296]));
assert_eq!(BigInt::from(-112500000000i64).to_u64_digits(), (Sign::Minus, vec![112500000000]));
assert_eq!(BigInt::from(112500000000i64).to_u64_digits(), (Sign::Plus, vec![112500000000]));
assert_eq!(BigInt::from(1u128 << 64).to_u64_digits(), (Sign::Plus, vec![0, 1]));
sourcepub fn iter_u32_digits(&self) -> U32Digits<'_>
pub fn iter_u32_digits(&self) -> U32Digits<'_>
Returns an iterator of u32
digits representation of the BigInt
ordered least
significant digit first.
§Examples
use num_bigint::BigInt;
assert_eq!(BigInt::from(-1125).iter_u32_digits().collect::<Vec<u32>>(), vec![1125]);
assert_eq!(BigInt::from(4294967295u32).iter_u32_digits().collect::<Vec<u32>>(), vec![4294967295]);
assert_eq!(BigInt::from(4294967296u64).iter_u32_digits().collect::<Vec<u32>>(), vec![0, 1]);
assert_eq!(BigInt::from(-112500000000i64).iter_u32_digits().collect::<Vec<u32>>(), vec![830850304, 26]);
assert_eq!(BigInt::from(112500000000i64).iter_u32_digits().collect::<Vec<u32>>(), vec![830850304, 26]);
sourcepub fn iter_u64_digits(&self) -> U64Digits<'_>
pub fn iter_u64_digits(&self) -> U64Digits<'_>
Returns an iterator of u64
digits representation of the BigInt
ordered least
significant digit first.
§Examples
use num_bigint::BigInt;
assert_eq!(BigInt::from(-1125).iter_u64_digits().collect::<Vec<u64>>(), vec![1125u64]);
assert_eq!(BigInt::from(4294967295u32).iter_u64_digits().collect::<Vec<u64>>(), vec![4294967295u64]);
assert_eq!(BigInt::from(4294967296u64).iter_u64_digits().collect::<Vec<u64>>(), vec![4294967296u64]);
assert_eq!(BigInt::from(-112500000000i64).iter_u64_digits().collect::<Vec<u64>>(), vec![112500000000u64]);
assert_eq!(BigInt::from(112500000000i64).iter_u64_digits().collect::<Vec<u64>>(), vec![112500000000u64]);
assert_eq!(BigInt::from(1u128 << 64).iter_u64_digits().collect::<Vec<u64>>(), vec![0, 1]);
sourcepub fn to_signed_bytes_be(&self) -> Vec<u8> ⓘ
pub fn to_signed_bytes_be(&self) -> Vec<u8> ⓘ
sourcepub fn to_signed_bytes_le(&self) -> Vec<u8> ⓘ
pub fn to_signed_bytes_le(&self) -> Vec<u8> ⓘ
sourcepub fn to_str_radix(&self, radix: u32) -> String
pub fn to_str_radix(&self, radix: u32) -> String
Returns the integer formatted as a string in the given radix.
radix
must be in the range 2...36
.
§Examples
use num_bigint::BigInt;
let i = BigInt::parse_bytes(b"ff", 16).unwrap();
assert_eq!(i.to_str_radix(16), "ff");
sourcepub fn to_radix_be(&self, radix: u32) -> (Sign, Vec<u8>)
pub fn to_radix_be(&self, radix: u32) -> (Sign, Vec<u8>)
Returns the integer in the requested base in big-endian digit order.
The output is not given in a human readable alphabet but as a zero
based u8
number.
radix
must be in the range 2...256
.
§Examples
use num_bigint::{BigInt, Sign};
assert_eq!(BigInt::from(-0xFFFFi64).to_radix_be(159),
(Sign::Minus, vec![2, 94, 27]));
// 0xFFFF = 65535 = 2*(159^2) + 94*159 + 27
sourcepub fn to_radix_le(&self, radix: u32) -> (Sign, Vec<u8>)
pub fn to_radix_le(&self, radix: u32) -> (Sign, Vec<u8>)
Returns the integer in the requested base in little-endian digit order.
The output is not given in a human readable alphabet but as a zero
based u8
number.
radix
must be in the range 2...256
.
§Examples
use num_bigint::{BigInt, Sign};
assert_eq!(BigInt::from(-0xFFFFi64).to_radix_le(159),
(Sign::Minus, vec![27, 94, 2]));
// 0xFFFF = 65535 = 27 + 94*159 + 2*(159^2)
sourcepub fn magnitude(&self) -> &BigUint
pub fn magnitude(&self) -> &BigUint
Returns the magnitude of the BigInt
as a BigUint
.
§Examples
use num_bigint::{BigInt, BigUint};
use num_traits::Zero;
assert_eq!(BigInt::from(1234).magnitude(), &BigUint::from(1234u32));
assert_eq!(BigInt::from(-4321).magnitude(), &BigUint::from(4321u32));
assert!(BigInt::ZERO.magnitude().is_zero());
sourcepub fn bits(&self) -> u64
pub fn bits(&self) -> u64
Determines the fewest bits necessary to express the BigInt
,
not including the sign.
sourcepub fn to_biguint(&self) -> Option<BigUint>
pub fn to_biguint(&self) -> Option<BigUint>
pub fn checked_add(&self, v: &BigInt) -> Option<BigInt>
pub fn checked_sub(&self, v: &BigInt) -> Option<BigInt>
pub fn checked_mul(&self, v: &BigInt) -> Option<BigInt>
pub fn checked_div(&self, v: &BigInt) -> Option<BigInt>
sourcepub fn modpow(&self, exponent: &BigInt, modulus: &BigInt) -> BigInt
pub fn modpow(&self, exponent: &BigInt, modulus: &BigInt) -> BigInt
Returns (self ^ exponent) mod modulus
Note that this rounds like mod_floor
, not like the %
operator,
which makes a difference when given a negative self
or modulus
.
The result will be in the interval [0, modulus)
for modulus > 0
,
or in the interval (modulus, 0]
for modulus < 0
Panics if the exponent is negative or the modulus is zero.
sourcepub fn modinv(&self, modulus: &BigInt) -> Option<BigInt>
pub fn modinv(&self, modulus: &BigInt) -> Option<BigInt>
Returns the modular multiplicative inverse if it exists, otherwise None
.
This solves for x
such that self * x ≡ 1 (mod modulus)
.
Note that this rounds like mod_floor
, not like the %
operator,
which makes a difference when given a negative self
or modulus
.
The solution will be in the interval [0, modulus)
for modulus > 0
,
or in the interval (modulus, 0]
for modulus < 0
,
and it exists if and only if gcd(self, modulus) == 1
.
use num_bigint::BigInt;
use num_integer::Integer;
use num_traits::{One, Zero};
let m = BigInt::from(383);
// Trivial cases
assert_eq!(BigInt::zero().modinv(&m), None);
assert_eq!(BigInt::one().modinv(&m), Some(BigInt::one()));
let neg1 = &m - 1u32;
assert_eq!(neg1.modinv(&m), Some(neg1));
// Positive self and modulus
let a = BigInt::from(271);
let x = a.modinv(&m).unwrap();
assert_eq!(x, BigInt::from(106));
assert_eq!(x.modinv(&m).unwrap(), a);
assert_eq!((&a * x).mod_floor(&m), BigInt::one());
// Negative self and positive modulus
let b = -&a;
let x = b.modinv(&m).unwrap();
assert_eq!(x, BigInt::from(277));
assert_eq!((&b * x).mod_floor(&m), BigInt::one());
// Positive self and negative modulus
let n = -&m;
let x = a.modinv(&n).unwrap();
assert_eq!(x, BigInt::from(-277));
assert_eq!((&a * x).mod_floor(&n), &n + 1);
// Negative self and modulus
let x = b.modinv(&n).unwrap();
assert_eq!(x, BigInt::from(-106));
assert_eq!((&b * x).mod_floor(&n), &n + 1);
sourcepub fn sqrt(&self) -> BigInt
pub fn sqrt(&self) -> BigInt
Returns the truncated principal square root of self
–
see num_integer::Roots::sqrt()
.
sourcepub fn cbrt(&self) -> BigInt
pub fn cbrt(&self) -> BigInt
Returns the truncated principal cube root of self
–
see num_integer::Roots::cbrt()
.
sourcepub fn nth_root(&self, n: u32) -> BigInt
pub fn nth_root(&self, n: u32) -> BigInt
Returns the truncated principal n
th root of self
–
See num_integer::Roots::nth_root()
.
sourcepub fn trailing_zeros(&self) -> Option<u64>
pub fn trailing_zeros(&self) -> Option<u64>
Returns the number of least-significant bits that are zero,
or None
if the entire number is zero.
sourcepub fn bit(&self, bit: u64) -> bool
pub fn bit(&self, bit: u64) -> bool
Returns whether the bit in position bit
is set,
using the two’s complement for negative numbers
sourcepub fn set_bit(&mut self, bit: u64, value: bool)
pub fn set_bit(&mut self, bit: u64, value: bool)
Sets or clears the bit in the given position, using the two’s complement for negative numbers
Note that setting/clearing a bit (for positive/negative numbers, respectively) greater than the current bit length, a reallocation may be needed to store the new digits
Trait Implementations§
source§impl AsnType for AdEntBcastAddr
impl AsnType for AdEntBcastAddr
source§const TAG: Tag = <Integer as ::rasn_smi::rasn::AsnType>::TAG
const TAG: Tag = <Integer as ::rasn_smi::rasn::AsnType>::TAG
source§const TAG_TREE: TagTree = _
const TAG_TREE: TagTree = _
Leaf
that points Self::TAG
.const CONSTRAINTS: Constraints<'static> = Constraints::NONE
source§const IDENTIFIER: Option<&'static str> = None
const IDENTIFIER: Option<&'static str> = None
Self
source§impl Clone for AdEntBcastAddr
impl Clone for AdEntBcastAddr
source§fn clone(&self) -> AdEntBcastAddr
fn clone(&self) -> AdEntBcastAddr
1.0.0 · source§fn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
source
. Read moresource§impl Debug for AdEntBcastAddr
impl Debug for AdEntBcastAddr
source§impl Decode for AdEntBcastAddr
impl Decode for AdEntBcastAddr
fn decode_with_tag_and_constraints<D: Decoder>( decoder: &mut D, tag: Tag, constraints: Constraints<'_> ) -> Result<Self, D::Error>
source§fn decode<D>(decoder: &mut D) -> Result<Self, <D as Decoder>::Error>where
D: Decoder,
fn decode<D>(decoder: &mut D) -> Result<Self, <D as Decoder>::Error>where
D: Decoder,
source§fn decode_with_tag<D>(
decoder: &mut D,
tag: Tag
) -> Result<Self, <D as Decoder>::Error>where
D: Decoder,
fn decode_with_tag<D>(
decoder: &mut D,
tag: Tag
) -> Result<Self, <D as Decoder>::Error>where
D: Decoder,
tag
from a given ASN.1 decoder. Read morefn decode_with_constraints<D>(
decoder: &mut D,
constraints: Constraints<'_>
) -> Result<Self, <D as Decoder>::Error>where
D: Decoder,
source§impl Deref for AdEntBcastAddr
impl Deref for AdEntBcastAddr
source§impl DerefMut for AdEntBcastAddr
impl DerefMut for AdEntBcastAddr
source§impl Encode for AdEntBcastAddr
impl Encode for AdEntBcastAddr
fn encode_with_tag_and_constraints<EN: Encoder>( &self, encoder: &mut EN, tag: Tag, constraints: Constraints<'_> ) -> Result<(), EN::Error>
source§fn encode_with_tag<E>(
&self,
encoder: &mut E,
tag: Tag
) -> Result<(), <E as Encoder>::Error>where
E: Encoder,
fn encode_with_tag<E>(
&self,
encoder: &mut E,
tag: Tag
) -> Result<(), <E as Encoder>::Error>where
E: Encoder,
fn encode_with_constraints<E>(
&self,
encoder: &mut E,
constraints: Constraints<'_>
) -> Result<(), <E as Encoder>::Error>where
E: Encoder,
source§impl From<AdEntBcastAddr> for Integer
impl From<AdEntBcastAddr> for Integer
source§fn from(value: AdEntBcastAddr) -> Self
fn from(value: AdEntBcastAddr) -> Self
source§impl From<BigInt> for AdEntBcastAddr
impl From<BigInt> for AdEntBcastAddr
source§impl Hash for AdEntBcastAddr
impl Hash for AdEntBcastAddr
source§impl ObjectType for AdEntBcastAddr
impl ObjectType for AdEntBcastAddr
source§impl Ord for AdEntBcastAddr
impl Ord for AdEntBcastAddr
source§fn cmp(&self, other: &AdEntBcastAddr) -> Ordering
fn cmp(&self, other: &AdEntBcastAddr) -> Ordering
1.21.0 · source§fn max(self, other: Self) -> Selfwhere
Self: Sized,
fn max(self, other: Self) -> Selfwhere
Self: Sized,
source§impl PartialEq for AdEntBcastAddr
impl PartialEq for AdEntBcastAddr
source§fn eq(&self, other: &AdEntBcastAddr) -> bool
fn eq(&self, other: &AdEntBcastAddr) -> bool
self
and other
values to be equal, and is used
by ==
.source§impl PartialOrd for AdEntBcastAddr
impl PartialOrd for AdEntBcastAddr
source§fn partial_cmp(&self, other: &AdEntBcastAddr) -> Option<Ordering>
fn partial_cmp(&self, other: &AdEntBcastAddr) -> Option<Ordering>
1.0.0 · source§fn le(&self, other: &Rhs) -> bool
fn le(&self, other: &Rhs) -> bool
self
and other
) and is used by the <=
operator. Read moreimpl Eq for AdEntBcastAddr
impl StructuralPartialEq for AdEntBcastAddr
Auto Trait Implementations§
impl Freeze for AdEntBcastAddr
impl RefUnwindSafe for AdEntBcastAddr
impl Send for AdEntBcastAddr
impl Sync for AdEntBcastAddr
impl Unpin for AdEntBcastAddr
impl UnwindSafe for AdEntBcastAddr
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T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
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Self: Binary,
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Self: Binary,
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to use its Binary
implementation when Debug
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Self: Display,
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Debug
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Self: LowerExp,
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Debug
-formatted.source§fn fmt_lower_hex(self) -> FmtLowerHex<Self>where
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