Trait sp_std::fmt::Binary

1.0.0 · source · []
pub trait Binary {
    fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>;
}
Expand description

b formatting.

The Binary trait should format its output as a number in binary.

For primitive signed integers (i8 to i128, and isize), negative values are formatted as the two’s complement representation.

The alternate flag, #, adds a 0b in front of the output.

For more information on formatters, see the module-level documentation.

Examples

Basic usage with i32:

let x = 42; // 42 is '101010' in binary

assert_eq!(format!("{:b}", x), "101010");
assert_eq!(format!("{:#b}", x), "0b101010");

assert_eq!(format!("{:b}", -16), "11111111111111111111111111110000");

Implementing Binary on a type:

use std::fmt;

struct Length(i32);

impl fmt::Binary for Length {
    fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
        let val = self.0;

        fmt::Binary::fmt(&val, f) // delegate to i32's implementation
    }
}

let l = Length(107);

assert_eq!(format!("l as binary is: {:b}", l), "l as binary is: 1101011");

assert_eq!(
    format!("l as binary is: {:#032b}", l),
    "l as binary is: 0b000000000000000000000001101011"
);

Required methods

Formats the value using the given formatter.

Implementations on Foreign Types

Implementors

impl<O, V> Binary for BitArray<O, V> where
    O: BitOrder,
    V: BitView

impl<T> Binary for Domain<'_, T> where
    T: BitStore

impl<R> Binary for BitIdx<R> where
    R: BitRegister

impl<R> Binary for BitTail<R> where
    R: BitRegister

impl<R> Binary for BitPos<R> where
    R: BitRegister

impl<R> Binary for BitSel<R> where
    R: BitRegister

impl<R> Binary for BitMask<R> where
    R: BitRegister

impl<O, T> Binary for BitSlice<O, T> where
    O: BitOrder,
    T: BitStore

impl<O, T> Binary for BitBox<O, T> where
    O: BitOrder,
    T: BitStore

impl<O, T> Binary for BitVec<O, T> where
    O: BitOrder,
    T: BitStore

impl<'a, T: Binary> Binary for StyledValue<'a, T>

impl<'a, I> Binary for Format<'a, I> where
    I: Iterator,
    I::Item: Binary

impl<T, R: Dim, C: Dim, S> Binary for Matrix<T, R, C, S> where
    T: Scalar + Binary,
    S: Storage<T, R, C>,
    DefaultAllocator: Allocator<usize, R, C>, 

impl Binary for BigInt

impl Binary for BigUint

impl<T> Binary for Complex<T> where
    T: Binary + Num + PartialOrd + Clone

impl<T: Binary + Clone + Integer> Binary for Ratio<T>

impl<A: Array> Binary for ArrayVec<A> where
    A::Item: Binary

impl<'s, T> Binary for SliceVec<'s, T> where
    T: Binary

impl<A: Array> Binary for TinyVec<A> where
    A::Item: Binary

impl<T: Binary> Binary for FmtBinary<T>

impl<T: Display + Binary> Binary for FmtDisplay<T>

impl<T: LowerExp + Binary> Binary for FmtLowerExp<T>

impl<T: LowerHex + Binary> Binary for FmtLowerHex<T>

impl<T: Octal + Binary> Binary for FmtOctal<T>

impl<T: Pointer + Binary> Binary for FmtPointer<T>

impl<T: UpperExp + Binary> Binary for FmtUpperExp<T>

impl<T: UpperHex + Binary> Binary for FmtUpperHex<T>