Trait bones_framework::asset::prelude::bones_utils::prelude::alloc::fmt::UpperHex

pub trait UpperHex {
    // Required method
    fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>;
}

X formatting.

The UpperHex trait should format its output as a number in hexadecimal, with A through F in upper case.

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

The alternate flag, #, adds a 0x 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 '2A' in hex

assert_eq!(format!("{x:X}"), "2A");
assert_eq!(format!("{x:#X}"), "0x2A");

assert_eq!(format!("{:X}", -16), "FFFFFFF0");

Implementing UpperHex on a type:

use std::fmt;

struct Length(i32);

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

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

let l = Length(i32::MAX);

assert_eq!(format!("l as hex is: {l:X}"), "l as hex is: 7FFFFFFF");

assert_eq!(format!("l as hex is: {l:#010X}"), "l as hex is: 0x7FFFFFFF");

Required Methods

fn fmt(&self, f: &mut Formatter<'_>) -> Result<(), Error>

Formats the value using the given formatter.

Implementors

impl UpperHex for i8

impl UpperHex for i16

impl UpperHex for i32

impl UpperHex for i64

impl UpperHex for i128

impl UpperHex for isize

impl UpperHex for u8

impl UpperHex for u16

impl UpperHex for u32

impl UpperHex for u64

impl UpperHex for u128

impl UpperHex for usize

impl UpperHex for NonZeroI8

impl UpperHex for NonZeroI16

impl UpperHex for NonZeroI32

impl UpperHex for NonZeroI64

impl UpperHex for NonZeroI128

impl UpperHex for NonZeroIsize

impl UpperHex for NonZeroU8

impl UpperHex for NonZeroU16

impl UpperHex for NonZeroU32

impl UpperHex for NonZeroU64

impl UpperHex for NonZeroU128

impl UpperHex for NonZeroUsize

impl UpperHex for BigInt

impl UpperHex for BigUint

impl UpperHex for AccessFlags

impl UpperHex for AtFlags

impl UpperHex for Bytes

impl UpperHex for BytesMut

impl UpperHex for Channels

impl UpperHex for CloneFlags

impl UpperHex for Digest

impl UpperHex for EcdsaPublicKey

impl UpperHex for Ed25519PrivateKey

impl UpperHex for Ed25519PublicKey

impl UpperHex for EventMask

impl UpperHex for FallocateFlags

impl UpperHex for FdFlag

impl UpperHex for Flags

impl UpperHex for FsFlags

impl UpperHex for HexDisplay<'_>

impl UpperHex for MemFdCreateFlag

impl UpperHex for MntFlags

impl UpperHex for Mode

impl UpperHex for Mpint

impl UpperHex for MsFlags

impl UpperHex for MsgFlags

impl UpperHex for NextHopFlags

impl UpperHex for OFlag

impl UpperHex for PacketFlag

impl UpperHex for PollFlags

impl UpperHex for PortCap

impl UpperHex for PortType

impl UpperHex for Remove

impl UpperHex for RenameFlags

impl UpperHex for RouteFlags

impl UpperHex for RuleFlags

impl UpperHex for SFlag

impl UpperHex for SaFlags

impl UpperHex for SealFlag

impl UpperHex for SfdFlags

impl UpperHex for Signature

impl UpperHex for Signature

impl UpperHex for SockFlag

impl UpperHex for TimestampingFlag

impl UpperHex for Transformations

impl UpperHex for WaitPidFlag

impl UpperHex for WatchMask

impl<'a, T, O> UpperHex for Domain<'a, Const, T, O>where O: BitOrder, T: BitStore,

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

impl<A> UpperHex for ArrayVec<A>where A: Array, <A as Array>::Item: UpperHex,

impl<A> UpperHex for TinyVec<A>where A: Array, <A as Array>::Item: UpperHex,

impl<A, O> UpperHex for BitArray<A, O>where O: BitOrder, A: BitViewSized,

impl<Size> UpperHex for EncodedPoint<Size>where Size: ModulusSize,

impl<T> UpperHex for &Twhere T: UpperHex + ?Sized,

impl<T> UpperHex for &mut Twhere T: UpperHex + ?Sized,

impl<T> UpperHex for BitFmt<T>where T: BitSet + ?Sized,

impl<T> UpperHex for Saturating<T>where T: UpperHex,

impl<T> UpperHex for Wrapping<T>where T: UpperHex,

impl<T> UpperHex for Ratio<T>where T: UpperHex + Clone + Integer,

impl<T> UpperHex for BitFlags<T>where T: BitFlag, <T as RawBitFlags>::Numeric: UpperHex,

impl<T> UpperHex for FmtBinary<T>where T: Binary + UpperHex,

impl<T> UpperHex for FmtDisplay<T>where T: Display + UpperHex,

impl<T> UpperHex for FmtList<T>where &'a T: for<'a> IntoIterator, <&'a T as IntoIterator>::Item: for<'a> UpperHex,

impl<T> UpperHex for FmtLowerExp<T>where T: LowerExp + UpperHex,

impl<T> UpperHex for FmtLowerHex<T>where T: LowerHex + UpperHex,

impl<T> UpperHex for FmtOctal<T>where T: Octal + UpperHex,

impl<T> UpperHex for FmtPointer<T>where T: Pointer + UpperHex,

impl<T> UpperHex for FmtUpperExp<T>where T: UpperExp + UpperHex,

impl<T> UpperHex for FmtUpperHex<T>where T: UpperHex,

impl<T> UpperHex for GenericArray<u8, T>where T: ArrayLength<u8> + Add, <T as Add>::Output: ArrayLength<u8>,

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

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

Bit-Slice Rendering

This implementation prints the contents of a &BitSlice in one of binary, octal, or hexadecimal. It is important to note that this does not render the raw underlying memory! They render the semantically-ordered contents of the bit-slice as numerals. This distinction matters if you use type parameters that differ from those presumed by your debugger (which is usually <u8, Msb0>).

The output separates the T elements as individual list items, and renders each element as a base- 2, 8, or 16 numeric string. When walking an element, the bits traversed by the bit-slice are considered to be stored in most-significant-bit-first ordering. This means that index [0] is the high bit of the left-most digit, and index [n] is the low bit of the right-most digit, in a given printed word.

In order to render according to expectations of the Arabic numeral system, an element being transcribed is chunked into digits from the least-significant end of its rendered form. This is most noticeable in octal, which will always have a smaller ceiling on the left-most digit in a printed word, while the right-most digit in that word is able to use the full 0 ..= 7 numeral range.

Examples

use bitvec::prelude::*;

let data = [
  0b000000_10u8,
// digits print LTR
  0b10_001_101,
// significance is computed RTL
  0b01_000000,
];
let bits = &data.view_bits::<Msb0>()[6 .. 18];

assert_eq!(format!("{:b}", bits), "[10, 10001101, 01]");
assert_eq!(format!("{:o}", bits), "[2, 215, 1]");
assert_eq!(format!("{:X}", bits), "[2, 8D, 1]");

The {:#} format modifier causes the standard 0b, 0o, or 0x prefix to be applied to each printed word. The other format specifiers are not interpreted by this implementation, and apply to the entire rendered text, not to individual words.

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

impl<const MIN: i8, const MAX: i8> UpperHex for RangedI8<MIN, MAX>

impl<const MIN: i16, const MAX: i16> UpperHex for RangedI16<MIN, MAX>

impl<const MIN: i32, const MAX: i32> UpperHex for RangedI32<MIN, MAX>

impl<const MIN: i64, const MAX: i64> UpperHex for RangedI64<MIN, MAX>

impl<const MIN: i128, const MAX: i128> UpperHex for RangedI128<MIN, MAX>

impl<const MIN: isize, const MAX: isize> UpperHex for RangedIsize<MIN, MAX>

impl<const MIN: u8, const MAX: u8> UpperHex for RangedU8<MIN, MAX>

impl<const MIN: u16, const MAX: u16> UpperHex for RangedU16<MIN, MAX>

impl<const MIN: u32, const MAX: u32> UpperHex for RangedU32<MIN, MAX>

impl<const MIN: u64, const MAX: u64> UpperHex for RangedU64<MIN, MAX>

impl<const MIN: u128, const MAX: u128> UpperHex for RangedU128<MIN, MAX>

impl<const MIN: usize, const MAX: usize> UpperHex for RangedUsize<MIN, MAX>

impl<const SIZE: usize> UpperHex for EcdsaPrivateKey<SIZE>