Trait silx_types::Sub

pub trait Sub<Rhs = Self> {
    type Output;

    // Required method
    fn sub(self, rhs: Rhs) -> Self::Output;
}

The subtraction operator -.

Note that Rhs is Self by default, but this is not mandatory. For example, std::time::SystemTime implements Sub<Duration>, which permits operations of the form SystemTime = SystemTime - Duration.

Examples

Subtractable points

use std::ops::Sub;

#[derive(Debug, Copy, Clone, PartialEq)]
struct Point {
    x: i32,
    y: i32,
}

impl Sub for Point {
    type Output = Self;

    fn sub(self, other: Self) -> Self::Output {
        Self {
            x: self.x - other.x,
            y: self.y - other.y,
        }
    }
}

assert_eq!(Point { x: 3, y: 3 } - Point { x: 2, y: 3 },
           Point { x: 1, y: 0 });

Implementing Sub with generics

Here is an example of the same Point struct implementing the Sub trait using generics.

use std::ops::Sub;

#[derive(Debug, PartialEq)]
struct Point<T> {
    x: T,
    y: T,
}

// Notice that the implementation uses the associated type `Output`.
impl<T: Sub<Output = T>> Sub for Point<T> {
    type Output = Self;

    fn sub(self, other: Self) -> Self::Output {
        Point {
            x: self.x - other.x,
            y: self.y - other.y,
        }
    }
}

assert_eq!(Point { x: 2, y: 3 } - Point { x: 1, y: 0 },
           Point { x: 1, y: 3 });

Required Associated Types

type Output

The resulting type after applying the - operator.

Required Methods

fn sub(self, rhs: Rhs) -> Self::Output

Performs the - operation.

Example

assert_eq!(12 - 1, 11);

Implementors

impl Sub for f32

type Output = f32

impl Sub for f64

type Output = f64

impl Sub for i8

type Output = i8

impl Sub for i16

type Output = i16

impl Sub for i32

type Output = i32

impl Sub for i64

type Output = i64

impl Sub for i128

type Output = i128

impl Sub for isize

type Output = isize

impl Sub for u8

type Output = u8

impl Sub for u16

type Output = u16

impl Sub for u32

type Output = u32

impl Sub for u64

type Output = u64

impl Sub for u128

type Output = u128

impl Sub for usize

type Output = usize

impl Sub for Assume

type Output = Assume

impl Sub for Saturating<i8>

type Output = Saturating<i8>

impl Sub for Saturating<i16>

type Output = Saturating<i16>

impl Sub for Saturating<i32>

type Output = Saturating<i32>

impl Sub for Saturating<i64>

type Output = Saturating<i64>

impl Sub for Saturating<i128>

type Output = Saturating<i128>

impl Sub for Saturating<isize>

type Output = Saturating<isize>

impl Sub for Saturating<u8>

type Output = Saturating<u8>

impl Sub for Saturating<u16>

type Output = Saturating<u16>

impl Sub for Saturating<u32>

type Output = Saturating<u32>

impl Sub for Saturating<u64>

type Output = Saturating<u64>

impl Sub for Saturating<u128>

type Output = Saturating<u128>

impl Sub for Saturating<usize>

type Output = Saturating<usize>

impl Sub for Wrapping<i8>

type Output = Wrapping<i8>

impl Sub for Wrapping<i16>

type Output = Wrapping<i16>

impl Sub for Wrapping<i32>

type Output = Wrapping<i32>

impl Sub for Wrapping<i64>

type Output = Wrapping<i64>

impl Sub for Wrapping<i128>

type Output = Wrapping<i128>

impl Sub for Wrapping<isize>

type Output = Wrapping<isize>

impl Sub for Wrapping<u8>

type Output = Wrapping<u8>

impl Sub for Wrapping<u16>

type Output = Wrapping<u16>

impl Sub for Wrapping<u32>

type Output = Wrapping<u32>

impl Sub for Wrapping<u64>

type Output = Wrapping<u64>

impl Sub for Wrapping<u128>

type Output = Wrapping<u128>

impl Sub for Wrapping<usize>

type Output = Wrapping<usize>

impl Sub for Duration

type Output = Duration

impl Sub for std::time::Instant

type Output = Duration

impl Sub for BigEndian<f32>

type Output = f32

impl Sub for BigEndian<f64>

type Output = f64

impl Sub for BigEndian<i16>

type Output = i16

impl Sub for BigEndian<i32>

type Output = i32

impl Sub for BigEndian<i64>

type Output = i64

impl Sub for BigEndian<i128>

type Output = i128

impl Sub for BigEndian<u16>

type Output = u16

impl Sub for BigEndian<u32>

type Output = u32

impl Sub for BigEndian<u64>

type Output = u64

impl Sub for BigEndian<u128>

type Output = u128

impl Sub for LittleEndian<f32>

type Output = f32

impl Sub for LittleEndian<f64>

type Output = f64

impl Sub for LittleEndian<i16>

type Output = i16

impl Sub for LittleEndian<i32>

type Output = i32

impl Sub for LittleEndian<i64>

type Output = i64

impl Sub for LittleEndian<i128>

type Output = i128

impl Sub for LittleEndian<u16>

type Output = u16

impl Sub for LittleEndian<u32>

type Output = u32

impl Sub for LittleEndian<u64>

type Output = u64

impl Sub for LittleEndian<u128>

type Output = u128

impl Sub for NativeEndian<f32>

type Output = f32

impl Sub for NativeEndian<f64>

type Output = f64

impl Sub for NativeEndian<i16>

type Output = i16

impl Sub for NativeEndian<i32>

type Output = i32

impl Sub for NativeEndian<i64>

type Output = i64

impl Sub for NativeEndian<i128>

type Output = i128

impl Sub for NativeEndian<u16>

type Output = u16

impl Sub for NativeEndian<u32>

type Output = u32

impl Sub for NativeEndian<u64>

type Output = u64

impl Sub for NativeEndian<u128>

type Output = u128

impl Sub for m128

type Output = m128

impl Sub for m128d

type Output = m128d

impl Sub for AutoSimd<[f32; 2]>

type Output = AutoSimd<[f32; 2]>

impl Sub for AutoSimd<[f32; 4]>

type Output = AutoSimd<[f32; 4]>

impl Sub for AutoSimd<[f32; 8]>

type Output = AutoSimd<[f32; 8]>

impl Sub for AutoSimd<[f32; 16]>

type Output = AutoSimd<[f32; 16]>

impl Sub for AutoSimd<[f64; 2]>

type Output = AutoSimd<[f64; 2]>

impl Sub for AutoSimd<[f64; 4]>

type Output = AutoSimd<[f64; 4]>

impl Sub for AutoSimd<[f64; 8]>

type Output = AutoSimd<[f64; 8]>

impl Sub for AutoSimd<[i8; 2]>

type Output = AutoSimd<[i8; 2]>

impl Sub for AutoSimd<[i8; 4]>

type Output = AutoSimd<[i8; 4]>

impl Sub for AutoSimd<[i8; 8]>

type Output = AutoSimd<[i8; 8]>

impl Sub for AutoSimd<[i8; 16]>

type Output = AutoSimd<[i8; 16]>

impl Sub for AutoSimd<[i8; 32]>

type Output = AutoSimd<[i8; 32]>

impl Sub for AutoSimd<[i16; 2]>

type Output = AutoSimd<[i16; 2]>

impl Sub for AutoSimd<[i16; 4]>

type Output = AutoSimd<[i16; 4]>

impl Sub for AutoSimd<[i16; 8]>

type Output = AutoSimd<[i16; 8]>

impl Sub for AutoSimd<[i16; 16]>

type Output = AutoSimd<[i16; 16]>

impl Sub for AutoSimd<[i16; 32]>

type Output = AutoSimd<[i16; 32]>

impl Sub for AutoSimd<[i32; 2]>

type Output = AutoSimd<[i32; 2]>

impl Sub for AutoSimd<[i32; 4]>

type Output = AutoSimd<[i32; 4]>

impl Sub for AutoSimd<[i32; 8]>

type Output = AutoSimd<[i32; 8]>

impl Sub for AutoSimd<[i32; 16]>

type Output = AutoSimd<[i32; 16]>

impl Sub for AutoSimd<[i64; 2]>

type Output = AutoSimd<[i64; 2]>

impl Sub for AutoSimd<[i64; 4]>

type Output = AutoSimd<[i64; 4]>

impl Sub for AutoSimd<[i64; 8]>

type Output = AutoSimd<[i64; 8]>

impl Sub for AutoSimd<[i128; 1]>

type Output = AutoSimd<[i128; 1]>

impl Sub for AutoSimd<[i128; 2]>

type Output = AutoSimd<[i128; 2]>

impl Sub for AutoSimd<[i128; 4]>

type Output = AutoSimd<[i128; 4]>

impl Sub for AutoSimd<[isize; 2]>

type Output = AutoSimd<[isize; 2]>

impl Sub for AutoSimd<[isize; 4]>

type Output = AutoSimd<[isize; 4]>

impl Sub for AutoSimd<[isize; 8]>

type Output = AutoSimd<[isize; 8]>

impl Sub for AutoSimd<[u8; 2]>

type Output = AutoSimd<[u8; 2]>

impl Sub for AutoSimd<[u8; 4]>

type Output = AutoSimd<[u8; 4]>

impl Sub for AutoSimd<[u8; 8]>

type Output = AutoSimd<[u8; 8]>

impl Sub for AutoSimd<[u8; 16]>

type Output = AutoSimd<[u8; 16]>

impl Sub for AutoSimd<[u8; 32]>

type Output = AutoSimd<[u8; 32]>

impl Sub for AutoSimd<[u16; 2]>

type Output = AutoSimd<[u16; 2]>

impl Sub for AutoSimd<[u16; 4]>

type Output = AutoSimd<[u16; 4]>

impl Sub for AutoSimd<[u16; 8]>

type Output = AutoSimd<[u16; 8]>

impl Sub for AutoSimd<[u16; 16]>

type Output = AutoSimd<[u16; 16]>

impl Sub for AutoSimd<[u16; 32]>

type Output = AutoSimd<[u16; 32]>

impl Sub for AutoSimd<[u32; 2]>

type Output = AutoSimd<[u32; 2]>

impl Sub for AutoSimd<[u32; 4]>

type Output = AutoSimd<[u32; 4]>

impl Sub for AutoSimd<[u32; 8]>

type Output = AutoSimd<[u32; 8]>

impl Sub for AutoSimd<[u32; 16]>

type Output = AutoSimd<[u32; 16]>

impl Sub for AutoSimd<[u64; 2]>

type Output = AutoSimd<[u64; 2]>

impl Sub for AutoSimd<[u64; 4]>

type Output = AutoSimd<[u64; 4]>

impl Sub for AutoSimd<[u64; 8]>

type Output = AutoSimd<[u64; 8]>

impl Sub for AutoSimd<[u128; 1]>

type Output = AutoSimd<[u128; 1]>

impl Sub for AutoSimd<[u128; 2]>

type Output = AutoSimd<[u128; 2]>

impl Sub for AutoSimd<[u128; 4]>

type Output = AutoSimd<[u128; 4]>

impl Sub for AutoSimd<[usize; 2]>

type Output = AutoSimd<[usize; 2]>

impl Sub for AutoSimd<[usize; 4]>

type Output = AutoSimd<[usize; 4]>

impl Sub for AutoSimd<[usize; 8]>

type Output = AutoSimd<[usize; 8]>

impl Sub for WideF32x4

type Output = WideF32x4

impl Sub for WideF32x8

type Output = WideF32x8

impl Sub for WideF64x4

type Output = WideF64x4

impl Sub for Ready

type Output = Ready

impl Sub for tokio::time::instant::Instant

type Output = Duration

impl Sub for ATerm

type Output = ATerm

impl Sub for Z0

Z0 - Z0 = Z0

type Output = Z0

impl Sub for UTerm

UTerm - UTerm = UTerm

type Output = UTerm

impl Sub for f32x4

type Output = f32x4

impl Sub for f32x8

type Output = f32x8

impl Sub for f64x2

type Output = f64x2

impl Sub for f64x4

type Output = f64x4

impl Sub for i8x16

type Output = i8x16

impl Sub for i8x32

type Output = i8x32

impl Sub for i16x8

type Output = i16x8

impl Sub for i16x16

type Output = i16x16

impl Sub for i32x4

type Output = i32x4

impl Sub for i32x8

type Output = i32x8

impl Sub for i64x2

type Output = i64x2

impl Sub for i64x4

type Output = i64x4

impl Sub for u8x16

type Output = u8x16

impl Sub for u16x8

type Output = u16x8

impl Sub for u32x4

type Output = u32x4

impl Sub for u32x8

type Output = u32x8

impl Sub for u64x2

type Output = u64x2

impl Sub for u64x4

type Output = u64x4

impl Sub for f32slx

type Output = f32slx

impl Sub for f64slx

type Output = f64slx

impl Sub for i16slx

type Output = i16slx

impl Sub for i32slx

type Output = i32slx

impl Sub for i64slx

type Output = i64slx

impl Sub for i128slx

type Output = i128slx

impl Sub for u16slx

type Output = u16slx

impl Sub for u32slx

type Output = u32slx

impl Sub for u64slx

type Output = u64slx

impl Sub for u128slx

type Output = u128slx

impl Sub<&f32> for &f32

type Output = <f32 as Sub>::Output

impl Sub<&f32> for &BigEndian<f32>

type Output = f32

impl Sub<&f32> for &LittleEndian<f32>

type Output = f32

impl Sub<&f32> for &NativeEndian<f32>

type Output = f32

impl Sub<&f32> for f32

type Output = <f32 as Sub>::Output

impl Sub<&f32> for BigEndian<f32>

type Output = f32

impl Sub<&f32> for LittleEndian<f32>

type Output = f32

impl Sub<&f32> for NativeEndian<f32>

type Output = f32

impl Sub<&f64> for &f64

type Output = <f64 as Sub>::Output

impl Sub<&f64> for &BigEndian<f64>

type Output = f64

impl Sub<&f64> for &LittleEndian<f64>

type Output = f64

impl Sub<&f64> for &NativeEndian<f64>

type Output = f64

impl Sub<&f64> for f64

type Output = <f64 as Sub>::Output

impl Sub<&f64> for BigEndian<f64>

type Output = f64

impl Sub<&f64> for LittleEndian<f64>

type Output = f64

impl Sub<&f64> for NativeEndian<f64>

type Output = f64

impl Sub<&i8> for &i8

type Output = <i8 as Sub>::Output

impl Sub<&i8> for i8

type Output = <i8 as Sub>::Output

impl Sub<&i16> for &i16

type Output = <i16 as Sub>::Output

impl Sub<&i16> for &BigEndian<i16>

type Output = i16

impl Sub<&i16> for &LittleEndian<i16>

type Output = i16

impl Sub<&i16> for &NativeEndian<i16>

type Output = i16

impl Sub<&i16> for i16

type Output = <i16 as Sub>::Output

impl Sub<&i16> for BigEndian<i16>

type Output = i16

impl Sub<&i16> for LittleEndian<i16>

type Output = i16

impl Sub<&i16> for NativeEndian<i16>

type Output = i16

impl Sub<&i32> for &i32

type Output = <i32 as Sub>::Output

impl Sub<&i32> for &BigEndian<i32>

type Output = i32

impl Sub<&i32> for &LittleEndian<i32>

type Output = i32

impl Sub<&i32> for &NativeEndian<i32>

type Output = i32

impl Sub<&i32> for i32

type Output = <i32 as Sub>::Output

impl Sub<&i32> for BigEndian<i32>

type Output = i32

impl Sub<&i32> for LittleEndian<i32>

type Output = i32

impl Sub<&i32> for NativeEndian<i32>

type Output = i32

impl Sub<&i64> for &i64

type Output = <i64 as Sub>::Output

impl Sub<&i64> for &BigEndian<i64>

type Output = i64

impl Sub<&i64> for &LittleEndian<i64>

type Output = i64

impl Sub<&i64> for &NativeEndian<i64>

type Output = i64

impl Sub<&i64> for i64

type Output = <i64 as Sub>::Output

impl Sub<&i64> for BigEndian<i64>

type Output = i64

impl Sub<&i64> for LittleEndian<i64>

type Output = i64

impl Sub<&i64> for NativeEndian<i64>

type Output = i64

impl Sub<&i128> for &i128

type Output = <i128 as Sub>::Output

impl Sub<&i128> for &BigEndian<i128>

type Output = i128

impl Sub<&i128> for &LittleEndian<i128>

type Output = i128

impl Sub<&i128> for &NativeEndian<i128>

type Output = i128

impl Sub<&i128> for i128

type Output = <i128 as Sub>::Output

impl Sub<&i128> for BigEndian<i128>

type Output = i128

impl Sub<&i128> for LittleEndian<i128>

type Output = i128

impl Sub<&i128> for NativeEndian<i128>

type Output = i128

impl Sub<&isize> for &isize

type Output = <isize as Sub>::Output

impl Sub<&isize> for isize

type Output = <isize as Sub>::Output

impl Sub<&u8> for &u8

type Output = <u8 as Sub>::Output

impl Sub<&u8> for u8

type Output = <u8 as Sub>::Output

impl Sub<&u16> for &u16

type Output = <u16 as Sub>::Output

impl Sub<&u16> for &BigEndian<u16>

type Output = u16

impl Sub<&u16> for &LittleEndian<u16>

type Output = u16

impl Sub<&u16> for &NativeEndian<u16>

type Output = u16

impl Sub<&u16> for u16

type Output = <u16 as Sub>::Output

impl Sub<&u16> for BigEndian<u16>

type Output = u16

impl Sub<&u16> for LittleEndian<u16>

type Output = u16

impl Sub<&u16> for NativeEndian<u16>

type Output = u16

impl Sub<&u32> for &u32

type Output = <u32 as Sub>::Output

impl Sub<&u32> for &BigEndian<u32>

type Output = u32

impl Sub<&u32> for &LittleEndian<u32>

type Output = u32

impl Sub<&u32> for &NativeEndian<u32>

type Output = u32

impl Sub<&u32> for u32

type Output = <u32 as Sub>::Output

impl Sub<&u32> for BigEndian<u32>

type Output = u32

impl Sub<&u32> for LittleEndian<u32>

type Output = u32

impl Sub<&u32> for NativeEndian<u32>

type Output = u32

impl Sub<&u64> for &u64

type Output = <u64 as Sub>::Output

impl Sub<&u64> for &BigEndian<u64>

type Output = u64

impl Sub<&u64> for &LittleEndian<u64>

type Output = u64

impl Sub<&u64> for &NativeEndian<u64>

type Output = u64

impl Sub<&u64> for u64

type Output = <u64 as Sub>::Output

impl Sub<&u64> for BigEndian<u64>

type Output = u64

impl Sub<&u64> for LittleEndian<u64>

type Output = u64

impl Sub<&u64> for NativeEndian<u64>

type Output = u64

impl Sub<&u128> for &u128

type Output = <u128 as Sub>::Output

impl Sub<&u128> for &BigEndian<u128>

type Output = u128

impl Sub<&u128> for &LittleEndian<u128>

type Output = u128

impl Sub<&u128> for &NativeEndian<u128>

type Output = u128

impl Sub<&u128> for u128

type Output = <u128 as Sub>::Output

impl Sub<&u128> for BigEndian<u128>

type Output = u128

impl Sub<&u128> for LittleEndian<u128>

type Output = u128

impl Sub<&u128> for NativeEndian<u128>

type Output = u128

impl Sub<&usize> for &usize

type Output = <usize as Sub>::Output

impl Sub<&usize> for usize

type Output = <usize as Sub>::Output

impl Sub<&Saturating<i8>> for &Saturating<i8>

type Output = <Saturating<i8> as Sub>::Output

impl Sub<&Saturating<i8>> for Saturating<i8>

type Output = <Saturating<i8> as Sub>::Output

impl Sub<&Saturating<i16>> for &Saturating<i16>

type Output = <Saturating<i16> as Sub>::Output

impl Sub<&Saturating<i16>> for Saturating<i16>

type Output = <Saturating<i16> as Sub>::Output

impl Sub<&Saturating<i32>> for &Saturating<i32>

type Output = <Saturating<i32> as Sub>::Output

impl Sub<&Saturating<i32>> for Saturating<i32>

type Output = <Saturating<i32> as Sub>::Output

impl Sub<&Saturating<i64>> for &Saturating<i64>

type Output = <Saturating<i64> as Sub>::Output

impl Sub<&Saturating<i64>> for Saturating<i64>

type Output = <Saturating<i64> as Sub>::Output

impl Sub<&Saturating<i128>> for &Saturating<i128>

type Output = <Saturating<i128> as Sub>::Output

impl Sub<&Saturating<i128>> for Saturating<i128>

type Output = <Saturating<i128> as Sub>::Output

impl Sub<&Saturating<isize>> for &Saturating<isize>

type Output = <Saturating<isize> as Sub>::Output

impl Sub<&Saturating<isize>> for Saturating<isize>

type Output = <Saturating<isize> as Sub>::Output

impl Sub<&Saturating<u8>> for &Saturating<u8>

type Output = <Saturating<u8> as Sub>::Output

impl Sub<&Saturating<u8>> for Saturating<u8>

type Output = <Saturating<u8> as Sub>::Output

impl Sub<&Saturating<u16>> for &Saturating<u16>

type Output = <Saturating<u16> as Sub>::Output

impl Sub<&Saturating<u16>> for Saturating<u16>

type Output = <Saturating<u16> as Sub>::Output

impl Sub<&Saturating<u32>> for &Saturating<u32>

type Output = <Saturating<u32> as Sub>::Output

impl Sub<&Saturating<u32>> for Saturating<u32>

type Output = <Saturating<u32> as Sub>::Output

impl Sub<&Saturating<u64>> for &Saturating<u64>

type Output = <Saturating<u64> as Sub>::Output

impl Sub<&Saturating<u64>> for Saturating<u64>

type Output = <Saturating<u64> as Sub>::Output

impl Sub<&Saturating<u128>> for &Saturating<u128>

type Output = <Saturating<u128> as Sub>::Output

impl Sub<&Saturating<u128>> for Saturating<u128>

type Output = <Saturating<u128> as Sub>::Output

impl Sub<&Saturating<usize>> for &Saturating<usize>

type Output = <Saturating<usize> as Sub>::Output

impl Sub<&Saturating<usize>> for Saturating<usize>

type Output = <Saturating<usize> as Sub>::Output

impl Sub<&Wrapping<i8>> for &Wrapping<i8>

type Output = <Wrapping<i8> as Sub>::Output

impl Sub<&Wrapping<i8>> for Wrapping<i8>

type Output = <Wrapping<i8> as Sub>::Output

impl Sub<&Wrapping<i16>> for &Wrapping<i16>

type Output = <Wrapping<i16> as Sub>::Output

impl Sub<&Wrapping<i16>> for Wrapping<i16>

type Output = <Wrapping<i16> as Sub>::Output

impl Sub<&Wrapping<i32>> for &Wrapping<i32>

type Output = <Wrapping<i32> as Sub>::Output

impl Sub<&Wrapping<i32>> for Wrapping<i32>

type Output = <Wrapping<i32> as Sub>::Output

impl Sub<&Wrapping<i64>> for &Wrapping<i64>

type Output = <Wrapping<i64> as Sub>::Output

impl Sub<&Wrapping<i64>> for Wrapping<i64>

type Output = <Wrapping<i64> as Sub>::Output

impl Sub<&Wrapping<i128>> for &Wrapping<i128>

type Output = <Wrapping<i128> as Sub>::Output

impl Sub<&Wrapping<i128>> for Wrapping<i128>

type Output = <Wrapping<i128> as Sub>::Output

impl Sub<&Wrapping<isize>> for &Wrapping<isize>

type Output = <Wrapping<isize> as Sub>::Output

impl Sub<&Wrapping<isize>> for Wrapping<isize>

type Output = <Wrapping<isize> as Sub>::Output

impl Sub<&Wrapping<u8>> for &Wrapping<u8>

type Output = <Wrapping<u8> as Sub>::Output

impl Sub<&Wrapping<u8>> for Wrapping<u8>

type Output = <Wrapping<u8> as Sub>::Output

impl Sub<&Wrapping<u16>> for &Wrapping<u16>

type Output = <Wrapping<u16> as Sub>::Output

impl Sub<&Wrapping<u16>> for Wrapping<u16>

type Output = <Wrapping<u16> as Sub>::Output

impl Sub<&Wrapping<u32>> for &Wrapping<u32>

type Output = <Wrapping<u32> as Sub>::Output

impl Sub<&Wrapping<u32>> for Wrapping<u32>

type Output = <Wrapping<u32> as Sub>::Output

impl Sub<&Wrapping<u64>> for &Wrapping<u64>

type Output = <Wrapping<u64> as Sub>::Output

impl Sub<&Wrapping<u64>> for Wrapping<u64>

type Output = <Wrapping<u64> as Sub>::Output

impl Sub<&Wrapping<u128>> for &Wrapping<u128>

type Output = <Wrapping<u128> as Sub>::Output

impl Sub<&Wrapping<u128>> for Wrapping<u128>

type Output = <Wrapping<u128> as Sub>::Output

impl Sub<&Wrapping<usize>> for &Wrapping<usize>

type Output = <Wrapping<usize> as Sub>::Output

impl Sub<&Wrapping<usize>> for Wrapping<usize>

type Output = <Wrapping<usize> as Sub>::Output

impl Sub<&BigEndian<f32>> for &f32

type Output = f32

impl Sub<&BigEndian<f32>> for &BigEndian<f32>

type Output = f32

impl Sub<&BigEndian<f32>> for f32

type Output = f32

impl Sub<&BigEndian<f32>> for BigEndian<f32>

type Output = f32

impl Sub<&BigEndian<f64>> for &f64

type Output = f64

impl Sub<&BigEndian<f64>> for &BigEndian<f64>

type Output = f64

impl Sub<&BigEndian<f64>> for f64

type Output = f64

impl Sub<&BigEndian<f64>> for BigEndian<f64>

type Output = f64

impl Sub<&BigEndian<i16>> for &i16

type Output = i16

impl Sub<&BigEndian<i16>> for &BigEndian<i16>

type Output = i16

impl Sub<&BigEndian<i16>> for i16

type Output = i16

impl Sub<&BigEndian<i16>> for BigEndian<i16>

type Output = i16

impl Sub<&BigEndian<i32>> for &i32

type Output = i32

impl Sub<&BigEndian<i32>> for &BigEndian<i32>

type Output = i32

impl Sub<&BigEndian<i32>> for i32

type Output = i32

impl Sub<&BigEndian<i32>> for BigEndian<i32>

type Output = i32

impl Sub<&BigEndian<i64>> for &i64

type Output = i64

impl Sub<&BigEndian<i64>> for &BigEndian<i64>

type Output = i64

impl Sub<&BigEndian<i64>> for i64

type Output = i64

impl Sub<&BigEndian<i64>> for BigEndian<i64>

type Output = i64

impl Sub<&BigEndian<i128>> for &i128

type Output = i128

impl Sub<&BigEndian<i128>> for &BigEndian<i128>

type Output = i128

impl Sub<&BigEndian<i128>> for i128

type Output = i128

impl Sub<&BigEndian<i128>> for BigEndian<i128>

type Output = i128

impl Sub<&BigEndian<u16>> for &u16

type Output = u16

impl Sub<&BigEndian<u16>> for &BigEndian<u16>

type Output = u16

impl Sub<&BigEndian<u16>> for u16

type Output = u16

impl Sub<&BigEndian<u16>> for BigEndian<u16>

type Output = u16

impl Sub<&BigEndian<u32>> for &u32

type Output = u32

impl Sub<&BigEndian<u32>> for &BigEndian<u32>

type Output = u32

impl Sub<&BigEndian<u32>> for u32

type Output = u32

impl Sub<&BigEndian<u32>> for BigEndian<u32>

type Output = u32

impl Sub<&BigEndian<u64>> for &u64

type Output = u64

impl Sub<&BigEndian<u64>> for &BigEndian<u64>

type Output = u64

impl Sub<&BigEndian<u64>> for u64

type Output = u64

impl Sub<&BigEndian<u64>> for BigEndian<u64>

type Output = u64

impl Sub<&BigEndian<u128>> for &u128

type Output = u128

impl Sub<&BigEndian<u128>> for &BigEndian<u128>

type Output = u128

impl Sub<&BigEndian<u128>> for u128

type Output = u128

impl Sub<&BigEndian<u128>> for BigEndian<u128>

type Output = u128

impl Sub<&LittleEndian<f32>> for &f32

type Output = f32

impl Sub<&LittleEndian<f32>> for &LittleEndian<f32>

type Output = f32

impl Sub<&LittleEndian<f32>> for f32

type Output = f32

impl Sub<&LittleEndian<f32>> for LittleEndian<f32>

type Output = f32

impl Sub<&LittleEndian<f64>> for &f64

type Output = f64

impl Sub<&LittleEndian<f64>> for &LittleEndian<f64>

type Output = f64

impl Sub<&LittleEndian<f64>> for f64

type Output = f64

impl Sub<&LittleEndian<f64>> for LittleEndian<f64>

type Output = f64

impl Sub<&LittleEndian<i16>> for &i16

type Output = i16

impl Sub<&LittleEndian<i16>> for &LittleEndian<i16>

type Output = i16

impl Sub<&LittleEndian<i16>> for i16

type Output = i16

impl Sub<&LittleEndian<i16>> for LittleEndian<i16>

type Output = i16

impl Sub<&LittleEndian<i32>> for &i32

type Output = i32

impl Sub<&LittleEndian<i32>> for &LittleEndian<i32>

type Output = i32

impl Sub<&LittleEndian<i32>> for i32

type Output = i32

impl Sub<&LittleEndian<i32>> for LittleEndian<i32>

type Output = i32

impl Sub<&LittleEndian<i64>> for &i64

type Output = i64

impl Sub<&LittleEndian<i64>> for &LittleEndian<i64>

type Output = i64

impl Sub<&LittleEndian<i64>> for i64

type Output = i64

impl Sub<&LittleEndian<i64>> for LittleEndian<i64>

type Output = i64

impl Sub<&LittleEndian<i128>> for &i128

type Output = i128

impl Sub<&LittleEndian<i128>> for &LittleEndian<i128>

type Output = i128

impl Sub<&LittleEndian<i128>> for i128

type Output = i128

impl Sub<&LittleEndian<i128>> for LittleEndian<i128>

type Output = i128

impl Sub<&LittleEndian<u16>> for &u16

type Output = u16

impl Sub<&LittleEndian<u16>> for &LittleEndian<u16>

type Output = u16

impl Sub<&LittleEndian<u16>> for u16

type Output = u16

impl Sub<&LittleEndian<u16>> for LittleEndian<u16>

type Output = u16

impl Sub<&LittleEndian<u32>> for &u32

type Output = u32

impl Sub<&LittleEndian<u32>> for &LittleEndian<u32>

type Output = u32

impl Sub<&LittleEndian<u32>> for u32

type Output = u32

impl Sub<&LittleEndian<u32>> for LittleEndian<u32>

type Output = u32

impl Sub<&LittleEndian<u64>> for &u64

type Output = u64

impl Sub<&LittleEndian<u64>> for &LittleEndian<u64>

type Output = u64

impl Sub<&LittleEndian<u64>> for u64

type Output = u64

impl Sub<&LittleEndian<u64>> for LittleEndian<u64>

type Output = u64

impl Sub<&LittleEndian<u128>> for &u128

type Output = u128

impl Sub<&LittleEndian<u128>> for &LittleEndian<u128>

type Output = u128

impl Sub<&LittleEndian<u128>> for u128

type Output = u128

impl Sub<&LittleEndian<u128>> for LittleEndian<u128>

type Output = u128

impl Sub<&NativeEndian<f32>> for &f32

type Output = f32

impl Sub<&NativeEndian<f32>> for &NativeEndian<f32>

type Output = f32

impl Sub<&NativeEndian<f32>> for f32

type Output = f32

impl Sub<&NativeEndian<f32>> for NativeEndian<f32>

type Output = f32

impl Sub<&NativeEndian<f64>> for &f64

type Output = f64

impl Sub<&NativeEndian<f64>> for &NativeEndian<f64>

type Output = f64

impl Sub<&NativeEndian<f64>> for f64

type Output = f64

impl Sub<&NativeEndian<f64>> for NativeEndian<f64>

type Output = f64

impl Sub<&NativeEndian<i16>> for &i16

type Output = i16

impl Sub<&NativeEndian<i16>> for &NativeEndian<i16>

type Output = i16

impl Sub<&NativeEndian<i16>> for i16

type Output = i16

impl Sub<&NativeEndian<i16>> for NativeEndian<i16>

type Output = i16

impl Sub<&NativeEndian<i32>> for &i32

type Output = i32

impl Sub<&NativeEndian<i32>> for &NativeEndian<i32>

type Output = i32

impl Sub<&NativeEndian<i32>> for i32

type Output = i32

impl Sub<&NativeEndian<i32>> for NativeEndian<i32>

type Output = i32

impl Sub<&NativeEndian<i64>> for &i64

type Output = i64

impl Sub<&NativeEndian<i64>> for &NativeEndian<i64>

type Output = i64

impl Sub<&NativeEndian<i64>> for i64

type Output = i64

impl Sub<&NativeEndian<i64>> for NativeEndian<i64>

type Output = i64

impl Sub<&NativeEndian<i128>> for &i128

type Output = i128

impl Sub<&NativeEndian<i128>> for &NativeEndian<i128>

type Output = i128

impl Sub<&NativeEndian<i128>> for i128

type Output = i128

impl Sub<&NativeEndian<i128>> for NativeEndian<i128>

type Output = i128

impl Sub<&NativeEndian<u16>> for &u16

type Output = u16

impl Sub<&NativeEndian<u16>> for &NativeEndian<u16>

type Output = u16

impl Sub<&NativeEndian<u16>> for u16

type Output = u16

impl Sub<&NativeEndian<u16>> for NativeEndian<u16>

type Output = u16

impl Sub<&NativeEndian<u32>> for &u32

type Output = u32

impl Sub<&NativeEndian<u32>> for &NativeEndian<u32>

type Output = u32

impl Sub<&NativeEndian<u32>> for u32

type Output = u32

impl Sub<&NativeEndian<u32>> for NativeEndian<u32>

type Output = u32

impl Sub<&NativeEndian<u64>> for &u64

type Output = u64

impl Sub<&NativeEndian<u64>> for &NativeEndian<u64>

type Output = u64

impl Sub<&NativeEndian<u64>> for u64

type Output = u64

impl Sub<&NativeEndian<u64>> for NativeEndian<u64>

type Output = u64

impl Sub<&NativeEndian<u128>> for &u128

type Output = u128

impl Sub<&NativeEndian<u128>> for &NativeEndian<u128>

type Output = u128

impl Sub<&NativeEndian<u128>> for u128

type Output = u128

impl Sub<&NativeEndian<u128>> for NativeEndian<u128>

type Output = u128

impl Sub<&f32x4> for f32x4

type Output = f32x4

impl Sub<&f32x8> for f32x8

type Output = f32x8

impl Sub<&f64x2> for f64x2

type Output = f64x2

impl Sub<&f64x4> for f64x4

type Output = f64x4

impl Sub<&i8x16> for i8x16

type Output = i8x16

impl Sub<&i8x32> for i8x32

type Output = i8x32

impl Sub<&i16x8> for i16x8

type Output = i16x8

impl Sub<&i16x16> for i16x16

type Output = i16x16

impl Sub<&i32x4> for i32x4

type Output = i32x4

impl Sub<&i32x8> for i32x8

type Output = i32x8

impl Sub<&i64x2> for i64x2

type Output = i64x2

impl Sub<&u8x16> for u8x16

type Output = u8x16

impl Sub<&u16x8> for u16x8

type Output = u16x8

impl Sub<&u32x4> for u32x4

type Output = u32x4

impl Sub<&u32x8> for u32x8

type Output = u32x8

impl Sub<&u64x2> for u64x2

type Output = u64x2

impl Sub<&u64x4> for u64x4

type Output = u64x4

impl Sub<f32> for &BigEndian<f32>

type Output = f32

impl Sub<f32> for &LittleEndian<f32>

type Output = f32

impl Sub<f32> for &NativeEndian<f32>

type Output = f32

impl Sub<f32> for BigEndian<f32>

type Output = f32

impl Sub<f32> for LittleEndian<f32>

type Output = f32

impl Sub<f32> for NativeEndian<f32>

type Output = f32

impl Sub<f32> for f32x4

type Output = f32x4

impl Sub<f32> for f32x8

type Output = f32x8

impl Sub<f64> for &BigEndian<f64>

type Output = f64

impl Sub<f64> for &LittleEndian<f64>

type Output = f64

impl Sub<f64> for &NativeEndian<f64>

type Output = f64

impl Sub<f64> for BigEndian<f64>

type Output = f64

impl Sub<f64> for LittleEndian<f64>

type Output = f64

impl Sub<f64> for NativeEndian<f64>

type Output = f64

impl Sub<f64> for f64x2

type Output = f64x2

impl Sub<f64> for f64x4

type Output = f64x4

impl Sub<i8> for i8x16

type Output = i8x16

impl Sub<i8> for i8x32

type Output = i8x32

impl Sub<i16> for &BigEndian<i16>

type Output = i16

impl Sub<i16> for &LittleEndian<i16>

type Output = i16

impl Sub<i16> for &NativeEndian<i16>

type Output = i16

impl Sub<i16> for BigEndian<i16>

type Output = i16

impl Sub<i16> for LittleEndian<i16>

type Output = i16

impl Sub<i16> for NativeEndian<i16>

type Output = i16

impl Sub<i16> for i16x8

type Output = i16x8

impl Sub<i16> for i16x16

type Output = i16x16

impl Sub<i32> for &BigEndian<i32>

type Output = i32

impl Sub<i32> for &LittleEndian<i32>

type Output = i32

impl Sub<i32> for &NativeEndian<i32>

type Output = i32

impl Sub<i32> for BigEndian<i32>

type Output = i32

impl Sub<i32> for LittleEndian<i32>

type Output = i32

impl Sub<i32> for NativeEndian<i32>

type Output = i32

impl Sub<i32> for i32x4

type Output = i32x4

impl Sub<i32> for i32x8

type Output = i32x8

impl Sub<i64> for &BigEndian<i64>

type Output = i64

impl Sub<i64> for &LittleEndian<i64>

type Output = i64

impl Sub<i64> for &NativeEndian<i64>

type Output = i64

impl Sub<i64> for BigEndian<i64>

type Output = i64

impl Sub<i64> for LittleEndian<i64>

type Output = i64

impl Sub<i64> for NativeEndian<i64>

type Output = i64

impl Sub<i64> for i64x2

type Output = i64x2

impl Sub<i64> for i64x4

type Output = i64x4

impl Sub<i128> for &BigEndian<i128>

type Output = i128

impl Sub<i128> for &LittleEndian<i128>

type Output = i128

impl Sub<i128> for &NativeEndian<i128>

type Output = i128

impl Sub<i128> for BigEndian<i128>

type Output = i128

impl Sub<i128> for LittleEndian<i128>

type Output = i128

impl Sub<i128> for NativeEndian<i128>

type Output = i128

impl Sub<u8> for u8x16

type Output = u8x16

impl Sub<u16> for &BigEndian<u16>

type Output = u16

impl Sub<u16> for &LittleEndian<u16>

type Output = u16

impl Sub<u16> for &NativeEndian<u16>

type Output = u16

impl Sub<u16> for BigEndian<u16>

type Output = u16

impl Sub<u16> for LittleEndian<u16>

type Output = u16

impl Sub<u16> for NativeEndian<u16>

type Output = u16

impl Sub<u16> for u16x8

type Output = u16x8

impl Sub<u32> for &BigEndian<u32>

type Output = u32

impl Sub<u32> for &LittleEndian<u32>

type Output = u32

impl Sub<u32> for &NativeEndian<u32>

type Output = u32

impl Sub<u32> for BigEndian<u32>

type Output = u32

impl Sub<u32> for LittleEndian<u32>

type Output = u32

impl Sub<u32> for NativeEndian<u32>

type Output = u32

impl Sub<u32> for u32x4

type Output = u32x4

impl Sub<u64> for &BigEndian<u64>

type Output = u64

impl Sub<u64> for &LittleEndian<u64>

type Output = u64

impl Sub<u64> for &NativeEndian<u64>

type Output = u64

impl Sub<u64> for BigEndian<u64>

type Output = u64

impl Sub<u64> for LittleEndian<u64>

type Output = u64

impl Sub<u64> for NativeEndian<u64>

type Output = u64

impl Sub<u64> for u64x2

type Output = u64x2

impl Sub<u64> for u64x4

type Output = u64x4

impl Sub<u128> for &BigEndian<u128>

type Output = u128

impl Sub<u128> for &LittleEndian<u128>

type Output = u128

impl Sub<u128> for &NativeEndian<u128>

type Output = u128

impl Sub<u128> for BigEndian<u128>

type Output = u128

impl Sub<u128> for LittleEndian<u128>

type Output = u128

impl Sub<u128> for NativeEndian<u128>

type Output = u128

impl Sub<usize> for Dyn

type Output = Dyn

impl Sub<Duration> for std::time::Instant

type Output = Instant

impl Sub<Duration> for SystemTime

type Output = SystemTime

impl Sub<Duration> for tokio::time::instant::Instant

type Output = Instant

impl Sub<Complex<f32>> for f32

type Output = Complex<f32>

impl Sub<Complex<f64>> for f64

type Output = Complex<f64>

impl Sub<Complex<i8>> for i8

type Output = Complex<i8>

impl Sub<Complex<i16>> for i16

type Output = Complex<i16>

impl Sub<Complex<i32>> for i32

type Output = Complex<i32>

impl Sub<Complex<i64>> for i64

type Output = Complex<i64>

impl Sub<Complex<i128>> for i128

type Output = Complex<i128>

impl Sub<Complex<isize>> for isize

type Output = Complex<isize>

impl Sub<Complex<u8>> for u8

type Output = Complex<u8>

impl Sub<Complex<u16>> for u16

type Output = Complex<u16>

impl Sub<Complex<u32>> for u32

type Output = Complex<u32>

impl Sub<Complex<u64>> for u64

type Output = Complex<u64>

impl Sub<Complex<u128>> for u128

type Output = Complex<u128>

impl Sub<Complex<usize>> for usize

type Output = Complex<usize>

impl Sub<BigEndian<f32>> for &f32

type Output = f32

impl Sub<BigEndian<f32>> for &BigEndian<f32>

type Output = f32

impl Sub<BigEndian<f32>> for f32

type Output = f32

impl Sub<BigEndian<f64>> for &f64

type Output = f64

impl Sub<BigEndian<f64>> for &BigEndian<f64>

type Output = f64

impl Sub<BigEndian<f64>> for f64

type Output = f64

impl Sub<BigEndian<i16>> for &i16

type Output = i16

impl Sub<BigEndian<i16>> for &BigEndian<i16>

type Output = i16

impl Sub<BigEndian<i16>> for i16

type Output = i16

impl Sub<BigEndian<i32>> for &i32

type Output = i32

impl Sub<BigEndian<i32>> for &BigEndian<i32>

type Output = i32

impl Sub<BigEndian<i32>> for i32

type Output = i32

impl Sub<BigEndian<i64>> for &i64

type Output = i64

impl Sub<BigEndian<i64>> for &BigEndian<i64>

type Output = i64

impl Sub<BigEndian<i64>> for i64

type Output = i64

impl Sub<BigEndian<i128>> for &i128

type Output = i128

impl Sub<BigEndian<i128>> for &BigEndian<i128>

type Output = i128

impl Sub<BigEndian<i128>> for i128

type Output = i128

impl Sub<BigEndian<u16>> for &u16

type Output = u16

impl Sub<BigEndian<u16>> for &BigEndian<u16>

type Output = u16

impl Sub<BigEndian<u16>> for u16

type Output = u16

impl Sub<BigEndian<u32>> for &u32

type Output = u32

impl Sub<BigEndian<u32>> for &BigEndian<u32>

type Output = u32

impl Sub<BigEndian<u32>> for u32

type Output = u32

impl Sub<BigEndian<u64>> for &u64

type Output = u64

impl Sub<BigEndian<u64>> for &BigEndian<u64>

type Output = u64

impl Sub<BigEndian<u64>> for u64

type Output = u64

impl Sub<BigEndian<u128>> for &u128

type Output = u128

impl Sub<BigEndian<u128>> for &BigEndian<u128>

type Output = u128

impl Sub<BigEndian<u128>> for u128

type Output = u128

impl Sub<LittleEndian<f32>> for &f32

type Output = f32

impl Sub<LittleEndian<f32>> for &LittleEndian<f32>

type Output = f32

impl Sub<LittleEndian<f32>> for f32

type Output = f32

impl Sub<LittleEndian<f64>> for &f64

type Output = f64

impl Sub<LittleEndian<f64>> for &LittleEndian<f64>

type Output = f64

impl Sub<LittleEndian<f64>> for f64

type Output = f64

impl Sub<LittleEndian<i16>> for &i16

type Output = i16

impl Sub<LittleEndian<i16>> for &LittleEndian<i16>

type Output = i16

impl Sub<LittleEndian<i16>> for i16

type Output = i16

impl Sub<LittleEndian<i32>> for &i32

type Output = i32

impl Sub<LittleEndian<i32>> for &LittleEndian<i32>

type Output = i32

impl Sub<LittleEndian<i32>> for i32

type Output = i32

impl Sub<LittleEndian<i64>> for &i64

type Output = i64

impl Sub<LittleEndian<i64>> for &LittleEndian<i64>

type Output = i64

impl Sub<LittleEndian<i64>> for i64

type Output = i64

impl Sub<LittleEndian<i128>> for &i128

type Output = i128

impl Sub<LittleEndian<i128>> for &LittleEndian<i128>

type Output = i128

impl Sub<LittleEndian<i128>> for i128

type Output = i128

impl Sub<LittleEndian<u16>> for &u16

type Output = u16

impl Sub<LittleEndian<u16>> for &LittleEndian<u16>

type Output = u16

impl Sub<LittleEndian<u16>> for u16

type Output = u16

impl Sub<LittleEndian<u32>> for &u32

type Output = u32

impl Sub<LittleEndian<u32>> for &LittleEndian<u32>

type Output = u32

impl Sub<LittleEndian<u32>> for u32

type Output = u32

impl Sub<LittleEndian<u64>> for &u64

type Output = u64

impl Sub<LittleEndian<u64>> for &LittleEndian<u64>

type Output = u64

impl Sub<LittleEndian<u64>> for u64

type Output = u64

impl Sub<LittleEndian<u128>> for &u128

type Output = u128

impl Sub<LittleEndian<u128>> for &LittleEndian<u128>

type Output = u128

impl Sub<LittleEndian<u128>> for u128

type Output = u128

impl Sub<NativeEndian<f32>> for &f32

type Output = f32

impl Sub<NativeEndian<f32>> for &NativeEndian<f32>

type Output = f32

impl Sub<NativeEndian<f32>> for f32

type Output = f32

impl Sub<NativeEndian<f64>> for &f64

type Output = f64

impl Sub<NativeEndian<f64>> for &NativeEndian<f64>

type Output = f64

impl Sub<NativeEndian<f64>> for f64

type Output = f64

impl Sub<NativeEndian<i16>> for &i16

type Output = i16

impl Sub<NativeEndian<i16>> for &NativeEndian<i16>

type Output = i16

impl Sub<NativeEndian<i16>> for i16

type Output = i16

impl Sub<NativeEndian<i32>> for &i32

type Output = i32

impl Sub<NativeEndian<i32>> for &NativeEndian<i32>

type Output = i32

impl Sub<NativeEndian<i32>> for i32

type Output = i32

impl Sub<NativeEndian<i64>> for &i64

type Output = i64

impl Sub<NativeEndian<i64>> for &NativeEndian<i64>

type Output = i64

impl Sub<NativeEndian<i64>> for i64

type Output = i64

impl Sub<NativeEndian<i128>> for &i128

type Output = i128

impl Sub<NativeEndian<i128>> for &NativeEndian<i128>

type Output = i128

impl Sub<NativeEndian<i128>> for i128

type Output = i128

impl Sub<NativeEndian<u16>> for &u16

type Output = u16

impl Sub<NativeEndian<u16>> for &NativeEndian<u16>

type Output = u16

impl Sub<NativeEndian<u16>> for u16

type Output = u16

impl Sub<NativeEndian<u32>> for &u32

type Output = u32

impl Sub<NativeEndian<u32>> for &NativeEndian<u32>

type Output = u32

impl Sub<NativeEndian<u32>> for u32

type Output = u32

impl Sub<NativeEndian<u64>> for &u64

type Output = u64

impl Sub<NativeEndian<u64>> for &NativeEndian<u64>

type Output = u64

impl Sub<NativeEndian<u64>> for u64

type Output = u64

impl Sub<NativeEndian<u128>> for &u128

type Output = u128

impl Sub<NativeEndian<u128>> for &NativeEndian<u128>

type Output = u128

impl Sub<NativeEndian<u128>> for u128

type Output = u128

impl Sub<B0> for UTerm

UTerm - B0 = Term

type Output = UTerm

impl Sub<B1> for UInt<UTerm, B1>

UInt<UTerm, B1> - B1 = UTerm

type Output = UTerm

impl Sub<f32x4> for f32

type Output = f32x4

impl Sub<f32x8> for f32

type Output = f32x8

impl Sub<f64x2> for f64

type Output = f64x2

impl Sub<f64x4> for f64

type Output = f64x4

impl Sub<i8x16> for i8

type Output = i8x16

impl Sub<i8x32> for i8

type Output = i8x32

impl Sub<i16x8> for i16

type Output = i16x8

impl Sub<i16x16> for i16

type Output = i16x16

impl Sub<i32x4> for i32

type Output = i32x4

impl Sub<i32x8> for i32

type Output = i32x8

impl Sub<i64x2> for i64

type Output = i64x2

impl Sub<i64x4> for i64

type Output = i64x4

impl Sub<u8x16> for u8

type Output = u8x16

impl Sub<u16x8> for u16

type Output = u16x8

impl Sub<u32x4> for u32

type Output = u32x4

impl Sub<u64x2> for u64

type Output = u64x2

impl Sub<u64x4> for u64

type Output = u64x4

impl<'a> Sub<&'a Complex<f32>> for f32

type Output = Complex<f32>

impl<'a> Sub<&'a Complex<f64>> for f64

type Output = Complex<f64>

impl<'a> Sub<&'a Complex<i8>> for i8

type Output = Complex<i8>

impl<'a> Sub<&'a Complex<i16>> for i16

type Output = Complex<i16>

impl<'a> Sub<&'a Complex<i32>> for i32

type Output = Complex<i32>

impl<'a> Sub<&'a Complex<i64>> for i64

type Output = Complex<i64>

impl<'a> Sub<&'a Complex<i128>> for i128

type Output = Complex<i128>

impl<'a> Sub<&'a Complex<isize>> for isize

type Output = Complex<isize>

impl<'a> Sub<&'a Complex<u8>> for u8

type Output = Complex<u8>

impl<'a> Sub<&'a Complex<u16>> for u16

type Output = Complex<u16>

impl<'a> Sub<&'a Complex<u32>> for u32

type Output = Complex<u32>

impl<'a> Sub<&'a Complex<u64>> for u64

type Output = Complex<u64>

impl<'a> Sub<&'a Complex<u128>> for u128

type Output = Complex<u128>

impl<'a> Sub<&'a Complex<usize>> for usize

type Output = Complex<usize>

impl<'a> Sub<f32> for &'a f32

type Output = <f32 as Sub>::Output

impl<'a> Sub<f64> for &'a f64

type Output = <f64 as Sub>::Output

impl<'a> Sub<i8> for &'a i8

type Output = <i8 as Sub>::Output

impl<'a> Sub<i16> for &'a i16

type Output = <i16 as Sub>::Output

impl<'a> Sub<i32> for &'a i32

type Output = <i32 as Sub>::Output

impl<'a> Sub<i64> for &'a i64

type Output = <i64 as Sub>::Output

impl<'a> Sub<i128> for &'a i128

type Output = <i128 as Sub>::Output

impl<'a> Sub<isize> for &'a isize

type Output = <isize as Sub>::Output

impl<'a> Sub<u8> for &'a u8

type Output = <u8 as Sub>::Output

impl<'a> Sub<u16> for &'a u16

type Output = <u16 as Sub>::Output

impl<'a> Sub<u32> for &'a u32

type Output = <u32 as Sub>::Output

impl<'a> Sub<u64> for &'a u64

type Output = <u64 as Sub>::Output

impl<'a> Sub<u128> for &'a u128

type Output = <u128 as Sub>::Output

impl<'a> Sub<usize> for &'a usize

type Output = <usize as Sub>::Output

impl<'a> Sub<Saturating<i8>> for &'a Saturating<i8>

type Output = <Saturating<i8> as Sub>::Output

impl<'a> Sub<Saturating<i16>> for &'a Saturating<i16>

type Output = <Saturating<i16> as Sub>::Output

impl<'a> Sub<Saturating<i32>> for &'a Saturating<i32>

type Output = <Saturating<i32> as Sub>::Output

impl<'a> Sub<Saturating<i64>> for &'a Saturating<i64>

type Output = <Saturating<i64> as Sub>::Output

impl<'a> Sub<Saturating<i128>> for &'a Saturating<i128>

type Output = <Saturating<i128> as Sub>::Output

impl<'a> Sub<Saturating<isize>> for &'a Saturating<isize>

type Output = <Saturating<isize> as Sub>::Output

impl<'a> Sub<Saturating<u8>> for &'a Saturating<u8>

type Output = <Saturating<u8> as Sub>::Output

impl<'a> Sub<Saturating<u16>> for &'a Saturating<u16>

type Output = <Saturating<u16> as Sub>::Output

impl<'a> Sub<Saturating<u32>> for &'a Saturating<u32>

type Output = <Saturating<u32> as Sub>::Output

impl<'a> Sub<Saturating<u64>> for &'a Saturating<u64>

type Output = <Saturating<u64> as Sub>::Output

impl<'a> Sub<Saturating<u128>> for &'a Saturating<u128>

type Output = <Saturating<u128> as Sub>::Output

impl<'a> Sub<Saturating<usize>> for &'a Saturating<usize>

type Output = <Saturating<usize> as Sub>::Output

impl<'a> Sub<Wrapping<i8>> for &'a Wrapping<i8>

type Output = <Wrapping<i8> as Sub>::Output

impl<'a> Sub<Wrapping<i16>> for &'a Wrapping<i16>

type Output = <Wrapping<i16> as Sub>::Output

impl<'a> Sub<Wrapping<i32>> for &'a Wrapping<i32>

type Output = <Wrapping<i32> as Sub>::Output

impl<'a> Sub<Wrapping<i64>> for &'a Wrapping<i64>

type Output = <Wrapping<i64> as Sub>::Output

impl<'a> Sub<Wrapping<i128>> for &'a Wrapping<i128>

type Output = <Wrapping<i128> as Sub>::Output

impl<'a> Sub<Wrapping<isize>> for &'a Wrapping<isize>

type Output = <Wrapping<isize> as Sub>::Output

impl<'a> Sub<Wrapping<u8>> for &'a Wrapping<u8>

type Output = <Wrapping<u8> as Sub>::Output

impl<'a> Sub<Wrapping<u16>> for &'a Wrapping<u16>

type Output = <Wrapping<u16> as Sub>::Output

impl<'a> Sub<Wrapping<u32>> for &'a Wrapping<u32>

type Output = <Wrapping<u32> as Sub>::Output

impl<'a> Sub<Wrapping<u64>> for &'a Wrapping<u64>

type Output = <Wrapping<u64> as Sub>::Output

impl<'a> Sub<Wrapping<u128>> for &'a Wrapping<u128>

type Output = <Wrapping<u128> as Sub>::Output

impl<'a> Sub<Wrapping<usize>> for &'a Wrapping<usize>

type Output = <Wrapping<usize> as Sub>::Output

impl<'a> Sub<Complex<f32>> for &'a f32

type Output = Complex<f32>

impl<'a> Sub<Complex<f64>> for &'a f64

type Output = Complex<f64>

impl<'a> Sub<Complex<i8>> for &'a i8

type Output = Complex<i8>

impl<'a> Sub<Complex<i16>> for &'a i16

type Output = Complex<i16>

impl<'a> Sub<Complex<i32>> for &'a i32

type Output = Complex<i32>

impl<'a> Sub<Complex<i64>> for &'a i64

type Output = Complex<i64>

impl<'a> Sub<Complex<i128>> for &'a i128

type Output = Complex<i128>

impl<'a> Sub<Complex<isize>> for &'a isize

type Output = Complex<isize>

impl<'a> Sub<Complex<u8>> for &'a u8

type Output = Complex<u8>

impl<'a> Sub<Complex<u16>> for &'a u16

type Output = Complex<u16>

impl<'a> Sub<Complex<u32>> for &'a u32

type Output = Complex<u32>

impl<'a> Sub<Complex<u64>> for &'a u64

type Output = Complex<u64>

impl<'a> Sub<Complex<u128>> for &'a u128

type Output = Complex<u128>

impl<'a> Sub<Complex<usize>> for &'a usize

type Output = Complex<usize>

impl<'a, 'b> Sub<&'a Complex<f32>> for &'b f32

type Output = Complex<f32>

impl<'a, 'b> Sub<&'a Complex<f64>> for &'b f64

type Output = Complex<f64>

impl<'a, 'b> Sub<&'a Complex<i8>> for &'b i8

type Output = Complex<i8>

impl<'a, 'b> Sub<&'a Complex<i16>> for &'b i16

type Output = Complex<i16>

impl<'a, 'b> Sub<&'a Complex<i32>> for &'b i32

type Output = Complex<i32>

impl<'a, 'b> Sub<&'a Complex<i64>> for &'b i64

type Output = Complex<i64>

impl<'a, 'b> Sub<&'a Complex<i128>> for &'b i128

type Output = Complex<i128>

impl<'a, 'b> Sub<&'a Complex<isize>> for &'b isize

type Output = Complex<isize>

impl<'a, 'b> Sub<&'a Complex<u8>> for &'b u8

type Output = Complex<u8>

impl<'a, 'b> Sub<&'a Complex<u16>> for &'b u16

type Output = Complex<u16>

impl<'a, 'b> Sub<&'a Complex<u32>> for &'b u32

type Output = Complex<u32>

impl<'a, 'b> Sub<&'a Complex<u64>> for &'b u64

type Output = Complex<u64>

impl<'a, 'b> Sub<&'a Complex<u128>> for &'b u128

type Output = Complex<u128>

impl<'a, 'b> Sub<&'a Complex<usize>> for &'b usize

type Output = Complex<usize>

impl<'a, 'b, T> Sub<&'b DualQuaternion<T>> for &'a DualQuaternion<T>

where T: SimdRealField, <T as SimdValue>::Element: SimdRealField,

type Output = DualQuaternion<T>

impl<'a, 'b, T> Sub<&'b Quaternion<T>> for &'a Quaternion<T>

where T: SimdRealField, <T as SimdValue>::Element: SimdRealField,

type Output = Quaternion<T>

impl<'a, 'b, T> Sub<&'b Complex<T>> for &'a Complex<T>

where T: Clone + Num,

type Output = Complex<T>

impl<'a, 'b, T> Sub<&'b Ratio<T>> for &'a Ratio<T>

where T: Clone + Integer,

type Output = Ratio<T>

impl<'a, 'b, T> Sub<&'a T> for &'b Complex<T>

where T: Clone + Num,

type Output = Complex<T>

impl<'a, 'b, T> Sub<&'b T> for &'a Ratio<T>

where T: Clone + Integer,

type Output = Ratio<T>

impl<'a, 'b, T, D1, D2, SB> Sub<&'b Matrix<T, D2, Const<1>, SB>> for &'a OPoint<T, D1>

where T: Scalar + ClosedSub, ShapeConstraint: SameNumberOfRows<D1, D2, Representative = D1> + SameNumberOfColumns<Const<1>, Const<1>, Representative = Const<1>>, D1: DimName, D2: Dim, SB: Storage<T, D2>, DefaultAllocator: Allocator<T, D1>,

type Output = OPoint<T, D1>

impl<'a, 'b, T, D> Sub<&'b OPoint<T, D>> for &'a OPoint<T, D>

where T: Scalar + ClosedSub, ShapeConstraint: SameNumberOfRows<D, D, Representative = D> + SameNumberOfColumns<Const<1>, Const<1>, Representative = Const<1>>, D: DimName, DefaultAllocator: Allocator<T, D>,

type Output = Matrix<T, D, Const<1>, <DefaultAllocator as Allocator<T, D>>::Buffer>

impl<'a, 'b, T, R1, C1, R2, C2, SA, SB> Sub<&'b Matrix<T, R2, C2, SB>> for &'a Matrix<T, R1, C1, SA>

where R1: Dim, C1: Dim, R2: Dim, C2: Dim, T: Scalar + ClosedSub, SA: Storage<T, R1, C1>, SB: Storage<T, R2, C2>, DefaultAllocator: SameShapeAllocator<T, R1, C1, R2, C2>, ShapeConstraint: SameNumberOfRows<R1, R2> + SameNumberOfColumns<C1, C2>,

type Output = Matrix<T, <ShapeConstraint as SameNumberOfRows<R1, R2>>::Representative, <ShapeConstraint as SameNumberOfColumns<C1, C2>>::Representative, <DefaultAllocator as Allocator<T, <ShapeConstraint as SameNumberOfRows<R1, R2>>::Representative, <ShapeConstraint as SameNumberOfColumns<C1, C2>>::Representative>>::Buffer>

impl<'a, T> Sub<&'a Complex<T>> for Complex<T>

where T: Clone + Num,

type Output = Complex<T>

impl<'a, T> Sub<&'a Ratio<T>> for Ratio<T>

where T: Clone + Integer,

type Output = Ratio<T>

impl<'a, T> Sub<&'a T> for Complex<T>

where T: Clone + Num,

type Output = Complex<T>

impl<'a, T> Sub<&'a T> for Ratio<T>

where T: Clone + Integer,

type Output = Ratio<T>

impl<'a, T> Sub<DualQuaternion<T>> for &'a DualQuaternion<T>

where T: SimdRealField, <T as SimdValue>::Element: SimdRealField,

type Output = DualQuaternion<T>

impl<'a, T> Sub<Quaternion<T>> for &'a Quaternion<T>

where T: SimdRealField, <T as SimdValue>::Element: SimdRealField,

type Output = Quaternion<T>

impl<'a, T> Sub<Complex<T>> for &'a Complex<T>

where T: Clone + Num,

type Output = Complex<T>

impl<'a, T> Sub<Ratio<T>> for &'a Ratio<T>

where T: Clone + Integer,

type Output = Ratio<T>

impl<'a, T> Sub<T> for &'a Complex<T>

where T: Clone + Num,

type Output = Complex<T>

impl<'a, T> Sub<T> for &'a Ratio<T>

where T: Clone + Integer,

type Output = Ratio<T>

impl<'a, T, D1, D2, SB> Sub<Matrix<T, D2, Const<1>, SB>> for &'a OPoint<T, D1>

where T: Scalar + ClosedSub, ShapeConstraint: SameNumberOfRows<D1, D2, Representative = D1> + SameNumberOfColumns<Const<1>, Const<1>, Representative = Const<1>>, D1: DimName, D2: Dim, SB: Storage<T, D2>, DefaultAllocator: Allocator<T, D1>,

type Output = OPoint<T, D1>

impl<'a, T, D> Sub<OPoint<T, D>> for &'a OPoint<T, D>

where T: Scalar + ClosedSub, ShapeConstraint: SameNumberOfRows<D, D, Representative = D> + SameNumberOfColumns<Const<1>, Const<1>, Representative = Const<1>>, D: DimName, DefaultAllocator: Allocator<T, D>,

type Output = Matrix<T, D, Const<1>, <DefaultAllocator as Allocator<T, D>>::Buffer>

impl<'a, T, R1, C1, R2, C2, SA, SB> Sub<Matrix<T, R2, C2, SB>> for &'a Matrix<T, R1, C1, SA>

where R1: Dim, C1: Dim, R2: Dim, C2: Dim, T: Scalar + ClosedSub, SA: Storage<T, R1, C1>, SB: Storage<T, R2, C2>, DefaultAllocator: SameShapeAllocator<T, R2, C2, R1, C1>, ShapeConstraint: SameNumberOfRows<R2, R1> + SameNumberOfColumns<C2, C1>,

type Output = Matrix<T, <ShapeConstraint as SameNumberOfRows<R2, R1>>::Representative, <ShapeConstraint as SameNumberOfColumns<C2, C1>>::Representative, <DefaultAllocator as Allocator<T, <ShapeConstraint as SameNumberOfRows<R2, R1>>::Representative, <ShapeConstraint as SameNumberOfColumns<C2, C1>>::Representative>>::Buffer>

impl<'b, T> Sub<&'b DualQuaternion<T>> for DualQuaternion<T>

where T: SimdRealField, <T as SimdValue>::Element: SimdRealField,

type Output = DualQuaternion<T>

impl<'b, T> Sub<&'b Quaternion<T>> for Quaternion<T>

where T: SimdRealField, <T as SimdValue>::Element: SimdRealField,

type Output = Quaternion<T>

impl<'b, T, D1, D2, SB> Sub<&'b Matrix<T, D2, Const<1>, SB>> for OPoint<T, D1>

where T: Scalar + ClosedSub, ShapeConstraint: SameNumberOfRows<D1, D2, Representative = D1> + SameNumberOfColumns<Const<1>, Const<1>, Representative = Const<1>>, D1: DimName, D2: Dim, SB: Storage<T, D2>, DefaultAllocator: Allocator<T, D1>,

type Output = OPoint<T, D1>

impl<'b, T, D> Sub<&'b OPoint<T, D>> for OPoint<T, D>

where T: Scalar + ClosedSub, ShapeConstraint: SameNumberOfRows<D, D, Representative = D> + SameNumberOfColumns<Const<1>, Const<1>, Representative = Const<1>>, D: DimName, DefaultAllocator: Allocator<T, D>,

type Output = Matrix<T, D, Const<1>, <DefaultAllocator as Allocator<T, D>>::Buffer>

impl<'b, T, R1, C1, R2, C2, SA, SB> Sub<&'b Matrix<T, R2, C2, SB>> for Matrix<T, R1, C1, SA>

where R1: Dim, C1: Dim, R2: Dim, C2: Dim, T: Scalar + ClosedSub, SA: Storage<T, R1, C1>, SB: Storage<T, R2, C2>, DefaultAllocator: SameShapeAllocator<T, R1, C1, R2, C2>, ShapeConstraint: SameNumberOfRows<R1, R2> + SameNumberOfColumns<C1, C2>,

type Output = Matrix<T, <ShapeConstraint as SameNumberOfRows<R1, R2>>::Representative, <ShapeConstraint as SameNumberOfColumns<C1, C2>>::Representative, <DefaultAllocator as Allocator<T, <ShapeConstraint as SameNumberOfRows<R1, R2>>::Representative, <ShapeConstraint as SameNumberOfColumns<C1, C2>>::Representative>>::Buffer>

impl<'lhs, 'rhs, T, const N: usize> Sub<&'rhs Simd<T, N>> for &'lhs Simd<T, N>

where T: SimdElement, Simd<T, N>: Sub<Output = Simd<T, N>>, LaneCount<N>: SupportedLaneCount,

type Output = Simd<T, N>

impl<T> Sub for DualQuaternion<T>

where T: SimdRealField, <T as SimdValue>::Element: SimdRealField,

type Output = DualQuaternion<T>

impl<T> Sub for Quaternion<T>

where T: SimdRealField, <T as SimdValue>::Element: SimdRealField,

type Output = Quaternion<T>

impl<T> Sub for Complex<T>

where T: Clone + Num,

type Output = Complex<T>

impl<T> Sub for Ratio<T>

where T: Clone + Integer,

type Output = Ratio<T>

impl<T> Sub<T> for Complex<T>

where T: Clone + Num,

type Output = Complex<T>

impl<T> Sub<T> for Ratio<T>

where T: Clone + Integer,

type Output = Ratio<T>

impl<T, A> Sub<&BTreeSet<T, A>> for &BTreeSet<T, A>

where T: Ord + Clone, A: Allocator + Clone,

type Output = BTreeSet<T, A>

impl<T, D1, D2, SB> Sub<Matrix<T, D2, Const<1>, SB>> for OPoint<T, D1>

where T: Scalar + ClosedSub, ShapeConstraint: SameNumberOfRows<D1, D2, Representative = D1> + SameNumberOfColumns<Const<1>, Const<1>, Representative = Const<1>>, D1: DimName, D2: Dim, SB: Storage<T, D2>, DefaultAllocator: Allocator<T, D1>,

type Output = OPoint<T, D1>

impl<T, D> Sub for OPoint<T, D>

where T: Scalar + ClosedSub, ShapeConstraint: SameNumberOfRows<D, D, Representative = D> + SameNumberOfColumns<Const<1>, Const<1>, Representative = Const<1>>, D: DimName, DefaultAllocator: Allocator<T, D>,

type Output = Matrix<T, D, Const<1>, <DefaultAllocator as Allocator<T, D>>::Buffer>

impl<T, R1, C1, R2, C2, SA, SB> Sub<Matrix<T, R2, C2, SB>> for Matrix<T, R1, C1, SA>

where R1: Dim, C1: Dim, R2: Dim, C2: Dim, T: Scalar + ClosedSub, SA: Storage<T, R1, C1>, SB: Storage<T, R2, C2>, DefaultAllocator: SameShapeAllocator<T, R1, C1, R2, C2>, ShapeConstraint: SameNumberOfRows<R1, R2> + SameNumberOfColumns<C1, C2>,

type Output = Matrix<T, <ShapeConstraint as SameNumberOfRows<R1, R2>>::Representative, <ShapeConstraint as SameNumberOfColumns<C1, C2>>::Representative, <DefaultAllocator as Allocator<T, <ShapeConstraint as SameNumberOfRows<R1, R2>>::Representative, <ShapeConstraint as SameNumberOfColumns<C1, C2>>::Representative>>::Buffer>

impl<T, S1, S2> Sub<&IndexSet<T, S2>> for &IndexSet<T, S1>

where T: Eq + Hash + Clone, S1: BuildHasher + Default, S2: BuildHasher,

type Output = IndexSet<T, S1>

impl<T, S> Sub<&HashSet<T, S>> for &std::collections::hash::set::HashSet<T, S>

where T: Eq + Hash + Clone, S: BuildHasher + Default,

type Output = HashSet<T, S>

impl<T, S> Sub<&HashSet<T, S>> for &hashbrown::set::HashSet<T, S>

where T: Eq + Hash + Clone, S: BuildHasher + Default,

type Output = HashSet<T, S>

impl<T, S> Sub<&HashSet<T, S>> for &hashbrown::set::HashSet<T, S>

where T: Eq + Hash + Clone, S: BuildHasher + Default,

type Output = HashSet<T, S>

impl<T, const N: usize> Sub<&Simd<T, N>> for Simd<T, N>

where T: SimdElement, Simd<T, N>: Sub<Output = Simd<T, N>>, LaneCount<N>: SupportedLaneCount,

type Output = Simd<T, N>

impl<T, const N: usize> Sub<Simd<T, N>> for &Simd<T, N>

where T: SimdElement, Simd<T, N>: Sub<Output = Simd<T, N>>, LaneCount<N>: SupportedLaneCount,

type Output = Simd<T, N>

impl<U> Sub<B1> for UInt<U, B0>

where U: Unsigned + Sub<B1>, <U as Sub<B1>>::Output: Unsigned,

UInt<U, B0> - B1 = UInt<U - B1, B1>

type Output = UInt<<U as Sub<B1>>::Output, B1>

impl<U> Sub<NInt<U>> for Z0

where U: Unsigned + NonZero,

Z0 - N = P

type Output = PInt<U>

impl<U> Sub<PInt<U>> for Z0

where U: Unsigned + NonZero,

Z0 - P = N

type Output = NInt<U>

impl<U> Sub<Z0> for NInt<U>

where U: Unsigned + NonZero,

NInt - Z0 = NInt

type Output = NInt<U>

impl<U> Sub<Z0> for PInt<U>

where U: Unsigned + NonZero,

PInt - Z0 = PInt

type Output = PInt<U>

impl<U, B> Sub<B0> for UInt<U, B>

where U: Unsigned, B: Bit,

UInt - B0 = UInt

type Output = UInt<U, B>

impl<U, B> Sub<B1> for UInt<UInt<U, B>, B1>

where U: Unsigned, B: Bit,

UInt<U, B1> - B1 = UInt<U, B0>

type Output = UInt<UInt<U, B>, B0>

impl<Ul, Bl, Ur> Sub<Ur> for UInt<Ul, Bl>

where Ul: Unsigned, Bl: Bit, Ur: Unsigned, UInt<Ul, Bl>: PrivateSub<Ur>, <UInt<Ul, Bl> as PrivateSub<Ur>>::Output: Trim,

Subtracting unsigned integers. We just do our PrivateSub and then Trim the output.

type Output = <<UInt<Ul, Bl> as PrivateSub<Ur>>::Output as Trim>::Output

impl<Ul, Ur> Sub<NInt<Ur>> for NInt<Ul>

where Ul: Unsigned + NonZero, Ur: Unsigned + NonZero + Cmp<Ul> + PrivateIntegerAdd<<Ur as Cmp<Ul>>::Output, Ul>,

N(Ul) - N(Ur): We resolve this with our PrivateAdd

type Output = <Ur as PrivateIntegerAdd<<Ur as Cmp<Ul>>::Output, Ul>>::Output

impl<Ul, Ur> Sub<NInt<Ur>> for PInt<Ul>

where Ul: Unsigned + NonZero + Add<Ur>, Ur: Unsigned + NonZero, <Ul as Add<Ur>>::Output: Unsigned + NonZero,

P(Ul) - N(Ur) = P(Ul + Ur)

type Output = PInt<<Ul as Add<Ur>>::Output>

impl<Ul, Ur> Sub<PInt<Ur>> for NInt<Ul>

where Ul: Unsigned + NonZero + Add<Ur>, Ur: Unsigned + NonZero, <Ul as Add<Ur>>::Output: Unsigned + NonZero,

N(Ul) - P(Ur) = N(Ul + Ur)

type Output = NInt<<Ul as Add<Ur>>::Output>

impl<Ul, Ur> Sub<PInt<Ur>> for PInt<Ul>

where Ul: Unsigned + NonZero + Cmp<Ur> + PrivateIntegerAdd<<Ul as Cmp<Ur>>::Output, Ur>, Ur: Unsigned + NonZero,

P(Ul) - P(Ur): We resolve this with our PrivateAdd

type Output = <Ul as PrivateIntegerAdd<<Ul as Cmp<Ur>>::Output, Ur>>::Output

impl<Vl, Al, Vr, Ar> Sub<TArr<Vr, Ar>> for TArr<Vl, Al>

where Vl: Sub<Vr>, Al: Sub<Ar>,

type Output = TArr<<Vl as Sub<Vr>>::Output, <Al as Sub<Ar>>::Output>

impl<const N: usize> Sub for Simd<f32, N>

where f32: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<f32, N>

impl<const N: usize> Sub for Simd<f64, N>

where f64: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<f64, N>

impl<const N: usize> Sub for Simd<i8, N>

where i8: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<i8, N>

impl<const N: usize> Sub for Simd<i16, N>

where i16: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<i16, N>

impl<const N: usize> Sub for Simd<i32, N>

where i32: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<i32, N>

impl<const N: usize> Sub for Simd<i64, N>

where i64: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<i64, N>

impl<const N: usize> Sub for Simd<isize, N>

where isize: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<isize, N>

impl<const N: usize> Sub for Simd<u8, N>

where u8: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<u8, N>

impl<const N: usize> Sub for Simd<u16, N>

where u16: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<u16, N>

impl<const N: usize> Sub for Simd<u32, N>

where u32: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<u32, N>

impl<const N: usize> Sub for Simd<u64, N>

where u64: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<u64, N>

impl<const N: usize> Sub for Simd<usize, N>

where usize: SimdElement, LaneCount<N>: SupportedLaneCount,

type Output = Simd<usize, N>