1.0.0[−][src]Trait tract_hir::internal::tract_downcast_rs::__std::ops::Div
The division operator /
.
Note that Rhs
is Self
by default, but this is not mandatory.
Examples
Div
idable rational numbers
use std::ops::Div; // By the fundamental theorem of arithmetic, rational numbers in lowest // terms are unique. So, by keeping `Rational`s in reduced form, we can // derive `Eq` and `PartialEq`. #[derive(Debug, Eq, PartialEq)] struct Rational { numerator: usize, denominator: usize, } impl Rational { fn new(numerator: usize, denominator: usize) -> Self { if denominator == 0 { panic!("Zero is an invalid denominator!"); } // Reduce to lowest terms by dividing by the greatest common // divisor. let gcd = gcd(numerator, denominator); Rational { numerator: numerator / gcd, denominator: denominator / gcd, } } } impl Div for Rational { // The division of rational numbers is a closed operation. type Output = Self; fn div(self, rhs: Self) -> Self::Output { if rhs.numerator == 0 { panic!("Cannot divide by zero-valued `Rational`!"); } let numerator = self.numerator * rhs.denominator; let denominator = self.denominator * rhs.numerator; Rational::new(numerator, denominator) } } // Euclid's two-thousand-year-old algorithm for finding the greatest common // divisor. fn gcd(x: usize, y: usize) -> usize { let mut x = x; let mut y = y; while y != 0 { let t = y; y = x % y; x = t; } x } assert_eq!(Rational::new(1, 2), Rational::new(2, 4)); assert_eq!(Rational::new(1, 2) / Rational::new(3, 4), Rational::new(2, 3));
Dividing vectors by scalars as in linear algebra
use std::ops::Div; struct Scalar { value: f32 } #[derive(Debug, PartialEq)] struct Vector { value: Vec<f32> } impl Div<Scalar> for Vector { type Output = Self; fn div(self, rhs: Scalar) -> Self::Output { Vector { value: self.value.iter().map(|v| v / rhs.value).collect() } } } let scalar = Scalar { value: 2f32 }; let vector = Vector { value: vec![2f32, 4f32, 6f32] }; assert_eq!(vector / scalar, Vector { value: vec![1f32, 2f32, 3f32] });
Associated Types
type Output
The resulting type after applying the /
operator.
Required methods
Loading content...Implementations on Foreign Types
impl<'_> Div<&'_ i16> for i16
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impl Div<i64> for i64
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'a> Div<i64> for &'a i64
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impl<'a> Div<u128> for &'a u128
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type Output = <u128 as Div<u128>>::Output
fn div(self, other: u128) -> <u128 as Div<u128>>::Output
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impl<'a> Div<u8> for &'a u8
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impl<'_, '_> Div<&'_ u128> for &'_ u128
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type Output = <u128 as Div<u128>>::Output
fn div(self, other: &u128) -> <u128 as Div<u128>>::Output
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impl<'_> Div<&'_ u8> for u8
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impl<'_, '_> Div<&'_ u16> for &'_ u16
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impl Div<i128> for i128
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'_, '_> Div<&'_ i16> for &'_ i16
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impl<'_> Div<&'_ i32> for i32
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impl Div<u128> for u128
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'a> Div<u32> for &'a u32
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impl Div<f64> for f64
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impl Div<u32> for u32
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'_> Div<&'_ i128> for i128
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type Output = <i128 as Div<i128>>::Output
fn div(self, other: &i128) -> <i128 as Div<i128>>::Output
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impl Div<u64> for u64
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl Div<u16> for u16
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl Div<isize> for isize
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'a> Div<u64> for &'a u64
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impl<'_, '_> Div<&'_ u64> for &'_ u64
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impl<'_, '_> Div<&'_ f32> for &'_ f32
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impl<'_, '_> Div<&'_ i64> for &'_ i64
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impl<'a> Div<isize> for &'a isize
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type Output = <isize as Div<isize>>::Output
fn div(self, other: isize) -> <isize as Div<isize>>::Output
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impl<'_> Div<&'_ f64> for f64
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impl<'_, '_> Div<&'_ u8> for &'_ u8
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impl<'a> Div<i16> for &'a i16
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impl Div<i32> for i32
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'a> Div<i32> for &'a i32
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impl<'_, '_> Div<&'_ i32> for &'_ i32
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impl Div<i8> for i8
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'_> Div<&'_ isize> for isize
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type Output = <isize as Div<isize>>::Output
fn div(self, other: &isize) -> <isize as Div<isize>>::Output
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impl<'_> Div<&'_ u16> for u16
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impl<'_, '_> Div<&'_ i128> for &'_ i128
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type Output = <i128 as Div<i128>>::Output
fn div(self, other: &i128) -> <i128 as Div<i128>>::Output
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impl<'_> Div<&'_ i8> for i8
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impl<'a> Div<f32> for &'a f32
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impl<'_, '_> Div<&'_ f64> for &'_ f64
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impl<'_> Div<&'_ u64> for u64
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impl<'a> Div<usize> for &'a usize
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type Output = <usize as Div<usize>>::Output
fn div(self, other: usize) -> <usize as Div<usize>>::Output
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impl<'_> Div<&'_ usize> for usize
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type Output = <usize as Div<usize>>::Output
fn div(self, other: &usize) -> <usize as Div<usize>>::Output
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impl Div<u8> for u8
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'a> Div<i128> for &'a i128
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type Output = <i128 as Div<i128>>::Output
fn div(self, other: i128) -> <i128 as Div<i128>>::Output
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impl<'_, '_> Div<&'_ u32> for &'_ u32
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impl Div<i16> for i16
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl Div<usize> for usize
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This operation rounds towards zero, truncating any fractional part of the exact result.
impl<'_> Div<&'_ f32> for f32
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impl<'_> Div<&'_ u128> for u128
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type Output = <u128 as Div<u128>>::Output
fn div(self, other: &u128) -> <u128 as Div<u128>>::Output
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impl Div<f32> for f32
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impl<'a> Div<i8> for &'a i8
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impl<'a> Div<f64> for &'a f64
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impl<'_, '_> Div<&'_ i8> for &'_ i8
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impl<'_, '_> Div<&'_ usize> for &'_ usize
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type Output = <usize as Div<usize>>::Output
fn div(self, other: &usize) -> <usize as Div<usize>>::Output
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impl<'a> Div<u16> for &'a u16
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impl<'_> Div<&'_ i64> for i64
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impl<'_> Div<&'_ u32> for u32
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impl<'_, '_> Div<&'_ isize> for &'_ isize
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type Output = <isize as Div<isize>>::Output
fn div(self, other: &isize) -> <isize as Div<isize>>::Output
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impl<'a, S, D> Div<&'a ArrayBase<S, D>> for Complex<f64> where
D: Dimension,
S: Data<Elem = Complex<f64>>,
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D: Dimension,
S: Data<Elem = Complex<f64>>,
type Output = ArrayBase<OwnedRepr<Complex<f64>>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<Complex<f64>>, D>
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impl<S, D> Div<ArrayBase<S, D>> for Complex<f32> where
D: Dimension,
S: DataOwned<Elem = Complex<f32>> + DataMut,
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D: Dimension,
S: DataOwned<Elem = Complex<f32>> + DataMut,
impl<S, D> Div<ArrayBase<S, D>> for i64 where
D: Dimension,
S: DataOwned<Elem = i64> + DataMut,
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D: Dimension,
S: DataOwned<Elem = i64> + DataMut,
impl<'a, S, D> Div<&'a ArrayBase<S, D>> for u128 where
D: Dimension,
S: Data<Elem = u128>,
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D: Dimension,
S: Data<Elem = u128>,
type Output = ArrayBase<OwnedRepr<u128>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<u128>, D>
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impl<S, D> Div<ArrayBase<S, D>> for i128 where
D: Dimension,
S: DataOwned<Elem = i128> + DataMut,
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D: Dimension,
S: DataOwned<Elem = i128> + DataMut,
impl<'a, S, D> Div<&'a ArrayBase<S, D>> for f32 where
D: Dimension,
S: Data<Elem = f32>,
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D: Dimension,
S: Data<Elem = f32>,
type Output = ArrayBase<OwnedRepr<f32>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<f32>, D>
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impl<S, D> Div<ArrayBase<S, D>> for u128 where
D: Dimension,
S: DataOwned<Elem = u128> + DataMut,
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D: Dimension,
S: DataOwned<Elem = u128> + DataMut,
impl<S, D> Div<ArrayBase<S, D>> for f32 where
D: Dimension,
S: DataOwned<Elem = f32> + DataMut,
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D: Dimension,
S: DataOwned<Elem = f32> + DataMut,
impl<S, D> Div<ArrayBase<S, D>> for i16 where
D: Dimension,
S: DataOwned<Elem = i16> + DataMut,
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D: Dimension,
S: DataOwned<Elem = i16> + DataMut,
impl<S, D> Div<ArrayBase<S, D>> for u64 where
D: Dimension,
S: DataOwned<Elem = u64> + DataMut,
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D: Dimension,
S: DataOwned<Elem = u64> + DataMut,
impl<'a, S, D> Div<&'a ArrayBase<S, D>> for u32 where
D: Dimension,
S: Data<Elem = u32>,
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D: Dimension,
S: Data<Elem = u32>,
type Output = ArrayBase<OwnedRepr<u32>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<u32>, D>
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impl<S, D> Div<ArrayBase<S, D>> for u32 where
D: Dimension,
S: DataOwned<Elem = u32> + DataMut,
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D: Dimension,
S: DataOwned<Elem = u32> + DataMut,
impl<'a, S, D> Div<&'a ArrayBase<S, D>> for Complex<f32> where
D: Dimension,
S: Data<Elem = Complex<f32>>,
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D: Dimension,
S: Data<Elem = Complex<f32>>,
type Output = ArrayBase<OwnedRepr<Complex<f32>>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<Complex<f32>>, D>
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impl<S, D> Div<ArrayBase<S, D>> for f64 where
D: Dimension,
S: DataOwned<Elem = f64> + DataMut,
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D: Dimension,
S: DataOwned<Elem = f64> + DataMut,
impl<'a, S, D> Div<&'a ArrayBase<S, D>> for u16 where
D: Dimension,
S: Data<Elem = u16>,
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D: Dimension,
S: Data<Elem = u16>,
type Output = ArrayBase<OwnedRepr<u16>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<u16>, D>
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impl<S, D> Div<ArrayBase<S, D>> for u8 where
D: Dimension,
S: DataOwned<Elem = u8> + DataMut,
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D: Dimension,
S: DataOwned<Elem = u8> + DataMut,
impl<'a, S, D> Div<&'a ArrayBase<S, D>> for i32 where
D: Dimension,
S: Data<Elem = i32>,
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D: Dimension,
S: Data<Elem = i32>,
type Output = ArrayBase<OwnedRepr<i32>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<i32>, D>
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impl<S, D> Div<ArrayBase<S, D>> for u16 where
D: Dimension,
S: DataOwned<Elem = u16> + DataMut,
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D: Dimension,
S: DataOwned<Elem = u16> + DataMut,
impl<'a, S, D> Div<&'a ArrayBase<S, D>> for u8 where
D: Dimension,
S: Data<Elem = u8>,
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D: Dimension,
S: Data<Elem = u8>,
type Output = ArrayBase<OwnedRepr<u8>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<u8>, D>
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impl<S, D> Div<ArrayBase<S, D>> for i8 where
D: Dimension,
S: DataOwned<Elem = i8> + DataMut,
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D: Dimension,
S: DataOwned<Elem = i8> + DataMut,
impl<'a, S, D> Div<&'a ArrayBase<S, D>> for i128 where
D: Dimension,
S: Data<Elem = i128>,
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D: Dimension,
S: Data<Elem = i128>,
type Output = ArrayBase<OwnedRepr<i128>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<i128>, D>
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impl<'a, S, D> Div<&'a ArrayBase<S, D>> for i16 where
D: Dimension,
S: Data<Elem = i16>,
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D: Dimension,
S: Data<Elem = i16>,
type Output = ArrayBase<OwnedRepr<i16>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<i16>, D>
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impl<'a, S, D> Div<&'a ArrayBase<S, D>> for f64 where
D: Dimension,
S: Data<Elem = f64>,
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D: Dimension,
S: Data<Elem = f64>,
type Output = ArrayBase<OwnedRepr<f64>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<f64>, D>
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impl<'a, S, D> Div<&'a ArrayBase<S, D>> for i8 where
D: Dimension,
S: Data<Elem = i8>,
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D: Dimension,
S: Data<Elem = i8>,
type Output = ArrayBase<OwnedRepr<i8>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<i8>, D>
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impl<'a, S, D> Div<&'a ArrayBase<S, D>> for u64 where
D: Dimension,
S: Data<Elem = u64>,
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D: Dimension,
S: Data<Elem = u64>,
type Output = ArrayBase<OwnedRepr<u64>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<u64>, D>
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impl<'a, S, D> Div<&'a ArrayBase<S, D>> for i64 where
D: Dimension,
S: Data<Elem = i64>,
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D: Dimension,
S: Data<Elem = i64>,
type Output = ArrayBase<OwnedRepr<i64>, D>
fn div(self, rhs: &ArrayBase<S, D>) -> ArrayBase<OwnedRepr<i64>, D>
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impl<S, D> Div<ArrayBase<S, D>> for i32 where
D: Dimension,
S: DataOwned<Elem = i32> + DataMut,
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D: Dimension,
S: DataOwned<Elem = i32> + DataMut,
impl<S, D> Div<ArrayBase<S, D>> for Complex<f64> where
D: Dimension,
S: DataOwned<Elem = Complex<f64>> + DataMut,
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D: Dimension,
S: DataOwned<Elem = Complex<f64>> + DataMut,
impl<'a, 'b> Div<&'a Complex<isize>> for &'b isize
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impl<'a> Div<&'a Complex<i32>> for i32
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impl<'a> Div<Complex<usize>> for &'a usize
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impl Div<Complex<i16>> for i16
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type Output = Complex<i16>
fn div(self, other: Complex<i16>) -> <i16 as Div<Complex<i16>>>::Output
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impl Div<Complex<i8>> for i8
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impl<'a> Div<&'a Complex<i8>> for i8
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impl Div<Complex<u16>> for u16
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type Output = Complex<u16>
fn div(self, other: Complex<u16>) -> <u16 as Div<Complex<u16>>>::Output
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impl Div<Complex<u64>> for u64
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type Output = Complex<u64>
fn div(self, other: Complex<u64>) -> <u64 as Div<Complex<u64>>>::Output
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impl<'a> Div<&'a Complex<u16>> for u16
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impl<'a> Div<&'a Complex<u32>> for u32
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impl Div<Complex<u32>> for u32
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type Output = Complex<u32>
fn div(self, other: Complex<u32>) -> <u32 as Div<Complex<u32>>>::Output
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impl<'a> Div<&'a Complex<u8>> for u8
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impl<'a, T> Div<&'a T> for Complex<T> where
T: Clone + Num,
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T: Clone + Num,
impl<'a> Div<&'a Complex<u128>> for u128
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impl Div<Complex<f32>> for f32
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type Output = Complex<f32>
fn div(self, other: Complex<f32>) -> <f32 as Div<Complex<f32>>>::Output
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impl<'a> Div<Complex<isize>> for &'a isize
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impl<'a, 'b> Div<&'a Complex<i16>> for &'b i16
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impl<'a> Div<Complex<i16>> for &'a i16
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impl<'a, 'b> Div<&'a Complex<i64>> for &'b i64
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impl<'a> Div<Complex<u64>> for &'a u64
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impl<'a> Div<&'a Complex<u64>> for u64
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impl<'a, 'b> Div<&'a Complex<u16>> for &'b u16
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impl<'a, 'b> Div<&'a Complex<usize>> for &'b usize
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impl<'a> Div<&'a Complex<usize>> for usize
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impl<'a, 'b, T> Div<&'b Complex<T>> for &'a Complex<T> where
T: Clone + Num,
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T: Clone + Num,
type Output = Complex<T>
fn div(
self,
other: &Complex<T>
) -> <&'a Complex<T> as Div<&'b Complex<T>>>::Output
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self,
other: &Complex<T>
) -> <&'a Complex<T> as Div<&'b Complex<T>>>::Output
impl<'a> Div<&'a Complex<f32>> for f32
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impl<'a> Div<Complex<u16>> for &'a u16
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impl<'a, 'b> Div<&'a Complex<u32>> for &'b u32
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impl Div<Complex<f64>> for f64
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type Output = Complex<f64>
fn div(self, other: Complex<f64>) -> <f64 as Div<Complex<f64>>>::Output
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impl<'a> Div<Complex<i32>> for &'a i32
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impl<'a, 'b, T> Div<&'a T> for &'b Complex<T> where
T: Clone + Num,
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T: Clone + Num,
impl<'a> Div<Complex<f64>> for &'a f64
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impl Div<Complex<isize>> for isize
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type Output = Complex<isize>
fn div(self, other: Complex<isize>) -> <isize as Div<Complex<isize>>>::Output
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impl<'a, T> Div<&'a Complex<T>> for Complex<T> where
T: Clone + Num,
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T: Clone + Num,
type Output = Complex<T>
fn div(self, other: &Complex<T>) -> <Complex<T> as Div<&'a Complex<T>>>::Output
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impl<'a> Div<&'a Complex<i128>> for i128
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impl<'a, 'b> Div<&'a Complex<i8>> for &'b i8
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impl<'a> Div<Complex<i128>> for &'a i128
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impl<'a> Div<&'a Complex<i64>> for i64
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impl<'a, 'b> Div<&'a Complex<u8>> for &'b u8
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impl Div<Complex<i64>> for i64
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type Output = Complex<i64>
fn div(self, other: Complex<i64>) -> <i64 as Div<Complex<i64>>>::Output
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impl<'a, 'b> Div<&'a Complex<u64>> for &'b u64
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impl<'a> Div<&'a Complex<f64>> for f64
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impl<'a, 'b> Div<&'a Complex<f64>> for &'b f64
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impl Div<Complex<usize>> for usize
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type Output = Complex<usize>
fn div(self, other: Complex<usize>) -> <usize as Div<Complex<usize>>>::Output
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impl<'a> Div<Complex<i8>> for &'a i8
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impl Div<Complex<i128>> for i128
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type Output = Complex<i128>
fn div(self, other: Complex<i128>) -> <i128 as Div<Complex<i128>>>::Output
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impl Div<Complex<u8>> for u8
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impl<'a, 'b> Div<&'a Complex<f32>> for &'b f32
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impl<'a> Div<&'a Complex<i16>> for i16
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impl<'a> Div<Complex<u8>> for &'a u8
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impl<'a, T> Div<Complex<T>> for &'a Complex<T> where
T: Clone + Num,
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T: Clone + Num,
type Output = Complex<T>
fn div(self, other: Complex<T>) -> <&'a Complex<T> as Div<Complex<T>>>::Output
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impl<'a, 'b> Div<&'a Complex<i128>> for &'b i128
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impl<'a> Div<Complex<u128>> for &'a u128
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impl<'a, T> Div<T> for &'a Complex<T> where
T: Clone + Num,
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T: Clone + Num,
impl<T> Div<Complex<T>> for Complex<T> where
T: Clone + Num,
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T: Clone + Num,
type Output = Complex<T>
fn div(self, other: Complex<T>) -> <Complex<T> as Div<Complex<T>>>::Output
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impl<'a> Div<&'a Complex<isize>> for isize
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impl Div<Complex<i32>> for i32
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type Output = Complex<i32>
fn div(self, other: Complex<i32>) -> <i32 as Div<Complex<i32>>>::Output
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impl<'a> Div<Complex<u32>> for &'a u32
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impl Div<Complex<u128>> for u128
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type Output = Complex<u128>
fn div(self, other: Complex<u128>) -> <u128 as Div<Complex<u128>>>::Output
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impl<'a> Div<Complex<f32>> for &'a f32
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impl<T> Div<T> for Complex<T> where
T: Clone + Num,
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T: Clone + Num,
impl<'a, 'b> Div<&'a Complex<i32>> for &'b i32
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impl<'a, 'b> Div<&'a Complex<u128>> for &'b u128
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impl<'a> Div<Complex<i64>> for &'a i64
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Implementors
impl Div<u32> for Duration
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impl Div<Wrapping<i8>> for Wrapping<i8>
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impl Div<Wrapping<i16>> for Wrapping<i16>
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impl Div<Wrapping<i32>> for Wrapping<i32>
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impl Div<Wrapping<i64>> for Wrapping<i64>
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impl Div<Wrapping<i128>> for Wrapping<i128>
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impl Div<Wrapping<isize>> for Wrapping<isize>
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impl Div<Wrapping<u8>> for Wrapping<u8>
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impl Div<Wrapping<u16>> for Wrapping<u16>
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impl Div<Wrapping<u32>> for Wrapping<u32>
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impl Div<Wrapping<u64>> for Wrapping<u64>
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impl Div<Wrapping<u128>> for Wrapping<u128>
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impl Div<Wrapping<usize>> for Wrapping<usize>
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impl Div<f16> for f16
impl<'_> Div<&'_ Wrapping<i8>> for Wrapping<i8>
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type Output = <Wrapping<i8> as Div<Wrapping<i8>>>::Output
fn div(
self,
other: &Wrapping<i8>
) -> <Wrapping<i8> as Div<Wrapping<i8>>>::Output
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self,
other: &Wrapping<i8>
) -> <Wrapping<i8> as Div<Wrapping<i8>>>::Output
impl<'_> Div<&'_ Wrapping<i16>> for Wrapping<i16>
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type Output = <Wrapping<i16> as Div<Wrapping<i16>>>::Output
fn div(
self,
other: &Wrapping<i16>
) -> <Wrapping<i16> as Div<Wrapping<i16>>>::Output
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self,
other: &Wrapping<i16>
) -> <Wrapping<i16> as Div<Wrapping<i16>>>::Output
impl<'_> Div<&'_ Wrapping<i32>> for Wrapping<i32>
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type Output = <Wrapping<i32> as Div<Wrapping<i32>>>::Output
fn div(
self,
other: &Wrapping<i32>
) -> <Wrapping<i32> as Div<Wrapping<i32>>>::Output
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self,
other: &Wrapping<i32>
) -> <Wrapping<i32> as Div<Wrapping<i32>>>::Output
impl<'_> Div<&'_ Wrapping<i64>> for Wrapping<i64>
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type Output = <Wrapping<i64> as Div<Wrapping<i64>>>::Output
fn div(
self,
other: &Wrapping<i64>
) -> <Wrapping<i64> as Div<Wrapping<i64>>>::Output
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self,
other: &Wrapping<i64>
) -> <Wrapping<i64> as Div<Wrapping<i64>>>::Output
impl<'_> Div<&'_ Wrapping<i128>> for Wrapping<i128>
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type Output = <Wrapping<i128> as Div<Wrapping<i128>>>::Output
fn div(
self,
other: &Wrapping<i128>
) -> <Wrapping<i128> as Div<Wrapping<i128>>>::Output
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self,
other: &Wrapping<i128>
) -> <Wrapping<i128> as Div<Wrapping<i128>>>::Output
impl<'_> Div<&'_ Wrapping<isize>> for Wrapping<isize>
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type Output = <Wrapping<isize> as Div<Wrapping<isize>>>::Output
fn div(
self,
other: &Wrapping<isize>
) -> <Wrapping<isize> as Div<Wrapping<isize>>>::Output
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self,
other: &Wrapping<isize>
) -> <Wrapping<isize> as Div<Wrapping<isize>>>::Output
impl<'_> Div<&'_ Wrapping<u8>> for Wrapping<u8>
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type Output = <Wrapping<u8> as Div<Wrapping<u8>>>::Output
fn div(
self,
other: &Wrapping<u8>
) -> <Wrapping<u8> as Div<Wrapping<u8>>>::Output
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self,
other: &Wrapping<u8>
) -> <Wrapping<u8> as Div<Wrapping<u8>>>::Output
impl<'_> Div<&'_ Wrapping<u16>> for Wrapping<u16>
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type Output = <Wrapping<u16> as Div<Wrapping<u16>>>::Output
fn div(
self,
other: &Wrapping<u16>
) -> <Wrapping<u16> as Div<Wrapping<u16>>>::Output
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self,
other: &Wrapping<u16>
) -> <Wrapping<u16> as Div<Wrapping<u16>>>::Output
impl<'_> Div<&'_ Wrapping<u32>> for Wrapping<u32>
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type Output = <Wrapping<u32> as Div<Wrapping<u32>>>::Output
fn div(
self,
other: &Wrapping<u32>
) -> <Wrapping<u32> as Div<Wrapping<u32>>>::Output
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self,
other: &Wrapping<u32>
) -> <Wrapping<u32> as Div<Wrapping<u32>>>::Output
impl<'_> Div<&'_ Wrapping<u64>> for Wrapping<u64>
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type Output = <Wrapping<u64> as Div<Wrapping<u64>>>::Output
fn div(
self,
other: &Wrapping<u64>
) -> <Wrapping<u64> as Div<Wrapping<u64>>>::Output
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self,
other: &Wrapping<u64>
) -> <Wrapping<u64> as Div<Wrapping<u64>>>::Output
impl<'_> Div<&'_ Wrapping<u128>> for Wrapping<u128>
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type Output = <Wrapping<u128> as Div<Wrapping<u128>>>::Output
fn div(
self,
other: &Wrapping<u128>
) -> <Wrapping<u128> as Div<Wrapping<u128>>>::Output
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self,
other: &Wrapping<u128>
) -> <Wrapping<u128> as Div<Wrapping<u128>>>::Output
impl<'_> Div<&'_ Wrapping<usize>> for Wrapping<usize>
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type Output = <Wrapping<usize> as Div<Wrapping<usize>>>::Output
fn div(
self,
other: &Wrapping<usize>
) -> <Wrapping<usize> as Div<Wrapping<usize>>>::Output
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self,
other: &Wrapping<usize>
) -> <Wrapping<usize> as Div<Wrapping<usize>>>::Output
impl<'_> Div<&'_ f16> for f16
impl<'_, '_> Div<&'_ Wrapping<i8>> for &'_ Wrapping<i8>
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type Output = <Wrapping<i8> as Div<Wrapping<i8>>>::Output
fn div(
self,
other: &Wrapping<i8>
) -> <Wrapping<i8> as Div<Wrapping<i8>>>::Output
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self,
other: &Wrapping<i8>
) -> <Wrapping<i8> as Div<Wrapping<i8>>>::Output
impl<'_, '_> Div<&'_ Wrapping<i16>> for &'_ Wrapping<i16>
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type Output = <Wrapping<i16> as Div<Wrapping<i16>>>::Output
fn div(
self,
other: &Wrapping<i16>
) -> <Wrapping<i16> as Div<Wrapping<i16>>>::Output
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self,
other: &Wrapping<i16>
) -> <Wrapping<i16> as Div<Wrapping<i16>>>::Output
impl<'_, '_> Div<&'_ Wrapping<i32>> for &'_ Wrapping<i32>
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type Output = <Wrapping<i32> as Div<Wrapping<i32>>>::Output
fn div(
self,
other: &Wrapping<i32>
) -> <Wrapping<i32> as Div<Wrapping<i32>>>::Output
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self,
other: &Wrapping<i32>
) -> <Wrapping<i32> as Div<Wrapping<i32>>>::Output
impl<'_, '_> Div<&'_ Wrapping<i64>> for &'_ Wrapping<i64>
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type Output = <Wrapping<i64> as Div<Wrapping<i64>>>::Output
fn div(
self,
other: &Wrapping<i64>
) -> <Wrapping<i64> as Div<Wrapping<i64>>>::Output
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self,
other: &Wrapping<i64>
) -> <Wrapping<i64> as Div<Wrapping<i64>>>::Output
impl<'_, '_> Div<&'_ Wrapping<i128>> for &'_ Wrapping<i128>
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type Output = <Wrapping<i128> as Div<Wrapping<i128>>>::Output
fn div(
self,
other: &Wrapping<i128>
) -> <Wrapping<i128> as Div<Wrapping<i128>>>::Output
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self,
other: &Wrapping<i128>
) -> <Wrapping<i128> as Div<Wrapping<i128>>>::Output
impl<'_, '_> Div<&'_ Wrapping<isize>> for &'_ Wrapping<isize>
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type Output = <Wrapping<isize> as Div<Wrapping<isize>>>::Output
fn div(
self,
other: &Wrapping<isize>
) -> <Wrapping<isize> as Div<Wrapping<isize>>>::Output
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self,
other: &Wrapping<isize>
) -> <Wrapping<isize> as Div<Wrapping<isize>>>::Output
impl<'_, '_> Div<&'_ Wrapping<u8>> for &'_ Wrapping<u8>
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type Output = <Wrapping<u8> as Div<Wrapping<u8>>>::Output
fn div(
self,
other: &Wrapping<u8>
) -> <Wrapping<u8> as Div<Wrapping<u8>>>::Output
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self,
other: &Wrapping<u8>
) -> <Wrapping<u8> as Div<Wrapping<u8>>>::Output
impl<'_, '_> Div<&'_ Wrapping<u16>> for &'_ Wrapping<u16>
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type Output = <Wrapping<u16> as Div<Wrapping<u16>>>::Output
fn div(
self,
other: &Wrapping<u16>
) -> <Wrapping<u16> as Div<Wrapping<u16>>>::Output
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self,
other: &Wrapping<u16>
) -> <Wrapping<u16> as Div<Wrapping<u16>>>::Output
impl<'_, '_> Div<&'_ Wrapping<u32>> for &'_ Wrapping<u32>
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type Output = <Wrapping<u32> as Div<Wrapping<u32>>>::Output
fn div(
self,
other: &Wrapping<u32>
) -> <Wrapping<u32> as Div<Wrapping<u32>>>::Output
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self,
other: &Wrapping<u32>
) -> <Wrapping<u32> as Div<Wrapping<u32>>>::Output
impl<'_, '_> Div<&'_ Wrapping<u64>> for &'_ Wrapping<u64>
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type Output = <Wrapping<u64> as Div<Wrapping<u64>>>::Output
fn div(
self,
other: &Wrapping<u64>
) -> <Wrapping<u64> as Div<Wrapping<u64>>>::Output
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self,
other: &Wrapping<u64>
) -> <Wrapping<u64> as Div<Wrapping<u64>>>::Output
impl<'_, '_> Div<&'_ Wrapping<u128>> for &'_ Wrapping<u128>
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type Output = <Wrapping<u128> as Div<Wrapping<u128>>>::Output
fn div(
self,
other: &Wrapping<u128>
) -> <Wrapping<u128> as Div<Wrapping<u128>>>::Output
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self,
other: &Wrapping<u128>
) -> <Wrapping<u128> as Div<Wrapping<u128>>>::Output
impl<'_, '_> Div<&'_ Wrapping<usize>> for &'_ Wrapping<usize>
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type Output = <Wrapping<usize> as Div<Wrapping<usize>>>::Output
fn div(
self,
other: &Wrapping<usize>
) -> <Wrapping<usize> as Div<Wrapping<usize>>>::Output
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self,
other: &Wrapping<usize>
) -> <Wrapping<usize> as Div<Wrapping<usize>>>::Output
impl<'a> Div<Wrapping<i8>> for &'a Wrapping<i8>
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type Output = <Wrapping<i8> as Div<Wrapping<i8>>>::Output
fn div(self, other: Wrapping<i8>) -> <Wrapping<i8> as Div<Wrapping<i8>>>::Output
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impl<'a> Div<Wrapping<i16>> for &'a Wrapping<i16>
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type Output = <Wrapping<i16> as Div<Wrapping<i16>>>::Output
fn div(
self,
other: Wrapping<i16>
) -> <Wrapping<i16> as Div<Wrapping<i16>>>::Output
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self,
other: Wrapping<i16>
) -> <Wrapping<i16> as Div<Wrapping<i16>>>::Output
impl<'a> Div<Wrapping<i32>> for &'a Wrapping<i32>
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type Output = <Wrapping<i32> as Div<Wrapping<i32>>>::Output
fn div(
self,
other: Wrapping<i32>
) -> <Wrapping<i32> as Div<Wrapping<i32>>>::Output
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self,
other: Wrapping<i32>
) -> <Wrapping<i32> as Div<Wrapping<i32>>>::Output
impl<'a> Div<Wrapping<i64>> for &'a Wrapping<i64>
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type Output = <Wrapping<i64> as Div<Wrapping<i64>>>::Output
fn div(
self,
other: Wrapping<i64>
) -> <Wrapping<i64> as Div<Wrapping<i64>>>::Output
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self,
other: Wrapping<i64>
) -> <Wrapping<i64> as Div<Wrapping<i64>>>::Output
impl<'a> Div<Wrapping<i128>> for &'a Wrapping<i128>
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type Output = <Wrapping<i128> as Div<Wrapping<i128>>>::Output
fn div(
self,
other: Wrapping<i128>
) -> <Wrapping<i128> as Div<Wrapping<i128>>>::Output
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self,
other: Wrapping<i128>
) -> <Wrapping<i128> as Div<Wrapping<i128>>>::Output
impl<'a> Div<Wrapping<isize>> for &'a Wrapping<isize>
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type Output = <Wrapping<isize> as Div<Wrapping<isize>>>::Output
fn div(
self,
other: Wrapping<isize>
) -> <Wrapping<isize> as Div<Wrapping<isize>>>::Output
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self,
other: Wrapping<isize>
) -> <Wrapping<isize> as Div<Wrapping<isize>>>::Output
impl<'a> Div<Wrapping<u8>> for &'a Wrapping<u8>
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type Output = <Wrapping<u8> as Div<Wrapping<u8>>>::Output
fn div(self, other: Wrapping<u8>) -> <Wrapping<u8> as Div<Wrapping<u8>>>::Output
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impl<'a> Div<Wrapping<u16>> for &'a Wrapping<u16>
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type Output = <Wrapping<u16> as Div<Wrapping<u16>>>::Output
fn div(
self,
other: Wrapping<u16>
) -> <Wrapping<u16> as Div<Wrapping<u16>>>::Output
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self,
other: Wrapping<u16>
) -> <Wrapping<u16> as Div<Wrapping<u16>>>::Output
impl<'a> Div<Wrapping<u32>> for &'a Wrapping<u32>
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type Output = <Wrapping<u32> as Div<Wrapping<u32>>>::Output
fn div(
self,
other: Wrapping<u32>
) -> <Wrapping<u32> as Div<Wrapping<u32>>>::Output
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self,
other: Wrapping<u32>
) -> <Wrapping<u32> as Div<Wrapping<u32>>>::Output
impl<'a> Div<Wrapping<u64>> for &'a Wrapping<u64>
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type Output = <Wrapping<u64> as Div<Wrapping<u64>>>::Output
fn div(
self,
other: Wrapping<u64>
) -> <Wrapping<u64> as Div<Wrapping<u64>>>::Output
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self,
other: Wrapping<u64>
) -> <Wrapping<u64> as Div<Wrapping<u64>>>::Output
impl<'a> Div<Wrapping<u128>> for &'a Wrapping<u128>
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type Output = <Wrapping<u128> as Div<Wrapping<u128>>>::Output
fn div(
self,
other: Wrapping<u128>
) -> <Wrapping<u128> as Div<Wrapping<u128>>>::Output
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self,
other: Wrapping<u128>
) -> <Wrapping<u128> as Div<Wrapping<u128>>>::Output
impl<'a> Div<Wrapping<usize>> for &'a Wrapping<usize>
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type Output = <Wrapping<usize> as Div<Wrapping<usize>>>::Output
fn div(
self,
other: Wrapping<usize>
) -> <Wrapping<usize> as Div<Wrapping<usize>>>::Output
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self,
other: Wrapping<usize>
) -> <Wrapping<usize> as Div<Wrapping<usize>>>::Output
impl<'a, A, B, S, S2, D, E> Div<&'a ArrayBase<S2, E>> for &'a ArrayBase<S, D> where
A: Clone + Div<B, Output = A>,
B: Clone,
D: Dimension,
E: Dimension,
S: Data<Elem = A>,
S2: Data<Elem = B>,
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A: Clone + Div<B, Output = A>,
B: Clone,
D: Dimension,
E: Dimension,
S: Data<Elem = A>,
S2: Data<Elem = B>,
Perform elementwise
division
between references self
and rhs
,
and return the result as a new Array
.
If their shapes disagree, rhs
is broadcast to the shape of self
.
Panics if broadcasting isn’t possible.
type Output = ArrayBase<OwnedRepr<A>, D>
fn div(self, rhs: &'a ArrayBase<S2, E>) -> ArrayBase<OwnedRepr<A>, D>
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impl<'a, A, B, S, S2, D, E> Div<&'a ArrayBase<S2, E>> for ArrayBase<S, D> where
A: Clone + Div<B, Output = A>,
B: Clone,
D: Dimension,
E: Dimension,
S: DataOwned<Elem = A> + DataMut,
S2: Data<Elem = B>,
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A: Clone + Div<B, Output = A>,
B: Clone,
D: Dimension,
E: Dimension,
S: DataOwned<Elem = A> + DataMut,
S2: Data<Elem = B>,
Perform elementwise
division
between self
and reference rhs
,
and return the result (based on self
).
If their shapes disagree, rhs
is broadcast to the shape of self
.
Panics if broadcasting isn’t possible.
impl<'a, A, S, D, B> Div<B> for &'a ArrayBase<S, D> where
A: Clone + Div<B, Output = A>,
B: ScalarOperand,
D: Dimension,
S: Data<Elem = A>,
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A: Clone + Div<B, Output = A>,
B: ScalarOperand,
D: Dimension,
S: Data<Elem = A>,
Perform elementwise
division
between the reference self
and the scalar x
,
and return the result as a new Array
.
impl<A, B, S, S2, D, E> Div<ArrayBase<S2, E>> for ArrayBase<S, D> where
A: Clone + Div<B, Output = A>,
B: Clone,
D: Dimension,
E: Dimension,
S: DataOwned<Elem = A> + DataMut,
S2: Data<Elem = B>,
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A: Clone + Div<B, Output = A>,
B: Clone,
D: Dimension,
E: Dimension,
S: DataOwned<Elem = A> + DataMut,
S2: Data<Elem = B>,
Perform elementwise
division
between self
and rhs
,
and return the result (based on self
).
self
must be an Array
or ArcArray
.
If their shapes disagree, rhs
is broadcast to the shape of self
.
Panics if broadcasting isn’t possible.
impl<A, S, D, B> Div<B> for ArrayBase<S, D> where
A: Clone + Div<B, Output = A>,
B: ScalarOperand,
D: Dimension,
S: DataOwned<Elem = A> + DataMut,
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A: Clone + Div<B, Output = A>,
B: ScalarOperand,
D: Dimension,
S: DataOwned<Elem = A> + DataMut,
Perform elementwise
division
between self
and the scalar x
,
and return the result (based on self
).
self
must be an Array
or ArcArray
.
impl<I> Div<I> for TDim where
I: AsPrimitive<u32>,
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I: AsPrimitive<u32>,
impl<T, R> Div<R> for GenericFactoid<T> where
T: Div<R, Output = T> + PartialEq + Clone + Debug + Hash,
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T: Div<R, Output = T> + PartialEq + Clone + Debug + Hash,