# Struct core::simd::f32x4 [−][src]

#[repr(simd)]pub struct f32x4(_, _, _, _);

A 128-bit vector with 4 `f32`

lanes.

## Methods

`impl f32x4`

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`impl f32x4`

`pub const fn new(x0: f32, x1: f32, x2: f32, x3: f32) -> Self`

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`pub const fn new(x0: f32, x1: f32, x2: f32, x3: f32) -> Self`

Creates a new instance with each vector elements initialized with the provided values.

`pub const fn lanes() -> usize`

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`pub const fn lanes() -> usize`

Returns the number of vector lanes.

`pub const fn splat(value: f32) -> Self`

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`pub const fn splat(value: f32) -> Self`

Constructs a new instance with each element initialized to
`value`

.

`pub fn extract(self, index: usize) -> f32`

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`pub fn extract(self, index: usize) -> f32`

`pub unsafe fn extract_unchecked(self, index: usize) -> f32`

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`pub unsafe fn extract_unchecked(self, index: usize) -> f32`

```
#[must_use = "replace does not modify the original value - it returns a new vector with the value at `index` replaced by `new_value`d"]
pub fn replace(self, index: usize, new_value: f32) -> Self
```

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```
#[must_use = "replace does not modify the original value - it returns a new vector with the value at `index` replaced by `new_value`d"]
pub fn replace(self, index: usize, new_value: f32) -> Self
```

Returns a new vector where the value at `index`

is replaced by `new_value`

.

# Panics

If `index >= Self::lanes()`

.

```
#[must_use = "replace_unchecked does not modify the original value - it returns a new vector with the value at `index` replaced by `new_value`d"]
pub unsafe fn replace_unchecked(self, index: usize, new_value: f32) -> Self
```

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```
#[must_use = "replace_unchecked does not modify the original value - it returns a new vector with the value at `index` replaced by `new_value`d"]
pub unsafe fn replace_unchecked(self, index: usize, new_value: f32) -> Self
```

Returns a new vector where the value at `index`

is replaced by `new_value`

.

# Precondition

If `index >= Self::lanes()`

the behavior is undefined.

`impl f32x4`

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`impl f32x4`

`pub fn store_aligned(self, slice: &mut [f32])`

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`pub fn store_aligned(self, slice: &mut [f32])`

Writes the values of the vector to the `slice`

.

# Panics

If `slice.len() < Self::lanes()`

or `&slice[0]`

is not
aligned to an `align_of::<Self>()`

boundary.

`pub fn store_unaligned(self, slice: &mut [f32])`

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`pub fn store_unaligned(self, slice: &mut [f32])`

`pub unsafe fn store_aligned_unchecked(self, slice: &mut [f32])`

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`pub unsafe fn store_aligned_unchecked(self, slice: &mut [f32])`

Writes the values of the vector to the `slice`

.

# Precondition

If `slice.len() < Self::lanes()`

or `&slice[0]`

is not
aligned to an `align_of::<Self>()`

boundary, the behavior is
undefined.

`pub unsafe fn store_unaligned_unchecked(self, slice: &mut [f32])`

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`pub unsafe fn store_unaligned_unchecked(self, slice: &mut [f32])`

Writes the values of the vector to the `slice`

.

# Precondition

If `slice.len() < Self::lanes()`

the behavior is undefined.

`pub fn load_aligned(slice: &[f32]) -> Self`

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`pub fn load_aligned(slice: &[f32]) -> Self`

Instantiates a new vector with the values of the `slice`

.

# Panics

If `slice.len() < Self::lanes()`

or `&slice[0]`

is not aligned
to an `align_of::<Self>()`

boundary.

`pub fn load_unaligned(slice: &[f32]) -> Self`

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`pub fn load_unaligned(slice: &[f32]) -> Self`

`pub unsafe fn load_aligned_unchecked(slice: &[f32]) -> Self`

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`pub unsafe fn load_aligned_unchecked(slice: &[f32]) -> Self`

Instantiates a new vector with the values of the `slice`

.

# Precondition

If `slice.len() < Self::lanes()`

or `&slice[0]`

is not aligned
to an `align_of::<Self>()`

boundary, the behavior is undefined.

`pub unsafe fn load_unaligned_unchecked(slice: &[f32]) -> Self`

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`pub unsafe fn load_unaligned_unchecked(slice: &[f32]) -> Self`

Instantiates a new vector with the values of the `slice`

.

# Precondition

If `slice.len() < Self::lanes()`

the behavior is undefined.

`impl f32x4`

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`impl f32x4`

`pub fn eq(self, other: f32x4) -> m32x4`

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`pub fn eq(self, other: f32x4) -> m32x4`

Lane-wise equality comparison.

`pub fn ne(self, other: f32x4) -> m32x4`

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`pub fn ne(self, other: f32x4) -> m32x4`

Lane-wise inequality comparison.

`pub fn lt(self, other: f32x4) -> m32x4`

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`pub fn lt(self, other: f32x4) -> m32x4`

Lane-wise less-than comparison.

`pub fn le(self, other: f32x4) -> m32x4`

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`pub fn le(self, other: f32x4) -> m32x4`

Lane-wise less-than-or-equals comparison.

`pub fn gt(self, other: f32x4) -> m32x4`

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`pub fn gt(self, other: f32x4) -> m32x4`

Lane-wise greater-than comparison.

`pub fn ge(self, other: f32x4) -> m32x4`

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`pub fn ge(self, other: f32x4) -> m32x4`

Lane-wise greater-than-or-equals comparison.

`impl f32x4`

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`impl f32x4`

`pub fn sum(self) -> f32`

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`pub fn sum(self) -> f32`

Horizontal sum of the vector elements.

The intrinsic performs a tree-reduction of the vector elements. That is, for an 8 element vector:

((x0 + x1) + (x2 + x3)) + ((x4 + x5) + (x6 + x7))

If one of the vector element is `NaN`

the reduction returns
`NaN`

. The resulting `NaN`

is not required to be equal to any
of the `NaN`

s in the vector.

`pub fn product(self) -> f32`

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`pub fn product(self) -> f32`

Horizontal product of the vector elements.

The intrinsic performs a tree-reduction of the vector elements. That is, for an 8 element vector:

((x0 * x1) * (x2 * x3)) * ((x4 * x5) * (x6 * x7))

If one of the vector element is `NaN`

the reduction returns
`NaN`

. The resulting `NaN`

is not required to be equal to any
of the `NaN`

s in the vector.

`impl f32x4`

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`impl f32x4`

`pub fn max_element(self) -> f32`

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`pub fn max_element(self) -> f32`

Largest vector element value.

`pub fn min_element(self) -> f32`

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`pub fn min_element(self) -> f32`

Smallest vector element value.

`impl f32x4`

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`impl f32x4`

`pub fn min(self, x: Self) -> Self`

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`pub fn min(self, x: Self) -> Self`

Minimum of two vectors.

Returns a new vector containing the minimum value of each of the
input vector lanes. The lane-wise semantics are the same as that
of `min`

for the primitive floating-point types.

`pub fn max(self, x: Self) -> Self`

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`pub fn max(self, x: Self) -> Self`

Maximum of two vectors.

Returns a new vector containing the maximum value of each of the
input vector lanes. The lane-wise semantics are the same as that
of `max`

for the primitive floating-point types.

`impl f32x4`

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`impl f32x4`

`pub fn abs(self) -> Self`

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`pub fn abs(self) -> Self`

Absolute-value

`pub fn sqrt(self) -> Self`

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`pub fn sqrt(self) -> Self`

Square-root

`pub fn sqrte(self) -> Self`

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`pub fn sqrte(self) -> Self`

Square-root estimate

`pub fn rsqrte(self) -> Self`

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`pub fn rsqrte(self) -> Self`

Reciprocal square-root estimate

`pub fn fma(self, y: Self, z: Self) -> Self`

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`pub fn fma(self, y: Self, z: Self) -> Self`

Fused multiply add: `self * y + z`

`pub fn sin(self) -> Self`

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`pub fn sin(self) -> Self`

Sin

`pub fn cos(self) -> Self`

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`pub fn cos(self) -> Self`

Cos

## Trait Implementations

`impl Copy for f32x4`

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`impl Copy for f32x4`

`impl Clone for f32x4`

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`impl Clone for f32x4`

`fn clone(&self) -> f32x4`

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`fn clone(&self) -> f32x4`

Returns a copy of the value. Read more

`fn clone_from(&mut self, source: &Self)`

1.0.0[src]

`fn clone_from(&mut self, source: &Self)`

Performs copy-assignment from `source`

. Read more

`impl Debug for f32x4`

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`impl Debug for f32x4`

`fn fmt(&self, f: &mut Formatter) -> Result`

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`fn fmt(&self, f: &mut Formatter) -> Result`

Formats the value using the given formatter. Read more

`impl PartialOrd for f32x4`

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`impl PartialOrd for f32x4`

`fn partial_cmp(&self, other: &f32x4) -> Option<Ordering>`

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`fn partial_cmp(&self, other: &f32x4) -> Option<Ordering>`

This method returns an ordering between `self`

and `other`

values if one exists. Read more

`fn lt(&self, other: &f32x4) -> bool`

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`fn lt(&self, other: &f32x4) -> bool`

This method tests less than (for `self`

and `other`

) and is used by the `<`

operator. Read more

`fn le(&self, other: &f32x4) -> bool`

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`fn le(&self, other: &f32x4) -> bool`

This method tests less than or equal to (for `self`

and `other`

) and is used by the `<=`

operator. Read more

`fn gt(&self, other: &f32x4) -> bool`

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`fn gt(&self, other: &f32x4) -> bool`

This method tests greater than (for `self`

and `other`

) and is used by the `>`

operator. Read more

`fn ge(&self, other: &f32x4) -> bool`

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`fn ge(&self, other: &f32x4) -> bool`

This method tests greater than or equal to (for `self`

and `other`

) and is used by the `>=`

operator. Read more

`impl Add for f32x4`

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`impl Add for f32x4`

`type Output = Self`

The resulting type after applying the `+`

operator.

`fn add(self, other: Self) -> Self`

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`fn add(self, other: Self) -> Self`

Performs the `+`

operation.

`impl Sub for f32x4`

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`impl Sub for f32x4`

`type Output = Self`

The resulting type after applying the `-`

operator.

`fn sub(self, other: Self) -> Self`

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`fn sub(self, other: Self) -> Self`

Performs the `-`

operation.

`impl Mul for f32x4`

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`impl Mul for f32x4`

`type Output = Self`

The resulting type after applying the `*`

operator.

`fn mul(self, other: Self) -> Self`

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`fn mul(self, other: Self) -> Self`

Performs the `*`

operation.

`impl Div for f32x4`

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`impl Div for f32x4`

`type Output = Self`

The resulting type after applying the `/`

operator.

`fn div(self, other: Self) -> Self`

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`fn div(self, other: Self) -> Self`

Performs the `/`

operation.

`impl Rem for f32x4`

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`impl Rem for f32x4`

`type Output = Self`

The resulting type after applying the `%`

operator.

`fn rem(self, other: Self) -> Self`

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`fn rem(self, other: Self) -> Self`

Performs the `%`

operation.

`impl AddAssign for f32x4`

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`impl AddAssign for f32x4`

`fn add_assign(&mut self, other: Self)`

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`fn add_assign(&mut self, other: Self)`

Performs the `+=`

operation.

`impl SubAssign for f32x4`

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`impl SubAssign for f32x4`

`fn sub_assign(&mut self, other: Self)`

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`fn sub_assign(&mut self, other: Self)`

Performs the `-=`

operation.

`impl MulAssign for f32x4`

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`impl MulAssign for f32x4`

`fn mul_assign(&mut self, other: Self)`

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`fn mul_assign(&mut self, other: Self)`

Performs the `*=`

operation.

`impl DivAssign for f32x4`

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`impl DivAssign for f32x4`

`fn div_assign(&mut self, other: Self)`

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`fn div_assign(&mut self, other: Self)`

Performs the `/=`

operation.

`impl RemAssign for f32x4`

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`impl RemAssign for f32x4`

`fn rem_assign(&mut self, other: Self)`

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`fn rem_assign(&mut self, other: Self)`

Performs the `%=`

operation.

`impl Add<f32> for f32x4`

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`impl Add<f32> for f32x4`

`type Output = Self`

The resulting type after applying the `+`

operator.

`fn add(self, other: f32) -> Self`

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`fn add(self, other: f32) -> Self`

Performs the `+`

operation.

`impl Add<f32x4> for f32`

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`impl Add<f32x4> for f32`

`type Output = f32x4`

The resulting type after applying the `+`

operator.

`fn add(self, other: f32x4) -> f32x4`

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`fn add(self, other: f32x4) -> f32x4`

Performs the `+`

operation.

`impl Sub<f32> for f32x4`

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`impl Sub<f32> for f32x4`

`type Output = Self`

The resulting type after applying the `-`

operator.

`fn sub(self, other: f32) -> Self`

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`fn sub(self, other: f32) -> Self`

Performs the `-`

operation.

`impl Sub<f32x4> for f32`

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`impl Sub<f32x4> for f32`

`type Output = f32x4`

The resulting type after applying the `-`

operator.

`fn sub(self, other: f32x4) -> f32x4`

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`fn sub(self, other: f32x4) -> f32x4`

Performs the `-`

operation.

`impl Mul<f32> for f32x4`

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`impl Mul<f32> for f32x4`

`type Output = Self`

The resulting type after applying the `*`

operator.

`fn mul(self, other: f32) -> Self`

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`fn mul(self, other: f32) -> Self`

Performs the `*`

operation.

`impl Mul<f32x4> for f32`

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`impl Mul<f32x4> for f32`

`type Output = f32x4`

The resulting type after applying the `*`

operator.

`fn mul(self, other: f32x4) -> f32x4`

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`fn mul(self, other: f32x4) -> f32x4`

Performs the `*`

operation.

`impl Div<f32> for f32x4`

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`impl Div<f32> for f32x4`

`type Output = Self`

The resulting type after applying the `/`

operator.

`fn div(self, other: f32) -> Self`

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`fn div(self, other: f32) -> Self`

Performs the `/`

operation.

`impl Div<f32x4> for f32`

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`impl Div<f32x4> for f32`

`type Output = f32x4`

The resulting type after applying the `/`

operator.

`fn div(self, other: f32x4) -> f32x4`

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`fn div(self, other: f32x4) -> f32x4`

Performs the `/`

operation.

`impl Rem<f32> for f32x4`

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`impl Rem<f32> for f32x4`

`type Output = Self`

The resulting type after applying the `%`

operator.

`fn rem(self, other: f32) -> Self`

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`fn rem(self, other: f32) -> Self`

Performs the `%`

operation.

`impl Rem<f32x4> for f32`

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`impl Rem<f32x4> for f32`

`type Output = f32x4`

The resulting type after applying the `%`

operator.

`fn rem(self, other: f32x4) -> f32x4`

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`fn rem(self, other: f32x4) -> f32x4`

Performs the `%`

operation.

`impl AddAssign<f32> for f32x4`

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`impl AddAssign<f32> for f32x4`

`fn add_assign(&mut self, other: f32)`

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`fn add_assign(&mut self, other: f32)`

Performs the `+=`

operation.

`impl SubAssign<f32> for f32x4`

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`impl SubAssign<f32> for f32x4`

`fn sub_assign(&mut self, other: f32)`

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`fn sub_assign(&mut self, other: f32)`

Performs the `-=`

operation.

`impl MulAssign<f32> for f32x4`

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`impl MulAssign<f32> for f32x4`

`fn mul_assign(&mut self, other: f32)`

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`fn mul_assign(&mut self, other: f32)`

Performs the `*=`

operation.

`impl DivAssign<f32> for f32x4`

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`impl DivAssign<f32> for f32x4`

`fn div_assign(&mut self, other: f32)`

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`fn div_assign(&mut self, other: f32)`

Performs the `/=`

operation.

`impl RemAssign<f32> for f32x4`

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`impl RemAssign<f32> for f32x4`

`fn rem_assign(&mut self, other: f32)`

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`fn rem_assign(&mut self, other: f32)`

Performs the `%=`

operation.

`impl Neg for f32x4`

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`impl Neg for f32x4`

`type Output = Self`

The resulting type after applying the `-`

operator.

`fn neg(self) -> Self`

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`fn neg(self) -> Self`

Performs the unary `-`

operation.

`impl PartialEq<f32x4> for f32x4`

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`impl PartialEq<f32x4> for f32x4`

`fn eq(&self, other: &Self) -> bool`

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`fn eq(&self, other: &Self) -> bool`

This method tests for `self`

and `other`

values to be equal, and is used by `==`

. Read more

`fn ne(&self, other: &Self) -> bool`

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`fn ne(&self, other: &Self) -> bool`

This method tests for `!=`

.

`impl Default for f32x4`

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`impl Default for f32x4`

`impl FromBits<f32x4> for u64x2`

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`impl FromBits<f32x4> for u64x2`

`impl FromBits<f32x4> for i64x2`

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`impl FromBits<f32x4> for i64x2`

`impl FromBits<f32x4> for f64x2`

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`impl FromBits<f32x4> for f64x2`

`impl FromBits<f32x4> for u32x4`

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`impl FromBits<f32x4> for u32x4`

`impl FromBits<f32x4> for i32x4`

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`impl FromBits<f32x4> for i32x4`

`impl FromBits<u64x2> for f32x4`

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`impl FromBits<u64x2> for f32x4`

`impl FromBits<i64x2> for f32x4`

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`impl FromBits<i64x2> for f32x4`

`impl FromBits<f64x2> for f32x4`

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`impl FromBits<f64x2> for f32x4`

`impl FromBits<m64x2> for f32x4`

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`impl FromBits<m64x2> for f32x4`

`impl FromBits<i32x4> for f32x4`

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`impl FromBits<i32x4> for f32x4`

`impl FromBits<u32x4> for f32x4`

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`impl FromBits<u32x4> for f32x4`

`impl FromBits<m32x4> for f32x4`

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`impl FromBits<m32x4> for f32x4`

`impl FromBits<u16x8> for f32x4`

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`impl FromBits<u16x8> for f32x4`

`impl FromBits<i16x8> for f32x4`

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`impl FromBits<i16x8> for f32x4`

`impl FromBits<m16x8> for f32x4`

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`impl FromBits<m16x8> for f32x4`

`impl FromBits<u8x16> for f32x4`

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`impl FromBits<u8x16> for f32x4`

`impl FromBits<i8x16> for f32x4`

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`impl FromBits<i8x16> for f32x4`

`impl FromBits<m8x16> for f32x4`

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`impl FromBits<m8x16> for f32x4`

`impl FromBits<__m128> for f32x4`

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`impl FromBits<__m128> for f32x4`

`impl FromBits<__m128i> for f32x4`

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`impl FromBits<__m128i> for f32x4`

`impl FromBits<__m128d> for f32x4`

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`impl FromBits<__m128d> for f32x4`

`impl FromBits<f32x4> for u16x8`

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`impl FromBits<f32x4> for u16x8`

`impl FromBits<f32x4> for i16x8`

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`impl FromBits<f32x4> for i16x8`

`impl FromBits<f32x4> for u8x16`

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`impl FromBits<f32x4> for u8x16`

`impl FromBits<f32x4> for i8x16`

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`impl FromBits<f32x4> for i8x16`

`impl From<f32x4> for u32x4`

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`impl From<f32x4> for u32x4`

`impl From<f32x4> for i32x4`

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`impl From<f32x4> for i32x4`

`impl From<f64x4> for f32x4`

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`impl From<f64x4> for f32x4`

`impl From<u64x4> for f32x4`

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`impl From<u64x4> for f32x4`

`impl From<i64x4> for f32x4`

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`impl From<i64x4> for f32x4`

`impl From<m64x4> for f32x4`

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`impl From<m64x4> for f32x4`

`impl From<u32x4> for f32x4`

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`impl From<u32x4> for f32x4`

`impl From<i32x4> for f32x4`

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`impl From<i32x4> for f32x4`

`impl From<m32x4> for f32x4`

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`impl From<m32x4> for f32x4`

`impl From<u16x4> for f32x4`

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`impl From<u16x4> for f32x4`

`impl From<i16x4> for f32x4`

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`impl From<i16x4> for f32x4`

`impl From<m16x4> for f32x4`

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`impl From<m16x4> for f32x4`

`impl From<u8x4> for f32x4`

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`impl From<u8x4> for f32x4`

`impl From<i8x4> for f32x4`

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`impl From<i8x4> for f32x4`

`impl From<m8x4> for f32x4`

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`impl From<m8x4> for f32x4`

`impl From<f32x4> for f64x4`

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`impl From<f32x4> for f64x4`

`impl From<f32x4> for i64x4`

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`impl From<f32x4> for i64x4`

`impl From<f32x4> for u64x4`

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`impl From<f32x4> for u64x4`

`impl From<f32x4> for i8x4`

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`impl From<f32x4> for i8x4`

`impl From<f32x4> for u8x4`

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`impl From<f32x4> for u8x4`

`impl From<f32x4> for u16x4`

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`impl From<f32x4> for u16x4`

`impl From<f32x4> for i16x4`

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`impl From<f32x4> for i16x4`

`impl FromBits<f32x4> for __m128`

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`impl FromBits<f32x4> for __m128`

`impl FromBits<f32x4> for __m128i`

[src]

`impl FromBits<f32x4> for __m128i`

`impl FromBits<f32x4> for __m128d`

[src]

`impl FromBits<f32x4> for __m128d`

`impl FromBits<f32x4> for float64x2_t`

[src]

`impl FromBits<f32x4> for float64x2_t`

`impl FromBits<f32x4> for int8x16_t`

[src]

`impl FromBits<f32x4> for int8x16_t`

`impl FromBits<f32x4> for uint8x16_t`

[src]

`impl FromBits<f32x4> for uint8x16_t`

`impl FromBits<f32x4> for poly8x16_t`

[src]

`impl FromBits<f32x4> for poly8x16_t`

`impl FromBits<f32x4> for int16x8_t`

[src]

`impl FromBits<f32x4> for int16x8_t`

`impl FromBits<f32x4> for uint16x8_t`

[src]

`impl FromBits<f32x4> for uint16x8_t`

`impl FromBits<f32x4> for poly16x8_t`

[src]

`impl FromBits<f32x4> for poly16x8_t`

`impl FromBits<f32x4> for int32x4_t`

[src]

`impl FromBits<f32x4> for int32x4_t`

`impl FromBits<f32x4> for uint32x4_t`

[src]

`impl FromBits<f32x4> for uint32x4_t`

`impl FromBits<f32x4> for float32x4_t`

[src]

`impl FromBits<f32x4> for float32x4_t`

`impl FromBits<f32x4> for int64x2_t`

[src]

`impl FromBits<f32x4> for int64x2_t`

`impl FromBits<f32x4> for uint64x2_t`

[src]

`impl FromBits<f32x4> for uint64x2_t`

`impl FromBits<f32x4> for vector_signed_char`

[src]

`impl FromBits<f32x4> for vector_signed_char`

`impl FromBits<f32x4> for vector_unsigned_char`

[src]

`impl FromBits<f32x4> for vector_unsigned_char`

`impl FromBits<f32x4> for vector_signed_short`

[src]

`impl FromBits<f32x4> for vector_signed_short`

`impl FromBits<f32x4> for vector_unsigned_short`

[src]

`impl FromBits<f32x4> for vector_unsigned_short`

`impl FromBits<f32x4> for vector_signed_int`

[src]

`impl FromBits<f32x4> for vector_signed_int`

`impl FromBits<f32x4> for vector_unsigned_int`

[src]

`impl FromBits<f32x4> for vector_unsigned_int`

`impl FromBits<f32x4> for vector_bool_int`

[src]

`impl FromBits<f32x4> for vector_bool_int`

`impl FromBits<f32x4> for vector_float`

[src]

`impl FromBits<f32x4> for vector_float`

`impl FromBits<vector_signed_char> for f32x4`

[src]

`impl FromBits<vector_signed_char> for f32x4`

`impl FromBits<vector_unsigned_char> for f32x4`

[src]

`impl FromBits<vector_unsigned_char> for f32x4`

`impl FromBits<vector_bool_char> for f32x4`

[src]

`impl FromBits<vector_bool_char> for f32x4`

`impl FromBits<vector_signed_short> for f32x4`

[src]

`impl FromBits<vector_signed_short> for f32x4`

`impl FromBits<vector_unsigned_short> for f32x4`

[src]

`impl FromBits<vector_unsigned_short> for f32x4`

`impl FromBits<vector_bool_short> for f32x4`

[src]

`impl FromBits<vector_bool_short> for f32x4`

`impl FromBits<vector_signed_int> for f32x4`

[src]

`impl FromBits<vector_signed_int> for f32x4`

`impl FromBits<vector_unsigned_int> for f32x4`

[src]

`impl FromBits<vector_unsigned_int> for f32x4`

`impl FromBits<vector_float> for f32x4`

[src]

`impl FromBits<vector_float> for f32x4`

`impl FromBits<vector_bool_int> for f32x4`

[src]

`impl FromBits<vector_bool_int> for f32x4`

`impl FromBits<f32x4> for vector_signed_long`

[src]

`impl FromBits<f32x4> for vector_signed_long`

`impl FromBits<f32x4> for vector_unsigned_long`

[src]

`impl FromBits<f32x4> for vector_unsigned_long`

`impl FromBits<f32x4> for vector_double`

[src]

`impl FromBits<f32x4> for vector_double`