Struct num_dual::HyperDualVec
source · [−]pub struct HyperDualVec<T, F, const M: usize, const N: usize> {
pub re: T,
pub eps1: StaticVec<T, M>,
pub eps2: StaticVec<T, N>,
pub eps1eps2: StaticMat<T, M, N>,
/* private fields */
}
Expand description
A hyper dual number for the calculation of second partial derivatives.
Fields
re: T
Real part of the hyper dual number
eps1: StaticVec<T, M>
Partial derivative part of the hyper dual number
eps2: StaticVec<T, N>
Partial derivative part of the hyper dual number
eps1eps2: StaticMat<T, M, N>
Second partial derivative part of the hyper dual number
Implementations
sourceimpl<T, F, const M: usize, const N: usize> HyperDualVec<T, F, M, N>
impl<T, F, const M: usize, const N: usize> HyperDualVec<T, F, M, N>
sourceimpl<T, F> HyperDualVec<T, F, 1_usize, 1_usize>
impl<T, F> HyperDualVec<T, F, 1_usize, 1_usize>
sourcepub fn new_scalar(re: T, eps1: T, eps2: T, eps1eps2: T) -> Self
pub fn new_scalar(re: T, eps1: T, eps2: T, eps1eps2: T) -> Self
Create a new scalar hyper dual number from its fields.
sourceimpl<T: One, F, const N: usize> HyperDualVec<T, F, 1, N>
impl<T: One, F, const N: usize> HyperDualVec<T, F, 1, N>
sourceimpl<T: One, F, const M: usize> HyperDualVec<T, F, M, 1>
impl<T: One, F, const M: usize> HyperDualVec<T, F, M, 1>
Trait Implementations
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Add<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Add<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the +
operator.
sourcefn add(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
fn add(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
Performs the +
operation. Read more
sourceimpl<'a, 'b, T: DualNum<F>, F: Float, const M: usize, const N: usize> Add<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
impl<'a, 'b, T: DualNum<F>, F: Float, const M: usize, const N: usize> Add<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the +
operator.
sourcefn add(self, other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
fn add(self, other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
Performs the +
operation. Read more
sourceimpl<T: AddAssign<F>, F: Float, const M: usize, const N: usize> Add<F> for HyperDualVec<T, F, M, N>
impl<T: AddAssign<F>, F: Float, const M: usize, const N: usize> Add<F> for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Add<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Add<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the +
operator.
sourcefn add(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn add(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the +
operation. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Add<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Add<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the +
operator.
sourcefn add(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn add(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the +
operation. Read more
sourceimpl<T: AddAssign<F>, F: Float, const M: usize, const N: usize> AddAssign<F> for HyperDualVec<T, F, M, N>
impl<T: AddAssign<F>, F: Float, const M: usize, const N: usize> AddAssign<F> for HyperDualVec<T, F, M, N>
sourcefn add_assign(&mut self, other: F)
fn add_assign(&mut self, other: F)
Performs the +=
operation. Read more
sourceimpl<T: Copy + AddAssign, F: Float, const M: usize, const N: usize> AddAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: Copy + AddAssign, F: Float, const M: usize, const N: usize> AddAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourcefn add_assign(&mut self, other: Self)
fn add_assign(&mut self, other: Self)
Performs the +=
operation. Read more
sourceimpl<T: Clone, F: Clone, const M: usize, const N: usize> Clone for HyperDualVec<T, F, M, N>
impl<T: Clone, F: Clone, const M: usize, const N: usize> Clone for HyperDualVec<T, F, M, N>
sourcefn clone(&self) -> HyperDualVec<T, F, M, N>
fn clone(&self) -> HyperDualVec<T, F, M, N>
Returns a copy of the value. Read more
1.0.0 · sourcefn clone_from(&mut self, source: &Self)
fn clone_from(&mut self, source: &Self)
Performs copy-assignment from source
. Read more
sourceimpl<T: Display, F: Display, const M: usize, const N: usize> Display for HyperDualVec<T, F, M, N>
impl<T: Display, F: Display, const M: usize, const N: usize> Display for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Div<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Div<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the /
operator.
sourcefn div(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
fn div(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
Performs the /
operation. Read more
sourceimpl<'a, 'b, T: DualNum<F>, F: Float, const M: usize, const N: usize> Div<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
impl<'a, 'b, T: DualNum<F>, F: Float, const M: usize, const N: usize> Div<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the /
operator.
sourcefn div(self, other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
fn div(self, other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
Performs the /
operation. Read more
sourceimpl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> Div<F> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> Div<F> for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Div<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Div<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the /
operator.
sourcefn div(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn div(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the /
operation. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Div<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Div<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the /
operator.
sourcefn div(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn div(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the /
operation. Read more
sourceimpl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> DivAssign<F> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> DivAssign<F> for HyperDualVec<T, F, M, N>
sourcefn div_assign(&mut self, other: F)
fn div_assign(&mut self, other: F)
Performs the /=
operation. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> DivAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> DivAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourcefn div_assign(&mut self, other: Self)
fn div_assign(&mut self, other: Self)
Performs the /=
operation. Read more
sourceimpl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> DualNum<F> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> DualNum<F> for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float + FloatConst, const M: usize, const N: usize> FloatConst for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float + FloatConst, const M: usize, const N: usize> FloatConst for HyperDualVec<T, F, M, N>
sourcefn FRAC_1_SQRT_2() -> Self
fn FRAC_1_SQRT_2() -> Self
Return 1.0 / sqrt(2.0)
.
sourcefn FRAC_2_SQRT_PI() -> Self
fn FRAC_2_SQRT_PI() -> Self
Return 2.0 / sqrt(π)
.
sourceimpl<T: Copy + Zero + AddAssign + From<F>, F, const M: usize, const N: usize> From<F> for HyperDualVec<T, F, M, N>
impl<T: Copy + Zero + AddAssign + From<F>, F, const M: usize, const N: usize> From<F> for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float + FromPrimitive, const M: usize, const N: usize> FromPrimitive for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float + FromPrimitive, const M: usize, const N: usize> FromPrimitive for HyperDualVec<T, F, M, N>
sourcefn from_isize(n: isize) -> Option<Self>
fn from_isize(n: isize) -> Option<Self>
Converts an isize
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_i8(n: i8) -> Option<Self>
fn from_i8(n: i8) -> Option<Self>
Converts an i8
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_i16(n: i16) -> Option<Self>
fn from_i16(n: i16) -> Option<Self>
Converts an i16
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_i32(n: i32) -> Option<Self>
fn from_i32(n: i32) -> Option<Self>
Converts an i32
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_i64(n: i64) -> Option<Self>
fn from_i64(n: i64) -> Option<Self>
Converts an i64
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_i128(n: i128) -> Option<Self>
fn from_i128(n: i128) -> Option<Self>
Converts an i128
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_usize(n: usize) -> Option<Self>
fn from_usize(n: usize) -> Option<Self>
Converts a usize
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_u8(n: u8) -> Option<Self>
fn from_u8(n: u8) -> Option<Self>
Converts an u8
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_u16(n: u16) -> Option<Self>
fn from_u16(n: u16) -> Option<Self>
Converts an u16
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_u32(n: u32) -> Option<Self>
fn from_u32(n: u32) -> Option<Self>
Converts an u32
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_u64(n: u64) -> Option<Self>
fn from_u64(n: u64) -> Option<Self>
Converts an u64
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourcefn from_u128(n: u128) -> Option<Self>
fn from_u128(n: u128) -> Option<Self>
Converts an u128
to return an optional value of this type. If the
value cannot be represented by this type, then None
is returned. Read more
sourceimpl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> Inv for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> Inv for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Mul<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Mul<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the *
operator.
sourcefn mul(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
fn mul(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
Performs the *
operation. Read more
sourceimpl<'a, 'b, T: DualNum<F>, F: Float, const M: usize, const N: usize> Mul<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
impl<'a, 'b, T: DualNum<F>, F: Float, const M: usize, const N: usize> Mul<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the *
operator.
sourcefn mul(self, other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
fn mul(self, other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
Performs the *
operation. Read more
sourceimpl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> Mul<F> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> Mul<F> for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Mul<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Mul<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the *
operator.
sourcefn mul(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn mul(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the *
operation. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Mul<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Mul<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the *
operator.
sourcefn mul(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn mul(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the *
operation. Read more
sourceimpl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> MulAssign<F> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> MulAssign<F> for HyperDualVec<T, F, M, N>
sourcefn mul_assign(&mut self, other: F)
fn mul_assign(&mut self, other: F)
Performs the *=
operation. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> MulAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> MulAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourcefn mul_assign(&mut self, other: Self)
fn mul_assign(&mut self, other: Self)
Performs the *=
operation. Read more
sourceimpl<T: Copy + Neg<Output = T>, F: Float, const M: usize, const N: usize> Neg for HyperDualVec<T, F, M, N>
impl<T: Copy + Neg<Output = T>, F: Float, const M: usize, const N: usize> Neg for HyperDualVec<T, F, M, N>
sourceimpl<T: Copy + Neg<Output = T>, F: Float, const M: usize, const N: usize> Neg for &HyperDualVec<T, F, M, N>
impl<T: Copy + Neg<Output = T>, F: Float, const M: usize, const N: usize> Neg for &HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F> + Signed, F: Float, const M: usize, const N: usize> Num for HyperDualVec<T, F, M, N>
impl<T: DualNum<F> + Signed, F: Float, const M: usize, const N: usize> Num for HyperDualVec<T, F, M, N>
type FromStrRadixErr = F::FromStrRadixErr
sourcefn from_str_radix(
_str: &str,
_radix: u32
) -> Result<Self, Self::FromStrRadixErr>
fn from_str_radix(
_str: &str,
_radix: u32
) -> Result<Self, Self::FromStrRadixErr>
Convert from a string and radix (typically 2..=36
). Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> One for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> One for HyperDualVec<T, F, M, N>
sourceimpl<T: PartialEq, F: PartialEq, const M: usize, const N: usize> PartialEq<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: PartialEq, F: PartialEq, const M: usize, const N: usize> PartialEq<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourcefn eq(&self, other: &HyperDualVec<T, F, M, N>) -> bool
fn eq(&self, other: &HyperDualVec<T, F, M, N>) -> bool
This method tests for self
and other
values to be equal, and is used
by ==
. Read more
sourcefn ne(&self, other: &HyperDualVec<T, F, M, N>) -> bool
fn ne(&self, other: &HyperDualVec<T, F, M, N>) -> bool
This method tests for !=
.
sourceimpl<'a, T: DualNum<F>, F: Float, const M: usize, const N: usize> Product<&'a HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<'a, T: DualNum<F>, F: Float, const M: usize, const N: usize> Product<&'a HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourcefn product<I>(iter: I) -> Self where
I: Iterator<Item = &'a HyperDualVec<T, F, M, N>>,
fn product<I>(iter: I) -> Self where
I: Iterator<Item = &'a HyperDualVec<T, F, M, N>>,
Method which takes an iterator and generates Self
from the elements by
multiplying the items. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Product<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Product<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Rem<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Rem<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the %
operator.
sourcefn rem(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
fn rem(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
Performs the %
operation. Read more
sourceimpl<'a, 'b, T, F, const M: usize, const N: usize> Rem<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
impl<'a, 'b, T, F, const M: usize, const N: usize> Rem<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the %
operator.
sourcefn rem(self, _other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
fn rem(self, _other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
Performs the %
operation. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Rem<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Rem<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the %
operator.
sourcefn rem(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn rem(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the %
operation. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Rem<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Rem<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the %
operator.
sourcefn rem(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn rem(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the %
operation. Read more
sourceimpl<T, F: Float, const M: usize, const N: usize> RemAssign<F> for HyperDualVec<T, F, M, N>
impl<T, F: Float, const M: usize, const N: usize> RemAssign<F> for HyperDualVec<T, F, M, N>
sourcefn rem_assign(&mut self, _other: F)
fn rem_assign(&mut self, _other: F)
Performs the %=
operation. Read more
sourceimpl<T, F: Float, const M: usize, const N: usize> RemAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T, F: Float, const M: usize, const N: usize> RemAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourcefn rem_assign(&mut self, _other: Self)
fn rem_assign(&mut self, _other: Self)
Performs the %=
operation. Read more
sourceimpl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> Signed for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: DualNumFloat, const M: usize, const N: usize> Signed for HyperDualVec<T, F, M, N>
sourcefn is_positive(&self) -> bool
fn is_positive(&self) -> bool
Returns true if the number is positive and false if the number is zero or negative.
sourcefn is_negative(&self) -> bool
fn is_negative(&self) -> bool
Returns true if the number is negative and false if the number is zero or positive.
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Sub<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Sub<&'_ HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the -
operator.
sourcefn sub(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
fn sub(self, rhs: &HyperDualVec<T, F, M, N>) -> Self::Output
Performs the -
operation. Read more
sourceimpl<'a, 'b, T: DualNum<F>, F: Float, const M: usize, const N: usize> Sub<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
impl<'a, 'b, T: DualNum<F>, F: Float, const M: usize, const N: usize> Sub<&'a HyperDualVec<T, F, M, N>> for &'b HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the -
operator.
sourcefn sub(self, other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
fn sub(self, other: &HyperDualVec<T, F, M, N>) -> HyperDualVec<T, F, M, N>
Performs the -
operation. Read more
sourceimpl<T: SubAssign<F>, F: Float, const M: usize, const N: usize> Sub<F> for HyperDualVec<T, F, M, N>
impl<T: SubAssign<F>, F: Float, const M: usize, const N: usize> Sub<F> for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Sub<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Sub<HyperDualVec<T, F, M, N>> for &HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the -
operator.
sourcefn sub(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn sub(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the -
operation. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Sub<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Sub<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
type Output = HyperDualVec<T, F, M, N>
The resulting type after applying the -
operator.
sourcefn sub(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
fn sub(self, rhs: HyperDualVec<T, F, M, N>) -> Self::Output
Performs the -
operation. Read more
sourceimpl<T: SubAssign<F>, F: Float, const M: usize, const N: usize> SubAssign<F> for HyperDualVec<T, F, M, N>
impl<T: SubAssign<F>, F: Float, const M: usize, const N: usize> SubAssign<F> for HyperDualVec<T, F, M, N>
sourcefn sub_assign(&mut self, other: F)
fn sub_assign(&mut self, other: F)
Performs the -=
operation. Read more
sourceimpl<T: Copy + SubAssign, F: Float, const M: usize, const N: usize> SubAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: Copy + SubAssign, F: Float, const M: usize, const N: usize> SubAssign<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourcefn sub_assign(&mut self, other: Self)
fn sub_assign(&mut self, other: Self)
Performs the -=
operation. Read more
sourceimpl<'a, T: DualNum<F>, F: Float, const M: usize, const N: usize> Sum<&'a HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<'a, T: DualNum<F>, F: Float, const M: usize, const N: usize> Sum<&'a HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourcefn sum<I>(iter: I) -> Self where
I: Iterator<Item = &'a HyperDualVec<T, F, M, N>>,
fn sum<I>(iter: I) -> Self where
I: Iterator<Item = &'a HyperDualVec<T, F, M, N>>,
Method which takes an iterator and generates Self
from the elements by
“summing up” the items. Read more
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Sum<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Sum<HyperDualVec<T, F, M, N>> for HyperDualVec<T, F, M, N>
sourceimpl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Zero for HyperDualVec<T, F, M, N>
impl<T: DualNum<F>, F: Float, const M: usize, const N: usize> Zero for HyperDualVec<T, F, M, N>
impl<T: Copy, F: Copy, const M: usize, const N: usize> Copy for HyperDualVec<T, F, M, N>
impl<T, F, const M: usize, const N: usize> StructuralPartialEq for HyperDualVec<T, F, M, N>
Auto Trait Implementations
impl<T, F, const M: usize, const N: usize> RefUnwindSafe for HyperDualVec<T, F, M, N> where
F: RefUnwindSafe,
T: RefUnwindSafe,
impl<T, F, const M: usize, const N: usize> Send for HyperDualVec<T, F, M, N> where
F: Send,
T: Send,
impl<T, F, const M: usize, const N: usize> Sync for HyperDualVec<T, F, M, N> where
F: Sync,
T: Sync,
impl<T, F, const M: usize, const N: usize> Unpin for HyperDualVec<T, F, M, N> where
F: Unpin,
T: Unpin,
impl<T, F, const M: usize, const N: usize> UnwindSafe for HyperDualVec<T, F, M, N> where
F: UnwindSafe,
T: UnwindSafe,
Blanket Implementations
sourceimpl<T> BorrowMut<T> for T where
T: ?Sized,
impl<T> BorrowMut<T> for T where
T: ?Sized,
const: unstable · sourcefn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more
sourceimpl<T> ToOwned for T where
T: Clone,
impl<T> ToOwned for T where
T: Clone,
type Owned = T
type Owned = T
The resulting type after obtaining ownership.
sourcefn clone_into(&self, target: &mut T)
fn clone_into(&self, target: &mut T)
toowned_clone_into
)Uses borrowed data to replace owned data, usually by cloning. Read more