[][src]Struct alga::general::Additive

pub struct Additive;

The addition operator, commonly symbolized by +.

Trait Implementations

impl AbstractMagma<Additive> for u8[src]

impl AbstractMagma<Additive> for u16[src]

impl AbstractMagma<Additive> for u32[src]

impl AbstractMagma<Additive> for u64[src]

impl AbstractMagma<Additive> for usize[src]

impl AbstractMagma<Additive> for i8[src]

impl AbstractMagma<Additive> for i16[src]

impl AbstractMagma<Additive> for i32[src]

impl AbstractMagma<Additive> for i64[src]

impl AbstractMagma<Additive> for isize[src]

impl AbstractMagma<Additive> for f32[src]

impl AbstractMagma<Additive> for f64[src]

impl<N: AbstractMagma<Additive>> AbstractMagma<Additive> for Complex<N>[src]

impl<N> AbstractQuasigroup<Additive> for Complex<N> where
    N: AbstractGroupAbelian<Additive>, 
[src]

impl AbstractQuasigroup<Additive> for i8[src]

impl AbstractQuasigroup<Additive> for i16[src]

impl AbstractQuasigroup<Additive> for i32[src]

impl AbstractQuasigroup<Additive> for i64[src]

impl AbstractQuasigroup<Additive> for isize[src]

impl AbstractQuasigroup<Additive> for f32[src]

impl AbstractQuasigroup<Additive> for f64[src]

impl AbstractSemigroup<Additive> for u8[src]

impl AbstractSemigroup<Additive> for u16[src]

impl AbstractSemigroup<Additive> for u32[src]

impl AbstractSemigroup<Additive> for u64[src]

impl AbstractSemigroup<Additive> for usize[src]

impl<N> AbstractSemigroup<Additive> for Complex<N> where
    N: AbstractGroupAbelian<Additive>, 
[src]

impl AbstractSemigroup<Additive> for i8[src]

impl AbstractSemigroup<Additive> for i16[src]

impl AbstractSemigroup<Additive> for i32[src]

impl AbstractSemigroup<Additive> for i64[src]

impl AbstractSemigroup<Additive> for isize[src]

impl AbstractSemigroup<Additive> for f32[src]

impl AbstractSemigroup<Additive> for f64[src]

impl<N> AbstractLoop<Additive> for Complex<N> where
    N: AbstractGroupAbelian<Additive>, 
[src]

impl AbstractLoop<Additive> for i8[src]

impl AbstractLoop<Additive> for i16[src]

impl AbstractLoop<Additive> for i32[src]

impl AbstractLoop<Additive> for i64[src]

impl AbstractLoop<Additive> for isize[src]

impl AbstractLoop<Additive> for f32[src]

impl AbstractLoop<Additive> for f64[src]

impl AbstractMonoid<Additive> for u8[src]

impl AbstractMonoid<Additive> for u16[src]

impl AbstractMonoid<Additive> for u32[src]

impl AbstractMonoid<Additive> for u64[src]

impl AbstractMonoid<Additive> for usize[src]

impl<N> AbstractMonoid<Additive> for Complex<N> where
    N: AbstractGroupAbelian<Additive>, 
[src]

impl AbstractMonoid<Additive> for i8[src]

impl AbstractMonoid<Additive> for i16[src]

impl AbstractMonoid<Additive> for i32[src]

impl AbstractMonoid<Additive> for i64[src]

impl AbstractMonoid<Additive> for isize[src]

impl AbstractMonoid<Additive> for f32[src]

impl AbstractMonoid<Additive> for f64[src]

impl<N> AbstractGroup<Additive> for Complex<N> where
    N: AbstractGroupAbelian<Additive>, 
[src]

impl AbstractGroup<Additive> for i8[src]

impl AbstractGroup<Additive> for i16[src]

impl AbstractGroup<Additive> for i32[src]

impl AbstractGroup<Additive> for i64[src]

impl AbstractGroup<Additive> for isize[src]

impl AbstractGroup<Additive> for f32[src]

impl AbstractGroup<Additive> for f64[src]

impl<N> AbstractGroupAbelian<Additive> for Complex<N> where
    N: AbstractGroupAbelian<Additive>, 
[src]

impl AbstractGroupAbelian<Additive> for i8[src]

impl AbstractGroupAbelian<Additive> for i16[src]

impl AbstractGroupAbelian<Additive> for i32[src]

impl AbstractGroupAbelian<Additive> for i64[src]

impl AbstractGroupAbelian<Additive> for isize[src]

impl AbstractGroupAbelian<Additive> for f32[src]

impl AbstractGroupAbelian<Additive> for f64[src]

impl Identity<Additive> for u8[src]

impl Identity<Additive> for u16[src]

impl Identity<Additive> for u32[src]

impl Identity<Additive> for u64[src]

impl Identity<Additive> for usize[src]

impl Identity<Additive> for i8[src]

impl Identity<Additive> for i16[src]

impl Identity<Additive> for i32[src]

impl Identity<Additive> for i64[src]

impl Identity<Additive> for isize[src]

impl Identity<Additive> for f32[src]

impl Identity<Additive> for f64[src]

impl<N: Identity<Additive>> Identity<Additive> for Complex<N>[src]

impl<N: AbstractRingCommutative<Additive, Multiplicative> + Num + ClosedNeg> AbstractModule<Additive, Additive, Multiplicative> for Complex<N>[src]

type AbstractRing = N

The underlying scalar field.

impl Operator for Additive[src]

impl TwoSidedInverse<Additive> for i8[src]

impl TwoSidedInverse<Additive> for i16[src]

impl TwoSidedInverse<Additive> for i32[src]

impl TwoSidedInverse<Additive> for i64[src]

impl TwoSidedInverse<Additive> for isize[src]

impl TwoSidedInverse<Additive> for f32[src]

impl TwoSidedInverse<Additive> for f64[src]

impl<N: TwoSidedInverse<Additive>> TwoSidedInverse<Additive> for Complex<N>[src]

impl AbstractRing<Additive, Multiplicative> for i8[src]

impl AbstractRing<Additive, Multiplicative> for i16[src]

impl AbstractRing<Additive, Multiplicative> for i32[src]

impl AbstractRing<Additive, Multiplicative> for i64[src]

impl AbstractRing<Additive, Multiplicative> for isize[src]

impl AbstractRing<Additive, Multiplicative> for f32[src]

impl AbstractRing<Additive, Multiplicative> for f64[src]

impl<N: Num + Clone + ClosedNeg + AbstractRing> AbstractRing<Additive, Multiplicative> for Complex<N>[src]

impl AbstractRingCommutative<Additive, Multiplicative> for i8[src]

impl AbstractRingCommutative<Additive, Multiplicative> for i16[src]

impl AbstractRingCommutative<Additive, Multiplicative> for i32[src]

impl AbstractRingCommutative<Additive, Multiplicative> for i64[src]

impl AbstractRingCommutative<Additive, Multiplicative> for isize[src]

impl AbstractRingCommutative<Additive, Multiplicative> for f32[src]

impl AbstractRingCommutative<Additive, Multiplicative> for f64[src]

impl<N: Num + Clone + ClosedNeg + AbstractRingCommutative> AbstractRingCommutative<Additive, Multiplicative> for Complex<N>[src]

impl AbstractField<Additive, Multiplicative> for f32[src]

impl AbstractField<Additive, Multiplicative> for f64[src]

impl<N: Num + Clone + ClosedNeg + AbstractField> AbstractField<Additive, Multiplicative> for Complex<N>[src]

impl Clone for Additive[src]

impl Copy for Additive[src]

Auto Trait Implementations

impl Send for Additive

impl Unpin for Additive

impl Sync for Additive

impl UnwindSafe for Additive

impl RefUnwindSafe for Additive

Blanket Implementations

impl<T> ToOwned for T where
    T: Clone
[src]

type Owned = T

The resulting type after obtaining ownership.

impl<T, U> Into<U> for T where
    U: From<T>, 
[src]

impl<T> From<T> for T[src]

impl<T, U> TryFrom<U> for T where
    U: Into<T>, 
[src]

type Error = Infallible

The type returned in the event of a conversion error.

impl<T, U> TryInto<U> for T where
    U: TryFrom<T>, 
[src]

type Error = <U as TryFrom<T>>::Error

The type returned in the event of a conversion error.

impl<T> BorrowMut<T> for T where
    T: ?Sized
[src]

impl<T> Borrow<T> for T where
    T: ?Sized
[src]

impl<T> Any for T where
    T: 'static + ?Sized
[src]