Struct nalgebra::base::dimension::Const

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pub struct Const<const R: usize>;

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impl<T: Scalar, const R: usize, const C: usize> Allocator<T, Const<R>, Const<C>> for DefaultAllocator

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type Buffer = ArrayStorage<T, R, C>

The type of buffer this allocator can instantiate.
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type BufferUninit = ArrayStorage<MaybeUninit<T>, R, C>

The type of buffer with uninitialized components this allocator can instantiate.
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fn allocate_uninit( _: Const<R>, _: Const<C> ) -> ArrayStorage<MaybeUninit<T>, R, C>

Allocates a buffer with the given number of rows and columns without initializing its content.
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unsafe fn assume_init( uninit: ArrayStorage<MaybeUninit<T>, R, C> ) -> ArrayStorage<T, R, C>

Assumes a data buffer to be initialized. Read more
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fn allocate_from_iterator<I: IntoIterator<Item = T>>( nrows: Const<R>, ncols: Const<C>, iter: I ) -> Self::Buffer

Allocates a buffer initialized with the content of the given iterator.
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fn allocate_from_row_iterator<I: IntoIterator<Item = T>>( nrows: R, ncols: C, iter: I ) -> Self::Buffer

Allocates a buffer initialized with the content of the given row-major order iterator.
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impl<const R: usize> Clone for Const<R>

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fn clone(&self) -> Const<R>

Returns a copy of the value. Read more
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fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source. Read more
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impl<const R: usize> Debug for Const<R>

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fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter. Read more
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impl<const T: usize> Dim for Const<T>

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fn try_to_usize() -> Option<usize>

Gets the compile-time value of Self. Returns None if it is not known, i.e., if Self = Dyn.
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fn value(&self) -> usize

Gets the run-time value of self. For type-level integers, this is the same as Self::try_to_usize().unwrap().
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fn from_usize(dim: usize) -> Self

Builds an instance of Self from a run-time value. Panics if Self is a type-level integer and dim != Self::try_to_usize().unwrap().
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fn is<D: Dim>() -> bool

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impl<const A: usize, const B: usize> DimAdd<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Add<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn add(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimDiv<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Div<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn div(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimMax<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Max<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn max(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimMin<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Min<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn min(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimMul<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Mul<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn mul(self, _: Const<B>) -> Self::Output

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impl<const T: usize> DimName for Const<T>

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const USIZE: usize = T

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fn name() -> Self

The name of this dimension, i.e., the singleton Self.
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fn dim() -> usize

The value of this dimension.
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impl<const A: usize, const B: usize> DimNameAdd<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Add<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn add(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimNameDiv<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Div<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn div(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimNameMax<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Max<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn max(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimNameMin<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Min<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn min(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimNameMul<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Mul<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn mul(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimNameSub<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Sub<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn sub(self, _: Const<B>) -> Self::Output

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impl<const A: usize, const B: usize> DimSub<Const<B>> for Const<A>

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type Output = <<<Const<A> as ToTypenum>::Typenum as Sub<<Const<B> as ToTypenum>::Typenum>>::Output as ToConst>::Const

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fn sub(self, _: Const<B>) -> Self::Output

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impl<const R: usize> Hash for Const<R>

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fn hash<__H: Hasher>(&self, state: &mut __H)

Feeds this value into the given Hasher. Read more
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fn hash_slice<H>(data: &[Self], state: &mut H)
where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher. Read more
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impl<const R: usize> PartialEq for Const<R>

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fn eq(&self, other: &Const<R>) -> bool

This method tests for self and other values to be equal, and is used by ==.
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fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.
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impl<T, const R: usize, const C: usize> RawStorage<T, Const<R>, Const<C>> for ArrayStorage<T, R, C>

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type RStride = Const<1>

The static stride of this storage’s rows.
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type CStride = Const<R>

The static stride of this storage’s columns.
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fn ptr(&self) -> *const T

The matrix data pointer.
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fn shape(&self) -> (Const<R>, Const<C>)

The dimension of the matrix at run-time. Arr length of zero indicates the additive identity element of any dimension. Must be equal to Self::dimension() if it is not None.
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fn strides(&self) -> (Self::RStride, Self::CStride)

The spacing between consecutive row elements and consecutive column elements. Read more
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fn is_contiguous(&self) -> bool

Indicates whether this data buffer stores its elements contiguously. Read more
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unsafe fn as_slice_unchecked(&self) -> &[T]

Retrieves the data buffer as a contiguous slice. Read more
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fn linear_index(&self, irow: usize, icol: usize) -> usize

Compute the index corresponding to the irow-th row and icol-th column of this matrix. The index must be such that the following holds: Read more
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fn get_address_unchecked_linear(&self, i: usize) -> *const T

Gets the address of the i-th matrix component without performing bound-checking. Read more
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fn get_address_unchecked(&self, irow: usize, icol: usize) -> *const T

Gets the address of the i-th matrix component without performing bound-checking. Read more
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unsafe fn get_unchecked_linear(&self, i: usize) -> &T

Retrieves a reference to the i-th element without bound-checking. Read more
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unsafe fn get_unchecked(&self, irow: usize, icol: usize) -> &T

Retrieves a reference to the i-th element without bound-checking. Read more
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impl<T, const R: usize, const C: usize> RawStorageMut<T, Const<R>, Const<C>> for ArrayStorage<T, R, C>

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fn ptr_mut(&mut self) -> *mut T

The matrix mutable data pointer.
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unsafe fn as_mut_slice_unchecked(&mut self) -> &mut [T]

Retrieves the mutable data buffer as a contiguous slice. Read more
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fn get_address_unchecked_linear_mut(&mut self, i: usize) -> *mut T

Gets the mutable address of the i-th matrix component without performing bound-checking. Read more
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fn get_address_unchecked_mut(&mut self, irow: usize, icol: usize) -> *mut T

Gets the mutable address of the i-th matrix component without performing bound-checking. Read more
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unsafe fn get_unchecked_linear_mut(&mut self, i: usize) -> &mut T

Retrieves a mutable reference to the i-th element without bound-checking. Read more
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unsafe fn get_unchecked_mut(&mut self, irow: usize, icol: usize) -> &mut T

Retrieves a mutable reference to the element at (irow, icol) without bound-checking. Read more
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unsafe fn swap_unchecked_linear(&mut self, i1: usize, i2: usize)

Swaps two elements using their linear index without bound-checking. Read more
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unsafe fn swap_unchecked( &mut self, row_col1: (usize, usize), row_col2: (usize, usize) )

Swaps two elements without bound-checking. Read more
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impl<T: Scalar, CTo, const RFROM: usize, const CFROM: usize> Reallocator<T, Const<RFROM>, Const<CFROM>, Dyn, CTo> for DefaultAllocator
where CTo: Dim,

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unsafe fn reallocate_copy( rto: Dyn, cto: CTo, buf: ArrayStorage<T, RFROM, CFROM> ) -> VecStorage<MaybeUninit<T>, Dyn, CTo>

Reallocates a buffer of shape (RTo, CTo), possibly reusing a previously allocated buffer buf. Data stored by buf are linearly copied to the output: Read more
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impl<T: Scalar, RTo, const RFROM: usize, const CFROM: usize> Reallocator<T, Const<RFROM>, Const<CFROM>, RTo, Dyn> for DefaultAllocator
where RTo: DimName,

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unsafe fn reallocate_copy( rto: RTo, cto: Dyn, buf: ArrayStorage<T, RFROM, CFROM> ) -> VecStorage<MaybeUninit<T>, RTo, Dyn>

Reallocates a buffer of shape (RTo, CTo), possibly reusing a previously allocated buffer buf. Data stored by buf are linearly copied to the output: Read more
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impl<T: Scalar, RFrom, CFrom, const RTO: usize, const CTO: usize> Reallocator<T, RFrom, CFrom, Const<RTO>, Const<CTO>> for DefaultAllocator
where RFrom: Dim, CFrom: Dim, Self: Allocator<T, RFrom, CFrom>,

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unsafe fn reallocate_copy( rto: Const<RTO>, cto: Const<CTO>, buf: <Self as Allocator<T, RFrom, CFrom>>::Buffer ) -> ArrayStorage<MaybeUninit<T>, RTO, CTO>

Reallocates a buffer of shape (RTo, CTo), possibly reusing a previously allocated buffer buf. Data stored by buf are linearly copied to the output: Read more
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impl<T, const R1: usize, const C1: usize, const R2: usize, const C2: usize> ReshapableStorage<T, Const<R1>, Const<C1>, Const<R2>, Const<C2>> for ArrayStorage<T, R1, C1>
where T: Scalar, Const<R1>: ToTypenum, Const<C1>: ToTypenum, Const<R2>: ToTypenum, Const<C2>: ToTypenum, <Const<R1> as ToTypenum>::Typenum: Mul<<Const<C1> as ToTypenum>::Typenum>, <Const<R2> as ToTypenum>::Typenum: Mul<<Const<C2> as ToTypenum>::Typenum, Output = Prod<<Const<R1> as ToTypenum>::Typenum, <Const<C1> as ToTypenum>::Typenum>>,

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type Output = ArrayStorage<T, R2, C2>

The reshaped storage type.
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fn reshape_generic(self, _: Const<R2>, _: Const<C2>) -> Self::Output

Reshapes the storage into the output storage type.
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impl<T: Scalar, const R: usize, const C: usize> Storage<T, Const<R>, Const<C>> for ArrayStorage<T, R, C>
where DefaultAllocator: Allocator<T, Const<R>, Const<C>, Buffer = Self>,

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fn into_owned(self) -> Owned<T, Const<R>, Const<C>>

Builds a matrix data storage that does not contain any reference.
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fn clone_owned(&self) -> Owned<T, Const<R>, Const<C>>

Clones this data storage to one that does not contain any reference.
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impl ToTypenum for Const<0>

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impl ToTypenum for Const<1>

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impl ToTypenum for Const<10>

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impl ToTypenum for Const<100>

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impl ToTypenum for Const<101>

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impl ToTypenum for Const<102>

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impl ToTypenum for Const<103>

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impl ToTypenum for Const<104>

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impl ToTypenum for Const<105>

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impl ToTypenum for Const<106>

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impl ToTypenum for Const<107>

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impl ToTypenum for Const<108>

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impl ToTypenum for Const<109>

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impl ToTypenum for Const<11>

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impl ToTypenum for Const<110>

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impl ToTypenum for Const<111>

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impl ToTypenum for Const<112>

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impl ToTypenum for Const<113>

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impl ToTypenum for Const<114>

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impl ToTypenum for Const<115>

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impl ToTypenum for Const<116>

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impl ToTypenum for Const<117>

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impl ToTypenum for Const<118>

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impl ToTypenum for Const<119>

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impl ToTypenum for Const<12>

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impl ToTypenum for Const<120>

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impl ToTypenum for Const<121>

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impl ToTypenum for Const<122>

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impl ToTypenum for Const<123>

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impl ToTypenum for Const<124>

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impl ToTypenum for Const<125>

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impl ToTypenum for Const<126>

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impl ToTypenum for Const<127>

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impl ToTypenum for Const<13>

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impl ToTypenum for Const<14>

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impl ToTypenum for Const<15>

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impl ToTypenum for Const<16>

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impl ToTypenum for Const<17>

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impl ToTypenum for Const<18>

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impl ToTypenum for Const<19>

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impl ToTypenum for Const<2>

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impl ToTypenum for Const<20>

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impl ToTypenum for Const<21>

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impl ToTypenum for Const<22>

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impl ToTypenum for Const<23>

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impl ToTypenum for Const<24>

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impl ToTypenum for Const<25>

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impl ToTypenum for Const<26>

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impl ToTypenum for Const<27>

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impl ToTypenum for Const<28>

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impl ToTypenum for Const<29>

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impl ToTypenum for Const<3>

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impl ToTypenum for Const<30>

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impl ToTypenum for Const<31>

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impl ToTypenum for Const<32>

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impl ToTypenum for Const<33>

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impl ToTypenum for Const<34>

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impl ToTypenum for Const<35>

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impl ToTypenum for Const<36>

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impl ToTypenum for Const<37>

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impl ToTypenum for Const<38>

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impl ToTypenum for Const<39>

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impl ToTypenum for Const<4>

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impl ToTypenum for Const<40>

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impl ToTypenum for Const<41>

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impl ToTypenum for Const<42>

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impl ToTypenum for Const<43>

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impl ToTypenum for Const<44>

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impl ToTypenum for Const<45>

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impl ToTypenum for Const<46>

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impl ToTypenum for Const<47>

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impl ToTypenum for Const<48>

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impl ToTypenum for Const<49>

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impl ToTypenum for Const<5>

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impl ToTypenum for Const<50>

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impl ToTypenum for Const<51>

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impl ToTypenum for Const<52>

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impl ToTypenum for Const<53>

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impl ToTypenum for Const<54>

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impl ToTypenum for Const<55>

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impl ToTypenum for Const<56>

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impl ToTypenum for Const<57>

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impl ToTypenum for Const<58>

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impl ToTypenum for Const<59>

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impl ToTypenum for Const<6>

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impl ToTypenum for Const<60>

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impl ToTypenum for Const<61>

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impl ToTypenum for Const<62>

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impl ToTypenum for Const<63>

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impl ToTypenum for Const<64>

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impl ToTypenum for Const<65>

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impl ToTypenum for Const<66>

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impl ToTypenum for Const<67>

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impl ToTypenum for Const<68>

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impl ToTypenum for Const<69>

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impl ToTypenum for Const<7>

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impl ToTypenum for Const<70>

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impl ToTypenum for Const<71>

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impl ToTypenum for Const<72>

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impl ToTypenum for Const<73>

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impl ToTypenum for Const<74>

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impl ToTypenum for Const<75>

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impl ToTypenum for Const<76>

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impl ToTypenum for Const<77>

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impl ToTypenum for Const<78>

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impl ToTypenum for Const<79>

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impl ToTypenum for Const<8>

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impl ToTypenum for Const<80>

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impl ToTypenum for Const<81>

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impl ToTypenum for Const<82>

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impl ToTypenum for Const<83>

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impl ToTypenum for Const<84>

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impl ToTypenum for Const<85>

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impl ToTypenum for Const<86>

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impl ToTypenum for Const<87>

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impl ToTypenum for Const<88>

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impl ToTypenum for Const<89>

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impl ToTypenum for Const<9>

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impl ToTypenum for Const<90>

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impl ToTypenum for Const<91>

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impl ToTypenum for Const<92>

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impl ToTypenum for Const<93>

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impl ToTypenum for Const<94>

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impl ToTypenum for Const<95>

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impl ToTypenum for Const<96>

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impl ToTypenum for Const<97>

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impl ToTypenum for Const<98>

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impl ToTypenum for Const<99>

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impl<const R: usize> Copy for Const<R>

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impl<const R: usize> Eq for Const<R>

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impl<const R: usize> StructuralEq for Const<R>

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impl<const R: usize> StructuralPartialEq for Const<R>

Auto Trait Implementations§

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impl<const R: usize> RefUnwindSafe for Const<R>

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impl<const R: usize> Send for Const<R>

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impl<const R: usize> Sync for Const<R>

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impl<const R: usize> Unpin for Const<R>

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impl<const R: usize> UnwindSafe for Const<R>

Blanket Implementations§

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impl<T> Any for T
where T: 'static + ?Sized,

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fn type_id(&self) -> TypeId

Gets the TypeId of self. Read more
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impl<T> Borrow<T> for T
where T: ?Sized,

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fn borrow(&self) -> &T

Immutably borrows from an owned value. Read more
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impl<T> BorrowMut<T> for T
where T: ?Sized,

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fn borrow_mut(&mut self) -> &mut T

Mutably borrows from an owned value. Read more
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impl<D> DimAdd<Dyn> for D
where D: DimName,

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type Output = Dyn

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fn add(self, other: Dyn) -> Dyn

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impl<D> DimDiv<Dyn> for D
where D: DimName,

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type Output = Dyn

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fn div(self, other: Dyn) -> Dyn

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impl<D> DimMax<Dyn> for D
where D: DimName,

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type Output = Dyn

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fn max(self, other: Dyn) -> Dyn

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impl<D> DimMin<Dyn> for D
where D: DimName,

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type Output = Dyn

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fn min(self, other: Dyn) -> Dyn

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impl<D> DimMul<Dyn> for D
where D: DimName,

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type Output = Dyn

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fn mul(self, other: Dyn) -> Dyn

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impl<D> DimSub<Dyn> for D
where D: DimName,

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type Output = Dyn

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fn sub(self, other: Dyn) -> Dyn

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impl<T> From<T> for T

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fn from(t: T) -> T

Returns the argument unchanged.

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impl<T, U> Into<U> for T
where U: From<T>,

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fn into(self) -> U

Calls U::from(self).

That is, this conversion is whatever the implementation of From<T> for U chooses to do.

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impl<T> Same for T

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type Output = T

Should always be Self
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impl<SS, SP> SupersetOf<SS> for SP
where SS: SubsetOf<SP>,

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fn to_subset(&self) -> Option<SS>

The inverse inclusion map: attempts to construct self from the equivalent element of its superset. Read more
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fn is_in_subset(&self) -> bool

Checks if self is actually part of its subset T (and can be converted to it).
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fn to_subset_unchecked(&self) -> SS

Use with care! Same as self.to_subset but without any property checks. Always succeeds.
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fn from_subset(element: &SS) -> SP

The inclusion map: converts self to the equivalent element of its superset.
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impl<T> ToOwned for T
where T: Clone,

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type Owned = T

The resulting type after obtaining ownership.
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fn to_owned(&self) -> T

Creates owned data from borrowed data, usually by cloning. Read more
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fn clone_into(&self, target: &mut T)

Uses borrowed data to replace owned data, usually by cloning. Read more
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impl<T, U> TryFrom<U> for T
where U: Into<T>,

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type Error = Infallible

The type returned in the event of a conversion error.
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fn try_from(value: U) -> Result<T, <T as TryFrom<U>>::Error>

Performs the conversion.
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impl<T, U> TryInto<U> for T
where U: TryFrom<T>,

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

The type returned in the event of a conversion error.
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fn try_into(self) -> Result<U, <U as TryFrom<T>>::Error>

Performs the conversion.
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impl<V, T> VZip<V> for T
where V: MultiLane<T>,

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fn vzip(self) -> V

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impl<T> Scalar for T
where T: 'static + Clone + PartialEq + Debug,