pub struct Dyn(pub usize);
Expand description
Dim of dynamically-sized algebraic entities.
Tuple Fields§
§0: usize
Implementations§
Trait Implementations§
source§impl<T, C> Allocator<T, Dyn, C> for DefaultAllocator
impl<T, C> Allocator<T, Dyn, C> for DefaultAllocator
§type Buffer = VecStorage<T, Dyn, C>
type Buffer = VecStorage<T, Dyn, C>
The type of buffer this allocator can instantiate.
§type BufferUninit = VecStorage<MaybeUninit<T>, Dyn, C>
type BufferUninit = VecStorage<MaybeUninit<T>, Dyn, C>
The type of buffer with uninitialized components this allocator can instantiate.
source§fn allocate_uninit(nrows: Dyn, ncols: C) -> VecStorage<MaybeUninit<T>, Dyn, C>
fn allocate_uninit(nrows: Dyn, ncols: C) -> VecStorage<MaybeUninit<T>, Dyn, C>
Allocates a buffer with the given number of rows and columns without initializing its content.
source§unsafe fn assume_init(
uninit: VecStorage<MaybeUninit<T>, Dyn, C>,
) -> VecStorage<T, Dyn, C>
unsafe fn assume_init( uninit: VecStorage<MaybeUninit<T>, Dyn, C>, ) -> VecStorage<T, Dyn, C>
Assumes a data buffer to be initialized. Read more
source§fn allocate_from_iterator<I>(
nrows: Dyn,
ncols: C,
iter: I,
) -> <DefaultAllocator as Allocator<T, Dyn, C>>::Bufferwhere
I: IntoIterator<Item = T>,
fn allocate_from_iterator<I>(
nrows: Dyn,
ncols: C,
iter: I,
) -> <DefaultAllocator as Allocator<T, Dyn, C>>::Bufferwhere
I: IntoIterator<Item = T>,
Allocates a buffer initialized with the content of the given iterator.
source§fn allocate_from_row_iterator<I>(nrows: R, ncols: C, iter: I) -> Self::Bufferwhere
I: IntoIterator<Item = T>,
fn allocate_from_row_iterator<I>(nrows: R, ncols: C, iter: I) -> Self::Bufferwhere
I: IntoIterator<Item = T>,
Allocates a buffer initialized with the content of the given row-major order iterator.
source§impl<T, R> Allocator<T, R, Dyn> for DefaultAllocator
impl<T, R> Allocator<T, R, Dyn> for DefaultAllocator
§type Buffer = VecStorage<T, R, Dyn>
type Buffer = VecStorage<T, R, Dyn>
The type of buffer this allocator can instantiate.
§type BufferUninit = VecStorage<MaybeUninit<T>, R, Dyn>
type BufferUninit = VecStorage<MaybeUninit<T>, R, Dyn>
The type of buffer with uninitialized components this allocator can instantiate.
source§fn allocate_uninit(nrows: R, ncols: Dyn) -> VecStorage<MaybeUninit<T>, R, Dyn>
fn allocate_uninit(nrows: R, ncols: Dyn) -> VecStorage<MaybeUninit<T>, R, Dyn>
Allocates a buffer with the given number of rows and columns without initializing its content.
source§unsafe fn assume_init(
uninit: VecStorage<MaybeUninit<T>, R, Dyn>,
) -> VecStorage<T, R, Dyn>
unsafe fn assume_init( uninit: VecStorage<MaybeUninit<T>, R, Dyn>, ) -> VecStorage<T, R, Dyn>
Assumes a data buffer to be initialized. Read more
source§fn allocate_from_iterator<I>(
nrows: R,
ncols: Dyn,
iter: I,
) -> <DefaultAllocator as Allocator<T, R, Dyn>>::Bufferwhere
I: IntoIterator<Item = T>,
fn allocate_from_iterator<I>(
nrows: R,
ncols: Dyn,
iter: I,
) -> <DefaultAllocator as Allocator<T, R, Dyn>>::Bufferwhere
I: IntoIterator<Item = T>,
Allocates a buffer initialized with the content of the given iterator.
source§fn allocate_from_row_iterator<I>(nrows: R, ncols: C, iter: I) -> Self::Bufferwhere
I: IntoIterator<Item = T>,
fn allocate_from_row_iterator<I>(nrows: R, ncols: C, iter: I) -> Self::Bufferwhere
I: IntoIterator<Item = T>,
Allocates a buffer initialized with the content of the given row-major order iterator.
source§impl Dim for Dyn
impl Dim for Dyn
source§fn try_to_usize() -> Option<usize>
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
.source§fn from_usize(dim: usize) -> Dyn
fn from_usize(dim: usize) -> Dyn
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()
.source§fn value(&self) -> usize
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()
.fn is<D>() -> boolwhere
D: Dim,
source§impl<D> DimEq<D, Dyn> for ShapeConstraintwhere
D: DimName,
impl<D> DimEq<D, Dyn> for ShapeConstraintwhere
D: DimName,
§type Representative = D
type Representative = D
This is either equal to
D1
or D2
, always choosing the one (if any) which is a type-level
constant.source§impl<D> DimEq<Dyn, D> for ShapeConstraintwhere
D: DimName,
impl<D> DimEq<Dyn, D> for ShapeConstraintwhere
D: DimName,
§type Representative = D
type Representative = D
This is either equal to
D1
or D2
, always choosing the one (if any) which is a type-level
constant.source§impl<T, C> RawStorage<T, Dyn, C> for VecStorage<T, Dyn, C>where
C: Dim,
impl<T, C> RawStorage<T, Dyn, C> for VecStorage<T, Dyn, C>where
C: Dim,
source§fn shape(&self) -> (Dyn, C)
fn shape(&self) -> (Dyn, 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
.source§fn strides(
&self,
) -> (<VecStorage<T, Dyn, C> as RawStorage<T, Dyn, C>>::RStride, <VecStorage<T, Dyn, C> as RawStorage<T, Dyn, C>>::CStride)
fn strides( &self, ) -> (<VecStorage<T, Dyn, C> as RawStorage<T, Dyn, C>>::RStride, <VecStorage<T, Dyn, C> as RawStorage<T, Dyn, C>>::CStride)
The spacing between consecutive row elements and consecutive column elements. Read more
source§fn is_contiguous(&self) -> bool
fn is_contiguous(&self) -> bool
Indicates whether this data buffer stores its elements contiguously. Read more
source§unsafe fn as_slice_unchecked(&self) -> &[T]
unsafe fn as_slice_unchecked(&self) -> &[T]
Retrieves the data buffer as a contiguous slice. Read more
source§fn linear_index(&self, irow: usize, icol: usize) -> usize
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
source§fn get_address_unchecked_linear(&self, i: usize) -> *const T
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
source§fn get_address_unchecked(&self, irow: usize, icol: usize) -> *const T
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
source§impl<T, R> RawStorage<T, R, Dyn> for VecStorage<T, R, Dyn>where
R: DimName,
impl<T, R> RawStorage<T, R, Dyn> for VecStorage<T, R, Dyn>where
R: DimName,
source§fn shape(&self) -> (R, Dyn)
fn shape(&self) -> (R, Dyn)
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
.source§fn strides(
&self,
) -> (<VecStorage<T, R, Dyn> as RawStorage<T, R, Dyn>>::RStride, <VecStorage<T, R, Dyn> as RawStorage<T, R, Dyn>>::CStride)
fn strides( &self, ) -> (<VecStorage<T, R, Dyn> as RawStorage<T, R, Dyn>>::RStride, <VecStorage<T, R, Dyn> as RawStorage<T, R, Dyn>>::CStride)
The spacing between consecutive row elements and consecutive column elements. Read more
source§fn is_contiguous(&self) -> bool
fn is_contiguous(&self) -> bool
Indicates whether this data buffer stores its elements contiguously. Read more
source§unsafe fn as_slice_unchecked(&self) -> &[T]
unsafe fn as_slice_unchecked(&self) -> &[T]
Retrieves the data buffer as a contiguous slice. Read more
source§fn linear_index(&self, irow: usize, icol: usize) -> usize
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
source§fn get_address_unchecked_linear(&self, i: usize) -> *const T
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
source§fn get_address_unchecked(&self, irow: usize, icol: usize) -> *const T
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
source§impl<T, C> RawStorageMut<T, Dyn, C> for VecStorage<T, Dyn, C>where
C: Dim,
impl<T, C> RawStorageMut<T, Dyn, C> for VecStorage<T, Dyn, C>where
C: Dim,
source§unsafe fn as_mut_slice_unchecked(&mut self) -> &mut [T]
unsafe fn as_mut_slice_unchecked(&mut self) -> &mut [T]
Retrieves the mutable data buffer as a contiguous slice. Read more
source§fn get_address_unchecked_linear_mut(&mut self, i: usize) -> *mut T
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
source§fn get_address_unchecked_mut(&mut self, irow: usize, icol: usize) -> *mut T
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
source§unsafe fn get_unchecked_linear_mut(&mut self, i: usize) -> &mut T
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
source§unsafe fn get_unchecked_mut(&mut self, irow: usize, icol: usize) -> &mut T
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 moresource§impl<T, R> RawStorageMut<T, R, Dyn> for VecStorage<T, R, Dyn>where
R: DimName,
impl<T, R> RawStorageMut<T, R, Dyn> for VecStorage<T, R, Dyn>where
R: DimName,
source§unsafe fn as_mut_slice_unchecked(&mut self) -> &mut [T]
unsafe fn as_mut_slice_unchecked(&mut self) -> &mut [T]
Retrieves the mutable data buffer as a contiguous slice. Read more
source§fn get_address_unchecked_linear_mut(&mut self, i: usize) -> *mut T
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
source§fn get_address_unchecked_mut(&mut self, irow: usize, icol: usize) -> *mut T
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
source§unsafe fn get_unchecked_linear_mut(&mut self, i: usize) -> &mut T
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
source§unsafe fn get_unchecked_mut(&mut self, irow: usize, icol: usize) -> &mut T
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 moresource§impl<T, CTo, const RFROM: usize, const CFROM: usize> Reallocator<T, Const<RFROM>, Const<CFROM>, Dyn, CTo> for DefaultAllocator
impl<T, CTo, const RFROM: usize, const CFROM: usize> Reallocator<T, Const<RFROM>, Const<CFROM>, Dyn, CTo> for DefaultAllocator
source§unsafe fn reallocate_copy(
rto: Dyn,
cto: CTo,
buf: ArrayStorage<T, RFROM, CFROM>,
) -> VecStorage<MaybeUninit<T>, Dyn, CTo>
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 moresource§impl<T, RTo, const RFROM: usize, const CFROM: usize> Reallocator<T, Const<RFROM>, Const<CFROM>, RTo, Dyn> for DefaultAllocator
impl<T, RTo, const RFROM: usize, const CFROM: usize> Reallocator<T, Const<RFROM>, Const<CFROM>, RTo, Dyn> for DefaultAllocator
source§unsafe fn reallocate_copy(
rto: RTo,
cto: Dyn,
buf: ArrayStorage<T, RFROM, CFROM>,
) -> VecStorage<MaybeUninit<T>, RTo, Dyn>
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 moresource§impl<T, CFrom, CTo> Reallocator<T, Dyn, CFrom, Dyn, CTo> for DefaultAllocator
impl<T, CFrom, CTo> Reallocator<T, Dyn, CFrom, Dyn, CTo> for DefaultAllocator
source§unsafe fn reallocate_copy(
rto: Dyn,
cto: CTo,
buf: VecStorage<T, Dyn, CFrom>,
) -> VecStorage<MaybeUninit<T>, Dyn, CTo>
unsafe fn reallocate_copy( rto: Dyn, cto: CTo, buf: VecStorage<T, Dyn, 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 moresource§impl<T, CFrom, RTo> Reallocator<T, Dyn, CFrom, RTo, Dyn> for DefaultAllocator
impl<T, CFrom, RTo> Reallocator<T, Dyn, CFrom, RTo, Dyn> for DefaultAllocator
source§unsafe fn reallocate_copy(
rto: RTo,
cto: Dyn,
buf: VecStorage<T, Dyn, CFrom>,
) -> VecStorage<MaybeUninit<T>, RTo, Dyn>
unsafe fn reallocate_copy( rto: RTo, cto: Dyn, buf: VecStorage<T, Dyn, 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 moresource§impl<T, RFrom, CTo> Reallocator<T, RFrom, Dyn, Dyn, CTo> for DefaultAllocator
impl<T, RFrom, CTo> Reallocator<T, RFrom, Dyn, Dyn, CTo> for DefaultAllocator
source§unsafe fn reallocate_copy(
rto: Dyn,
cto: CTo,
buf: VecStorage<T, RFrom, Dyn>,
) -> VecStorage<MaybeUninit<T>, Dyn, CTo>
unsafe fn reallocate_copy( rto: Dyn, cto: CTo, buf: VecStorage<T, RFrom, Dyn>, ) -> 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 moresource§impl<T, RFrom, RTo> Reallocator<T, RFrom, Dyn, RTo, Dyn> for DefaultAllocator
impl<T, RFrom, RTo> Reallocator<T, RFrom, Dyn, RTo, Dyn> for DefaultAllocator
source§unsafe fn reallocate_copy(
rto: RTo,
cto: Dyn,
buf: VecStorage<T, RFrom, Dyn>,
) -> VecStorage<MaybeUninit<T>, RTo, Dyn>
unsafe fn reallocate_copy( rto: RTo, cto: Dyn, buf: VecStorage<T, RFrom, Dyn>, ) -> 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 moresource§impl<T, C1, C2> ReshapableStorage<T, Dyn, C1, Dyn, C2> for VecStorage<T, Dyn, C1>
impl<T, C1, C2> ReshapableStorage<T, Dyn, C1, Dyn, C2> for VecStorage<T, Dyn, C1>
§type Output = VecStorage<T, Dyn, C2>
type Output = VecStorage<T, Dyn, C2>
The reshaped storage type.
source§fn reshape_generic(
self,
nrows: Dyn,
ncols: C2,
) -> <VecStorage<T, Dyn, C1> as ReshapableStorage<T, Dyn, C1, Dyn, C2>>::Output
fn reshape_generic( self, nrows: Dyn, ncols: C2, ) -> <VecStorage<T, Dyn, C1> as ReshapableStorage<T, Dyn, C1, Dyn, C2>>::Output
Reshapes the storage into the output storage type.
source§impl<T, C1, R2> ReshapableStorage<T, Dyn, C1, R2, Dyn> for VecStorage<T, Dyn, C1>
impl<T, C1, R2> ReshapableStorage<T, Dyn, C1, R2, Dyn> for VecStorage<T, Dyn, C1>
§type Output = VecStorage<T, R2, Dyn>
type Output = VecStorage<T, R2, Dyn>
The reshaped storage type.
source§fn reshape_generic(
self,
nrows: R2,
ncols: Dyn,
) -> <VecStorage<T, Dyn, C1> as ReshapableStorage<T, Dyn, C1, R2, Dyn>>::Output
fn reshape_generic( self, nrows: R2, ncols: Dyn, ) -> <VecStorage<T, Dyn, C1> as ReshapableStorage<T, Dyn, C1, R2, Dyn>>::Output
Reshapes the storage into the output storage type.
source§impl<T, R1, C2> ReshapableStorage<T, R1, Dyn, Dyn, C2> for VecStorage<T, R1, Dyn>
impl<T, R1, C2> ReshapableStorage<T, R1, Dyn, Dyn, C2> for VecStorage<T, R1, Dyn>
§type Output = VecStorage<T, Dyn, C2>
type Output = VecStorage<T, Dyn, C2>
The reshaped storage type.
source§fn reshape_generic(
self,
nrows: Dyn,
ncols: C2,
) -> <VecStorage<T, R1, Dyn> as ReshapableStorage<T, R1, Dyn, Dyn, C2>>::Output
fn reshape_generic( self, nrows: Dyn, ncols: C2, ) -> <VecStorage<T, R1, Dyn> as ReshapableStorage<T, R1, Dyn, Dyn, C2>>::Output
Reshapes the storage into the output storage type.
source§impl<T, R1, R2> ReshapableStorage<T, R1, Dyn, R2, Dyn> for VecStorage<T, R1, Dyn>
impl<T, R1, R2> ReshapableStorage<T, R1, Dyn, R2, Dyn> for VecStorage<T, R1, Dyn>
§type Output = VecStorage<T, R2, Dyn>
type Output = VecStorage<T, R2, Dyn>
The reshaped storage type.
source§fn reshape_generic(
self,
nrows: R2,
ncols: Dyn,
) -> <VecStorage<T, R1, Dyn> as ReshapableStorage<T, R1, Dyn, R2, Dyn>>::Output
fn reshape_generic( self, nrows: R2, ncols: Dyn, ) -> <VecStorage<T, R1, Dyn> as ReshapableStorage<T, R1, Dyn, R2, Dyn>>::Output
Reshapes the storage into the output storage type.
source§impl<D> SameDimension<D, Dyn> for ShapeConstraintwhere
D: DimName,
impl<D> SameDimension<D, Dyn> for ShapeConstraintwhere
D: DimName,
§type Representative = D
type Representative = D
This is either equal to
D1
or D2
, always choosing the one (if any) which is a type-level
constant.source§impl<D> SameDimension<Dyn, D> for ShapeConstraintwhere
D: DimName,
impl<D> SameDimension<Dyn, D> for ShapeConstraintwhere
D: DimName,
§type Representative = D
type Representative = D
This is either equal to
D1
or D2
, always choosing the one (if any) which is a type-level
constant.source§impl<D> SameNumberOfColumns<D, Dyn> for ShapeConstraintwhere
D: DimName,
impl<D> SameNumberOfColumns<D, Dyn> for ShapeConstraintwhere
D: DimName,
§type Representative = D
type Representative = D
This is either equal to
D1
or D2
, always choosing the one (if any) which is a type-level
constant.source§impl<D> SameNumberOfColumns<Dyn, D> for ShapeConstraintwhere
D: DimName,
impl<D> SameNumberOfColumns<Dyn, D> for ShapeConstraintwhere
D: DimName,
§type Representative = D
type Representative = D
This is either equal to
D1
or D2
, always choosing the one (if any) which is a type-level
constant.source§impl<D> SameNumberOfRows<D, Dyn> for ShapeConstraintwhere
D: DimName,
impl<D> SameNumberOfRows<D, Dyn> for ShapeConstraintwhere
D: DimName,
§type Representative = D
type Representative = D
This is either equal to
D1
or D2
, always choosing the one (if any) which is a type-level
constant.source§impl<D> SameNumberOfRows<Dyn, D> for ShapeConstraintwhere
D: DimName,
impl<D> SameNumberOfRows<Dyn, D> for ShapeConstraintwhere
D: DimName,
§type Representative = D
type Representative = D
This is either equal to
D1
or D2
, always choosing the one (if any) which is a type-level
constant.source§impl<T, C> Storage<T, Dyn, C> for VecStorage<T, Dyn, C>
impl<T, C> Storage<T, Dyn, C> for VecStorage<T, Dyn, C>
source§fn into_owned(self) -> <DefaultAllocator as Allocator<T, Dyn, C>>::Buffer
fn into_owned(self) -> <DefaultAllocator as Allocator<T, Dyn, C>>::Buffer
Builds a matrix data storage that does not contain any reference.
source§fn clone_owned(&self) -> <DefaultAllocator as Allocator<T, Dyn, C>>::Buffer
fn clone_owned(&self) -> <DefaultAllocator as Allocator<T, Dyn, C>>::Buffer
Clones this data storage to one that does not contain any reference.
source§impl<T, R> Storage<T, R, Dyn> for VecStorage<T, R, Dyn>where
T: Scalar,
R: DimName,
DefaultAllocator: Allocator<T, R, Dyn, Buffer = VecStorage<T, R, Dyn>>,
impl<T, R> Storage<T, R, Dyn> for VecStorage<T, R, Dyn>where
T: Scalar,
R: DimName,
DefaultAllocator: Allocator<T, R, Dyn, Buffer = VecStorage<T, R, Dyn>>,
source§fn into_owned(self) -> <DefaultAllocator as Allocator<T, R, Dyn>>::Buffer
fn into_owned(self) -> <DefaultAllocator as Allocator<T, R, Dyn>>::Buffer
Builds a matrix data storage that does not contain any reference.
source§fn clone_owned(&self) -> <DefaultAllocator as Allocator<T, R, Dyn>>::Buffer
fn clone_owned(&self) -> <DefaultAllocator as Allocator<T, R, Dyn>>::Buffer
Clones this data storage to one that does not contain any reference.
impl Copy for Dyn
impl Eq for Dyn
impl IsDynamic for Dyn
impl IsNotStaticOne for Dyn
impl StructuralPartialEq for Dyn
Auto Trait Implementations§
impl Freeze for Dyn
impl RefUnwindSafe for Dyn
impl Send for Dyn
impl Sync for Dyn
impl Unpin for Dyn
impl UnwindSafe for Dyn
Blanket Implementations§
§impl<T, U> AsBindGroupShaderType<U> for T
impl<T, U> AsBindGroupShaderType<U> for T
§fn as_bind_group_shader_type(&self, _images: &RenderAssets<Image>) -> U
fn as_bind_group_shader_type(&self, _images: &RenderAssets<Image>) -> U
Return the
T
[ShaderType
] for self
. When used in [AsBindGroup
]
derives, it is safe to assume that all images in self
exist.§impl<'a, T, E> AsTaggedExplicit<'a, E> for Twhere
T: 'a,
impl<'a, T, E> AsTaggedExplicit<'a, E> for Twhere
T: 'a,
§impl<'a, T, E> AsTaggedImplicit<'a, E> for Twhere
T: 'a,
impl<'a, T, E> AsTaggedImplicit<'a, E> for Twhere
T: 'a,
source§impl<T> BorrowMut<T> for Twhere
T: ?Sized,
impl<T> BorrowMut<T> for Twhere
T: ?Sized,
source§fn borrow_mut(&mut self) -> &mut T
fn borrow_mut(&mut self) -> &mut T
Mutably borrows from an owned value. Read more
source§impl<T> CloneToUninit for Twhere
T: Copy,
impl<T> CloneToUninit for Twhere
T: Copy,
source§unsafe fn clone_to_uninit(&self, dst: *mut T)
unsafe fn clone_to_uninit(&self, dst: *mut T)
🔬This is a nightly-only experimental API. (
clone_to_uninit
)source§impl<T> CloneToUninit for Twhere
T: Clone,
impl<T> CloneToUninit for Twhere
T: Clone,
source§default unsafe fn clone_to_uninit(&self, dst: *mut T)
default unsafe fn clone_to_uninit(&self, dst: *mut T)
🔬This is a nightly-only experimental API. (
clone_to_uninit
)§impl<T> Conv for T
impl<T> Conv for T
§impl<T> Downcast for Twhere
T: Any,
impl<T> Downcast for Twhere
T: Any,
§fn into_any(self: Box<T>) -> Box<dyn Any>
fn into_any(self: Box<T>) -> Box<dyn Any>
Convert
Box<dyn Trait>
(where Trait: Downcast
) to Box<dyn Any>
. Box<dyn Any>
can
then be further downcast
into Box<ConcreteType>
where ConcreteType
implements Trait
.§fn into_any_rc(self: Rc<T>) -> Rc<dyn Any>
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