Struct IntoDynLayout 

pub struct IntoDynLayout<L: Layout<SourceCoordinates: IntoDyn> + ViewLayoutLaunchArg> { /* private fields */ }

Implementations

impl<L: Layout<SourceCoordinates: IntoDyn> + ViewLayoutLaunchArg> IntoDynLayout<L>

pub fn new(layout: L) -> Self

Trait Implementations

impl<L: Layout<SourceCoordinates: IntoDyn> + ViewLayoutLaunchArg> CubeType for IntoDynLayout<L>

type ExpandType = IntoDynLayoutExpand<L>

impl<L: Layout<SourceCoordinates: IntoDyn> + ViewLayoutLaunchArg> Layout for IntoDynLayout<L>

type Coordinates = <L as Layout>::Coordinates

The coordinate type used by the conceptual tensor represented by this layout, i.e. (u32, u32, u32) for a fixed-rank 3D tensor. This does not have to match the rank of the underlying storage (if applicable). It’s only how the tensor is interpreted (viewed) by the code.

type SourceCoordinates = Sequence<i32>

The coordinate type used by the inner storage wrapped in this layout, i.e. u32 for Array, or (u32, u32) for a 2D view.

fn to_source_pos(&self, pos: Self::Coordinates) -> Self::SourceCoordinates

Transform a set of n-dimensional coordinates to a source coordinate space. It is recommended to use absolute positions here, and handle the translation into vectors at the lowest level (global memory layout).

fn is_in_bounds(&self, pos: Self::Coordinates) -> bool

fn to_source_pos_checked( &self, pos: Self::Coordinates, ) -> (Self::SourceCoordinates, bool)

Transform a set of n-dimensional coordinates to an offset into the underlying storage, and return whether the position is in bounds of this layout. See also Layout::to_source_pos

fn shape(&self) -> Self::Coordinates

The shape of the conceptual tensor represented by this layout. Not necessarily the extent of the underlying storage, but only this view of it.

fn __expand_to_source_pos( scope: &mut Scope, this: <Self as CubeType>::ExpandType, pos: <Self::Coordinates as CubeType>::ExpandType, ) -> <Self::SourceCoordinates as CubeType>::ExpandType

fn __expand_to_source_pos_checked( scope: &mut Scope, this: <Self as CubeType>::ExpandType, pos: <Self::Coordinates as CubeType>::ExpandType, ) -> <(Self::SourceCoordinates, bool) as CubeType>::ExpandType

fn __expand_shape( scope: &mut Scope, this: <Self as CubeType>::ExpandType, ) -> <Self::Coordinates as CubeType>::ExpandType

fn __expand_is_in_bounds( scope: &mut Scope, this: <Self as CubeType>::ExpandType, pos: <Self::Coordinates as CubeType>::ExpandType, ) -> <bool as CubeType>::ExpandType

impl<L: Layout<SourceCoordinates: IntoDyn> + ViewLayoutLaunchArg> ViewLayoutLaunchArg for IntoDynLayout<L>

type RuntimeArg<R: Runtime> = <L as ViewLayoutLaunchArg>::RuntimeArg<R>

The runtime argument for the kernel.

type CompilationArg = <L as ViewLayoutLaunchArg>::CompilationArg

Compilation argument.

fn register<R: Runtime, B: BufferArg>( arg: Self::RuntimeArg<R>, buffer: &B, ty: Type, launcher: &mut KernelLauncher<R>, ) -> Self::CompilationArg

fn expand( arg: &Self::CompilationArg, ty: Type, builder: &mut KernelBuilder, ) -> <Self as CubeType>::ExpandType

Register an input variable during compilation that fill the KernelBuilder.

fn expand_output( arg: &Self::CompilationArg, ty: Type, builder: &mut KernelBuilder, ) -> <Self as CubeType>::ExpandType

Register an output variable during compilation that fill the KernelBuilder.