TensorSpan<T> Constructors
Definition
Important
Some information relates to prerelease product that may be substantially modified before it’s released. Microsoft makes no warranties, express or implied, with respect to the information provided here.
Overloads
TensorSpan<T>(Array) |
Creates a new TensorSpan<T> over the provided Array. The new TensorSpan<T> will have a rank of 1 and a length equal to the length of the provided Array. |
TensorSpan<T>(T[], Int32, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>) |
Creates a new span over the portion of the target array beginning at 'start' index and ending at 'end' index (exclusive). |
TensorSpan<T>(T*, IntPtr, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>) |
Creates a new span over the target unmanaged buffer. Clearly this is quite dangerous, because the length is not checked. But if this creation is correct, then all subsequent uses are correct. |
TensorSpan<T>(Array, ReadOnlySpan<Int32>, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>) |
Creates a new TensorSpan<T> over the provided Array using the specified start offsets, lengths, and strides. If the strides are not provided, they will be automatically calculated. |
TensorSpan<T>(Array, ReadOnlySpan<NIndex>, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>) |
Creates a new TensorSpan<T> over the provided Array using the specified start offsets, lengths, and strides. If the strides are not provided, they will be automatically calculated. |
TensorSpan<T>(T[], Index, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>) |
Creates a new span over the portion of the target array beginning at 'start' index and ending at 'end' index (exclusive). |
TensorSpan<T>(T*, IntPtr) |
Creates a new span over the target unmanaged buffer. Clearly this is quite dangerous the length is not checked. But if this creation is correct, then all subsequent uses are correct. |
TensorSpan<T>(T[]) |
Creates a new span over the entirety of the target array. |
TensorSpan<T>(Span<T>) |
Creates a new TensorSpan<T> over the provided Span<T>. The new TensorSpan<T> will have a rank of 1 and a length equal to the length of the provided Span<T>. |
TensorSpan<T>(Span<T>, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>) |
Creates a new TensorSpan<T> over the provided Span<T> using the specified lengths and strides. If the strides are not provided, they will be automatically calculated. |
TensorSpan<T>(Array)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Creates a new TensorSpan<T> over the provided Array. The new TensorSpan<T> will have a rank of 1 and a length equal to the length of the provided Array.
public:
TensorSpan(Array ^ array);
public TensorSpan (Array? array);
new System.Numerics.Tensors.TensorSpan<'T> : Array -> System.Numerics.Tensors.TensorSpan<'T>
Public Sub New (array As Array)
Parameters
- array
- Array
The target array.
Applies to
TensorSpan<T>(T[], Int32, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Creates a new span over the portion of the target array beginning at 'start' index and ending at 'end' index (exclusive).
public:
TensorSpan(cli::array <T> ^ array, int start, ReadOnlySpan<IntPtr> lengths, ReadOnlySpan<IntPtr> strides);
public TensorSpan (T[]? array, int start, scoped ReadOnlySpan<IntPtr> lengths, scoped ReadOnlySpan<IntPtr> strides);
new System.Numerics.Tensors.TensorSpan<'T> : 'T[] * int * ReadOnlySpan<nativeint> * ReadOnlySpan<nativeint> -> System.Numerics.Tensors.TensorSpan<'T>
Public Sub New (array As T(), start As Integer, lengths As ReadOnlySpan(Of IntPtr), strides As ReadOnlySpan(Of IntPtr))
Parameters
- array
- T[]
The target array.
- start
- Int32
The index at which to begin the span.
- lengths
-
ReadOnlySpan<nativeint>
The lengths of the dimensions. If default is provided its assumed to have 1 dimension with a length equal to the length of the data.
- strides
-
ReadOnlySpan<nativeint>
The strides of each dimension. If default or span of length 0 is provided then strides will be automatically calculated.
Exceptions
Thrown when array
is covariant and array's type is not exactly T[].
Thrown when the specified start
or end index is not in the range (<0 or >FlattenedLength).
Remarks
Returns default when array
is null.
Applies to
TensorSpan<T>(T*, IntPtr, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Important
This API is not CLS-compliant.
Creates a new span over the target unmanaged buffer. Clearly this is quite dangerous, because the length is not checked. But if this creation is correct, then all subsequent uses are correct.
public:
TensorSpan(T* data, IntPtr dataLength, ReadOnlySpan<IntPtr> lengths, ReadOnlySpan<IntPtr> strides);
[System.CLSCompliant(false)]
public TensorSpan (T* data, IntPtr dataLength, scoped ReadOnlySpan<IntPtr> lengths, scoped ReadOnlySpan<IntPtr> strides);
[<System.CLSCompliant(false)>]
new System.Numerics.Tensors.TensorSpan<'T> : nativeptr<'T> * nativeint * ReadOnlySpan<nativeint> * ReadOnlySpan<nativeint> -> System.Numerics.Tensors.TensorSpan<'T>
Parameters
- data
- T*
An unmanaged data to memory.
- dataLength
-
IntPtr
nativeint
The number of elements the unmanaged memory can hold.
- lengths
-
ReadOnlySpan<nativeint>
The lengths of the dimensions. If default is provided its assumed to have 1 dimension with a length equal to the length of the data.
- strides
-
ReadOnlySpan<nativeint>
The lengths of the strides. If nothing is provided it figures out the default stride configuration.
- Attributes
Exceptions
Thrown when T
is reference type or contains pointers and hence cannot be stored in unmanaged memory.
Thrown when the specified length is negative.
Applies to
TensorSpan<T>(Array, ReadOnlySpan<Int32>, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Creates a new TensorSpan<T> over the provided Array using the specified start offsets, lengths, and strides. If the strides are not provided, they will be automatically calculated.
public:
TensorSpan(Array ^ array, ReadOnlySpan<int> start, ReadOnlySpan<IntPtr> lengths, ReadOnlySpan<IntPtr> strides);
public TensorSpan (Array? array, scoped ReadOnlySpan<int> start, scoped ReadOnlySpan<IntPtr> lengths, scoped ReadOnlySpan<IntPtr> strides);
new System.Numerics.Tensors.TensorSpan<'T> : Array * ReadOnlySpan<int> * ReadOnlySpan<nativeint> * ReadOnlySpan<nativeint> -> System.Numerics.Tensors.TensorSpan<'T>
Public Sub New (array As Array, start As ReadOnlySpan(Of Integer), lengths As ReadOnlySpan(Of IntPtr), strides As ReadOnlySpan(Of IntPtr))
Parameters
- array
- Array
The target array.
- start
- ReadOnlySpan<Int32>
The starting offset for each dimension.
- lengths
-
ReadOnlySpan<nativeint>
The lengths of each dimension.
- strides
-
ReadOnlySpan<nativeint>
The strides for each dimension. Will be automatically calculated if not provided.
Applies to
TensorSpan<T>(Array, ReadOnlySpan<NIndex>, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Creates a new TensorSpan<T> over the provided Array using the specified start offsets, lengths, and strides. If the strides are not provided, they will be automatically calculated.
public:
TensorSpan(Array ^ array, ReadOnlySpan<System::Buffers::NIndex> startIndex, ReadOnlySpan<IntPtr> lengths, ReadOnlySpan<IntPtr> strides);
public TensorSpan (Array? array, scoped ReadOnlySpan<System.Buffers.NIndex> startIndex, scoped ReadOnlySpan<IntPtr> lengths, scoped ReadOnlySpan<IntPtr> strides);
new System.Numerics.Tensors.TensorSpan<'T> : Array * ReadOnlySpan<System.Buffers.NIndex> * ReadOnlySpan<nativeint> * ReadOnlySpan<nativeint> -> System.Numerics.Tensors.TensorSpan<'T>
Public Sub New (array As Array, startIndex As ReadOnlySpan(Of NIndex), lengths As ReadOnlySpan(Of IntPtr), strides As ReadOnlySpan(Of IntPtr))
Parameters
- array
- Array
The target array.
- startIndex
- ReadOnlySpan<NIndex>
The starting offset for each dimension.
- lengths
-
ReadOnlySpan<nativeint>
The lengths of each dimension.
- strides
-
ReadOnlySpan<nativeint>
The strides for each dimension. Will be automatically calculated if not provided.
Applies to
TensorSpan<T>(T[], Index, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Creates a new span over the portion of the target array beginning at 'start' index and ending at 'end' index (exclusive).
public:
TensorSpan(cli::array <T> ^ array, Index startIndex, ReadOnlySpan<IntPtr> lengths, ReadOnlySpan<IntPtr> strides);
public TensorSpan (T[]? array, Index startIndex, scoped ReadOnlySpan<IntPtr> lengths, scoped ReadOnlySpan<IntPtr> strides);
new System.Numerics.Tensors.TensorSpan<'T> : 'T[] * Index * ReadOnlySpan<nativeint> * ReadOnlySpan<nativeint> -> System.Numerics.Tensors.TensorSpan<'T>
Public Sub New (array As T(), startIndex As Index, lengths As ReadOnlySpan(Of IntPtr), strides As ReadOnlySpan(Of IntPtr))
Parameters
- array
- T[]
The target array.
- startIndex
- Index
The index at which to begin the span.
- lengths
-
ReadOnlySpan<nativeint>
The lengths of the dimensions. If default is provided its assumed to have 1 dimension with a length equal to the length of the data.
- strides
-
ReadOnlySpan<nativeint>
The strides of each dimension. If default or span of length 0 is provided then strides will be automatically calculated.
Exceptions
Thrown when array
is covariant and array's type is not exactly T[].
Thrown when the specified startIndex
or end index is not in the range (<0 or >FlattenedLength).
Remarks
Returns default when array
is null.
Applies to
TensorSpan<T>(T*, IntPtr)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Important
This API is not CLS-compliant.
Creates a new span over the target unmanaged buffer. Clearly this is quite dangerous the length is not checked. But if this creation is correct, then all subsequent uses are correct.
public:
TensorSpan(T* data, IntPtr dataLength);
[System.CLSCompliant(false)]
public TensorSpan (T* data, IntPtr dataLength);
[<System.CLSCompliant(false)>]
new System.Numerics.Tensors.TensorSpan<'T> : nativeptr<'T> * nativeint -> System.Numerics.Tensors.TensorSpan<'T>
Parameters
- data
- T*
An unmanaged data to memory.
- dataLength
-
IntPtr
nativeint
The number of elements the unmanaged memory can hold.
- Attributes
Remarks
Clearly this is quite dangerous the length is not checked. But if this creation is correct, then all subsequent uses are correct.
Applies to
TensorSpan<T>(T[])
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Creates a new span over the entirety of the target array.
public:
TensorSpan(cli::array <T> ^ array);
public TensorSpan (T[]? array);
new System.Numerics.Tensors.TensorSpan<'T> : 'T[] -> System.Numerics.Tensors.TensorSpan<'T>
Public Sub New (array As T())
Parameters
- array
- T[]
The target array.
Exceptions
Thrown when array
is covariant and array's type is not exactly T[].
Remarks
Returns default when array
is null.
Applies to
TensorSpan<T>(Span<T>)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Creates a new TensorSpan<T> over the provided Span<T>. The new TensorSpan<T> will have a rank of 1 and a length equal to the length of the provided Span<T>.
public:
TensorSpan(Span<T> span);
public TensorSpan (Span<T> span);
new System.Numerics.Tensors.TensorSpan<'T> : Span<'T> -> System.Numerics.Tensors.TensorSpan<'T>
Public Sub New (span As Span(Of T))
Parameters
- span
- Span<T>
The target span.
Applies to
TensorSpan<T>(Span<T>, ReadOnlySpan<IntPtr>, ReadOnlySpan<IntPtr>)
- Source:
- TensorSpan.cs
- Source:
- TensorSpan.cs
Creates a new TensorSpan<T> over the provided Span<T> using the specified lengths and strides. If the strides are not provided, they will be automatically calculated.
public:
TensorSpan(Span<T> span, ReadOnlySpan<IntPtr> lengths, ReadOnlySpan<IntPtr> strides);
public TensorSpan (Span<T> span, scoped ReadOnlySpan<IntPtr> lengths, scoped ReadOnlySpan<IntPtr> strides);
new System.Numerics.Tensors.TensorSpan<'T> : Span<'T> * ReadOnlySpan<nativeint> * ReadOnlySpan<nativeint> -> System.Numerics.Tensors.TensorSpan<'T>
Public Sub New (span As Span(Of T), lengths As ReadOnlySpan(Of IntPtr), strides As ReadOnlySpan(Of IntPtr))
Parameters
- span
- Span<T>
The target span.
- lengths
-
ReadOnlySpan<nativeint>
The lengths of each dimension.
- strides
-
ReadOnlySpan<nativeint>
The strides for each dimension. Will be automatically calculated if not provided.