Skip to content
New issue

Have a question about this project? Sign up for a free GitHub account to open an issue and contact its maintainers and the community.

By clicking “Sign up for GitHub”, you agree to our terms of service and privacy statement. We’ll occasionally send you account related emails.

Already on GitHub? Sign in to your account

Add TensorPrimitives.Max/MinNumber #101435

Merged
merged 2 commits into from
Apr 25, 2024
Merged
Show file tree
Hide file tree
Changes from all commits
Commits
File filter

Filter by extension

Filter by extension


Conversations
Failed to load comments.
Loading
Jump to
Jump to file
Failed to load files.
Loading
Diff view
Diff view
Original file line number Diff line number Diff line change
Expand Up @@ -89,12 +89,18 @@ public static void MaxMagnitude<T>(System.ReadOnlySpan<T> x, T y, System.Span<T>
public static T Max<T>(System.ReadOnlySpan<T> x) where T : System.Numerics.INumber<T> { throw null; }
public static void Max<T>(System.ReadOnlySpan<T> x, System.ReadOnlySpan<T> y, System.Span<T> destination) where T : System.Numerics.INumber<T> { }
public static void Max<T>(System.ReadOnlySpan<T> x, T y, System.Span<T> destination) where T : System.Numerics.INumber<T> { }
public static T MaxNumber<T>(System.ReadOnlySpan<T> x) where T : System.Numerics.INumber<T> { throw null; }
public static void MaxNumber<T>(System.ReadOnlySpan<T> x, System.ReadOnlySpan<T> y, System.Span<T> destination) where T : System.Numerics.INumber<T> { }
public static void MaxNumber<T>(System.ReadOnlySpan<T> x, T y, System.Span<T> destination) where T : System.Numerics.INumber<T> { }
public static T MinMagnitude<T>(System.ReadOnlySpan<T> x) where T : System.Numerics.INumberBase<T> { throw null; }
public static void MinMagnitude<T>(System.ReadOnlySpan<T> x, System.ReadOnlySpan<T> y, System.Span<T> destination) where T : System.Numerics.INumberBase<T> { }
public static void MinMagnitude<T>(System.ReadOnlySpan<T> x, T y, System.Span<T> destination) where T : System.Numerics.INumberBase<T> { }
public static T Min<T>(System.ReadOnlySpan<T> x) where T : System.Numerics.INumber<T> { throw null; }
public static void Min<T>(System.ReadOnlySpan<T> x, System.ReadOnlySpan<T> y, System.Span<T> destination) where T : System.Numerics.INumber<T> { }
public static void Min<T>(System.ReadOnlySpan<T> x, T y, System.Span<T> destination) where T : System.Numerics.INumber<T> { }
public static T MinNumber<T>(System.ReadOnlySpan<T> x) where T : System.Numerics.INumber<T> { throw null; }
public static void MinNumber<T>(System.ReadOnlySpan<T> x, System.ReadOnlySpan<T> y, System.Span<T> destination) where T : System.Numerics.INumber<T> { }
public static void MinNumber<T>(System.ReadOnlySpan<T> x, T y, System.Span<T> destination) where T : System.Numerics.INumber<T> { }
public static void MultiplyAdd<T>(System.ReadOnlySpan<T> x, System.ReadOnlySpan<T> y, System.ReadOnlySpan<T> addend, System.Span<T> destination) where T : System.Numerics.IAdditionOperators<T, T, T>, System.Numerics.IMultiplyOperators<T, T, T> { }
public static void MultiplyAdd<T>(System.ReadOnlySpan<T> x, System.ReadOnlySpan<T> y, T addend, System.Span<T> destination) where T : System.Numerics.IAdditionOperators<T, T, T>, System.Numerics.IMultiplyOperators<T, T, T> { }
public static void MultiplyAdd<T>(System.ReadOnlySpan<T> x, T y, System.ReadOnlySpan<T> addend, System.Span<T> destination) where T : System.Numerics.IAdditionOperators<T, T, T>, System.Numerics.IMultiplyOperators<T, T, T> { }
Expand Down
Original file line number Diff line number Diff line change
@@ -1,4 +1,4 @@
<Project Sdk="Microsoft.NET.Sdk">
<Project Sdk="Microsoft.NET.Sdk">

<PropertyGroup>
<TargetFrameworks>$(NetCoreAppCurrent);$(NetCoreAppPrevious);$(NetCoreAppMinimum);netstandard2.0;$(NetFrameworkMinimum)</TargetFrameworks>
Expand Down Expand Up @@ -82,8 +82,10 @@
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.LogP1.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.Max.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.MaxMagnitude.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.MaxNumber.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.Min.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.MinMagnitude.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.MinNumber.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.Multiply.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.MultiplyAdd.cs" />
<Compile Include="System\Numerics\Tensors\netcore\TensorPrimitives.MultiplyAddEstimate.cs" />
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -96,35 +96,21 @@ public static T Invoke(T x, T y)
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector128<T> Invoke(Vector128<T> x, Vector128<T> y)
{
if (AdvSimd.IsSupported)
{
if (typeof(T) == typeof(byte)) return AdvSimd.Max(x.AsByte(), y.AsByte()).As<byte, T>();
if (typeof(T) == typeof(sbyte)) return AdvSimd.Max(x.AsSByte(), y.AsSByte()).As<sbyte, T>();
if (typeof(T) == typeof(short)) return AdvSimd.Max(x.AsInt16(), y.AsInt16()).As<short, T>();
if (typeof(T) == typeof(ushort)) return AdvSimd.Max(x.AsUInt16(), y.AsUInt16()).As<ushort, T>();
if (typeof(T) == typeof(int)) return AdvSimd.Max(x.AsInt32(), y.AsInt32()).As<int, T>();
if (typeof(T) == typeof(uint)) return AdvSimd.Max(x.AsUInt32(), y.AsUInt32()).As<uint, T>();
if (typeof(T) == typeof(float)) return AdvSimd.Max(x.AsSingle(), y.AsSingle()).As<float, T>();
}

if (AdvSimd.Arm64.IsSupported)
if (typeof(T) == typeof(float) || typeof(T) == typeof(double))
{
if (typeof(T) == typeof(double)) return AdvSimd.Arm64.Max(x.AsDouble(), y.AsDouble()).As<double, T>();
}
if (AdvSimd.IsSupported && typeof(T) == typeof(float))
{
return AdvSimd.Max(x.AsSingle(), y.AsSingle()).As<float, T>();
}

if (typeof(T) == typeof(float))
{
return
Vector128.ConditionalSelect(Vector128.Equals(x, y),
Vector128.ConditionalSelect(IsNegative(x.AsSingle()).As<float, T>(), y, x),
Vector128.Max(x, y));
}
if (AdvSimd.Arm64.IsSupported && typeof(T) == typeof(double))
{
return AdvSimd.Arm64.Max(x.AsDouble(), y.AsDouble()).As<double, T>();
}

if (typeof(T) == typeof(double))
{
return
Vector128.ConditionalSelect(Vector128.Equals(x, y),
Vector128.ConditionalSelect(IsNegative(x.AsDouble()).As<double, T>(), y, x),
Vector128.ConditionalSelect(IsNegative(x), y, x),
Vector128.Max(x, y));
}

Expand All @@ -134,19 +120,11 @@ public static Vector128<T> Invoke(Vector128<T> x, Vector128<T> y)
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector256<T> Invoke(Vector256<T> x, Vector256<T> y)
{
if (typeof(T) == typeof(float))
{
return
Vector256.ConditionalSelect(Vector256.Equals(x, y),
Vector256.ConditionalSelect(IsNegative(x.AsSingle()).As<float, T>(), y, x),
Vector256.Max(x, y));
}

if (typeof(T) == typeof(double))
if (typeof(T) == typeof(float) || typeof(T) == typeof(double))
{
return
Vector256.ConditionalSelect(Vector256.Equals(x, y),
Vector256.ConditionalSelect(IsNegative(x.AsDouble()).As<double, T>(), y, x),
Vector256.ConditionalSelect(IsNegative(x), y, x),
Vector256.Max(x, y));
}

Expand All @@ -156,19 +134,11 @@ public static Vector256<T> Invoke(Vector256<T> x, Vector256<T> y)
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector512<T> Invoke(Vector512<T> x, Vector512<T> y)
{
if (typeof(T) == typeof(float))
{
return
Vector512.ConditionalSelect(Vector512.Equals(x, y),
Vector512.ConditionalSelect(IsNegative(x.AsSingle()).As<float, T>(), y, x),
Vector512.Max(x, y));
}

if (typeof(T) == typeof(double))
if (typeof(T) == typeof(float) || typeof(T) == typeof(double))
{
return
Vector512.ConditionalSelect(Vector512.Equals(x, y),
Vector512.ConditionalSelect(IsNegative(x.AsDouble()).As<double, T>(), y, x),
Vector512.ConditionalSelect(IsNegative(x), y, x),
Vector512.Max(x, y));
}

Expand All @@ -192,24 +162,18 @@ public static Vector512<T> Invoke(Vector512<T> x, Vector512<T> y)
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector128<T> Invoke(Vector128<T> x, Vector128<T> y)
{
if (AdvSimd.IsSupported)
if (typeof(T) == typeof(float) || typeof(T) == typeof(double))
{
if (typeof(T) == typeof(byte)) return AdvSimd.Max(x.AsByte(), y.AsByte()).As<byte, T>();
if (typeof(T) == typeof(sbyte)) return AdvSimd.Max(x.AsSByte(), y.AsSByte()).As<sbyte, T>();
if (typeof(T) == typeof(ushort)) return AdvSimd.Max(x.AsUInt16(), y.AsUInt16()).As<ushort, T>();
if (typeof(T) == typeof(short)) return AdvSimd.Max(x.AsInt16(), y.AsInt16()).As<short, T>();
if (typeof(T) == typeof(uint)) return AdvSimd.Max(x.AsUInt32(), y.AsUInt32()).As<uint, T>();
if (typeof(T) == typeof(int)) return AdvSimd.Max(x.AsInt32(), y.AsInt32()).As<int, T>();
if (typeof(T) == typeof(float)) return AdvSimd.Max(x.AsSingle(), y.AsSingle()).As<float, T>();
}
if (AdvSimd.IsSupported && typeof(T) == typeof(float))
{
return AdvSimd.Max(x.AsSingle(), y.AsSingle()).As<float, T>();
}

if (AdvSimd.Arm64.IsSupported)
{
if (typeof(T) == typeof(double)) return AdvSimd.Arm64.Max(x.AsDouble(), y.AsDouble()).As<double, T>();
}
if (AdvSimd.Arm64.IsSupported && typeof(T) == typeof(double))
{
return AdvSimd.Arm64.Max(x.AsDouble(), y.AsDouble()).As<double, T>();
}

if (typeof(T) == typeof(float) || typeof(T) == typeof(double))
{
return
Vector128.ConditionalSelect(Vector128.Equals(x, x),
Vector128.ConditionalSelect(Vector128.Equals(y, y),
Expand Down
Original file line number Diff line number Diff line change
@@ -0,0 +1,142 @@
// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.

using System.Runtime.CompilerServices;
using System.Runtime.InteropServices;
using System.Runtime.Intrinsics;
using System.Runtime.Intrinsics.Arm;

namespace System.Numerics.Tensors
{
public static partial class TensorPrimitives
{
/// <summary>Searches for the largest number in the specified tensor.</summary>
/// <param name="x">The tensor, represented as a span.</param>
/// <returns>The maximum element in <paramref name="x"/>.</returns>
/// <exception cref="ArgumentException">Length of <paramref name="x" /> must be greater than zero.</exception>
/// <remarks>
/// <para>
/// The determination of the maximum element matches the IEEE 754:2019 `maximumNumber` function. Positive 0 is considered greater than negative 0.
/// </para>
/// <para>
/// This method may call into the underlying C runtime or employ instructions specific to the current architecture. Exact results may differ between different
/// operating systems or architectures.
/// </para>
/// </remarks>
public static T MaxNumber<T>(ReadOnlySpan<T> x)
where T : INumber<T> =>
MinMaxCore<T, MaxNumberOperator<T>>(x);

/// <summary>Computes the element-wise maximum of the numbers in the specified tensors.</summary>
/// <param name="x">The first tensor, represented as a span.</param>
/// <param name="y">The second tensor, represented as a span.</param>
/// <param name="destination">The destination tensor, represented as a span.</param>
/// <exception cref="ArgumentException">Length of <paramref name="x" /> must be same as length of <paramref name="y" />.</exception>
/// <exception cref="ArgumentException">Destination is too short.</exception>
/// <exception cref="ArgumentException"><paramref name="x"/> and <paramref name="destination"/> reference overlapping memory locations and do not begin at the same location.</exception>
/// <exception cref="ArgumentException"><paramref name="y"/> and <paramref name="destination"/> reference overlapping memory locations and do not begin at the same location.</exception>
/// <remarks>
/// <para>
/// This method effectively computes <c><paramref name="destination" />[i] = <typeparamref name="T"/>.MaxNumber(<paramref name="x" />[i], <paramref name="y" />[i])</c>.
/// </para>
/// <para>
/// The determination of the maximum element matches the IEEE 754:2019 `maximumNumber` function. If either value is <see cref="IFloatingPointIeee754{TSelf}.NaN"/>
/// the other is returned. Positive 0 is considered greater than negative 0.
/// </para>
/// <para>
/// This method may call into the underlying C runtime or employ instructions specific to the current architecture. Exact results may differ between different
/// operating systems or architectures.
/// </para>
/// </remarks>
public static void MaxNumber<T>(ReadOnlySpan<T> x, ReadOnlySpan<T> y, Span<T> destination)
where T : INumber<T> =>
InvokeSpanSpanIntoSpan<T, MaxNumberOperator<T>>(x, y, destination);

/// <summary>Computes the element-wise maximum of the numbers in the specified tensors.</summary>
/// <param name="x">The first tensor, represented as a span.</param>
/// <param name="y">The second tensor, represented as a scalar.</param>
/// <param name="destination">The destination tensor, represented as a span.</param>
/// <exception cref="ArgumentException">Destination is too short.</exception>
/// <exception cref="ArgumentException"><paramref name="x"/> and <paramref name="destination"/> reference overlapping memory locations and do not begin at the same location.</exception>
/// <remarks>
/// <para>
/// This method effectively computes <c><paramref name="destination" />[i] = <typeparamref name="T"/>.MaxNumber(<paramref name="x" />[i], <paramref name="y" />)</c>.
/// </para>
/// <para>
/// The determination of the maximum element matches the IEEE 754:2019 `maximumNumber` function. If either value is <see cref="IFloatingPointIeee754{TSelf}.NaN"/>
/// the other is returned. Positive 0 is considered greater than negative 0.
/// </para>
/// <para>
/// This method may call into the underlying C runtime or employ instructions specific to the current architecture. Exact results may differ between different
/// operating systems or architectures.
/// </para>
/// </remarks>
public static void MaxNumber<T>(ReadOnlySpan<T> x, T y, Span<T> destination)
where T : INumber<T> =>
InvokeSpanScalarIntoSpan<T, MaxNumberOperator<T>>(x, y, destination);

/// <summary>T.MaxNumber(x, y)</summary>
internal readonly struct MaxNumberOperator<T> : IAggregationOperator<T> where T : INumber<T>
{
public static bool Vectorizable => true;

public static T Invoke(T x, T y) => T.MaxNumber(x, y);

[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector128<T> Invoke(Vector128<T> x, Vector128<T> y)
{
if (typeof(T) == typeof(float) || typeof(T) == typeof(double))
{
if (AdvSimd.IsSupported && typeof(T) == typeof(float))
{
return AdvSimd.MaxNumber(x.AsSingle(), y.AsSingle()).As<float, T>();
}

if (AdvSimd.Arm64.IsSupported && typeof(T) == typeof(double))
{
return AdvSimd.Arm64.MaxNumber(x.AsDouble(), y.AsDouble()).As<double, T>();
}

return
Vector128.ConditionalSelect(Vector128.Equals(x, y),
Vector128.ConditionalSelect(IsNegative(y), x, y),
stephentoub marked this conversation as resolved.
Show resolved Hide resolved
Vector128.ConditionalSelect(Vector128.Equals(y, y), Vector128.Max(x, y), x));
}

return Vector128.Max(x, y);
}

[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector256<T> Invoke(Vector256<T> x, Vector256<T> y)
{
if (typeof(T) == typeof(float) || typeof(T) == typeof(double))
{
return
Vector256.ConditionalSelect(Vector256.Equals(x, y),
Vector256.ConditionalSelect(IsNegative(y), x, y),
Vector256.ConditionalSelect(Vector256.Equals(y, y), Vector256.Max(x, y), x));
}

return Vector256.Max(x, y);
}

[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static Vector512<T> Invoke(Vector512<T> x, Vector512<T> y)
{
if (typeof(T) == typeof(float) || typeof(T) == typeof(double))
{
return
Vector512.ConditionalSelect(Vector512.Equals(x, y),
Vector512.ConditionalSelect(IsNegative(y), x, y),
Vector512.ConditionalSelect(Vector512.Equals(y, y), Vector512.Max(x, y), x));
}

return Vector512.Max(x, y);
}

public static T Invoke(Vector128<T> x) => HorizontalAggregate<T, MaxNumberOperator<T>>(x);
public static T Invoke(Vector256<T> x) => HorizontalAggregate<T, MaxNumberOperator<T>>(x);
public static T Invoke(Vector512<T> x) => HorizontalAggregate<T, MaxNumberOperator<T>>(x);
}
}
}
Loading
Loading