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Misaki.HighPerformance/Misaki.HighPerformance.Mathematics.SPMD/IJobSPMD.cs
Misaki b9ca71834f Refactor collections, add Remove overloads, bump version 
- Bump project version to 1.3.9.
- Move HashMapHelper to Collections namespace.
- Simplify UnsafeList<T>.AddRange to use only Span<T>.
- Add Remove overloads with out parameter to UnsafeSlotMap<T> and UnsafeSparseSet<T>.
- Improve MemoryLeakException stack trace formatting.
- Remove obsolete commented code in IJobSPMD.cs.
2026-03-02 15:16:48 +09:00

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using Misaki.HighPerformance.Jobs;
using System.Numerics;
namespace Misaki.HighPerformance.Mathematics.SPMD;
public interface IJobSPMD<TNumber>
where TNumber : unmanaged, INumber<TNumber>, IBinaryNumber<TNumber>, IMinMaxValue<TNumber>, IBitwiseOperators<TNumber, TNumber, TNumber>
{
void Execute<TLane>(int baseIndex, int threadIndex)
where TLane : ISPMD<TLane, TNumber>;
}
internal struct SPMDJobWrapper<T, TNumber> : IJobParallelFor
where T : unmanaged, IJobSPMD<TNumber>
where TNumber : unmanaged, INumber<TNumber>, IBinaryNumber<TNumber>, IMinMaxValue<TNumber>, IBitwiseOperators<TNumber, TNumber, TNumber>
{
public T innerJob;
public int totalCount;
public void Execute(int loopIndex, int threadIndex)
{
var baseIndex = loopIndex * WideLane<TNumber>.LaneWidth;
var remaining = totalCount - baseIndex;
if (remaining >= WideLane<TNumber>.LaneWidth)
{
innerJob.Execute<WideLane<TNumber>>(baseIndex, threadIndex);
}
else
{
for (var j = 0; j < remaining; j++)
{
innerJob.Execute<ScalarLane<TNumber>>(baseIndex + j, threadIndex);
}
}
}
}
internal struct SPMDScalerJobWrapper<T, TNumber> : IJobParallelFor
where T : unmanaged, IJobSPMD<TNumber>
where TNumber : unmanaged, INumber<TNumber>, IBinaryNumber<TNumber>, IMinMaxValue<TNumber>, IBitwiseOperators<TNumber, TNumber, TNumber>
{
public T innerJob;
public int totalCount;
public void Execute(int loopIndex, int threadIndex)
{
innerJob.Execute<ScalarLane<TNumber>>(loopIndex, threadIndex);
}
}
public static class IJobParallelForSPMDExtensions
{
public static void Run<T, TNumber>(this ref T job, int totalCount, int threadIndex)
where T : struct, IJobSPMD<TNumber>
where TNumber : unmanaged, INumber<TNumber>, IBinaryNumber<TNumber>, IMinMaxValue<TNumber>, IBitwiseOperators<TNumber, TNumber, TNumber>
{
if (WideLane.IsSupported)
{
var iterations = (totalCount + WideLane<TNumber>.LaneWidth - 1) / WideLane<TNumber>.LaneWidth;
for (var loopIndex = 0; loopIndex < iterations; loopIndex++)
{
var baseIndex = loopIndex * WideLane<TNumber>.LaneWidth;
var remaining = totalCount - baseIndex;
if (remaining >= WideLane<TNumber>.LaneWidth)
{
job.Execute<WideLane<TNumber>>(baseIndex, threadIndex);
}
else
{
for (var i = 0; i < remaining; i++)
{
job.Execute<ScalarLane<TNumber>>(baseIndex + i, threadIndex);
}
}
}
}
else
{
for (var loopIndex = 0; loopIndex < totalCount; loopIndex++)
{
job.Execute<ScalarLane<TNumber>>(loopIndex, threadIndex);
}
}
}
public static JobHandle ScheduleParallelSPDM<T, TNumber>(this JobScheduler jobScheduler, ref T job, int totalCount, int batchSize, int threadIndex, JobHandle dependency)
where T : unmanaged, IJobSPMD<TNumber>
where TNumber : unmanaged, INumber<TNumber>, IBinaryNumber<TNumber>, IMinMaxValue<TNumber>, IBitwiseOperators<TNumber, TNumber, TNumber>
{
if (WideLane.IsSupported)
{
var warper = new SPMDJobWrapper<T, TNumber>
{
innerJob = job,
totalCount = totalCount,
};
var iterations = (totalCount + WideLane<TNumber>.LaneWidth - 1) / WideLane<TNumber>.LaneWidth;
return jobScheduler.ScheduleParallelFor(ref warper, iterations, batchSize, threadIndex, dependency);
}
else
{
var warper = new SPMDScalerJobWrapper<T, TNumber>
{
innerJob = job,
totalCount = totalCount,
};
return jobScheduler.ScheduleParallelFor(ref warper, totalCount, batchSize, threadIndex, dependency);
}
}
}
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