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Misaki.HighPerformance/Misaki.HighPerformance.HPC.Generator/VectorAPI/Avx2APIContext.cs
Misaki fd2d60c8f1 Refactor vector API codegen and WideLane conversions 
- Introduce IVectorAPIContext abstraction and supporting types for vectorized code generation
- Add Avx2APIContext and UtilityTemplate for AVX2-specific code emission
- Dynamically generate AVX2 sine methods in AVX2Rewriter
- Refactor WideLane<TNumber> to use Unsafe.BitCast for all Vector conversions
- Update all WideLane operators and math methods to use Unsafe.BitCast
- Change MultiplyAdd parameter names for clarity
- Remove static indices field in favor of Vector<TNumber>.Indices
- Add implicit conversion from Vector<TNumber> to WideLane<TNumber>
- Update tests and program files for compatibility
2026-05-06 19:20:15 +09:00

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3.2 KiB
C#
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using System;
using System.Collections.Generic;
namespace Misaki.HighPerformance.HPC.Generator.VectorAPI
{
internal class Avx2APIContext : IVectorAPIContext
{
private readonly List<string> _statements = new();
private int _varCount = 0;
private string? _lastAssignedVariable;
public string? LastAssignedVariable => _lastAssignedVariable;
public string GetVectorType()
{
return "Vector256";
}
public string GetVectorType<T>()
{
return $"Vector256<{VectorAPIContext.GetTypeName<T>()}>";
}
public Expression Call(string methodName, params string[] args)
{
return new Expression(this, $"{GetVectorType()}.{methodName}({string.Join(", ", args)})");
}
public Expression Assign(Expression expr, string? varName = null, bool isNew = true)
{
varName ??= $"v{_varCount++}";
var statement = isNew ? $"var {varName} = {expr.Code};" : $"{varName} = {expr.Code};";
_statements.Add(statement);
_lastAssignedVariable = varName;
expr.Clear();
return new Expression(this, varName);
}
public Code Return(Expression expr)
{
var statement = $"return {expr.Code};";
_statements.Add(statement);
expr.Clear();
var fullCode = new Code(_statements);
Reset();
return fullCode;
}
public Expression Create(string value)
{
return new Expression(this, $"{GetVectorType()}.Create({value})");
}
public Expression Zero<T>()
{
return new Expression(this, $"{GetVectorType<T>()}.Zero");
}
public Expression One<T>()
{
return new Expression(this, $"{GetVectorType<T>()}.One");
}
public Expression Count<T>()
{
return new Expression(this, $"{GetVectorType<T>()}.Count");
}
public Expression Add(Expression a, Expression b)
{
return new Expression(this, $"Avx2.Add({a}, {b})");
}
public Expression Multiply(Expression a, Expression b)
{
return new Expression(this, $"Avx2.Multiply({a}, {b})");
}
public Expression Subtract(Expression a, Expression b)
{
return new Expression(this, $"Avx2.Subtract({a}, {b})");
}
public Expression Divide(Expression a, Expression b)
{
return new Expression(this, $"Avx2.Divide({a}, {b})");
}
public Expression MultiplyAdd(Expression left, Expression right, Expression addend)
{
return new Expression(this, $"Fma.MultiplyAdd({left}, {right}, {addend})");
}
public Expression Round(Expression value)
{
return new Expression(this, $"Avx2.RoundToNearestInteger({value})");
}
public Expression Abs(Expression value)
{
return new Expression(this, $"{GetVectorType()}.Abs({value})");
}
public void Reset()
{
_statements.Clear();
_varCount = 0;
}
}
}
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