src/Reactor/EmulatedReactor.cpp - SwiftShader - Git at Google

 #include "EmulatedReactor.hpp"

 #include <cmath>
 #include <functional>
 #include <utility>

 namespace rr
 {
 	namespace
 	{
 		template <typename T>
 		struct UnderlyingType
 		{
 			using Type = typename decltype(rr::Extract(std::declval<RValue<T>>(), 0))::rvalue_underlying_type;
 		};

 		template <typename T>
 		using UnderlyingTypeT = typename UnderlyingType<T>::Type;

 		// Call single arg function on a vector type
 		template <typename Func, typename T>
 		RValue<T> call4(Func func, const RValue<T>& x)
 		{
 			T result;
 			result = Insert(result, Call(func, Extract(x, 0)), 0);
 			result = Insert(result, Call(func, Extract(x, 1)), 1);
 			result = Insert(result, Call(func, Extract(x, 2)), 2);
 			result = Insert(result, Call(func, Extract(x, 3)), 3);
 			return result;
 		}

 		// Call two arg function on a vector type
 		template <typename Func, typename T>
 		RValue<T> call4(Func func, const RValue<T>& x, const RValue<T>& y)
 		{
 			T result;
 			result = Insert(result, Call(func, Extract(x, 0), Extract(y, 0)), 0);
 			result = Insert(result, Call(func, Extract(x, 1), Extract(y, 1)), 1);
 			result = Insert(result, Call(func, Extract(x, 2), Extract(y, 2)), 2);
 			result = Insert(result, Call(func, Extract(x, 3), Extract(y, 3)), 3);
 			return result;
 		}

 		template <typename T, typename EL = UnderlyingTypeT<T>>
 		void gather(T& out, RValue<Pointer<EL>> base, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes)
 		{
 			constexpr bool atomic = false;
 			constexpr std::memory_order order = std::memory_order_relaxed;

 			Pointer<Byte> baseBytePtr = base;

 			out = T(0);
 			for (int i = 0; i < 4; i++)
 			{
 				If(Extract(mask, i) != 0)
 				{
 					auto offset = Extract(offsets, i);
 					auto el = Load(Pointer<EL>(&baseBytePtr[offset]), alignment, atomic, order);
 					out = Insert(out, el, i);
 				}
 				Else If(zeroMaskedLanes)
 				{
 					out = Insert(out, EL(0), i);
 				}
 			}
 		}

 		template <typename T, typename EL = UnderlyingTypeT<T>>
 		void scatter(RValue<Pointer<EL>> base, RValue<T> val, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment)
 		{
 			constexpr bool atomic = false;
 			constexpr std::memory_order order = std::memory_order_relaxed;

 			Pointer<Byte> baseBytePtr = base;

 			for (int i = 0; i < 4; i++)
 			{
 				If(Extract(mask, i) != 0)
 				{
 					auto offset = Extract(offsets, i);
 					Store(Extract(val, i), Pointer<EL>(&baseBytePtr[offset]), alignment, atomic, order);
 				}
 			}
 		}
 	}

 	namespace emulated
 	{
 		RValue<Float4> Gather(RValue<Pointer<Float>> base, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes /* = false */)
 		{
 			Float4 result{};
 			gather(result, base, offsets, mask, alignment, zeroMaskedLanes);
 			return result;
 		}

 		RValue<Int4> Gather(RValue<Pointer<Int>> base, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes /* = false */)
 		{
 			Int4 result{};
 			gather(result, base, offsets, mask, alignment, zeroMaskedLanes);
 			return result;
 		}

 		void Scatter(RValue<Pointer<Float>> base, RValue<Float4> val, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment)
 		{
 			scatter(base, val, offsets, mask, alignment);
 		}

 		void Scatter(RValue<Pointer<Int>> base, RValue<Int4> val, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment)
 		{
 			scatter<Int4>(base, val, offsets, mask, alignment);
 		}

 		RValue<Float> Exp2(RValue<Float> x)
 		{
 			return Call(exp2f, x);
 		}

 		RValue<Float> Log2(RValue<Float> x)
 		{
 			return Call(log2f, x);
 		}

 		RValue<Float4> Sin(RValue<Float4> x)
 		{
 			return call4(sinf, x);
 		}

 		RValue<Float4> Cos(RValue<Float4> x)
 		{
 			return call4(cosf, x);
 		}

 		RValue<Float4> Tan(RValue<Float4> x)
 		{
 			return call4(tanf, x);
 		}

 		RValue<Float4> Asin(RValue<Float4> x)
 		{
 			return call4(asinf, x);
 		}

 		RValue<Float4> Acos(RValue<Float4> x)
 		{
 			return call4(acosf, x);
 		}

 		RValue<Float4> Atan(RValue<Float4> x)
 		{
 			return call4(atanf, x);
 		}

 		RValue<Float4> Sinh(RValue<Float4> x)
 		{
 			return call4(sinhf, x);
 		}

 		RValue<Float4> Cosh(RValue<Float4> x)
 		{
 			return call4(coshf, x);
 		}

 		RValue<Float4> Tanh(RValue<Float4> x)
 		{
 			return call4(tanhf, x);
 		}

 		RValue<Float4> Asinh(RValue<Float4> x)
 		{
 			return call4(asinhf, x);
 		}

 		RValue<Float4> Acosh(RValue<Float4> x)
 		{
 			return call4(acoshf, x);
 		}

 		RValue<Float4> Atanh(RValue<Float4> x)
 		{
 			return call4(atanhf, x);
 		}

 		RValue<Float4> Atan2(RValue<Float4> x, RValue<Float4> y)
 		{
 			return call4(atan2f, x, y);
 		}

 		RValue<Float4> Pow(RValue<Float4> x, RValue<Float4> y)
 		{
 			return call4(powf, x, y);
 		}

 		RValue<Float4> Exp(RValue<Float4> x)
 		{
 			return call4(expf, x);
 		}

 		RValue<Float4> Log(RValue<Float4> x)
 		{
 			return call4(logf, x);
 		}

 		RValue<Float4> Exp2(RValue<Float4> x)
 		{
 			return call4(exp2f, x);
 		}

 		RValue<Float4> Log2(RValue<Float4> x)
 		{
 			return call4(log2f, x);
 		}
 	}
 }
	#include "EmulatedReactor.hpp"

	#include <cmath>
	#include <functional>
	#include <utility>

	namespace rr
	{
	namespace
	{
	template <typename T>
	struct UnderlyingType
	{
	using Type = typename decltype(rr::Extract(std::declval<RValue<T>>(), 0))::rvalue_underlying_type;
	};

	template <typename T>
	using UnderlyingTypeT = typename UnderlyingType<T>::Type;

	// Call single arg function on a vector type
	template <typename Func, typename T>
	RValue<T> call4(Func func, const RValue<T>& x)
	{
	T result;
	result = Insert(result, Call(func, Extract(x, 0)), 0);
	result = Insert(result, Call(func, Extract(x, 1)), 1);
	result = Insert(result, Call(func, Extract(x, 2)), 2);
	result = Insert(result, Call(func, Extract(x, 3)), 3);
	return result;
	}

	// Call two arg function on a vector type
	template <typename Func, typename T>
	RValue<T> call4(Func func, const RValue<T>& x, const RValue<T>& y)
	{
	T result;
	result = Insert(result, Call(func, Extract(x, 0), Extract(y, 0)), 0);
	result = Insert(result, Call(func, Extract(x, 1), Extract(y, 1)), 1);
	result = Insert(result, Call(func, Extract(x, 2), Extract(y, 2)), 2);
	result = Insert(result, Call(func, Extract(x, 3), Extract(y, 3)), 3);
	return result;
	}

	template <typename T, typename EL = UnderlyingTypeT<T>>
	void gather(T& out, RValue<Pointer<EL>> base, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes)
	{
	constexpr bool atomic = false;
	constexpr std::memory_order order = std::memory_order_relaxed;

	Pointer<Byte> baseBytePtr = base;

	out = T(0);
	for (int i = 0; i < 4; i++)
	{
	If(Extract(mask, i) != 0)
	{
	auto offset = Extract(offsets, i);
	auto el = Load(Pointer<EL>(&baseBytePtr[offset]), alignment, atomic, order);
	out = Insert(out, el, i);
	}
	Else If(zeroMaskedLanes)
	{
	out = Insert(out, EL(0), i);
	}
	}
	}

	template <typename T, typename EL = UnderlyingTypeT<T>>
	void scatter(RValue<Pointer<EL>> base, RValue<T> val, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment)
	{
	constexpr bool atomic = false;
	constexpr std::memory_order order = std::memory_order_relaxed;

	Pointer<Byte> baseBytePtr = base;

	for (int i = 0; i < 4; i++)
	{
	If(Extract(mask, i) != 0)
	{
	auto offset = Extract(offsets, i);
	Store(Extract(val, i), Pointer<EL>(&baseBytePtr[offset]), alignment, atomic, order);
	}
	}
	}
	}

	namespace emulated
	{
	RValue<Float4> Gather(RValue<Pointer<Float>> base, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes /* = false */)
	{
	Float4 result{};
	gather(result, base, offsets, mask, alignment, zeroMaskedLanes);
	return result;
	}

	RValue<Int4> Gather(RValue<Pointer<Int>> base, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment, bool zeroMaskedLanes /* = false */)
	{
	Int4 result{};
	gather(result, base, offsets, mask, alignment, zeroMaskedLanes);
	return result;
	}

	void Scatter(RValue<Pointer<Float>> base, RValue<Float4> val, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment)
	{
	scatter(base, val, offsets, mask, alignment);
	}

	void Scatter(RValue<Pointer<Int>> base, RValue<Int4> val, RValue<Int4> offsets, RValue<Int4> mask, unsigned int alignment)
	{
	scatter<Int4>(base, val, offsets, mask, alignment);
	}

	RValue<Float> Exp2(RValue<Float> x)
	{
	return Call(exp2f, x);
	}

	RValue<Float> Log2(RValue<Float> x)
	{
	return Call(log2f, x);
	}

	RValue<Float4> Sin(RValue<Float4> x)
	{
	return call4(sinf, x);
	}

	RValue<Float4> Cos(RValue<Float4> x)
	{
	return call4(cosf, x);
	}

	RValue<Float4> Tan(RValue<Float4> x)
	{
	return call4(tanf, x);
	}

	RValue<Float4> Asin(RValue<Float4> x)
	{
	return call4(asinf, x);
	}

	RValue<Float4> Acos(RValue<Float4> x)
	{
	return call4(acosf, x);
	}

	RValue<Float4> Atan(RValue<Float4> x)
	{
	return call4(atanf, x);
	}

	RValue<Float4> Sinh(RValue<Float4> x)
	{
	return call4(sinhf, x);
	}

	RValue<Float4> Cosh(RValue<Float4> x)
	{
	return call4(coshf, x);
	}

	RValue<Float4> Tanh(RValue<Float4> x)
	{
	return call4(tanhf, x);
	}

	RValue<Float4> Asinh(RValue<Float4> x)
	{
	return call4(asinhf, x);
	}

	RValue<Float4> Acosh(RValue<Float4> x)
	{
	return call4(acoshf, x);
	}

	RValue<Float4> Atanh(RValue<Float4> x)
	{
	return call4(atanhf, x);
	}

	RValue<Float4> Atan2(RValue<Float4> x, RValue<Float4> y)
	{
	return call4(atan2f, x, y);
	}

	RValue<Float4> Pow(RValue<Float4> x, RValue<Float4> y)
	{
	return call4(powf, x, y);
	}

	RValue<Float4> Exp(RValue<Float4> x)
	{
	return call4(expf, x);
	}

	RValue<Float4> Log(RValue<Float4> x)
	{
	return call4(logf, x);
	}

	RValue<Float4> Exp2(RValue<Float4> x)
	{
	return call4(exp2f, x);
	}

	RValue<Float4> Log2(RValue<Float4> x)
	{
	return call4(log2f, x);
	}
	}
	}