Eigen/src/Core/arch/AltiVec/MatrixProductCommon.h - eigen - Git at Google

 //#define EIGEN_POWER_USE_PREFETCH  // Use prefetching in gemm routines
 #ifdef EIGEN_POWER_USE_PREFETCH
 #define EIGEN_POWER_PREFETCH(p)  prefetch(p)
 #else
 #define EIGEN_POWER_PREFETCH(p)
 #endif

 namespace Eigen {

 namespace internal {

 template<typename Scalar, typename Packet, typename DataMapper, typename Index, const Index accRows>
 EIGEN_STRONG_INLINE void gemm_extra_col(
   const DataMapper& res,
   const Scalar* lhs_base,
   const Scalar* rhs_base,
   Index depth,
   Index strideA,
   Index offsetA,
   Index row,
   Index col,
   Index remaining_rows,
   Index remaining_cols,
   const Packet& pAlpha);

 template<typename Scalar, typename Packet, typename DataMapper, typename Index, const Index accRows, const Index accCols>
 EIGEN_STRONG_INLINE void gemm_extra_row(
   const DataMapper& res,
   const Scalar* lhs_base,
   const Scalar* rhs_base,
   Index depth,
   Index strideA,
   Index offsetA,
   Index row,
   Index col,
   Index rows,
   Index cols,
   Index remaining_rows,
   const Packet& pAlpha,
   const Packet& pMask);

 template<typename Scalar, typename Packet, typename DataMapper, typename Index, const Index accCols>
 EIGEN_STRONG_INLINE void gemm_unrolled_col(
   const DataMapper& res,
   const Scalar* lhs_base,
   const Scalar* rhs_base,
   Index depth,
   Index strideA,
   Index offsetA,
   Index& row,
   Index rows,
   Index col,
   Index remaining_cols,
   const Packet& pAlpha);

 template<typename Packet>
 EIGEN_STRONG_INLINE Packet bmask(const int remaining_rows);

 template<typename Scalar, typename Packet, typename Packetc, typename DataMapper, typename Index, const Index accRows, const Index accCols, bool ConjugateLhs, bool ConjugateRhs, bool LhsIsReal, bool RhsIsReal>
 EIGEN_STRONG_INLINE void gemm_complex_extra_col(
   const DataMapper& res,
   const Scalar* lhs_base,
   const Scalar* rhs_base,
   Index depth,
   Index strideA,
   Index offsetA,
   Index strideB,
   Index row,
   Index col,
   Index remaining_rows,
   Index remaining_cols,
   const Packet& pAlphaReal,
   const Packet& pAlphaImag);

 template<typename Scalar, typename Packet, typename Packetc, typename DataMapper, typename Index, const Index accRows, const Index accCols, bool ConjugateLhs, bool ConjugateRhs, bool LhsIsReal, bool RhsIsReal>
 EIGEN_STRONG_INLINE void gemm_complex_extra_row(
   const DataMapper& res,
   const Scalar* lhs_base,
   const Scalar* rhs_base,
   Index depth,
   Index strideA,
   Index offsetA,
   Index strideB,
   Index row,
   Index col,
   Index rows,
   Index cols,
   Index remaining_rows,
   const Packet& pAlphaReal,
   const Packet& pAlphaImag,
   const Packet& pMask);

 template<typename Scalar, typename Packet, typename Packetc, typename DataMapper, typename Index, const Index accCols, bool ConjugateLhs, bool ConjugateRhs, bool LhsIsReal, bool RhsIsReal>
 EIGEN_STRONG_INLINE void gemm_complex_unrolled_col(
   const DataMapper& res,
   const Scalar* lhs_base,
   const Scalar* rhs_base,
   Index depth,
   Index strideA,
   Index offsetA,
   Index strideB,
   Index& row,
   Index rows,
   Index col,
   Index remaining_cols,
   const Packet& pAlphaReal,
   const Packet& pAlphaImag);

 template<typename Scalar, typename Packet>
 EIGEN_STRONG_INLINE Packet ploadLhs(const Scalar* lhs);

 template<typename DataMapper, typename Packet, typename Index, const Index accCols, int N, int StorageOrder>
 EIGEN_STRONG_INLINE void bload(PacketBlock<Packet,4>& acc, const DataMapper& res, Index row, Index col);

 template<typename DataMapper, typename Packet, typename Index, const Index accCols, int N, int StorageOrder>
 EIGEN_STRONG_INLINE void bload(PacketBlock<Packet,8>& acc, const DataMapper& res, Index row, Index col);

 template<typename Packet>
 EIGEN_STRONG_INLINE void bscale(PacketBlock<Packet,4>& acc, PacketBlock<Packet,4>& accZ, const Packet& pAlpha);

 template<typename Packet, int N>
 EIGEN_STRONG_INLINE void bscalec(PacketBlock<Packet,N>& aReal, PacketBlock<Packet,N>& aImag, const Packet& bReal, const Packet& bImag, PacketBlock<Packet,N>& cReal, PacketBlock<Packet,N>& cImag);

 const static Packet16uc p16uc_SETCOMPLEX32_FIRST = {  0,  1,  2,  3,
                                                      16, 17, 18, 19,
                                                       4,  5,  6,  7,
                                                      20, 21, 22, 23};

 const static Packet16uc p16uc_SETCOMPLEX32_SECOND = {  8,  9, 10, 11,
                                                       24, 25, 26, 27,
                                                       12, 13, 14, 15,
                                                       28, 29, 30, 31};
 //[a,b],[ai,bi] = [a,ai] - This is equivalent to p16uc_GETREAL64
 const static Packet16uc p16uc_SETCOMPLEX64_FIRST = {  0,  1,  2,  3,  4,  5,  6,  7,
                                                      16, 17, 18, 19, 20, 21, 22, 23};

 //[a,b],[ai,bi] = [b,bi] - This is equivalent to p16uc_GETIMAG64
 const static Packet16uc p16uc_SETCOMPLEX64_SECOND = {  8,  9, 10, 11, 12, 13, 14, 15,
                                                       24, 25, 26, 27, 28, 29, 30, 31};


 // Grab two decouples real/imaginary PacketBlocks and return two coupled (real/imaginary pairs) PacketBlocks.
 template<typename Packet, typename Packetc>
 EIGEN_STRONG_INLINE void bcouple_common(PacketBlock<Packet,4>& taccReal, PacketBlock<Packet,4>& taccImag, PacketBlock<Packetc, 4>& acc1, PacketBlock<Packetc, 4>& acc2)
 {
   acc1.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX32_FIRST);
   acc1.packet[1].v = vec_perm(taccReal.packet[1], taccImag.packet[1], p16uc_SETCOMPLEX32_FIRST);
   acc1.packet[2].v = vec_perm(taccReal.packet[2], taccImag.packet[2], p16uc_SETCOMPLEX32_FIRST);
   acc1.packet[3].v = vec_perm(taccReal.packet[3], taccImag.packet[3], p16uc_SETCOMPLEX32_FIRST);

   acc2.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX32_SECOND);
   acc2.packet[1].v = vec_perm(taccReal.packet[1], taccImag.packet[1], p16uc_SETCOMPLEX32_SECOND);
   acc2.packet[2].v = vec_perm(taccReal.packet[2], taccImag.packet[2], p16uc_SETCOMPLEX32_SECOND);
   acc2.packet[3].v = vec_perm(taccReal.packet[3], taccImag.packet[3], p16uc_SETCOMPLEX32_SECOND);
 }

 template<typename Packet, typename Packetc>
 EIGEN_STRONG_INLINE void bcouple(PacketBlock<Packet,4>& taccReal, PacketBlock<Packet,4>& taccImag, PacketBlock<Packetc,8>& tRes, PacketBlock<Packetc, 4>& acc1, PacketBlock<Packetc, 4>& acc2)
 {
   bcouple_common<Packet, Packetc>(taccReal, taccImag, acc1, acc2);

   acc1.packet[0] = padd<Packetc>(tRes.packet[0], acc1.packet[0]);
   acc1.packet[1] = padd<Packetc>(tRes.packet[1], acc1.packet[1]);
   acc1.packet[2] = padd<Packetc>(tRes.packet[2], acc1.packet[2]);
   acc1.packet[3] = padd<Packetc>(tRes.packet[3], acc1.packet[3]);

   acc2.packet[0] = padd<Packetc>(tRes.packet[4], acc2.packet[0]);
   acc2.packet[1] = padd<Packetc>(tRes.packet[5], acc2.packet[1]);
   acc2.packet[2] = padd<Packetc>(tRes.packet[6], acc2.packet[2]);
   acc2.packet[3] = padd<Packetc>(tRes.packet[7], acc2.packet[3]);
 }

 template<typename Packet, typename Packetc>
 EIGEN_STRONG_INLINE void bcouple_common(PacketBlock<Packet,1>& taccReal, PacketBlock<Packet,1>& taccImag, PacketBlock<Packetc, 1>& acc1, PacketBlock<Packetc, 1>& acc2)
 {
   acc1.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX32_FIRST);

   acc2.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX32_SECOND);
 }

 template<typename Packet, typename Packetc>
 EIGEN_STRONG_INLINE void bcouple(PacketBlock<Packet,1>& taccReal, PacketBlock<Packet,1>& taccImag, PacketBlock<Packetc,2>& tRes, PacketBlock<Packetc, 1>& acc1, PacketBlock<Packetc, 1>& acc2)
 {
   bcouple_common<Packet, Packetc>(taccReal, taccImag, acc1, acc2);

   acc1.packet[0] = padd<Packetc>(tRes.packet[0], acc1.packet[0]);

   acc2.packet[0] = padd<Packetc>(tRes.packet[1], acc2.packet[0]);
 }

 template<>
 EIGEN_STRONG_INLINE void bcouple_common<Packet2d, Packet1cd>(PacketBlock<Packet2d,4>& taccReal, PacketBlock<Packet2d,4>& taccImag, PacketBlock<Packet1cd, 4>& acc1, PacketBlock<Packet1cd, 4>& acc2)
 {
   acc1.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX64_FIRST);
   acc1.packet[1].v = vec_perm(taccReal.packet[1], taccImag.packet[1], p16uc_SETCOMPLEX64_FIRST);
   acc1.packet[2].v = vec_perm(taccReal.packet[2], taccImag.packet[2], p16uc_SETCOMPLEX64_FIRST);
   acc1.packet[3].v = vec_perm(taccReal.packet[3], taccImag.packet[3], p16uc_SETCOMPLEX64_FIRST);

   acc2.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX64_SECOND);
   acc2.packet[1].v = vec_perm(taccReal.packet[1], taccImag.packet[1], p16uc_SETCOMPLEX64_SECOND);
   acc2.packet[2].v = vec_perm(taccReal.packet[2], taccImag.packet[2], p16uc_SETCOMPLEX64_SECOND);
   acc2.packet[3].v = vec_perm(taccReal.packet[3], taccImag.packet[3], p16uc_SETCOMPLEX64_SECOND);
 }

 template<>
 EIGEN_STRONG_INLINE void bcouple_common<Packet2d, Packet1cd>(PacketBlock<Packet2d,1>& taccReal, PacketBlock<Packet2d,1>& taccImag, PacketBlock<Packet1cd, 1>& acc1, PacketBlock<Packet1cd, 1>& acc2)
 {
   acc1.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX64_FIRST);

   acc2.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX64_SECOND);
 }

 // This is necessary because ploadRhs for double returns a pair of vectors when MMA is enabled.
 template<typename Scalar, typename Packet>
 EIGEN_STRONG_INLINE Packet ploadRhs(const Scalar* rhs)
 {
   return *reinterpret_cast<Packet *>(const_cast<Scalar *>(rhs));
 }

 } // end namespace internal
 } // end namespace Eigen
	//#define EIGEN_POWER_USE_PREFETCH // Use prefetching in gemm routines
	#ifdef EIGEN_POWER_USE_PREFETCH
	#define EIGEN_POWER_PREFETCH(p) prefetch(p)
	#else
	#define EIGEN_POWER_PREFETCH(p)
	#endif

	namespace Eigen {

	namespace internal {

	template<typename Scalar, typename Packet, typename DataMapper, typename Index, const Index accRows>
	EIGEN_STRONG_INLINE void gemm_extra_col(
	const DataMapper& res,
	const Scalar* lhs_base,
	const Scalar* rhs_base,
	Index depth,
	Index strideA,
	Index offsetA,
	Index row,
	Index col,
	Index remaining_rows,
	Index remaining_cols,
	const Packet& pAlpha);

	template<typename Scalar, typename Packet, typename DataMapper, typename Index, const Index accRows, const Index accCols>
	EIGEN_STRONG_INLINE void gemm_extra_row(
	const DataMapper& res,
	const Scalar* lhs_base,
	const Scalar* rhs_base,
	Index depth,
	Index strideA,
	Index offsetA,
	Index row,
	Index col,
	Index rows,
	Index cols,
	Index remaining_rows,
	const Packet& pAlpha,
	const Packet& pMask);

	template<typename Scalar, typename Packet, typename DataMapper, typename Index, const Index accCols>
	EIGEN_STRONG_INLINE void gemm_unrolled_col(
	const DataMapper& res,
	const Scalar* lhs_base,
	const Scalar* rhs_base,
	Index depth,
	Index strideA,
	Index offsetA,
	Index& row,
	Index rows,
	Index col,
	Index remaining_cols,
	const Packet& pAlpha);

	template<typename Packet>
	EIGEN_STRONG_INLINE Packet bmask(const int remaining_rows);

	template<typename Scalar, typename Packet, typename Packetc, typename DataMapper, typename Index, const Index accRows, const Index accCols, bool ConjugateLhs, bool ConjugateRhs, bool LhsIsReal, bool RhsIsReal>
	EIGEN_STRONG_INLINE void gemm_complex_extra_col(
	const DataMapper& res,
	const Scalar* lhs_base,
	const Scalar* rhs_base,
	Index depth,
	Index strideA,
	Index offsetA,
	Index strideB,
	Index row,
	Index col,
	Index remaining_rows,
	Index remaining_cols,
	const Packet& pAlphaReal,
	const Packet& pAlphaImag);

	template<typename Scalar, typename Packet, typename Packetc, typename DataMapper, typename Index, const Index accRows, const Index accCols, bool ConjugateLhs, bool ConjugateRhs, bool LhsIsReal, bool RhsIsReal>
	EIGEN_STRONG_INLINE void gemm_complex_extra_row(
	const DataMapper& res,
	const Scalar* lhs_base,
	const Scalar* rhs_base,
	Index depth,
	Index strideA,
	Index offsetA,
	Index strideB,
	Index row,
	Index col,
	Index rows,
	Index cols,
	Index remaining_rows,
	const Packet& pAlphaReal,
	const Packet& pAlphaImag,
	const Packet& pMask);

	template<typename Scalar, typename Packet, typename Packetc, typename DataMapper, typename Index, const Index accCols, bool ConjugateLhs, bool ConjugateRhs, bool LhsIsReal, bool RhsIsReal>
	EIGEN_STRONG_INLINE void gemm_complex_unrolled_col(
	const DataMapper& res,
	const Scalar* lhs_base,
	const Scalar* rhs_base,
	Index depth,
	Index strideA,
	Index offsetA,
	Index strideB,
	Index& row,
	Index rows,
	Index col,
	Index remaining_cols,
	const Packet& pAlphaReal,
	const Packet& pAlphaImag);

	template<typename Scalar, typename Packet>
	EIGEN_STRONG_INLINE Packet ploadLhs(const Scalar* lhs);

	template<typename DataMapper, typename Packet, typename Index, const Index accCols, int N, int StorageOrder>
	EIGEN_STRONG_INLINE void bload(PacketBlock<Packet,4>& acc, const DataMapper& res, Index row, Index col);

	template<typename DataMapper, typename Packet, typename Index, const Index accCols, int N, int StorageOrder>
	EIGEN_STRONG_INLINE void bload(PacketBlock<Packet,8>& acc, const DataMapper& res, Index row, Index col);

	template<typename Packet>
	EIGEN_STRONG_INLINE void bscale(PacketBlock<Packet,4>& acc, PacketBlock<Packet,4>& accZ, const Packet& pAlpha);

	template<typename Packet, int N>
	EIGEN_STRONG_INLINE void bscalec(PacketBlock<Packet,N>& aReal, PacketBlock<Packet,N>& aImag, const Packet& bReal, const Packet& bImag, PacketBlock<Packet,N>& cReal, PacketBlock<Packet,N>& cImag);

	const static Packet16uc p16uc_SETCOMPLEX32_FIRST = { 0, 1, 2, 3,
	16, 17, 18, 19,
	4, 5, 6, 7,
	20, 21, 22, 23};

	const static Packet16uc p16uc_SETCOMPLEX32_SECOND = { 8, 9, 10, 11,
	24, 25, 26, 27,
	12, 13, 14, 15,
	28, 29, 30, 31};
	//[a,b],[ai,bi] = [a,ai] - This is equivalent to p16uc_GETREAL64
	const static Packet16uc p16uc_SETCOMPLEX64_FIRST = { 0, 1, 2, 3, 4, 5, 6, 7,
	16, 17, 18, 19, 20, 21, 22, 23};

	//[a,b],[ai,bi] = [b,bi] - This is equivalent to p16uc_GETIMAG64
	const static Packet16uc p16uc_SETCOMPLEX64_SECOND = { 8, 9, 10, 11, 12, 13, 14, 15,
	24, 25, 26, 27, 28, 29, 30, 31};


	// Grab two decouples real/imaginary PacketBlocks and return two coupled (real/imaginary pairs) PacketBlocks.
	template<typename Packet, typename Packetc>
	EIGEN_STRONG_INLINE void bcouple_common(PacketBlock<Packet,4>& taccReal, PacketBlock<Packet,4>& taccImag, PacketBlock<Packetc, 4>& acc1, PacketBlock<Packetc, 4>& acc2)
	{
	acc1.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX32_FIRST);
	acc1.packet[1].v = vec_perm(taccReal.packet[1], taccImag.packet[1], p16uc_SETCOMPLEX32_FIRST);
	acc1.packet[2].v = vec_perm(taccReal.packet[2], taccImag.packet[2], p16uc_SETCOMPLEX32_FIRST);
	acc1.packet[3].v = vec_perm(taccReal.packet[3], taccImag.packet[3], p16uc_SETCOMPLEX32_FIRST);

	acc2.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX32_SECOND);
	acc2.packet[1].v = vec_perm(taccReal.packet[1], taccImag.packet[1], p16uc_SETCOMPLEX32_SECOND);
	acc2.packet[2].v = vec_perm(taccReal.packet[2], taccImag.packet[2], p16uc_SETCOMPLEX32_SECOND);
	acc2.packet[3].v = vec_perm(taccReal.packet[3], taccImag.packet[3], p16uc_SETCOMPLEX32_SECOND);
	}

	template<typename Packet, typename Packetc>
	EIGEN_STRONG_INLINE void bcouple(PacketBlock<Packet,4>& taccReal, PacketBlock<Packet,4>& taccImag, PacketBlock<Packetc,8>& tRes, PacketBlock<Packetc, 4>& acc1, PacketBlock<Packetc, 4>& acc2)
	{
	bcouple_common<Packet, Packetc>(taccReal, taccImag, acc1, acc2);

	acc1.packet[0] = padd<Packetc>(tRes.packet[0], acc1.packet[0]);
	acc1.packet[1] = padd<Packetc>(tRes.packet[1], acc1.packet[1]);
	acc1.packet[2] = padd<Packetc>(tRes.packet[2], acc1.packet[2]);
	acc1.packet[3] = padd<Packetc>(tRes.packet[3], acc1.packet[3]);

	acc2.packet[0] = padd<Packetc>(tRes.packet[4], acc2.packet[0]);
	acc2.packet[1] = padd<Packetc>(tRes.packet[5], acc2.packet[1]);
	acc2.packet[2] = padd<Packetc>(tRes.packet[6], acc2.packet[2]);
	acc2.packet[3] = padd<Packetc>(tRes.packet[7], acc2.packet[3]);
	}

	template<typename Packet, typename Packetc>
	EIGEN_STRONG_INLINE void bcouple_common(PacketBlock<Packet,1>& taccReal, PacketBlock<Packet,1>& taccImag, PacketBlock<Packetc, 1>& acc1, PacketBlock<Packetc, 1>& acc2)
	{
	acc1.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX32_FIRST);

	acc2.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX32_SECOND);
	}

	template<typename Packet, typename Packetc>
	EIGEN_STRONG_INLINE void bcouple(PacketBlock<Packet,1>& taccReal, PacketBlock<Packet,1>& taccImag, PacketBlock<Packetc,2>& tRes, PacketBlock<Packetc, 1>& acc1, PacketBlock<Packetc, 1>& acc2)
	{
	bcouple_common<Packet, Packetc>(taccReal, taccImag, acc1, acc2);

	acc1.packet[0] = padd<Packetc>(tRes.packet[0], acc1.packet[0]);

	acc2.packet[0] = padd<Packetc>(tRes.packet[1], acc2.packet[0]);
	}

	template<>
	EIGEN_STRONG_INLINE void bcouple_common<Packet2d, Packet1cd>(PacketBlock<Packet2d,4>& taccReal, PacketBlock<Packet2d,4>& taccImag, PacketBlock<Packet1cd, 4>& acc1, PacketBlock<Packet1cd, 4>& acc2)
	{
	acc1.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX64_FIRST);
	acc1.packet[1].v = vec_perm(taccReal.packet[1], taccImag.packet[1], p16uc_SETCOMPLEX64_FIRST);
	acc1.packet[2].v = vec_perm(taccReal.packet[2], taccImag.packet[2], p16uc_SETCOMPLEX64_FIRST);
	acc1.packet[3].v = vec_perm(taccReal.packet[3], taccImag.packet[3], p16uc_SETCOMPLEX64_FIRST);

	acc2.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX64_SECOND);
	acc2.packet[1].v = vec_perm(taccReal.packet[1], taccImag.packet[1], p16uc_SETCOMPLEX64_SECOND);
	acc2.packet[2].v = vec_perm(taccReal.packet[2], taccImag.packet[2], p16uc_SETCOMPLEX64_SECOND);
	acc2.packet[3].v = vec_perm(taccReal.packet[3], taccImag.packet[3], p16uc_SETCOMPLEX64_SECOND);
	}

	template<>
	EIGEN_STRONG_INLINE void bcouple_common<Packet2d, Packet1cd>(PacketBlock<Packet2d,1>& taccReal, PacketBlock<Packet2d,1>& taccImag, PacketBlock<Packet1cd, 1>& acc1, PacketBlock<Packet1cd, 1>& acc2)
	{
	acc1.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX64_FIRST);

	acc2.packet[0].v = vec_perm(taccReal.packet[0], taccImag.packet[0], p16uc_SETCOMPLEX64_SECOND);
	}

	// This is necessary because ploadRhs for double returns a pair of vectors when MMA is enabled.
	template<typename Scalar, typename Packet>
	EIGEN_STRONG_INLINE Packet ploadRhs(const Scalar* rhs)
	{
	return reinterpret_cast<Packet >(const_cast<Scalar *>(rhs));
	}

	} // end namespace internal
	} // end namespace Eigen