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StageProc4F64Avx.hpp
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StageProc4F64Avx.hpp
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/*****************************************************************************
StageProc4F64Avx.hpp
Port of StageProc4Sse.hpp from float to double by Dario Mambro
StageProc4Sse.hpp Laurent de Soras, 2015
--- Legal stuff ---
This program is free software. It comes without any warranty, to
the extent permitted by applicable law. You can redistribute it
and/or modify it under the terms of the Do What The Fuck You Want
To Public License, Version 2, as published by Sam Hocevar. See
http://sam.zoy.org/wtfpl/COPYING for more details.
*Tab=3***********************************************************************/
#if defined (hiir_StageProc4F64Avx_CURRENT_CODEHEADER)
#error Recursive inclusion of StageProc4F64Avx code header.
#endif
#define hiir_StageProc4F64Avx_CURRENT_CODEHEADER
#if ! defined (hiir_StageProc4F64Avx_CODEHEADER_INCLUDED)
#define hiir_StageProc4F64Avx_CODEHEADER_INCLUDED
/*\\\ INCLUDE FILES \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\*/
#include "hiir/StageDataF64Avx.h"
namespace hiir
{
/*\\\ PUBLIC \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\*/
template <>
hiir_FORCEINLINE void StageProc4F64Avx <1>::process_sample_pos (const int nbr_coefs, __m256d &spl_0, __m256d &spl_1, StageDataF64Avx *stage_arr) noexcept
{
const int cnt = nbr_coefs + 2 - 1;
const __m256d tmp_0 = _mm256_add_pd (
_mm256_mul_pd (
_mm256_sub_pd (spl_0, _mm256_load_pd (stage_arr [cnt ]._mem)),
_mm256_load_pd (stage_arr [cnt ]._coef)
),
_mm256_load_pd (stage_arr [cnt - 2]._mem)
);
_mm256_store_pd (stage_arr [cnt - 2]._mem, spl_0);
_mm256_store_pd (stage_arr [cnt - 1]._mem, spl_1);
_mm256_store_pd (stage_arr [cnt ]._mem, tmp_0);
spl_0 = tmp_0;
}
template <>
hiir_FORCEINLINE void StageProc4F64Avx <0>::process_sample_pos (const int nbr_coefs, __m256d &spl_0, __m256d &spl_1, StageDataF64Avx *stage_arr) noexcept
{
const int cnt = nbr_coefs + 2;
_mm256_store_pd (stage_arr [cnt - 2]._mem, spl_0);
_mm256_store_pd (stage_arr [cnt - 1]._mem, spl_1);
}
template <int REMAINING>
void StageProc4F64Avx <REMAINING>::process_sample_pos (const int nbr_coefs, __m256d &spl_0, __m256d &spl_1, StageDataF64Avx *stage_arr) noexcept
{
const int cnt = nbr_coefs + 2 - REMAINING;
const __m256d tmp_0 = _mm256_add_pd (
_mm256_mul_pd (
_mm256_sub_pd (spl_0, _mm256_load_pd (stage_arr [cnt ]._mem)),
_mm256_load_pd (stage_arr [cnt ]._coef)
),
_mm256_load_pd (stage_arr [cnt - 2]._mem)
);
const __m256d tmp_1 = _mm256_add_pd (
_mm256_mul_pd (
_mm256_sub_pd (spl_1, _mm256_load_pd (stage_arr [cnt + 1]._mem)),
_mm256_load_pd (stage_arr [cnt + 1]._coef)
),
_mm256_load_pd (stage_arr [cnt - 1]._mem)
);
_mm256_store_pd (stage_arr [cnt - 2]._mem, spl_0);
_mm256_store_pd (stage_arr [cnt - 1]._mem, spl_1);
spl_0 = tmp_0;
spl_1 = tmp_1;
StageProc4F64Avx <REMAINING - 2>::process_sample_pos (
nbr_coefs,
spl_0,
spl_1,
stage_arr
);
}
template <>
hiir_FORCEINLINE void StageProc4F64Avx <1>::process_sample_neg (const int nbr_coefs, __m256d &spl_0, __m256d &spl_1, StageDataF64Avx *stage_arr) noexcept
{
const int cnt = nbr_coefs + 2 - 1;
const __m256d tmp_0 = _mm256_sub_pd (
_mm256_mul_pd (
_mm256_add_pd (spl_0, _mm256_load_pd (stage_arr [cnt ]._mem)),
_mm256_load_pd (stage_arr [cnt ]._coef)
),
_mm256_load_pd (stage_arr [cnt - 2]._mem)
);
_mm256_store_pd (stage_arr [cnt - 2]._mem, spl_0);
_mm256_store_pd (stage_arr [cnt - 1]._mem, spl_1);
_mm256_store_pd (stage_arr [cnt ]._mem, tmp_0);
spl_0 = tmp_0;
}
template <>
hiir_FORCEINLINE void StageProc4F64Avx <0>::process_sample_neg (const int nbr_coefs, __m256d &spl_0, __m256d &spl_1, StageDataF64Avx *stage_arr) noexcept
{
const int cnt = nbr_coefs + 2;
_mm256_store_pd (stage_arr [cnt - 2]._mem, spl_0);
_mm256_store_pd (stage_arr [cnt - 1]._mem, spl_1);
}
template <int REMAINING>
void StageProc4F64Avx <REMAINING>::process_sample_neg (const int nbr_coefs, __m256d &spl_0, __m256d &spl_1, StageDataF64Avx *stage_arr) noexcept
{
const int cnt = nbr_coefs + 2 - REMAINING;
const __m256d tmp_0 = _mm256_sub_pd (
_mm256_mul_pd (
_mm256_add_pd (spl_0, _mm256_load_pd (stage_arr [cnt ]._mem)),
_mm256_load_pd (stage_arr [cnt ]._coef)
),
_mm256_load_pd (stage_arr [cnt - 2]._mem)
);
const __m256d tmp_1 = _mm256_sub_pd (
_mm256_mul_pd (
_mm256_add_pd (spl_1, _mm256_load_pd (stage_arr [cnt + 1]._mem)),
_mm256_load_pd (stage_arr [cnt + 1]._coef)
),
_mm256_load_pd (stage_arr [cnt - 1]._mem)
);
_mm256_store_pd (stage_arr [cnt - 2]._mem, spl_0);
_mm256_store_pd (stage_arr [cnt - 1]._mem, spl_1);
spl_0 = tmp_0;
spl_1 = tmp_1;
StageProc4F64Avx <REMAINING - 2>::process_sample_neg (
nbr_coefs,
spl_0,
spl_1,
stage_arr
);
}
/*\\\ PROTECTED \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\*/
/*\\\ PRIVATE \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\*/
} // namespace hiir
#endif // hiir_StageProc4F64Avx_CODEHEADER_INCLUDED
#undef hiir_StageProc4F64Avx_CURRENT_CODEHEADER
/*\\\ EOF \\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\\*/