// This file is part of OpenCV project. // It is subject to the license terms in the LICENSE file found in the top-level directory // of this distribution and at http://opencv.org/license.html #include "precomp.hpp" namespace cv { namespace hal { CV_CPU_OPTIMIZATION_NAMESPACE_BEGIN void split8u(const uchar* src, uchar** dst, int len, int cn); void split16u(const ushort* src, ushort** dst, int len, int cn); void split32s(const int* src, int** dst, int len, int cn); void split64s(const int64* src, int64** dst, int len, int cn); #ifndef CV_CPU_OPTIMIZATION_DECLARATIONS_ONLY #if (CV_SIMD || CV_SIMD_SCALABLE) // see the comments for vecmerge_ in merge.cpp template static void vecsplit_( const T* src, T** dst, int len, int cn ) { const int VECSZ = VTraits::vlanes(); int i, i0 = 0; T* dst0 = dst[0]; T* dst1 = dst[1]; int r0 = (int)((size_t)(void*)dst0 % (VECSZ*sizeof(T))); int r1 = (int)((size_t)(void*)dst1 % (VECSZ*sizeof(T))); int r2 = cn > 2 ? (int)((size_t)(void*)dst[2] % (VECSZ*sizeof(T))) : r0; int r3 = cn > 3 ? (int)((size_t)(void*)dst[3] % (VECSZ*sizeof(T))) : r0; hal::StoreMode mode = hal::STORE_ALIGNED_NOCACHE; if( (r0|r1|r2|r3) != 0 ) { mode = hal::STORE_UNALIGNED; if( r0 == r1 && r0 == r2 && r0 == r3 && r0 % sizeof(T) == 0 && len > VECSZ*2 ) i0 = VECSZ - (r0 / sizeof(T)); } if( cn == 2 ) { for( i = 0; i < len; i += VECSZ ) { if( i > len - VECSZ ) { i = len - VECSZ; mode = hal::STORE_UNALIGNED; } VecT a, b; v_load_deinterleave(src + i*cn, a, b); v_store(dst0 + i, a, mode); v_store(dst1 + i, b, mode); if( i < i0 ) { i = i0 - VECSZ; mode = hal::STORE_ALIGNED_NOCACHE; } } } else if( cn == 3 ) { T* dst2 = dst[2]; for( i = 0; i < len; i += VECSZ ) { if( i > len - VECSZ ) { i = len - VECSZ; mode = hal::STORE_UNALIGNED; } VecT a, b, c; v_load_deinterleave(src + i*cn, a, b, c); v_store(dst0 + i, a, mode); v_store(dst1 + i, b, mode); v_store(dst2 + i, c, mode); if( i < i0 ) { i = i0 - VECSZ; mode = hal::STORE_ALIGNED_NOCACHE; } } } else { CV_Assert( cn == 4 ); T* dst2 = dst[2]; T* dst3 = dst[3]; for( i = 0; i < len; i += VECSZ ) { if( i > len - VECSZ ) { i = len - VECSZ; mode = hal::STORE_UNALIGNED; } VecT a, b, c, d; v_load_deinterleave(src + i*cn, a, b, c, d); v_store(dst0 + i, a, mode); v_store(dst1 + i, b, mode); v_store(dst2 + i, c, mode); v_store(dst3 + i, d, mode); if( i < i0 ) { i = i0 - VECSZ; mode = hal::STORE_ALIGNED_NOCACHE; } } } vx_cleanup(); } #endif template static void split_( const T* src, T** dst, int len, int cn ) { int k = cn % 4 ? cn % 4 : 4; int i, j; if( k == 1 ) { T* dst0 = dst[0]; if(cn == 1) { memcpy(dst0, src, len * sizeof(T)); } else { for( i = 0, j = 0 ; i < len; i++, j += cn ) dst0[i] = src[j]; } } else if( k == 2 ) { T *dst0 = dst[0], *dst1 = dst[1]; i = j = 0; for( ; i < len; i++, j += cn ) { dst0[i] = src[j]; dst1[i] = src[j+1]; } } else if( k == 3 ) { T *dst0 = dst[0], *dst1 = dst[1], *dst2 = dst[2]; i = j = 0; for( ; i < len; i++, j += cn ) { dst0[i] = src[j]; dst1[i] = src[j+1]; dst2[i] = src[j+2]; } } else { T *dst0 = dst[0], *dst1 = dst[1], *dst2 = dst[2], *dst3 = dst[3]; i = j = 0; for( ; i < len; i++, j += cn ) { dst0[i] = src[j]; dst1[i] = src[j+1]; dst2[i] = src[j+2]; dst3[i] = src[j+3]; } } for( ; k < cn; k += 4 ) { T *dst0 = dst[k], *dst1 = dst[k+1], *dst2 = dst[k+2], *dst3 = dst[k+3]; for( i = 0, j = k; i < len; i++, j += cn ) { dst0[i] = src[j]; dst1[i] = src[j+1]; dst2[i] = src[j+2]; dst3[i] = src[j+3]; } } } void split8u(const uchar* src, uchar** dst, int len, int cn ) { CV_INSTRUMENT_REGION(); #if (CV_SIMD || CV_SIMD_SCALABLE) if( len >= VTraits::vlanes() && 2 <= cn && cn <= 4 ) vecsplit_(src, dst, len, cn); else #endif split_(src, dst, len, cn); } void split16u(const ushort* src, ushort** dst, int len, int cn ) { CV_INSTRUMENT_REGION(); #if (CV_SIMD || CV_SIMD_SCALABLE) if( len >= VTraits::vlanes() && 2 <= cn && cn <= 4 ) vecsplit_(src, dst, len, cn); else #endif split_(src, dst, len, cn); } void split32s(const int* src, int** dst, int len, int cn ) { CV_INSTRUMENT_REGION(); #if (CV_SIMD || CV_SIMD_SCALABLE) if( len >= VTraits::vlanes() && 2 <= cn && cn <= 4 ) vecsplit_(src, dst, len, cn); else #endif split_(src, dst, len, cn); } void split64s(const int64* src, int64** dst, int len, int cn ) { CV_INSTRUMENT_REGION(); #if (CV_SIMD || CV_SIMD_SCALABLE) if( len >= VTraits::vlanes() && 2 <= cn && cn <= 4 ) vecsplit_(src, dst, len, cn); else #endif split_(src, dst, len, cn); } #endif CV_CPU_OPTIMIZATION_NAMESPACE_END }} // namespace