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https://github.com/opencv/opencv.git
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3cbe60cca2
* add accuracy test and performance check for matmul * add performance tests for transform and dotProduct * add test Core_TransformLargeTest for 8u version of transform * remove raw SSE2/NEON implementation from matmul.cpp * use universal intrinsic instead of raw intrinsic * remove unused templated function * add v_matmuladd which multiply 3x3 matrix and add 3x1 vector * add v_rotate_left/right in universal intrinsic * suppress intrinsic on some function and platform * add pure SW implementation of new universal intrinsics * add test for new universal intrinsics * core: prevent memory access after the end of buffer * fix perf tests
245 lines
6.6 KiB
C++
245 lines
6.6 KiB
C++
#include "test_precomp.hpp"
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#include <climits>
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#include "test_intrin_utils.hpp"
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#define CV_CPU_SIMD_FILENAME "test_intrin_utils.hpp"
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#define CV_CPU_DISPATCH_MODE FP16
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#include "opencv2/core/private/cv_cpu_include_simd_declarations.hpp"
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using namespace cv;
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namespace cvtest { namespace hal {
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using namespace CV_CPU_OPTIMIZATION_NAMESPACE;
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//============= 8-bit integer =====================================================================
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TEST(hal_intrin, uint8x16) {
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TheTest<v_uint8x16>()
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.test_loadstore()
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.test_interleave()
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.test_expand()
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.test_expand_q()
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.test_addsub()
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.test_addsub_wrap()
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.test_cmp()
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.test_logic()
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.test_min_max()
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.test_absdiff()
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.test_mask()
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.test_popcount()
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.test_pack<1>().test_pack<2>().test_pack<3>().test_pack<8>()
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.test_pack_u<1>().test_pack_u<2>().test_pack_u<3>().test_pack_u<8>()
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.test_unpack()
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.test_extract<0>().test_extract<1>().test_extract<8>().test_extract<15>()
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.test_rotate<0>().test_rotate<1>().test_rotate<8>().test_rotate<15>()
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;
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}
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TEST(hal_intrin, int8x16) {
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TheTest<v_int8x16>()
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.test_loadstore()
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.test_interleave()
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.test_expand()
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.test_expand_q()
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.test_addsub()
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.test_addsub_wrap()
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.test_cmp()
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.test_logic()
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.test_min_max()
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.test_absdiff()
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.test_abs()
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.test_mask()
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.test_popcount()
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.test_pack<1>().test_pack<2>().test_pack<3>().test_pack<8>()
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.test_unpack()
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.test_extract<0>().test_extract<1>().test_extract<8>().test_extract<15>()
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.test_rotate<0>().test_rotate<1>().test_rotate<8>().test_rotate<15>()
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;
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}
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//============= 16-bit integer =====================================================================
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TEST(hal_intrin, uint16x8) {
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TheTest<v_uint16x8>()
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.test_loadstore()
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.test_interleave()
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.test_expand()
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.test_addsub()
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.test_addsub_wrap()
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.test_mul()
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.test_mul_expand()
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.test_cmp()
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.test_shift<1>()
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.test_shift<8>()
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.test_logic()
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.test_min_max()
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.test_absdiff()
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.test_reduce()
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.test_mask()
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.test_popcount()
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.test_pack<1>().test_pack<2>().test_pack<7>().test_pack<16>()
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.test_pack_u<1>().test_pack_u<2>().test_pack_u<7>().test_pack_u<16>()
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.test_unpack()
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.test_extract<0>().test_extract<1>().test_extract<4>().test_extract<7>()
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.test_rotate<0>().test_rotate<1>().test_rotate<4>().test_rotate<7>()
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;
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}
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TEST(hal_intrin, int16x8) {
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TheTest<v_int16x8>()
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.test_loadstore()
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.test_interleave()
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.test_expand()
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.test_addsub()
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.test_addsub_wrap()
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.test_mul()
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.test_mul_expand()
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.test_cmp()
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.test_shift<1>()
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.test_shift<8>()
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.test_dot_prod()
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.test_logic()
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.test_min_max()
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.test_absdiff()
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.test_abs()
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.test_reduce()
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.test_mask()
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.test_popcount()
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.test_pack<1>().test_pack<2>().test_pack<7>().test_pack<16>()
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.test_unpack()
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.test_extract<0>().test_extract<1>().test_extract<4>().test_extract<7>()
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.test_rotate<0>().test_rotate<1>().test_rotate<4>().test_rotate<7>()
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;
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}
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//============= 32-bit integer =====================================================================
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TEST(hal_intrin, uint32x4) {
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TheTest<v_uint32x4>()
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.test_loadstore()
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.test_interleave()
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.test_expand()
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.test_addsub()
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.test_mul()
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.test_mul_expand()
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.test_cmp()
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.test_shift<1>()
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.test_shift<8>()
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.test_logic()
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.test_min_max()
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.test_absdiff()
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.test_reduce()
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.test_mask()
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.test_popcount()
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.test_pack<1>().test_pack<2>().test_pack<15>().test_pack<32>()
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.test_unpack()
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.test_extract<0>().test_extract<1>().test_extract<2>().test_extract<3>()
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.test_rotate<0>().test_rotate<1>().test_rotate<2>().test_rotate<3>()
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.test_transpose()
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;
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}
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TEST(hal_intrin, int32x4) {
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TheTest<v_int32x4>()
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.test_loadstore()
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.test_interleave()
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.test_expand()
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.test_addsub()
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.test_mul()
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.test_abs()
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.test_cmp()
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.test_popcount()
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.test_shift<1>().test_shift<8>()
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.test_logic()
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.test_min_max()
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.test_absdiff()
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.test_reduce()
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.test_mask()
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.test_pack<1>().test_pack<2>().test_pack<15>().test_pack<32>()
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.test_unpack()
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.test_extract<0>().test_extract<1>().test_extract<2>().test_extract<3>()
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.test_rotate<0>().test_rotate<1>().test_rotate<2>().test_rotate<3>()
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.test_float_cvt32()
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.test_float_cvt64()
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.test_transpose()
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;
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}
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//============= 64-bit integer =====================================================================
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TEST(hal_intrin, uint64x2) {
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TheTest<v_uint64x2>()
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.test_loadstore()
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.test_addsub()
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.test_shift<1>().test_shift<8>()
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.test_logic()
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.test_extract<0>().test_extract<1>()
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.test_rotate<0>().test_rotate<1>()
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;
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}
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TEST(hal_intrin, int64x2) {
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TheTest<v_int64x2>()
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.test_loadstore()
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.test_addsub()
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.test_shift<1>().test_shift<8>()
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.test_logic()
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.test_extract<0>().test_extract<1>()
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.test_rotate<0>().test_rotate<1>()
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;
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}
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//============= Floating point =====================================================================
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TEST(hal_intrin, float32x4) {
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TheTest<v_float32x4>()
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.test_loadstore()
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.test_interleave()
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.test_interleave_2channel()
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.test_addsub()
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.test_mul()
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.test_div()
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.test_cmp()
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.test_sqrt_abs()
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.test_min_max()
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.test_float_absdiff()
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.test_reduce()
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.test_mask()
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.test_unpack()
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.test_float_math()
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.test_float_cvt64()
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.test_matmul()
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.test_transpose()
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.test_reduce_sum4()
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;
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}
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#if CV_SIMD128_64F
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TEST(hal_intrin, float64x2) {
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TheTest<v_float64x2>()
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.test_loadstore()
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.test_addsub()
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.test_mul()
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.test_div()
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.test_cmp()
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.test_sqrt_abs()
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.test_min_max()
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.test_float_absdiff()
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.test_mask()
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.test_unpack()
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.test_float_math()
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.test_float_cvt32()
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;
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}
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#endif
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TEST(hal_intrin,float16x4)
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{
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CV_CPU_CALL_FP16(test_hal_intrin_float16x4, ());
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throw SkipTestException("Unsupported hardware: FP16 is not available");
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}
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}}
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