#include #include #if defined(ONLY_BUILD_GI_API) #include class FALLBACK : public ::testing::Test {}; #else #include "test/fallback/fixture.h" #endif #include "src/fallback/general_intrinsic/gi_float.h" #include "src/fallback/general_intrinsic/gi_int.h" namespace megdnn { namespace test { #define SIMD_LEN GI_SIMD_LEN_BYTE / sizeof(float) #define SIMD_LEN_16 GI_SIMD_LEN_BYTE / sizeof(int16_t) #define SIMD_LEN_8 GI_SIMD_LEN_BYTE / sizeof(int8_t) template static void init( T* dst, const std::vector& value, const size_t simd_len = SIMD_LEN) { for (size_t i = 0; i < simd_len; i++) { dst[i] = value[i]; } } template static void assert_eq(T* a, const std::vector& b, const size_t simd_len = SIMD_LEN) { for (size_t i = 0; i < simd_len; i++) { ASSERT_EQ(a[i], b[i]); } } template static void assert_eq_and_nan( T* a, const std::vector& b, const size_t simd_len = SIMD_LEN) { for (size_t i = 0; i < simd_len; i++) { if (isnan(a[i]) && isnan(b[i])) { continue; } ASSERT_EQ(a[i], b[i]); } } static void assert_lt( float* a, const std::vector& b, const float eps, const size_t simd_len = SIMD_LEN) { for (size_t i = 0; i < simd_len; i++) { ASSERT_LT(std::abs(a[i] - b[i]), eps); } } static void force_memset_ret(void* dst, const size_t len) { memset(dst, 'f', len); } TEST_F(FALLBACK, GiGetSimdType) { auto t = GiGetSimdType(); auto should_type = GI_UNKNOWN; #if defined(GI_AVX_INTRINSICS) || defined(GI_AVX2_INTRINSICS) || \ defined(GI_FMA_INTRINSICS) should_type = GI_AVX; #elif defined(GI_NEON_INTRINSICS) should_type = GI_NEON; #elif defined(GI_SSE2_INTRINSICS) || defined(GI_SSE42_INTRINSICS) #if defined(GI_SSE42_INTRINSICS) should_type = GI_SSE42; #elif defined(GI_SSE2_INTRINSICS) should_type = GI_SSE2; #else should_type = GI_UNKNOWN; #error "code issue happened!!" #endif #elif defined(GI_RVV_INTRINSICS) should_type = GI_RVV; #else should_type = GI_NAIVE; #endif printf("test GiGetSimdType: %d, should_type: %d\n", t, should_type); ASSERT_EQ(t, should_type); } TEST_F(FALLBACK, GiReinterpretInt8AsInt32) { GI_INT32_t ret; GI_INT8_t src0; std::vector s0{9, 2, -128, 127, 2, 45, 3, 0, 11, 2, -128, 127, 2, 55, 3, -1}; s0.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiReinterpretInt8AsInt32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { int8_t tmp; memcpy(&tmp, &s0[i], sizeof(int8_t)); naive.push_back(tmp); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiGetSubVectorFloat32V2) { GI_FLOAT32_V2_t src0; GI_FLOAT32_t ret1, ret2; std::vector s0{ -1.0f, 2.2f, -3.4f, 4.5f, 111.0f, 12.2f, -13.4f, -44.5f, }; s0.resize(SIMD_LEN * 2); init((float*)&src0, s0, SIMD_LEN * 2); force_memset_ret((void*)&ret1, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret2, GI_SIMD_LEN_BYTE); ret1 = GiGetSubVectorFloat32V2(src0, 0); ret2 = GiGetSubVectorFloat32V2(src0, 1); std::vector naive1, naive2; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive1.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN], sizeof(float)); naive2.push_back(tmp); } assert_eq((float*)&ret1, naive1, SIMD_LEN); assert_eq((float*)&ret2, naive2, SIMD_LEN); } TEST_F(FALLBACK, GiSetSubVectorFloat32V2) { GI_FLOAT32_V2_t ret; GI_FLOAT32_t src0, src1; std::vector s0{-1.0f, 2.2f, -3.4f, 4.5f}; std::vector s1{111.0f, 12.2f, -13.4f, -44.5f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0, SIMD_LEN); init((float*)&src1, s1, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); GiSetSubVectorFloat32V2(ret, 0, src0); GiSetSubVectorFloat32V2(ret, 1, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s1[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive, SIMD_LEN * 2); } TEST_F(FALLBACK, GiFloat32Type2FixLenType) { GI_FLOAT32_FIXLEN_t ret; GI_FLOAT32_t src; std::vector s0{-1.0f, 2.2f, -3.4f, 4.5f}; s0.resize(SIMD_LEN); init((float*)&src, s0, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiFloat32Type2FixLenType(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive, SIMD_LEN); } TEST_F(FALLBACK, GiFixLenType2GiFloat32Type) { GI_FLOAT32_t ret; GI_FLOAT32_FIXLEN_t src; std::vector s0{-1.0f, 2.2f, -3.4f, 4.5f}; s0.resize(SIMD_LEN); init((float*)&src, s0, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiFixLenType2GiFloat32Type(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive, SIMD_LEN); } TEST_F(FALLBACK, GiFloat32Type2FixLenV2Type) { GI_FLOAT32_FIXLEN_V2_t ret; GI_FLOAT32_V2_t src; std::vector s0{-1.0f, 2.2f, -3.4f, 4.5f, 55.1f, 99.0f, -1.9f, -5.3f}; s0.resize(SIMD_LEN * 2); init((float*)&src, s0, SIMD_LEN * 2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); ret = GiFloat32Type2FixLenV2Type(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN * 2; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive, SIMD_LEN * 2); } TEST_F(FALLBACK, GiFixLenType2GiFloat32V2Type) { GI_FLOAT32_V2_t ret; GI_FLOAT32_FIXLEN_V2_t src; std::vector s0{-1.0f, 2.2f, -3.4f, 4.5f, 111.0f, 12.2f, -13.4f, -44.5f}; s0.resize(SIMD_LEN * 2); init((float*)&src, s0, SIMD_LEN * 2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); ret = GiFixLenType2GiFloat32V2Type(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN * 2; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive, SIMD_LEN * 2); } TEST_F(FALLBACK, GiGetSubVectorFloat32V3) { GI_FLOAT32_V3_t src0; GI_FLOAT32_t ret1, ret2, ret3; std::vector s0{-1.0f, 2.2f, -3.4f, 4.5f, 111.0f, 12.2f, -13.4f, -44.5f, 22.4f, 55.0f, -12.0f, 678.9f}; s0.resize(SIMD_LEN * 3); //! rvv compiler crash when use init on type_x3, use rvv load api as a workaround #if defined(GI_RVV_INTRINSICS) vfloat32m1_t t00, t10, t20; t00 = vle32_v_f32m1(s0.data(), SIMD_LEN); t10 = vle32_v_f32m1(s0.data() + SIMD_LEN, 4); t20 = vle32_v_f32m1(s0.data() + SIMD_LEN * 2, 4); src0 = vcreate_f32m1x3(t00, t10, t20); #else init((float*)&src0, s0, SIMD_LEN * 3); #endif force_memset_ret((void*)&ret1, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret2, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret3, GI_SIMD_LEN_BYTE); ret1 = GiGetSubVectorFloat32V3(src0, 0); ret2 = GiGetSubVectorFloat32V3(src0, 1); ret3 = GiGetSubVectorFloat32V3(src0, 2); std::vector naive1, naive2, naive3; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive1.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN], sizeof(float)); naive2.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN * 2], sizeof(float)); naive3.push_back(tmp); } assert_eq((float*)&ret1, naive1, SIMD_LEN); assert_eq((float*)&ret2, naive2, SIMD_LEN); assert_eq((float*)&ret3, naive3, SIMD_LEN); } TEST_F(FALLBACK, GiSetSubVectorFloat32V3) { GI_FLOAT32_V3_t ret; GI_FLOAT32_t src0, src1, src2; std::vector s0{-1.0f, 2.2f, -3.4f, 4.5f}; std::vector s1{111.0f, 12.2f, -13.4f, -44.5f}; std::vector s2{22.4f, 55.0f, -12.0f, 678.9f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0, SIMD_LEN); init((float*)&src1, s1, SIMD_LEN); init((float*)&src2, s2, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 3); GiSetSubVectorFloat32V3(ret, 0, src0); GiSetSubVectorFloat32V3(ret, 1, src1); GiSetSubVectorFloat32V3(ret, 2, src2); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s1[i], sizeof(float)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s2[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive, SIMD_LEN * 3); } TEST_F(FALLBACK, GiGetSubVectorFloat32V4) { GI_FLOAT32_V4_t src0; GI_FLOAT32_t ret1, ret2, ret3, ret4; std::vector s0{-1.0f, 2.2f, -3.4f, 4.5f, 111.0f, 12.2f, -13.4f, -44.5f, 22.4f, 55.0f, -12.0f, 678.9f, 2.2f, -3.4f, 4.5f, 111.0f}; s0.resize(SIMD_LEN * 4); #if defined(GI_RVV_INTRINSICS) vfloat32m1_t t00, t10, t20, t30; t00 = vle32_v_f32m1(s0.data(), SIMD_LEN); t10 = vle32_v_f32m1(s0.data() + SIMD_LEN, 4); t20 = vle32_v_f32m1(s0.data() + SIMD_LEN * 2, 4); t30 = vle32_v_f32m1(s0.data() + SIMD_LEN * 3, 4); src0 = vcreate_f32m1x4(t00, t10, t20, t30); #else init((float*)&src0, s0, SIMD_LEN * 4); #endif force_memset_ret((void*)&ret1, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret2, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret3, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret4, GI_SIMD_LEN_BYTE); ret1 = GiGetSubVectorFloat32V4(src0, 0); ret2 = GiGetSubVectorFloat32V4(src0, 1); ret3 = GiGetSubVectorFloat32V4(src0, 2); ret4 = GiGetSubVectorFloat32V4(src0, 3); std::vector naive1, naive2, naive3, naive4; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive1.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN], sizeof(float)); naive2.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN * 2], sizeof(float)); naive3.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN * 3], sizeof(float)); naive4.push_back(tmp); } assert_eq((float*)&ret1, naive1, SIMD_LEN); assert_eq((float*)&ret2, naive2, SIMD_LEN); assert_eq((float*)&ret3, naive3, SIMD_LEN); assert_eq((float*)&ret4, naive4, SIMD_LEN); } TEST_F(FALLBACK, GiSetSubVectorFloat32V4) { GI_FLOAT32_V4_t ret; GI_FLOAT32_t src0, src1, src2, src3; std::vector s0{-1.0f, 2.2f, -3.4f, 99.0f}; std::vector s1{4.5f, 111.0f, 12.2f, -13.4f}; std::vector s2{-44.5f, 22.4f, 55.0f, -12.0f}; std::vector s3{2.2f, -3.4f, 4.5f, 111.0f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); s3.resize(SIMD_LEN); init((float*)&src0, s0, SIMD_LEN); init((float*)&src1, s1, SIMD_LEN); init((float*)&src2, s2, SIMD_LEN); init((float*)&src3, s3, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 4); GiSetSubVectorFloat32V4(ret, 0, src0); GiSetSubVectorFloat32V4(ret, 1, src1); GiSetSubVectorFloat32V4(ret, 2, src2); GiSetSubVectorFloat32V4(ret, 3, src3); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s1[i], sizeof(float)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s2[i], sizeof(float)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s3[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive, SIMD_LEN * 4); } TEST_F(FALLBACK, GiGetSubVectorInt32V2) { GI_INT32_V2_t src0; GI_INT32_t ret1, ret2; std::vector s0{1, 2, 3, 4, -4, -3, -2, -1}; s0.resize(SIMD_LEN * 2); init((int32_t*)&src0, s0, SIMD_LEN * 2); force_memset_ret((void*)&ret1, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret2, GI_SIMD_LEN_BYTE); ret1 = GiGetSubVectorInt32V2(src0, 0); ret2 = GiGetSubVectorInt32V2(src0, 1); std::vector naive1, naive2; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s0[i], sizeof(int32_t)); naive1.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN], sizeof(int32_t)); naive2.push_back(tmp); } assert_eq((int32_t*)&ret1, naive1, SIMD_LEN); assert_eq((int32_t*)&ret2, naive2, SIMD_LEN); } TEST_F(FALLBACK, GiSetSubVectorInt32V2) { GI_INT32_V2_t ret; GI_INT32_t src0, src1; std::vector s0{1, 2, 3, 4}; std::vector s1{-4, -3, -2, -1}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((int32_t*)&src0, s0, SIMD_LEN); init((int32_t*)&src1, s1, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); GiSetSubVectorInt32V2(ret, 0, src0); GiSetSubVectorInt32V2(ret, 1, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s0[i], sizeof(int32_t)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s1[i], sizeof(int32_t)); naive.push_back(tmp); } assert_eq((int32_t*)&ret, naive, SIMD_LEN * 2); } TEST_F(FALLBACK, GiInt32Type2FixLenType) { GI_INT32_FIXLEN_t ret; GI_INT32_t src; std::vector s0{3, 4, -4, -3}; s0.resize(SIMD_LEN); init((int32_t*)&src, s0, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiInt32Type2FixLenType(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s0[i], sizeof(int32_t)); naive.push_back(tmp); } assert_eq((int32_t*)&ret, naive, SIMD_LEN); } TEST_F(FALLBACK, GiFixLenType2GiInt32Type) { GI_INT32_t ret; GI_INT32_FIXLEN_t src; std::vector s0{2, 3, 4, -4}; s0.resize(SIMD_LEN); init((int32_t*)&src, s0, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiFixLenType2GiInt32Type(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s0[i], sizeof(int32_t)); naive.push_back(tmp); } assert_eq((int32_t*)&ret, naive, SIMD_LEN); } TEST_F(FALLBACK, GiUint32Type2FixLenType) { GI_UINT32_FIXLEN_t ret; GI_UINT32_t src; std::vector s0{1, 2, 3, 4}; s0.resize(SIMD_LEN); init((uint32_t*)&src, s0, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiUint32Type2FixLenType(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { uint32_t tmp; memcpy(&tmp, &s0[i], sizeof(uint32_t)); naive.push_back(tmp); } assert_eq((uint32_t*)&ret, naive, SIMD_LEN); } TEST_F(FALLBACK, GiFixLenType2GiUint32Type) { GI_UINT32_t ret; GI_UINT32_FIXLEN_t src; std::vector s0{1, 2, 3, 4}; s0.resize(SIMD_LEN); init((uint32_t*)&src, s0, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiFixLenType2GiUint32Type(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { uint32_t tmp; memcpy(&tmp, &s0[i], sizeof(uint32_t)); naive.push_back(tmp); } assert_eq((uint32_t*)&ret, naive, SIMD_LEN); } TEST_F(FALLBACK, GiGetSubVectorInt32V4) { GI_INT32_V4_t src0; GI_INT32_t ret1, ret2, ret3, ret4; std::vector s0{1, 2, 3, 4, -4, -3, -2, -1, 23, 456, 765, -99, 45, 99, 0, 8}; s0.resize(SIMD_LEN * 4); init((int32_t*)&src0, s0, SIMD_LEN * 4); force_memset_ret((void*)&ret1, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret2, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret3, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret4, GI_SIMD_LEN_BYTE); ret1 = GiGetSubVectorInt32V4(src0, 0); ret2 = GiGetSubVectorInt32V4(src0, 1); ret3 = GiGetSubVectorInt32V4(src0, 2); ret4 = GiGetSubVectorInt32V4(src0, 3); std::vector naive1, naive2, naive3, naive4; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s0[i], sizeof(int32_t)); naive1.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN], sizeof(int32_t)); naive2.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN * 2], sizeof(int32_t)); naive3.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN * 3], sizeof(int32_t)); naive4.push_back(tmp); } assert_eq((int32_t*)&ret1, naive1, SIMD_LEN); assert_eq((int32_t*)&ret2, naive2, SIMD_LEN); assert_eq((int32_t*)&ret3, naive3, SIMD_LEN); assert_eq((int32_t*)&ret4, naive4, SIMD_LEN); } TEST_F(FALLBACK, GiSetSubVectorInt32V4) { GI_INT32_V4_t ret; GI_INT32_t src0, src1, src2, src3; std::vector s0{1, 2, 3, 4, -4}; std::vector s1{3, -2, -1, 23}; std::vector s2{456, 765, -99, 45}; std::vector s3{45, 99, 0, 8}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); s3.resize(SIMD_LEN); init((int32_t*)&src0, s0, SIMD_LEN); init((int32_t*)&src1, s1, SIMD_LEN); init((int32_t*)&src2, s2, SIMD_LEN); init((int32_t*)&src3, s3, SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 4); GiSetSubVectorInt32V4(ret, 0, src0); GiSetSubVectorInt32V4(ret, 1, src1); GiSetSubVectorInt32V4(ret, 2, src2); GiSetSubVectorInt32V4(ret, 3, src3); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s0[i], sizeof(int32_t)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s1[i], sizeof(int32_t)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s2[i], sizeof(int32_t)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s3[i], sizeof(int32_t)); naive.push_back(tmp); } assert_eq((int32_t*)&ret, naive, SIMD_LEN * 4); } TEST_F(FALLBACK, GiGetSubVectorInt16V2) { GI_INT16_V2_t src0; GI_INT16_t ret1, ret2; std::vector s0{-127, 2, std::numeric_limits::max(), 9999, 1, 2, 3, 4, 1, 2, 3, 4, -4, -3, -2, -1}; s0.resize(SIMD_LEN_16 * 2); init((int16_t*)&src0, s0, SIMD_LEN_16 * 2); force_memset_ret((void*)&ret1, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret2, GI_SIMD_LEN_BYTE); ret1 = GiGetSubVectorInt16V2(src0, 0); ret2 = GiGetSubVectorInt16V2(src0, 1); std::vector naive1, naive2; for (size_t i = 0; i < SIMD_LEN_16; i++) { int16_t tmp; memcpy(&tmp, &s0[i], sizeof(int16_t)); naive1.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN_16], sizeof(int16_t)); naive2.push_back(tmp); } assert_eq((int16_t*)&ret1, naive1, SIMD_LEN_16); assert_eq((int16_t*)&ret2, naive2, SIMD_LEN_16); } TEST_F(FALLBACK, GiSetSubVectorInt16V2) { GI_INT16_V2_t ret; GI_INT16_t src0, src1; std::vector s0{-127, 2, std::numeric_limits::max(), 9999, 1, 2, 3, 4}; std::vector s1{1, 2, 3, 4, -4, -3, -2, -1}; s0.resize(SIMD_LEN_16); s1.resize(SIMD_LEN_16); init((int16_t*)&src0, s0, SIMD_LEN_16); init((int16_t*)&src1, s1, SIMD_LEN_16); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); GiSetSubVectorInt16V2(ret, 0, src0); GiSetSubVectorInt16V2(ret, 1, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN_16; i++) { int16_t tmp; memcpy(&tmp, &s0[i], sizeof(int16_t)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN_16; i++) { int16_t tmp; memcpy(&tmp, &s1[i], sizeof(int16_t)); naive.push_back(tmp); } assert_eq((int16_t*)&ret, naive, SIMD_LEN_16 * 2); } TEST_F(FALLBACK, GiInt16Type2FixLenType) { GI_INT16_t src; GI_INT16_FIXLEN_t ret; std::vector s0{-127, 2, std::numeric_limits::max(), 9999, 1, 2, 3, 4}; s0.resize(SIMD_LEN_16); init((int16_t*)&src, s0, SIMD_LEN_16); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiInt16Type2FixLenType(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN_16; i++) { int16_t tmp; memcpy(&tmp, &s0[i], sizeof(int16_t)); naive.push_back(tmp); } assert_eq((int16_t*)&ret, naive, SIMD_LEN_16); } TEST_F(FALLBACK, GiFixLenType2GiInt16Type) { GI_INT16_FIXLEN_t src; GI_INT16_t ret; std::vector s0{-127, 2, std::numeric_limits::max(), 9999, 1, 2, 3, 4}; s0.resize(SIMD_LEN_16); init((int16_t*)&src, s0, SIMD_LEN_16); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiFixLenType2GiInt16Type(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN_16; i++) { int16_t tmp; memcpy(&tmp, &s0[i], sizeof(int16_t)); naive.push_back(tmp); } assert_eq((int16_t*)&ret, naive, SIMD_LEN_16); } TEST_F(FALLBACK, GiGetSubVectorInt8V2) { GI_INT8_V2_t src0; GI_INT8_t ret1, ret2; std::vector s0{127, 2, 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, -14, -22, 3, -4, 127, -22, 56, -128, -1, 2, -3, 44}; s0.resize(SIMD_LEN_8 * 2); init((int8_t*)&src0, s0, SIMD_LEN_8 * 2); force_memset_ret((void*)&ret1, GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret2, GI_SIMD_LEN_BYTE); ret1 = GiGetSubVectorInt8V2(src0, 0); ret2 = GiGetSubVectorInt8V2(src0, 1); std::vector naive1, naive2; for (size_t i = 0; i < SIMD_LEN_8; i++) { int8_t tmp; memcpy(&tmp, &s0[i], sizeof(int8_t)); naive1.push_back(tmp); memcpy(&tmp, &s0[i + SIMD_LEN_8], sizeof(int8_t)); naive2.push_back(tmp); } assert_eq((int8_t*)&ret1, naive1, SIMD_LEN_8); assert_eq((int8_t*)&ret2, naive2, SIMD_LEN_8); } TEST_F(FALLBACK, GiSetSubVectorInt8V2) { GI_INT8_V2_t ret; GI_INT8_t src0, src1; std::vector s0{127, 2, 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; std::vector s1{127, 2, 56, -128, -14, -22, 3, -4, 127, -22, 56, -128, -1, 2, -3, 44}; s0.resize(SIMD_LEN_8); s1.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); init((int8_t*)&src1, s1, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); GiSetSubVectorInt8V2(ret, 0, src0); GiSetSubVectorInt8V2(ret, 1, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { int8_t tmp; memcpy(&tmp, &s0[i], sizeof(int8_t)); naive.push_back(tmp); } for (size_t i = 0; i < SIMD_LEN_8; i++) { int8_t tmp; memcpy(&tmp, &s1[i], sizeof(int8_t)); naive.push_back(tmp); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8 * 2); } TEST_F(FALLBACK, GiUint8Type2FixLenType) { GI_UINT8_FIXLEN_t ret; GI_UINT8_t src; std::vector s0{127, 2, 56, 255, 1, 2, 3, 4, 127, 2, 56, 0, 1, 2, 3, 4}; s0.resize(SIMD_LEN_8); init((uint8_t*)&src, s0, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiUint8Type2FixLenType(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { uint8_t tmp; memcpy(&tmp, &s0[i], sizeof(uint8_t)); naive.push_back(tmp); } assert_eq((uint8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiFixLenType2GiUint8Type) { GI_UINT8_t ret; GI_UINT8_FIXLEN_t src; std::vector s0{127, 2, 56, 255, 1, 2, 3, 4, 127, 2, 56, 0, 1, 2, 3, 4}; s0.resize(SIMD_LEN_8); init((uint8_t*)&src, s0, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiFixLenType2GiUint8Type(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { uint8_t tmp; memcpy(&tmp, &s0[i], sizeof(uint8_t)); naive.push_back(tmp); } assert_eq((uint8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiInt8Type2FixLenType) { GI_INT8_FIXLEN_t ret; GI_INT8_t src; std::vector s0{127, 2, 56, -128, 1, 2, 3, 4, 127, 2, 56, 0, 1, 2, 3, 4}; s0.resize(SIMD_LEN_8); init((int8_t*)&src, s0, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiInt8Type2FixLenType(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { int8_t tmp; memcpy(&tmp, &s0[i], sizeof(int8_t)); naive.push_back(tmp); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiFixLenType2GiInt8Type) { GI_INT8_t ret; GI_INT8_FIXLEN_t src; std::vector s0{127, 2, 56, -128, 1, 2, 3, 4, 127, 2, 56, 0, 1, 2, 3, 4}; s0.resize(SIMD_LEN_8); init((int8_t*)&src, s0, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiFixLenType2GiInt8Type(src); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { int8_t tmp; memcpy(&tmp, &s0[i], sizeof(int8_t)); naive.push_back(tmp); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiAndInt32) { GI_INT32_t src0, src1, ret; std::vector s0{1, 2, 3, 4}; s0.resize(SIMD_LEN); std::vector s1{5, 6, 7, 8}; s1.resize(SIMD_LEN); init((int32_t*)&src0, s0); init((int32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAndInt32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] & s1[i]); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiOrInt32) { GI_INT32_t src0, src1, ret; std::vector s0{1, 2, 3, 4}; s0.resize(SIMD_LEN); std::vector s1{5, 6, 7, 8}; s1.resize(SIMD_LEN); init((int32_t*)&src0, s0); init((int32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiOrInt32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] | s1[i]); } assert_eq((int*)&ret, naive); } TEST_F(FALLBACK, GiAndNotInt32) { GI_INT32_t src0, src1, ret; std::vector s0{1, 2, 3, 4}; s0.resize(SIMD_LEN); std::vector s1{5, 6, 7, 8}; s1.resize(SIMD_LEN); init((int32_t*)&src0, s0); init((int32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAndNotInt32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(~s0[i] & s1[i]); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiXorInt32) { GI_INT32_t src0, src1, ret; std::vector s0{1, 2, 3, 4}; s0.resize(SIMD_LEN); std::vector s1{5, 6, 7, 8}; s1.resize(SIMD_LEN); init((int32_t*)&src0, s0); init((int32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiXorInt32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] ^ s1[i]); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiBroadcastFloat32) { GI_FLOAT32_t ret; float b = 2022.0420; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiBroadcastFloat32(b); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(b); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiBroadcastInt32) { GI_INT32_t ret; int32_t b = 20220420; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiBroadcastInt32(b); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(b); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiBroadcastInt8) { GI_INT8_t ret; int8_t b = 6; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiBroadcastInt8(b); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { naive.push_back(b); } assert_eq((int8_t*)&ret, naive); } TEST_F(FALLBACK, GiReinterpretAsInt32) { GI_INT32_t ret; GI_FLOAT32_t src0; std::vector s0{1.0f, 2.2f, 3.4f, 4.5f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiReinterpretAsInt32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp; memcpy(&tmp, &s0[i], sizeof(int32_t)); naive.push_back(tmp); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiReinterpretAsUint32) { GI_UINT32_t ret; GI_FLOAT32_t src0; std::vector s0{1.0f, 2.2f, 3.4f, 4.5f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiReinterpretAsUint32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { uint32_t tmp; memcpy(&tmp, &s0[i], sizeof(uint32_t)); naive.push_back(tmp); } assert_eq((uint32_t*)&ret, naive); } TEST_F(FALLBACK, GiReintInt32ToFloat32) { GI_FLOAT32_t ret; GI_INT32_t src0; std::vector s0{1, 2, 3, 4}; s0.resize(SIMD_LEN); init((int32_t*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiReintInt32ToFloat32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiReintUint32ToFloat32) { GI_FLOAT32_t ret; GI_UINT32_t src0; std::vector s0{1, 2, 3, 4}; s0.resize(SIMD_LEN); init((uint32_t*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiReintUint32ToFloat32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { float tmp; memcpy(&tmp, &s0[i], sizeof(float)); naive.push_back(tmp); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiRoundAsInt32) { GI_FLOAT32_t src0; GI_INT32_t ret; std::vector s0{1.1f, 2.2f, 3.5f, -4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiRoundAsInt32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back((int32_t)round(s0[i])); } assert_eq((int*)&ret, naive); } TEST_F(FALLBACK, GiCastToInt32) { GI_FLOAT32_t src0; GI_INT32_t ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiCastToInt32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back((int32_t)(s0[i])); } assert_eq((int*)&ret, naive); } TEST_F(FALLBACK, GiCastToFloat32) { GI_INT32_t src0; GI_FLOAT32_t ret; std::vector s0{100, 200, 300, 400}; s0.resize(SIMD_LEN); init((int32_t*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiCastToFloat32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back((float)s0[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiLoadBroadcastFloat32) { GI_FLOAT32_t ret; float p = 2022.0420; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiLoadBroadcastFloat32(&p); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(p); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiZeroFloat32) { GI_FLOAT32_t ret; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); float p = 0; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiZeroFloat32(); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(p); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiLoadFloat32) { GI_FLOAT32_t ret; std::vector s0{2.3f, 4.7f, -1.4f, 1223.6f}; s0.resize(SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiLoadFloat32(s0.data()); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiLoadFloat32V2) { GI_FLOAT32_V2_t ret; std::vector s0{2.3f, 4.7f, -1.4f, 1223.6f, 1.1f, 4.0f, 99.7f, 1234.9f}; s0.resize(SIMD_LEN * 2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); ret = GiLoadFloat32V2(s0.data()); std::vector naive; for (size_t i = 0; i < SIMD_LEN * 2; i++) { naive.push_back(s0[i]); } assert_eq((float*)&ret, naive, SIMD_LEN * 2); } TEST_F(FALLBACK, GiLoadFloat32LowHalf) { GI_FLOAT32_t ret; std::vector s0{2.3f, 4.7f, -1.4f, 1223.6f}; s0.resize(SIMD_LEN); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiLoadFloat32LowHalf(s0.data()); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { if (i < SIMD_LEN / 2) { naive.push_back(s0[i]); } else { naive.push_back(0); } } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiMlaqFloat32) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; std::vector s2{1.2f, -3.1f, 9.0f, 11.2f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMlaqFloat32(src0, src1, src2); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] + (s1[i] * s2[i])); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiUzpqFloat32) { GI_FLOAT32_t src0, src1; GI_FLOAT32_V2_t ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); ret = GiUzpqFloat32(src0, src1); std::vector naive; naive.push_back(s0[0]); naive.push_back(s0[2]); naive.push_back(s1[0]); naive.push_back(s1[2]); naive.push_back(s0[1]); naive.push_back(s0[3]); naive.push_back(s1[1]); naive.push_back(s1[3]); assert_eq((float*)&ret, naive, SIMD_LEN * 2); } TEST_F(FALLBACK, GiDupFloat32) { float32x2_t ret; float t = 3.1415; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE / 2); ret = GiDupFloat32(t); auto r = (float*)&ret; ASSERT_EQ(*r, t); ASSERT_EQ(*(r + 1), t); } TEST_F(FALLBACK, GiLdFloat32) { float32x2_t ret; std::vector s0{1.1f, -3.1415f}; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE / 2); ret = GiLdFloat32(s0.data()); auto r = (float*)&ret; ASSERT_EQ(*r, s0[0]); ASSERT_EQ(*(r + 1), s0[1]); } TEST_F(FALLBACK, GiAddDFloat32) { float32x2_t src0, src1, ret; std::vector s0{1.1f, -3.1415f}; std::vector s1{2.3f, 3.14777f}; memcpy(&src0, s0.data(), sizeof(float) * 2); memcpy(&src1, s1.data(), sizeof(float) * 2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE / 2); ret = GiAddDFloat32(src0, src1); auto r = (float*)&ret; auto naive0 = s0[0] + s1[0]; auto naive1 = s0[1] + s1[1]; ASSERT_EQ(*r, naive0); ASSERT_EQ(*(r + 1), naive1); } TEST_F(FALLBACK, GiGetLaneFloat32) { float32x2_t src0; std::vector s0{1.1f, -3.1415f}; memcpy(&src0, s0.data(), sizeof(float) * 2); float ret = 0; ret = GiGetLaneFloat32(src0, 0); ASSERT_EQ(ret, s0[0]); ret = 0; ret = GiGetLaneFloat32(src0, 1); ASSERT_EQ(ret, s0[1]); } TEST_F(FALLBACK, GiSetLaneFloat32) { float32x2_t src0, ret; std::vector s0{2.1f, -3.1415f}; memcpy(&src0, s0.data(), sizeof(float) * 2); float p = 2022.0420; auto r = (float*)&ret; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE / 2); ret = GiSetLaneFloat32(p, src0, 0); ASSERT_EQ(*r, p); ASSERT_EQ(*(r + 1), s0[1]); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE / 2); ret = GiSetLaneFloat32(p, src0, 1); ASSERT_EQ(*r, s0[0]); ASSERT_EQ(*(r + 1), p); } TEST_F(FALLBACK, GiSt1Float32) { float32x2_t src0; std::vector s0{2.1f, -3.1415f}; memcpy(&src0, s0.data(), sizeof(float) * 2); std::vector ret{0, 0}; GiSt1Float32(ret.data(), src0); ASSERT_EQ(ret[0], s0[0]); ASSERT_EQ(ret[1], s0[1]); } TEST_F(FALLBACK, GiLd2qFloat32) { GI_FLOAT32_V2_t ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f, 2312.1f, 345.244f, 3.59f, -12.8f}; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); ret = GiLd2qFloat32(s0.data()); std::vector naive0; std::vector naive1; naive0.push_back(s0[0]); naive0.push_back(s0[2]); naive0.push_back(s0[4]); naive0.push_back(s0[6]); naive1.push_back(s0[1]); naive1.push_back(s0[3]); naive1.push_back(s0[5]); naive1.push_back(s0[7]); assert_eq((float*)&ret, naive0); assert_eq((float*)&ret + SIMD_LEN, naive1); } TEST_F(FALLBACK, GiExtqFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{-9.1f, 34234.6f, 9.0f, 34.1f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); std::vector naive = {0, 0, 0, 0}; auto compare = [&](const size_t n) { size_t t_count = SIMD_LEN; size_t a_count = t_count - n; for (size_t i = 0; i < a_count; i++) { naive[i] = s0[i + n]; } for (size_t i = 0; i < n; i++) { naive[i + a_count] = s1[i]; } assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiExtqFloat32(src0, src1, n); \ compare(n); CB(0) CB(1) CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiMultiplySubFloat32) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{-9.1f, 34234.6f, 9.0f, 34.1f}; std::vector s2{0.4f, 9.9f, 4.3f, 6.2f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplySubFloat32(src0, src1, src2); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] - (s1[i] * s2[i])); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiLd1qLaneFloat32) { GI_FLOAT32_t src0, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); std::vector naive = {0, 0, 0, 0}; float buffer = 3.14159; auto compare = [&](const size_t n) { memcpy(naive.data(), s0.data(), GI_SIMD_LEN_BYTE); naive[n] = buffer; assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiLd1qLaneFloat32(&buffer, src0, n); \ compare(n); CB(0) CB(1) CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiSetqLaneFloat32) { GI_FLOAT32_t src0, ret; std::vector s0{2.1f, 6.2f, -9.5f, 2.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); std::vector naive = {0, 0, 0, 0}; float buffer = 6.14159; auto compare = [&](const size_t n) { memcpy(naive.data(), s0.data(), GI_SIMD_LEN_BYTE); naive[n] = buffer; assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiSetqLaneFloat32(buffer, src0, n); \ compare(n); CB(0) CB(1) CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiMlaqLaneFloat32HighHalf) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{-9.1f, 34234.6f, 9.0f, 34.1f}; std::vector s2{0.4f, 9.9f, 4.3f, 6.2f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); std::vector naive = {0, 0, 0, 0}; auto compare = [&](const size_t n) { for (size_t i = 0; i < GI_SIMD_LEN_BYTE / sizeof(float); i++) { naive[i] = s0[i] + (s1[i] * s2[n + 2]); } assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiMlaqLaneFloat32HighHalf(src0, src1, src2, n); \ compare(n); CB(0) CB(1) #undef CB } TEST_F(FALLBACK, GiVmlaqLaneFloat32LowHalf) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{-9.1f, 34234.6f, 9.0f, 34.1f}; std::vector s2{0.4f, 9.9f, 4.3f, 6.2f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); std::vector naive = {0, 0, 0, 0}; auto compare = [&](const size_t n) { for (size_t i = 0; i < GI_SIMD_LEN_BYTE / sizeof(float); i++) { naive[i] = s0[i] + (s1[i] * s2[n]); } assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiVmlaqLaneFloat32LowHalf(src0, src1, src2, n); \ compare(n); CB(0) CB(1) #undef CB } TEST_F(FALLBACK, GiStoreFloat32) { GI_FLOAT32_t src0; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); std::vector ret{0}; ret.resize(SIMD_LEN); GiStoreFloat32(ret.data(), src0); assert_eq(ret.data(), s0); } TEST_F(FALLBACK, GiStoreFloat32V2) { GI_FLOAT32_V2_t src0; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f, -1.1f, -2.2f, -3.5f, -4.9}; s0.resize(SIMD_LEN * 2); init((float*)&src0, s0, SIMD_LEN * 2); std::vector ret{0}; ret.resize(SIMD_LEN * 2); GiStoreFloat32V2(ret.data(), src0); assert_eq(ret.data(), s0, SIMD_LEN * 2); } TEST_F(FALLBACK, GiStoreLaneXXFloat32) { GI_FLOAT32_t src0; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); float ret{0}; #define CB(n) \ GiStoreLane##n##Float32(&ret, src0); \ ASSERT_EQ(ret, s0[n]); CB(0) CB(1) CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiExtractLaneXXFloat32) { GI_FLOAT32_t src0; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); float ret{0}; #define CB(n) \ ret = GiExtractLane##n##Float32(src0); \ ASSERT_EQ(ret, s0[n]); CB(0) CB(1) CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiZipqFloat32) { GI_FLOAT32_t src0, src1; GI_FLOAT32_V2_t ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE * 2); ret = GiZipqFloat32(src0, src1); std::vector naive; naive.push_back(s0[0]); naive.push_back(s1[0]); naive.push_back(s0[1]); naive.push_back(s1[1]); naive.push_back(s0[2]); naive.push_back(s1[2]); naive.push_back(s0[3]); naive.push_back(s1[3]); assert_eq((float*)&ret, naive, SIMD_LEN * 2); } TEST_F(FALLBACK, GiInterleaveLowFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiInterleaveLowFloat32(src0, src1); std::vector naive; naive.resize(SIMD_LEN); for (size_t i = 0; i < SIMD_LEN / 2; i++) { naive[2 * i] = s0[i]; naive[2 * i + 1] = s1[i]; } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiInterleaveHighFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiInterleaveHighFloat32(src0, src1); std::vector naive; naive.resize(SIMD_LEN); for (size_t i = 0; i < SIMD_LEN / 2; i++) { naive[2 * i] = s0[i + SIMD_LEN / 2]; naive[2 * i + 1] = s1[i + SIMD_LEN / 2]; } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiAddFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAddFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] + s1[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiSubtractFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiSubtractFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] - s1[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiMultiplyFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplyFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] * s1[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiMultiplyScalerFloat32) { GI_FLOAT32_t src0, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); float scalar = 3.1415; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplyScalerFloat32(src0, scalar); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] * scalar); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiMultiplyAddFloat32) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; std::vector s2{12.1f, 35.244f, 23.59f, -112.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplyAddFloat32(src0, src1, src2); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s1[i] * s2[i] + s0[i]); } assert_lt((float*)&ret, naive, 1e-3); } TEST_F(FALLBACK, GiMultiplyAddScalarFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); float scalar = 3.1415; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplyAddScalarFloat32(src0, src1, scalar); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s1[i] * scalar + s0[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiMultiplyAddLanXXFloat32) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; std::vector s2{12.1f, 35.244f, 23.59f, -112.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); std::vector naive = {0, 0, 0, 0}; auto compare = [&](const size_t n) { for (size_t i = 0; i < GI_SIMD_LEN_BYTE / sizeof(float); i++) { naive[i] = s0[i] + (s1[i] * s2[n]); } assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiMultiplyAddLan##n##Float32(src0, src1, src2); \ compare(n); CB(0) CB(1) CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiDivideFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiDivideFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] / s1[i]); } assert_lt((float*)&ret, naive, 1e-3); } TEST_F(FALLBACK, GiRecpeSFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiRecpeSFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(2.0f - s0[i] * s1[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiRecpeFloat32) { GI_FLOAT32_t src0, ret; std::vector s0{100.1f, 2.2f, 3.5f, 4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiRecpeFloat32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(1.0f / s0[i]); } assert_lt((float*)&ret, naive, 1e-3); } TEST_F(FALLBACK, GiNegFloat32) { GI_FLOAT32_t src0, ret; std::vector s0{-1.1f, 2.2f, 3.5f, 4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiNegFloat32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(-s0[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiGreaterThanFloat32) { GI_FLOAT32_t src0, src1; GI_UINT32_t ret; std::vector s0{1.1f, 2.2f, 3.59f, 4.9f}; std::vector s1{2312.1f, 0.1f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiGreaterThanFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] > s1[i] ? 0xFFFFFFFF : 0); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiLessThanEqFloat32) { GI_FLOAT32_t src0, src1; GI_UINT32_t ret; std::vector s0{1.1f, 2.2f, 3.59f, 4.9f}; std::vector s1{2312.1f, 0.1f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiLessThanEqFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] <= s1[i] ? 0xFFFFFFFF : 0); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiLessThanFloat32) { GI_FLOAT32_t src0, src1; GI_UINT32_t ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{1.1f, 0.1f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiLessThanFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] < s1[i] ? 0xFFFFFFFF : 0); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiAndFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAndFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp0, tmp1, tmp; float tmp2; memcpy(&tmp0, &s0[i], sizeof(int32_t)); memcpy(&tmp1, &s1[i], sizeof(int32_t)); tmp = tmp0 & tmp1; memcpy(&tmp2, &tmp, sizeof(float)); naive.push_back(tmp2); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiOrFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{2, 2, 3, 4}; std::vector s1{6, 6, 7, 8}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiOrFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp0, tmp1, tmp; float tmp2; memcpy(&tmp0, &s0[i], sizeof(int32_t)); memcpy(&tmp1, &s1[i], sizeof(int32_t)); tmp = tmp0 | tmp1; memcpy(&tmp2, &tmp, sizeof(float)); naive.push_back(tmp2); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiAndNotFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAndNotFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp0, tmp1, tmp; float tmp2; memcpy(&tmp0, &s0[i], sizeof(int32_t)); memcpy(&tmp1, &s1[i], sizeof(int32_t)); tmp = ~tmp0 & tmp1; memcpy(&tmp2, &tmp, sizeof(float)); naive.push_back(tmp2); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiXorFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiXorFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { int32_t tmp0, tmp1, tmp; float tmp2; memcpy(&tmp0, &s0[i], sizeof(int32_t)); memcpy(&tmp1, &s1[i], sizeof(int32_t)); tmp = tmp0 ^ tmp1; memcpy(&tmp2, &tmp, sizeof(float)); naive.push_back(tmp2); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiBSLFloat32) { GI_FLOAT32_t src0, src1, ret, na; GI_UINT32_t mask; std::vector s0{1.1f, 2.2f, 4.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; std::vector> s2s = { {1, 2, 3, 0}, {0u, 0u, 0u, 0u}, {~0u, 0u, 0u, 0u}, {~0u, ~0u, 0u, 0u}, {~0u, ~0u, ~0u, 0u}, {~0u, ~0u, ~0u, ~0u}}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); for (auto& s2 : s2s) { init((uint32_t*)&mask, s2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiBSLFloat32(mask, src0, src1); na = GiBlendFloat32(src0, src1, GiReintUint32ToFloat32(mask)); std::vector naive; naive.resize(SIMD_LEN); memcpy(naive.data(), &na, GI_SIMD_LEN_BYTE); assert_eq_and_nan((float*)&ret, naive); } } TEST_F(FALLBACK, GiMaximumFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 4.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMaximumFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(Max(s0[i], s1[i])); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiMinimumFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 4.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMinimumFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(Min(s0[i], s1[i])); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiMaxNanFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{1.1f, 2.2f, 4.5f, NAN}; std::vector s1{2312.1f, 345.244f, NAN, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMaxNanFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { auto t = MAX_NAN(s0[i], s1[i]); naive.push_back(t); } assert_eq_and_nan((float*)&ret, naive); } TEST_F(FALLBACK, GiMinNanFloat32) { GI_FLOAT32_t src0, src1, ret; std::vector s0{NAN, 2.2f, NAN, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMinNanFloat32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { auto t = MIN_NAN(s0[i], s1[i]); naive.push_back(t); } assert_eq_and_nan((float*)&ret, naive); } TEST_F(FALLBACK, GiClampFloat32) { GI_FLOAT32_t src0, src1, ret, na; std::vector s0{1.1f, 2.2f, 4.5f, 4.9f}; std::vector s1{1.1f, 2.2f, 4.5f, 4.9f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); float LowerRange = 3.1415; float UpperRange = 4.876; auto naive_c = [](GI_FLOAT32_t Value, float LowerRange, float UpperRange) -> GI_FLOAT32_t { Value = GiMaximumFloat32(GiBroadcastFloat32(LowerRange), Value); Value = GiMinimumFloat32(GiBroadcastFloat32(UpperRange), Value); return Value; }; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiClampFloat32(src0, LowerRange, UpperRange); na = naive_c(src1, LowerRange, UpperRange); std::vector naive; naive.resize(SIMD_LEN); memcpy(naive.data(), &na, GI_SIMD_LEN_BYTE); assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiReduceAddFloat32) { GI_FLOAT32_t src0; float ret{0}; std::vector s0{1.1f, 2.2f, 4.5f, -4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); ret = GiReduceAddFloat32(src0); float naive{0}; for (size_t i = 0; i < SIMD_LEN; i++) { naive += s0[i]; } ASSERT_LT(std::abs(ret - naive), 1e-3); } TEST_F(FALLBACK, GiReduceMultiplyFloat32) { GI_FLOAT32_t src0; float ret{0}; std::vector s0{1.1f, 2.2f, 4.5f, -4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); ret = GiReduceMultiplyFloat32(src0); float naive{1}; for (size_t i = 0; i < SIMD_LEN; i++) { naive *= s0[i]; } ASSERT_LT(std::abs(ret - naive), 1e-3); } TEST_F(FALLBACK, GiReduceMaxNanFloat32) { GI_FLOAT32_t src0; float ret{0}; std::vector s0{1.1f, 2.2f, 4.9f, -4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); ret = GiReduceMaxNanFloat32(src0); float naive = s0[0]; for (size_t i = 0; i < SIMD_LEN; i++) { naive = MAX_NAN(naive, s0[i]); } ASSERT_EQ(ret, naive); ret = 0; s0 = {1.1f, 2.2f, 4.9f, NAN}; init((float*)&src0, s0); ret = GiReduceMaxNanFloat32(src0); ASSERT_TRUE(isnan(ret)); } TEST_F(FALLBACK, GiReduceMinNanFloat32) { GI_FLOAT32_t src0; float ret{0}; std::vector s0{1.1f, 2.2f, 4.5f, -4.9f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); ret = GiReduceMinNanFloat32(src0); float naive = s0[0]; for (size_t i = 0; i < SIMD_LEN; i++) { naive = MIN_NAN(naive, s0[i]); } ASSERT_EQ(ret, naive); ret = 0; s0 = {-1.1f, 2.2f, 4.9f, NAN}; init((float*)&src0, s0); ret = GiReduceMaxNanFloat32(src0); ASSERT_TRUE(isnan(ret)); } TEST_F(FALLBACK, GiAbsFloat32) { GI_FLOAT32_t src0, ret; std::vector s0{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAbsFloat32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] > 0 ? s0[i] : -s0[i]); } assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiZip1qS64) { GI_INT64_t src0, src1, ret; std::vector s0{234242423424245, 42342342422323}; std::vector s1{23424245, -4234234242232}; s0.resize(SIMD_LEN / 2); s1.resize(SIMD_LEN / 2); memcpy(&src0, s0.data(), GI_SIMD_LEN_BYTE); memcpy(&src1, s1.data(), GI_SIMD_LEN_BYTE); ret = GiZip1qS64(src0, src1); std::vector naive; naive.push_back(s0[0]); naive.push_back(s1[0]); auto p = (int64_t*)&ret; ASSERT_EQ(naive[0], p[0]); ASSERT_EQ(naive[1], p[1]); } TEST_F(FALLBACK, GiZip2qS64) { GI_INT64_t src0, src1, ret; std::vector s0{234242423424245, 42342342422323}; std::vector s1{23424245, -4234234242232}; s0.resize(SIMD_LEN / 2); s1.resize(SIMD_LEN / 2); memcpy(&src0, s0.data(), GI_SIMD_LEN_BYTE); memcpy(&src1, s1.data(), GI_SIMD_LEN_BYTE); ret = GiZip2qS64(src0, src1); std::vector naive; naive.push_back(s0[1]); naive.push_back(s1[1]); auto p = (int64_t*)&ret; ASSERT_EQ(naive[0], p[0]); ASSERT_EQ(naive[1], p[1]); } TEST_F(FALLBACK, GiReinterpretqS64ToFloat32) { GI_INT64_t src0; GI_FLOAT32_t ret; std::vector s0{234242423424245, 42342342422323}; s0.resize(SIMD_LEN / 2); memcpy(&src0, s0.data(), GI_SIMD_LEN_BYTE); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiReinterpretqS64ToFloat32(src0); std::vector naive; naive.resize(SIMD_LEN); memcpy(naive.data(), s0.data(), GI_SIMD_LEN_BYTE); assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiReinterpretqFloat32ToS64) { GI_FLOAT32_t src0; GI_INT64_t ret; std::vector s0{2312.1f, 345.244f, 3.59f, -12.8f}; s0.resize(SIMD_LEN); init((float*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiReinterpretqFloat32ToS64(src0); std::vector naive; naive.resize(SIMD_LEN); memcpy(naive.data(), s0.data(), GI_SIMD_LEN_BYTE); assert_eq((float*)&ret, naive); } TEST_F(FALLBACK, GiSimdFmaLane) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; std::vector s2{12.1f, 2.2f, 89.0f, -112.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); std::vector naive = {0, 0, 0, 0}; auto compare = [&](const size_t n) { for (size_t i = 0; i < GI_SIMD_LEN_BYTE / sizeof(float); i++) { naive[i] = s0[i] + (s1[i] * s2[n]); } assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiSimdFmaLane(src0, src1, src2, n); \ compare(n); CB(0) CB(1) CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiMlaqLowLaneFloat32) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; std::vector s2{12.1f, 2.2f, 89.0f, -112.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); std::vector naive = {0, 0, 0, 0}; auto compare = [&](const size_t n) { for (size_t i = 0; i < GI_SIMD_LEN_BYTE / sizeof(float); i++) { naive[i] = s0[i] + (s1[i] * s2[n]); } assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiMlaqLowLaneFloat32(src0, src1, src2, n); \ compare(n); CB(0) CB(1) #undef CB } TEST_F(FALLBACK, GiMlaqHighLaneFloat32) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; std::vector s2{12.1f, 2.2f, 89.0f, -112.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); std::vector naive = {0, 0, 0, 0}; auto compare = [&](const size_t n) { for (size_t i = 0; i < GI_SIMD_LEN_BYTE / sizeof(float); i++) { naive[i] = s0[i] + (s1[i] * s2[n]); } assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiMlaqHighLaneFloat32(src0, src1, src2, n); \ compare(n); CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiFmsqLaneQFloat32) { GI_FLOAT32_t src0, src1, src2, ret; std::vector s0{1.1f, 2.2f, 3.5f, 4.9f}; std::vector s1{2312.1f, 345.244f, 3.59f, -12.8f}; std::vector s2{12.1f, 2.2f, 89.0f, -112.8f}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((float*)&src0, s0); init((float*)&src1, s1); init((float*)&src2, s2); std::vector naive = {0, 0, 0, 0}; auto compare = [&](const size_t n) { for (size_t i = 0; i < GI_SIMD_LEN_BYTE / sizeof(float); i++) { naive[i] = s0[i] - (s1[i] * s2[n]); } assert_eq((float*)&ret, naive); }; #define CB(n) \ force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); \ ret = GiFmsqLaneQFloat32(src0, src1, src2, n); \ compare(n); CB(0) CB(1) CB(2) CB(3) #undef CB } TEST_F(FALLBACK, GiBroadcastUint32) { int32_t src0 = 20220422; GI_UINT32_t ret; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiBroadcastUint32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(src0); } assert_eq((uint32_t*)&ret, naive); } TEST_F(FALLBACK, GiLoadInt32) { std::vector s0{1, 2, -200, 999}; GI_INT32_t ret; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiLoadInt32(s0.data()); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i]); } assert_eq((uint32_t*)&ret, naive); } TEST_F(FALLBACK, GiLoadInt16) { std::vector s0{1, 2, -200, 32767, -32768, 45, 3, 0}; GI_INT16_t ret; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiLoadInt16(s0.data()); auto p = (int16_t*)&ret; for (size_t i = 0; i < SIMD_LEN_16; i++) { ASSERT_EQ(p[i], s0[i]); } } TEST_F(FALLBACK, GiLoadInt8) { std::vector s0{9, 2, -128, 127, 2, 45, 3, 0, 11, 2, -128, 127, 2, 55, 3, -1}; GI_INT8_t ret; force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiLoadInt8(s0.data()); auto p = (int8_t*)&ret; for (size_t i = 0; i < SIMD_LEN_8; i++) { ASSERT_EQ(p[i], s0[i]); } } TEST_F(FALLBACK, GiStoreInt32) { GI_INT32_t src0; std::vector s0{1, 2, -200, 999}; s0.resize(SIMD_LEN); init((int32_t*)&src0, s0); std::vector ret{0}; ret.resize(SIMD_LEN); GiStoreInt32(ret.data(), src0); assert_eq(ret.data(), s0); } TEST_F(FALLBACK, GiStoreLaneXXInt32) { GI_INT32_t src0; std::vector s0{1, 2, -200, 999}; s0.resize(SIMD_LEN); init((int32_t*)&src0, s0); int32_t ret = 8888; #define CB(n) \ GiStoreLane##n##Int32(&ret, src0); \ ASSERT_EQ(s0[n], ret); CB(0) CB(1) CB(2) CB(3) } TEST_F(FALLBACK, GiReinterInt32ToInt8) { GI_INT32_t src0; GI_INT8_t ret, naive; std::vector s0{65536, 2, -200, 999}; s0.resize(SIMD_LEN); init((int32_t*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiReinterInt32ToInt8(src0); memcpy(&naive, &src0, GI_SIMD_LEN_BYTE); ASSERT_FALSE(memcmp(&ret, &naive, GI_SIMD_LEN_BYTE)); } TEST_F(FALLBACK, GiStoreInt16) { GI_INT16_t src0; std::vector s0{32767, 2, -200, -32768, 1, 2, 3, 4}; s0.resize(SIMD_LEN_16); init((int16_t*)&src0, s0, SIMD_LEN_16); std::vector ret{0}; ret.resize(SIMD_LEN_16); GiStoreInt16(ret.data(), src0); assert_eq(ret.data(), s0, SIMD_LEN_16); } TEST_F(FALLBACK, GiStoreInt8) { GI_INT8_t src0; std::vector s0{127, 2, 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; s0.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); std::vector ret{0}; ret.resize(SIMD_LEN_8); GiStoreInt8(ret.data(), src0); assert_eq(ret.data(), s0, SIMD_LEN_8); } TEST_F(FALLBACK, GiStoreLowInt8) { GI_INT8_t src0; std::vector s0{127, 2, 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; s0.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); std::vector ret{0}; ret.resize(SIMD_LEN_8 / 2); GiStoreLowInt8(ret.data(), src0); assert_eq(ret.data(), s0, SIMD_LEN_8 / 2); } TEST_F(FALLBACK, GiStoreHihgInt8) { GI_INT8_t src0; std::vector s0{127, 2, 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; s0.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); std::vector ret{0}; ret.resize(SIMD_LEN_8 / 2); GiStoreHihgInt8(ret.data(), src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8 / 2; i++) { naive.push_back(s0[SIMD_LEN_8 / 2 + i]); } assert_eq(ret.data(), naive, SIMD_LEN_8 / 2); } TEST_F(FALLBACK, GiNegInt32) { GI_INT32_t src0, ret; std::vector s0{ std::numeric_limits::max(), std::numeric_limits::min(), -3, 4}; s0.resize(SIMD_LEN); init((int32_t*)&src0, s0); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiNegInt32(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(-s0[i]); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiNegInt8) { GI_INT8_t src0, ret; std::vector s0{ std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; s0.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiNegInt8(src0); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { naive.push_back(-s0[i]); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiTestAndSetUint32) { GI_UINT32_t src0, src1, ret; std::vector s0{ 8, 2, std::numeric_limits::max(), std::numeric_limits::min()}; std::vector s1{ 8, 4, std::numeric_limits::max(), std::numeric_limits::max()}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((uint32_t*)&src0, s0); init((uint32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiTestAndSetUint32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] & s1[i] ? 0xFFFFFFFF : 0); } assert_eq((uint32_t*)&ret, naive); } TEST_F(FALLBACK, GiAddInt32) { GI_INT32_t src0, src1, ret; std::vector s0{127, 2, std::numeric_limits::max(), 9999}; std::vector s1{1, 2, std::numeric_limits::max(), -9}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((int32_t*)&src0, s0); init((int32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAddInt32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] + s1[i]); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiAddUint32) { GI_UINT32_t src0, src1, ret; std::vector s0{127, 2, std::numeric_limits::max(), 9999}; std::vector s1{1, 2, std::numeric_limits::max(), 9}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((uint32_t*)&src0, s0); init((uint32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAddUint32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] + s1[i]); } assert_eq((uint32_t*)&ret, naive); } TEST_F(FALLBACK, GiAddInt16) { GI_INT16_t src0, src1, ret; std::vector s0{-127, 2, std::numeric_limits::max(), 9999, 1, 2, 3, 4}; std::vector s1{1, 2, std::numeric_limits::max(), std::numeric_limits::min(), -1, 23, -3, -5}; s0.resize(SIMD_LEN_16); s1.resize(SIMD_LEN_16); init((int16_t*)&src0, s0, SIMD_LEN_16); init((int16_t*)&src1, s1, SIMD_LEN_16); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAddInt16(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN_16; i++) { naive.push_back(s0[i] + s1[i]); } assert_eq((int16_t*)&ret, naive, SIMD_LEN_16); } TEST_F(FALLBACK, GiAddInt8) { GI_INT8_t src0, src1, ret; std::vector s0{ std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; std::vector s1{ 3, std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 4}; s0.resize(SIMD_LEN_8); s1.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); init((int8_t*)&src1, s1, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAddInt8(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { naive.push_back(s0[i] + s1[i]); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiSubtractInt32) { GI_INT32_t src0, src1, ret; std::vector s0{127, 2, std::numeric_limits::max(), 9999}; std::vector s1{1, 2, std::numeric_limits::max(), -9}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((int32_t*)&src0, s0); init((int32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiSubtractInt32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] - s1[i]); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiSubtractUint32) { GI_UINT32_t src0, src1, ret; std::vector s0{127, 2, std::numeric_limits::max(), 9999}; std::vector s1{1, 2, std::numeric_limits::max(), 9}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((uint32_t*)&src0, s0); init((uint32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiSubtractUint32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] - s1[i]); } assert_eq((uint32_t*)&ret, naive); } TEST_F(FALLBACK, GiSubtractInt8) { GI_INT8_t src0, src1, ret; std::vector s0{ std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; std::vector s1{ 3, std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 4}; s0.resize(SIMD_LEN_8); s1.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); init((int8_t*)&src1, s1, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiSubtractInt8(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { naive.push_back(s0[i] - s1[i]); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiMultiplyInt32) { GI_INT32_t src0, src1, ret; std::vector s0{127, 2, 202204, 99}; std::vector s1{1, 2, -4, -9}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((int32_t*)&src0, s0); init((int32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplyInt32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] * s1[i]); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiMultiplyInt8) { GI_INT8_t src0, src1, ret; std::vector s0{ std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; std::vector s1{ 3, std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 4}; s0.resize(SIMD_LEN_8); s1.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); init((int8_t*)&src1, s1, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplyInt8(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { naive.push_back(s0[i] * s1[i]); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiMultiplyAddInt32) { GI_INT32_t src0, src1, src2, ret; std::vector s0{127, 2, 67, 9999}; std::vector s1{1, 2, 90, -9}; std::vector s2{-1, 12, 4, -9}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); s2.resize(SIMD_LEN); init((int32_t*)&src0, s0); init((int32_t*)&src1, s1); init((int32_t*)&src2, s2); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplyAddInt32(src0, src1, src2); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] + s1[i] * s2[i]); } assert_eq((int32_t*)&ret, naive); } TEST_F(FALLBACK, GiMultiplyAddInt8) { GI_INT8_t src0, src1, src2, ret; std::vector s0{ std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; std::vector s1{ 3, std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 4}; std::vector s2{ std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 5, 8, 4}; s0.resize(SIMD_LEN_8); s1.resize(SIMD_LEN_8); s2.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); init((int8_t*)&src1, s1, SIMD_LEN_8); init((int8_t*)&src2, s2, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiMultiplyAddInt8(src0, src1, src2); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { naive.push_back(s0[i] + s1[i] * s2[i]); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiAndInt8) { GI_INT8_t src0, src1, ret; std::vector s0{ std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; std::vector s1{ 3, std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 4}; s0.resize(SIMD_LEN_8); s1.resize(SIMD_LEN_8); init((int8_t*)&src0, s0, SIMD_LEN_8); init((int8_t*)&src1, s1, SIMD_LEN_8); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiAndInt8(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN_8; i++) { naive.push_back(s0[i] & s1[i]); } assert_eq((int8_t*)&ret, naive, SIMD_LEN_8); } TEST_F(FALLBACK, GiEOrUint32) { GI_UINT32_t src0, src1, ret; std::vector s0{127, 2, std::numeric_limits::max(), 9999}; std::vector s1{1, 2, std::numeric_limits::max(), 9}; s0.resize(SIMD_LEN); s1.resize(SIMD_LEN); init((uint32_t*)&src0, s0); init((uint32_t*)&src1, s1); force_memset_ret((void*)&ret, GI_SIMD_LEN_BYTE); ret = GiEOrUint32(src0, src1); std::vector naive; for (size_t i = 0; i < SIMD_LEN; i++) { naive.push_back(s0[i] ^ s1[i]); } assert_eq((uint32_t*)&ret, naive); } TEST_F(FALLBACK, GiOrInt8) { GI_INT8_t src0, src1, ret; std::vector s0{ std::numeric_limits::max(), std::numeric_limits::min(), 56, -128, 1, 2, 3, 4, 127, 2, 56, -128, 1, 2, 3, 4}; std::vector