/* Copyright (c) 2021 Evan Nemerson * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, copy, * modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #define SIMDE_TEST_WASM_SIMD128_INSN sqrt #include "../../../simde/wasm/simd128.h" #include "test-simd128.h" static int test_simde_wasm_f32x4_sqrt(SIMDE_MUNIT_TEST_ARGS) { #if 1 SIMDE_TEST_STRUCT_MODIFIERS struct { simde_float32 a[sizeof(simde_v128_t) / sizeof(simde_float32)]; simde_float32 r[sizeof(simde_v128_t) / sizeof(simde_float32)]; } test_vec[8] = { { { SIMDE_MATH_NANF, SIMDE_FLOAT32_C( -535.11), SIMDE_MATH_NANF, SIMDE_FLOAT32_C( -461.56) }, { SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_MATH_NANF } }, { { SIMDE_FLOAT32_C( -912.22), SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_FLOAT32_C( -461.56) }, { SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_MATH_NANF } }, { { SIMDE_FLOAT32_C( -323.47), SIMDE_FLOAT32_C( -632.61), SIMDE_FLOAT32_C( -654.45), SIMDE_FLOAT32_C( -156.47) }, { SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_MATH_NANF } }, { { SIMDE_FLOAT32_C( 377.85), SIMDE_FLOAT32_C( 566.01), SIMDE_FLOAT32_C( 762.66), SIMDE_FLOAT32_C( -297.76) }, { SIMDE_FLOAT32_C( 19.44), SIMDE_FLOAT32_C( 23.79), SIMDE_FLOAT32_C( 27.62), SIMDE_MATH_NANF } }, { { SIMDE_FLOAT32_C( 618.27), SIMDE_FLOAT32_C( -845.05), SIMDE_FLOAT32_C( -519.37), SIMDE_FLOAT32_C( 863.47) }, { SIMDE_FLOAT32_C( 24.87), SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_FLOAT32_C( 29.38) } }, { { SIMDE_FLOAT32_C( -208.55), SIMDE_FLOAT32_C( 290.20), SIMDE_FLOAT32_C( 208.11), SIMDE_FLOAT32_C( 288.32) }, { SIMDE_MATH_NANF, SIMDE_FLOAT32_C( 17.04), SIMDE_FLOAT32_C( 14.43), SIMDE_FLOAT32_C( 16.98) } }, { { SIMDE_FLOAT32_C( -113.12), SIMDE_FLOAT32_C( -686.61), SIMDE_FLOAT32_C( -683.66), SIMDE_FLOAT32_C( -156.75) }, { SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_MATH_NANF, SIMDE_MATH_NANF } }, { { SIMDE_FLOAT32_C( 888.36), SIMDE_FLOAT32_C( -712.39), SIMDE_FLOAT32_C( 554.00), SIMDE_FLOAT32_C( -810.32) }, { SIMDE_FLOAT32_C( 29.81), SIMDE_MATH_NANF, SIMDE_FLOAT32_C( 23.54), SIMDE_MATH_NANF } } }; for (size_t i = 0 ; i < (sizeof(test_vec) / sizeof(test_vec[0])) ; i++) { simde_v128_t a = simde_wasm_v128_load(test_vec[i].a); simde_v128_t r = simde_wasm_f32x4_sqrt(a); simde_test_wasm_f32x4_assert_equal(r, simde_wasm_v128_load(test_vec[i].r), 1); } return 0; #else fputc('\n', stdout); simde_float32 inputs[8 * 1 * (sizeof(simde_v128_t) / sizeof(simde_float32))]; simde_test_wasm_f32x4_random_full(8, 1, inputs, -SIMDE_FLOAT32_C(1000.0), SIMDE_FLOAT32_C(1000.0), HEDLEY_STATIC_CAST(SimdeTestVecFloatType, SIMDE_TEST_VEC_FLOAT_NAN | SIMDE_TEST_VEC_FLOAT_EQUAL)); for (size_t i = 0 ; i < 8 ; i++) { simde_v128_t a = simde_test_wasm_f32x4_random_full_extract(1, inputs, i, 0), r; r = simde_wasm_f32x4_sqrt(a); simde_test_wasm_f32x4_write(3, a, SIMDE_TEST_VEC_POS_FIRST); simde_test_wasm_f32x4_write(3, r, SIMDE_TEST_VEC_POS_LAST); } return 1; #endif } static int test_simde_wasm_f64x2_sqrt(SIMDE_MUNIT_TEST_ARGS) { #if 1 SIMDE_TEST_STRUCT_MODIFIERS struct { simde_float64 a[sizeof(simde_v128_t) / sizeof(simde_float32)]; simde_float64 r[sizeof(simde_v128_t) / sizeof(simde_float32)]; } test_vec[8] = { { { SIMDE_MATH_NAN, SIMDE_FLOAT64_C( 558.45) }, { SIMDE_MATH_NAN, SIMDE_FLOAT64_C( 23.63) } }, { { SIMDE_MATH_NAN, SIMDE_FLOAT64_C( 191.40) }, { SIMDE_MATH_NAN, SIMDE_FLOAT64_C( 13.83) } }, { { SIMDE_MATH_NAN, SIMDE_FLOAT64_C( 191.40) }, { SIMDE_MATH_NAN, SIMDE_FLOAT64_C( 13.83) } }, { { SIMDE_FLOAT64_C( -677.40), SIMDE_FLOAT64_C( -306.34) }, { SIMDE_MATH_NAN, SIMDE_MATH_NAN } }, { { SIMDE_FLOAT64_C( -896.18), SIMDE_FLOAT64_C( 904.07) }, { SIMDE_MATH_NAN, SIMDE_FLOAT64_C( 30.07) } }, { { SIMDE_FLOAT64_C( 611.51), SIMDE_FLOAT64_C( 40.74) }, { SIMDE_FLOAT64_C( 24.73), SIMDE_FLOAT64_C( 6.38) } }, { { SIMDE_FLOAT64_C( -197.48), SIMDE_FLOAT64_C( -839.74) }, { SIMDE_MATH_NAN, SIMDE_MATH_NAN } }, { { SIMDE_FLOAT64_C( -744.46), SIMDE_FLOAT64_C( -29.22) }, { SIMDE_MATH_NAN, SIMDE_MATH_NAN } } }; for (size_t i = 0 ; i < (sizeof(test_vec) / sizeof(test_vec[0])) ; i++) { simde_v128_t a = simde_wasm_v128_load(test_vec[i].a); simde_v128_t r = simde_wasm_f64x2_sqrt(a); simde_test_wasm_f64x2_assert_equal(r, simde_wasm_v128_load(test_vec[i].r), 1); } return 0; #else fputc('\n', stdout); simde_float64 inputs[8 * 1 * (sizeof(simde_v128_t) / sizeof(simde_float32))]; simde_test_wasm_f64x2_random_full(8, 1, inputs, -SIMDE_FLOAT64_C(1000.0), SIMDE_FLOAT64_C(1000.0), HEDLEY_STATIC_CAST(SimdeTestVecFloatType, SIMDE_TEST_VEC_FLOAT_NAN | SIMDE_TEST_VEC_FLOAT_EQUAL)); for (size_t i = 0 ; i < 8 ; i++) { simde_v128_t a = simde_test_wasm_f64x2_random_full_extract(1, inputs, i, 0), r; r = simde_wasm_f64x2_sqrt(a); simde_test_wasm_f64x2_write(3, a, SIMDE_TEST_VEC_POS_FIRST); simde_test_wasm_f64x2_write(3, r, SIMDE_TEST_VEC_POS_LAST); } return 1; #endif } SIMDE_TEST_FUNC_LIST_BEGIN SIMDE_TEST_FUNC_LIST_ENTRY(wasm_f32x4_sqrt) SIMDE_TEST_FUNC_LIST_ENTRY(wasm_f64x2_sqrt) SIMDE_TEST_FUNC_LIST_END #include "test-simd128-footer.h"