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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-21 11:44:51 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-21 11:44:51 +0000
commit9e3c08db40b8916968b9f30096c7be3f00ce9647 (patch)
treea68f146d7fa01f0134297619fbe7e33db084e0aa /third_party/highway/hwy/tests/arithmetic_test.cc
parentInitial commit. (diff)
downloadthunderbird-upstream.tar.xz
thunderbird-upstream.zip
Adding upstream version 1:115.7.0.upstream/1%115.7.0upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'third_party/highway/hwy/tests/arithmetic_test.cc')
-rw-r--r--third_party/highway/hwy/tests/arithmetic_test.cc499
1 files changed, 499 insertions, 0 deletions
diff --git a/third_party/highway/hwy/tests/arithmetic_test.cc b/third_party/highway/hwy/tests/arithmetic_test.cc
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+// Copyright 2019 Google LLC
+// SPDX-License-Identifier: Apache-2.0
+//
+// Licensed under the Apache License, Version 2.0 (the "License");
+// you may not use this file except in compliance with the License.
+// You may obtain a copy of the License at
+//
+// http://www.apache.org/licenses/LICENSE-2.0
+//
+// Unless required by applicable law or agreed to in writing, software
+// distributed under the License is distributed on an "AS IS" BASIS,
+// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+// See the License for the specific language governing permissions and
+// limitations under the License.
+
+#include <stddef.h>
+#include <stdint.h>
+
+#undef HWY_TARGET_INCLUDE
+#define HWY_TARGET_INCLUDE "tests/arithmetic_test.cc"
+#include "hwy/foreach_target.h" // IWYU pragma: keep
+#include "hwy/highway.h"
+#include "hwy/tests/test_util-inl.h"
+
+HWY_BEFORE_NAMESPACE();
+namespace hwy {
+namespace HWY_NAMESPACE {
+
+struct TestPlusMinus {
+ template <class T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v2 = Iota(d, T(2));
+ const auto v3 = Iota(d, T(3));
+ const auto v4 = Iota(d, T(4));
+
+ const size_t N = Lanes(d);
+ auto lanes = AllocateAligned<T>(N);
+ for (size_t i = 0; i < N; ++i) {
+ lanes[i] = static_cast<T>((2 + i) + (3 + i));
+ }
+ HWY_ASSERT_VEC_EQ(d, lanes.get(), Add(v2, v3));
+ HWY_ASSERT_VEC_EQ(d, Set(d, 2), Sub(v4, v2));
+
+ for (size_t i = 0; i < N; ++i) {
+ lanes[i] = static_cast<T>((2 + i) + (4 + i));
+ }
+ auto sum = v2;
+ sum = Add(sum, v4); // sum == 6,8..
+ HWY_ASSERT_VEC_EQ(d, Load(d, lanes.get()), sum);
+
+ sum = Sub(sum, v4);
+ HWY_ASSERT_VEC_EQ(d, v2, sum);
+ }
+};
+
+struct TestPlusMinusOverflow {
+ template <class T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v1 = Iota(d, T(1));
+ const auto vMax = Iota(d, LimitsMax<T>());
+ const auto vMin = Iota(d, LimitsMin<T>());
+
+ // Check that no UB triggered.
+ // "assert" here is formal - to avoid compiler dropping calculations
+ HWY_ASSERT_VEC_EQ(d, Add(v1, vMax), Add(vMax, v1));
+ HWY_ASSERT_VEC_EQ(d, Add(vMax, vMax), Add(vMax, vMax));
+ HWY_ASSERT_VEC_EQ(d, Sub(vMin, v1), Sub(vMin, v1));
+ HWY_ASSERT_VEC_EQ(d, Sub(vMin, vMax), Sub(vMin, vMax));
+ }
+};
+
+HWY_NOINLINE void TestAllPlusMinus() {
+ ForAllTypes(ForPartialVectors<TestPlusMinus>());
+ ForIntegerTypes(ForPartialVectors<TestPlusMinusOverflow>());
+}
+
+struct TestUnsignedSaturatingArithmetic {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v0 = Zero(d);
+ const auto vi = Iota(d, 1);
+ const auto vm = Set(d, LimitsMax<T>());
+
+ HWY_ASSERT_VEC_EQ(d, Add(v0, v0), SaturatedAdd(v0, v0));
+ HWY_ASSERT_VEC_EQ(d, Add(v0, vi), SaturatedAdd(v0, vi));
+ HWY_ASSERT_VEC_EQ(d, Add(v0, vm), SaturatedAdd(v0, vm));
+ HWY_ASSERT_VEC_EQ(d, vm, SaturatedAdd(vi, vm));
+ HWY_ASSERT_VEC_EQ(d, vm, SaturatedAdd(vm, vm));
+
+ HWY_ASSERT_VEC_EQ(d, v0, SaturatedSub(v0, v0));
+ HWY_ASSERT_VEC_EQ(d, v0, SaturatedSub(v0, vi));
+ HWY_ASSERT_VEC_EQ(d, v0, SaturatedSub(vi, vi));
+ HWY_ASSERT_VEC_EQ(d, v0, SaturatedSub(vi, vm));
+ HWY_ASSERT_VEC_EQ(d, Sub(vm, vi), SaturatedSub(vm, vi));
+ }
+};
+
+struct TestSignedSaturatingArithmetic {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v0 = Zero(d);
+ const auto vpm = Set(d, LimitsMax<T>());
+ // Ensure all lanes are positive, even if Iota wraps around
+ const auto vi = Or(And(Iota(d, 0), vpm), Set(d, 1));
+ const auto vn = Sub(v0, vi);
+ const auto vnm = Set(d, LimitsMin<T>());
+ HWY_ASSERT_MASK_EQ(d, MaskTrue(d), Gt(vi, v0));
+ HWY_ASSERT_MASK_EQ(d, MaskTrue(d), Lt(vn, v0));
+
+ HWY_ASSERT_VEC_EQ(d, v0, SaturatedAdd(v0, v0));
+ HWY_ASSERT_VEC_EQ(d, vi, SaturatedAdd(v0, vi));
+ HWY_ASSERT_VEC_EQ(d, vpm, SaturatedAdd(v0, vpm));
+ HWY_ASSERT_VEC_EQ(d, vpm, SaturatedAdd(vi, vpm));
+ HWY_ASSERT_VEC_EQ(d, vpm, SaturatedAdd(vpm, vpm));
+
+ HWY_ASSERT_VEC_EQ(d, v0, SaturatedSub(v0, v0));
+ HWY_ASSERT_VEC_EQ(d, Sub(v0, vi), SaturatedSub(v0, vi));
+ HWY_ASSERT_VEC_EQ(d, vn, SaturatedSub(vn, v0));
+ HWY_ASSERT_VEC_EQ(d, vnm, SaturatedSub(vnm, vi));
+ HWY_ASSERT_VEC_EQ(d, vnm, SaturatedSub(vnm, vpm));
+ }
+};
+
+struct TestSaturatingArithmeticOverflow {
+ template <class T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v1 = Iota(d, T(1));
+ const auto vMax = Iota(d, LimitsMax<T>());
+ const auto vMin = Iota(d, LimitsMin<T>());
+
+ // Check that no UB triggered.
+ // "assert" here is formal - to avoid compiler dropping calculations
+ HWY_ASSERT_VEC_EQ(d, SaturatedAdd(v1, vMax), SaturatedAdd(vMax, v1));
+ HWY_ASSERT_VEC_EQ(d, SaturatedAdd(vMax, vMax), SaturatedAdd(vMax, vMax));
+ HWY_ASSERT_VEC_EQ(d, SaturatedAdd(vMin, vMax), SaturatedAdd(vMin, vMax));
+ HWY_ASSERT_VEC_EQ(d, SaturatedAdd(vMin, vMin), SaturatedAdd(vMin, vMin));
+ HWY_ASSERT_VEC_EQ(d, SaturatedSub(vMin, v1), SaturatedSub(vMin, v1));
+ HWY_ASSERT_VEC_EQ(d, SaturatedSub(vMin, vMax), SaturatedSub(vMin, vMax));
+ HWY_ASSERT_VEC_EQ(d, SaturatedSub(vMax, vMin), SaturatedSub(vMax, vMin));
+ HWY_ASSERT_VEC_EQ(d, SaturatedSub(vMin, vMin), SaturatedSub(vMin, vMin));
+ }
+};
+
+HWY_NOINLINE void TestAllSaturatingArithmetic() {
+ const ForPartialVectors<TestUnsignedSaturatingArithmetic> test_unsigned;
+ test_unsigned(uint8_t());
+ test_unsigned(uint16_t());
+
+ const ForPartialVectors<TestSignedSaturatingArithmetic> test_signed;
+ test_signed(int8_t());
+ test_signed(int16_t());
+
+ const ForPartialVectors<TestSaturatingArithmeticOverflow> test_overflow;
+ test_overflow(int8_t());
+ test_overflow(uint8_t());
+ test_overflow(int16_t());
+ test_overflow(uint16_t());
+}
+
+struct TestAverage {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v0 = Zero(d);
+ const auto v1 = Set(d, T(1));
+ const auto v2 = Set(d, T(2));
+
+ HWY_ASSERT_VEC_EQ(d, v0, AverageRound(v0, v0));
+ HWY_ASSERT_VEC_EQ(d, v1, AverageRound(v0, v1));
+ HWY_ASSERT_VEC_EQ(d, v1, AverageRound(v1, v1));
+ HWY_ASSERT_VEC_EQ(d, v2, AverageRound(v1, v2));
+ HWY_ASSERT_VEC_EQ(d, v2, AverageRound(v2, v2));
+ }
+};
+
+HWY_NOINLINE void TestAllAverage() {
+ const ForPartialVectors<TestAverage> test;
+ test(uint8_t());
+ test(uint16_t());
+}
+
+struct TestAbs {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v0 = Zero(d);
+ const auto vp1 = Set(d, T(1));
+ const auto vn1 = Set(d, T(-1));
+ const auto vpm = Set(d, LimitsMax<T>());
+ const auto vnm = Set(d, LimitsMin<T>());
+
+ HWY_ASSERT_VEC_EQ(d, v0, Abs(v0));
+ HWY_ASSERT_VEC_EQ(d, vp1, Abs(vp1));
+ HWY_ASSERT_VEC_EQ(d, vp1, Abs(vn1));
+ HWY_ASSERT_VEC_EQ(d, vpm, Abs(vpm));
+ HWY_ASSERT_VEC_EQ(d, vnm, Abs(vnm));
+ }
+};
+
+struct TestFloatAbs {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v0 = Zero(d);
+ const auto vp1 = Set(d, T(1));
+ const auto vn1 = Set(d, T(-1));
+ const auto vp2 = Set(d, T(0.01));
+ const auto vn2 = Set(d, T(-0.01));
+
+ HWY_ASSERT_VEC_EQ(d, v0, Abs(v0));
+ HWY_ASSERT_VEC_EQ(d, vp1, Abs(vp1));
+ HWY_ASSERT_VEC_EQ(d, vp1, Abs(vn1));
+ HWY_ASSERT_VEC_EQ(d, vp2, Abs(vp2));
+ HWY_ASSERT_VEC_EQ(d, vp2, Abs(vn2));
+ }
+};
+
+HWY_NOINLINE void TestAllAbs() {
+ ForSignedTypes(ForPartialVectors<TestAbs>());
+ ForFloatTypes(ForPartialVectors<TestFloatAbs>());
+}
+
+struct TestNeg {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v0 = Zero(d);
+ const auto vn = Set(d, T(-3));
+ const auto vp = Set(d, T(3));
+ HWY_ASSERT_VEC_EQ(d, v0, Neg(v0));
+ HWY_ASSERT_VEC_EQ(d, vp, Neg(vn));
+ HWY_ASSERT_VEC_EQ(d, vn, Neg(vp));
+ }
+};
+
+struct TestNegOverflow {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto vn = Set(d, LimitsMin<T>());
+ const auto vp = Set(d, LimitsMax<T>());
+ HWY_ASSERT_VEC_EQ(d, Neg(vn), Neg(vn));
+ HWY_ASSERT_VEC_EQ(d, Neg(vp), Neg(vp));
+ }
+};
+
+HWY_NOINLINE void TestAllNeg() {
+ ForSignedTypes(ForPartialVectors<TestNeg>());
+ ForFloatTypes(ForPartialVectors<TestNeg>());
+ ForSignedTypes(ForPartialVectors<TestNegOverflow>());
+}
+
+struct TestUnsignedMinMax {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v0 = Zero(d);
+ // Leave headroom such that v1 < v2 even after wraparound.
+ const auto mod = And(Iota(d, 0), Set(d, LimitsMax<T>() >> 1));
+ const auto v1 = Add(mod, Set(d, 1));
+ const auto v2 = Add(mod, Set(d, 2));
+ HWY_ASSERT_VEC_EQ(d, v1, Min(v1, v2));
+ HWY_ASSERT_VEC_EQ(d, v2, Max(v1, v2));
+ HWY_ASSERT_VEC_EQ(d, v0, Min(v1, v0));
+ HWY_ASSERT_VEC_EQ(d, v1, Max(v1, v0));
+
+ const auto vmin = Set(d, LimitsMin<T>());
+ const auto vmax = Set(d, LimitsMax<T>());
+
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(vmin, vmax));
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(vmax, vmin));
+
+ HWY_ASSERT_VEC_EQ(d, vmax, Max(vmin, vmax));
+ HWY_ASSERT_VEC_EQ(d, vmax, Max(vmax, vmin));
+ }
+};
+
+struct TestSignedMinMax {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ // Leave headroom such that v1 < v2 even after wraparound.
+ const auto mod = And(Iota(d, 0), Set(d, LimitsMax<T>() >> 1));
+ const auto v1 = Add(mod, Set(d, 1));
+ const auto v2 = Add(mod, Set(d, 2));
+ const auto v_neg = Sub(Zero(d), v1);
+ HWY_ASSERT_VEC_EQ(d, v1, Min(v1, v2));
+ HWY_ASSERT_VEC_EQ(d, v2, Max(v1, v2));
+ HWY_ASSERT_VEC_EQ(d, v_neg, Min(v1, v_neg));
+ HWY_ASSERT_VEC_EQ(d, v1, Max(v1, v_neg));
+
+ const auto v0 = Zero(d);
+ const auto vmin = Set(d, LimitsMin<T>());
+ const auto vmax = Set(d, LimitsMax<T>());
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(v0, vmin));
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(vmin, v0));
+ HWY_ASSERT_VEC_EQ(d, v0, Max(v0, vmin));
+ HWY_ASSERT_VEC_EQ(d, v0, Max(vmin, v0));
+
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(vmin, vmax));
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(vmax, vmin));
+
+ HWY_ASSERT_VEC_EQ(d, vmax, Max(vmin, vmax));
+ HWY_ASSERT_VEC_EQ(d, vmax, Max(vmax, vmin));
+ }
+};
+
+struct TestFloatMinMax {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ const auto v1 = Iota(d, 1);
+ const auto v2 = Iota(d, 2);
+ const auto v_neg = Iota(d, -T(Lanes(d)));
+ HWY_ASSERT_VEC_EQ(d, v1, Min(v1, v2));
+ HWY_ASSERT_VEC_EQ(d, v2, Max(v1, v2));
+ HWY_ASSERT_VEC_EQ(d, v_neg, Min(v1, v_neg));
+ HWY_ASSERT_VEC_EQ(d, v1, Max(v1, v_neg));
+
+ const auto v0 = Zero(d);
+ const auto vmin = Set(d, T(-1E30));
+ const auto vmax = Set(d, T(1E30));
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(v0, vmin));
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(vmin, v0));
+ HWY_ASSERT_VEC_EQ(d, v0, Max(v0, vmin));
+ HWY_ASSERT_VEC_EQ(d, v0, Max(vmin, v0));
+
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(vmin, vmax));
+ HWY_ASSERT_VEC_EQ(d, vmin, Min(vmax, vmin));
+
+ HWY_ASSERT_VEC_EQ(d, vmax, Max(vmin, vmax));
+ HWY_ASSERT_VEC_EQ(d, vmax, Max(vmax, vmin));
+ }
+};
+
+HWY_NOINLINE void TestAllMinMax() {
+ ForUnsignedTypes(ForPartialVectors<TestUnsignedMinMax>());
+ ForSignedTypes(ForPartialVectors<TestSignedMinMax>());
+ ForFloatTypes(ForPartialVectors<TestFloatMinMax>());
+}
+
+template <class D>
+static HWY_NOINLINE Vec<D> Make128(D d, uint64_t hi, uint64_t lo) {
+ alignas(16) uint64_t in[2];
+ in[0] = lo;
+ in[1] = hi;
+ return LoadDup128(d, in);
+}
+
+struct TestMinMax128 {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ using V = Vec<D>;
+ const size_t N = Lanes(d);
+ auto a_lanes = AllocateAligned<T>(N);
+ auto b_lanes = AllocateAligned<T>(N);
+ auto min_lanes = AllocateAligned<T>(N);
+ auto max_lanes = AllocateAligned<T>(N);
+ RandomState rng;
+
+ const V v00 = Zero(d);
+ const V v01 = Make128(d, 0, 1);
+ const V v10 = Make128(d, 1, 0);
+ const V v11 = Add(v01, v10);
+
+ // Same arg
+ HWY_ASSERT_VEC_EQ(d, v00, Min128(d, v00, v00));
+ HWY_ASSERT_VEC_EQ(d, v01, Min128(d, v01, v01));
+ HWY_ASSERT_VEC_EQ(d, v10, Min128(d, v10, v10));
+ HWY_ASSERT_VEC_EQ(d, v11, Min128(d, v11, v11));
+ HWY_ASSERT_VEC_EQ(d, v00, Max128(d, v00, v00));
+ HWY_ASSERT_VEC_EQ(d, v01, Max128(d, v01, v01));
+ HWY_ASSERT_VEC_EQ(d, v10, Max128(d, v10, v10));
+ HWY_ASSERT_VEC_EQ(d, v11, Max128(d, v11, v11));
+
+ // First arg less
+ HWY_ASSERT_VEC_EQ(d, v00, Min128(d, v00, v01));
+ HWY_ASSERT_VEC_EQ(d, v01, Min128(d, v01, v10));
+ HWY_ASSERT_VEC_EQ(d, v10, Min128(d, v10, v11));
+ HWY_ASSERT_VEC_EQ(d, v01, Max128(d, v00, v01));
+ HWY_ASSERT_VEC_EQ(d, v10, Max128(d, v01, v10));
+ HWY_ASSERT_VEC_EQ(d, v11, Max128(d, v10, v11));
+
+ // Second arg less
+ HWY_ASSERT_VEC_EQ(d, v00, Min128(d, v01, v00));
+ HWY_ASSERT_VEC_EQ(d, v01, Min128(d, v10, v01));
+ HWY_ASSERT_VEC_EQ(d, v10, Min128(d, v11, v10));
+ HWY_ASSERT_VEC_EQ(d, v01, Max128(d, v01, v00));
+ HWY_ASSERT_VEC_EQ(d, v10, Max128(d, v10, v01));
+ HWY_ASSERT_VEC_EQ(d, v11, Max128(d, v11, v10));
+
+ // Also check 128-bit blocks are independent
+ for (size_t rep = 0; rep < AdjustedReps(1000); ++rep) {
+ for (size_t i = 0; i < N; ++i) {
+ a_lanes[i] = Random64(&rng);
+ b_lanes[i] = Random64(&rng);
+ }
+ const V a = Load(d, a_lanes.get());
+ const V b = Load(d, b_lanes.get());
+ for (size_t i = 0; i < N; i += 2) {
+ const bool lt = a_lanes[i + 1] == b_lanes[i + 1]
+ ? (a_lanes[i] < b_lanes[i])
+ : (a_lanes[i + 1] < b_lanes[i + 1]);
+ min_lanes[i + 0] = lt ? a_lanes[i + 0] : b_lanes[i + 0];
+ min_lanes[i + 1] = lt ? a_lanes[i + 1] : b_lanes[i + 1];
+ max_lanes[i + 0] = lt ? b_lanes[i + 0] : a_lanes[i + 0];
+ max_lanes[i + 1] = lt ? b_lanes[i + 1] : a_lanes[i + 1];
+ }
+ HWY_ASSERT_VEC_EQ(d, min_lanes.get(), Min128(d, a, b));
+ HWY_ASSERT_VEC_EQ(d, max_lanes.get(), Max128(d, a, b));
+ }
+ }
+};
+
+HWY_NOINLINE void TestAllMinMax128() {
+ ForGEVectors<128, TestMinMax128>()(uint64_t());
+}
+
+struct TestMinMax128Upper {
+ template <typename T, class D>
+ HWY_NOINLINE void operator()(T /*unused*/, D d) {
+ using V = Vec<D>;
+ const size_t N = Lanes(d);
+ auto a_lanes = AllocateAligned<T>(N);
+ auto b_lanes = AllocateAligned<T>(N);
+ auto min_lanes = AllocateAligned<T>(N);
+ auto max_lanes = AllocateAligned<T>(N);
+ RandomState rng;
+
+ const V v00 = Zero(d);
+ const V v01 = Make128(d, 0, 1);
+ const V v10 = Make128(d, 1, 0);
+ const V v11 = Add(v01, v10);
+
+ // Same arg
+ HWY_ASSERT_VEC_EQ(d, v00, Min128Upper(d, v00, v00));
+ HWY_ASSERT_VEC_EQ(d, v01, Min128Upper(d, v01, v01));
+ HWY_ASSERT_VEC_EQ(d, v10, Min128Upper(d, v10, v10));
+ HWY_ASSERT_VEC_EQ(d, v11, Min128Upper(d, v11, v11));
+ HWY_ASSERT_VEC_EQ(d, v00, Max128Upper(d, v00, v00));
+ HWY_ASSERT_VEC_EQ(d, v01, Max128Upper(d, v01, v01));
+ HWY_ASSERT_VEC_EQ(d, v10, Max128Upper(d, v10, v10));
+ HWY_ASSERT_VEC_EQ(d, v11, Max128Upper(d, v11, v11));
+
+ // Equivalent but not equal (chooses second arg)
+ HWY_ASSERT_VEC_EQ(d, v01, Min128Upper(d, v00, v01));
+ HWY_ASSERT_VEC_EQ(d, v11, Min128Upper(d, v10, v11));
+ HWY_ASSERT_VEC_EQ(d, v00, Min128Upper(d, v01, v00));
+ HWY_ASSERT_VEC_EQ(d, v10, Min128Upper(d, v11, v10));
+ HWY_ASSERT_VEC_EQ(d, v00, Max128Upper(d, v01, v00));
+ HWY_ASSERT_VEC_EQ(d, v10, Max128Upper(d, v11, v10));
+ HWY_ASSERT_VEC_EQ(d, v01, Max128Upper(d, v00, v01));
+ HWY_ASSERT_VEC_EQ(d, v11, Max128Upper(d, v10, v11));
+
+ // First arg less
+ HWY_ASSERT_VEC_EQ(d, v01, Min128Upper(d, v01, v10));
+ HWY_ASSERT_VEC_EQ(d, v10, Max128Upper(d, v01, v10));
+
+ // Second arg less
+ HWY_ASSERT_VEC_EQ(d, v01, Min128Upper(d, v10, v01));
+ HWY_ASSERT_VEC_EQ(d, v10, Max128Upper(d, v10, v01));
+
+ // Also check 128-bit blocks are independent
+ for (size_t rep = 0; rep < AdjustedReps(1000); ++rep) {
+ for (size_t i = 0; i < N; ++i) {
+ a_lanes[i] = Random64(&rng);
+ b_lanes[i] = Random64(&rng);
+ }
+ const V a = Load(d, a_lanes.get());
+ const V b = Load(d, b_lanes.get());
+ for (size_t i = 0; i < N; i += 2) {
+ const bool lt = a_lanes[i + 1] < b_lanes[i + 1];
+ min_lanes[i + 0] = lt ? a_lanes[i + 0] : b_lanes[i + 0];
+ min_lanes[i + 1] = lt ? a_lanes[i + 1] : b_lanes[i + 1];
+ max_lanes[i + 0] = lt ? b_lanes[i + 0] : a_lanes[i + 0];
+ max_lanes[i + 1] = lt ? b_lanes[i + 1] : a_lanes[i + 1];
+ }
+ HWY_ASSERT_VEC_EQ(d, min_lanes.get(), Min128Upper(d, a, b));
+ HWY_ASSERT_VEC_EQ(d, max_lanes.get(), Max128Upper(d, a, b));
+ }
+ }
+};
+
+HWY_NOINLINE void TestAllMinMax128Upper() {
+ ForGEVectors<128, TestMinMax128Upper>()(uint64_t());
+}
+
+// NOLINTNEXTLINE(google-readability-namespace-comments)
+} // namespace HWY_NAMESPACE
+} // namespace hwy
+HWY_AFTER_NAMESPACE();
+
+#if HWY_ONCE
+
+namespace hwy {
+HWY_BEFORE_TEST(HwyArithmeticTest);
+HWY_EXPORT_AND_TEST_P(HwyArithmeticTest, TestAllPlusMinus);
+HWY_EXPORT_AND_TEST_P(HwyArithmeticTest, TestAllSaturatingArithmetic);
+HWY_EXPORT_AND_TEST_P(HwyArithmeticTest, TestAllAverage);
+HWY_EXPORT_AND_TEST_P(HwyArithmeticTest, TestAllAbs);
+HWY_EXPORT_AND_TEST_P(HwyArithmeticTest, TestAllNeg);
+HWY_EXPORT_AND_TEST_P(HwyArithmeticTest, TestAllMinMax);
+HWY_EXPORT_AND_TEST_P(HwyArithmeticTest, TestAllMinMax128);
+HWY_EXPORT_AND_TEST_P(HwyArithmeticTest, TestAllMinMax128Upper);
+} // namespace hwy
+
+#endif