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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 19:33:14 +0000 |
commit | 36d22d82aa202bb199967e9512281e9a53db42c9 (patch) | |
tree | 105e8c98ddea1c1e4784a60a5a6410fa416be2de /third_party/highway/hwy/tests/demote_test.cc | |
parent | Initial commit. (diff) | |
download | firefox-esr-upstream.tar.xz firefox-esr-upstream.zip |
Adding upstream version 115.7.0esr.upstream/115.7.0esrupstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'third_party/highway/hwy/tests/demote_test.cc')
-rw-r--r-- | third_party/highway/hwy/tests/demote_test.cc | 328 |
1 files changed, 328 insertions, 0 deletions
diff --git a/third_party/highway/hwy/tests/demote_test.cc b/third_party/highway/hwy/tests/demote_test.cc new file mode 100644 index 0000000000..22469113d5 --- /dev/null +++ b/third_party/highway/hwy/tests/demote_test.cc @@ -0,0 +1,328 @@ +// 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> + +#include <cmath> // std::isfinite + +#undef HWY_TARGET_INCLUDE +#define HWY_TARGET_INCLUDE "tests/demote_test.cc" +#include "hwy/foreach_target.h" // IWYU pragma: keep +#include "hwy/highway.h" +#include "hwy/tests/test_util-inl.h" + +// Causes build timeout. +#if !HWY_IS_MSAN + +HWY_BEFORE_NAMESPACE(); +namespace hwy { +namespace HWY_NAMESPACE { + +template <typename T, HWY_IF_FLOAT(T)> +bool IsFiniteT(T t) { + return std::isfinite(t); +} +// Wrapper avoids calling std::isfinite for integer types (ambiguous). +template <typename T, HWY_IF_NOT_FLOAT(T)> +bool IsFiniteT(T /*unused*/) { + return true; +} + +template <typename ToT> +struct TestDemoteTo { + template <typename T, class D> + HWY_NOINLINE void operator()(T /*unused*/, D from_d) { + static_assert(!IsFloat<ToT>(), "Use TestDemoteToFloat for float output"); + static_assert(sizeof(T) > sizeof(ToT), "Input type must be wider"); + const Rebind<ToT, D> to_d; + + const size_t N = Lanes(from_d); + auto from = AllocateAligned<T>(N); + auto expected = AllocateAligned<ToT>(N); + + // Narrower range in the wider type, for clamping before we cast + const T min = LimitsMin<ToT>(); + const T max = LimitsMax<ToT>(); + + const auto value_ok = [&](T& value) { + if (!IsFiniteT(value)) return false; + return true; + }; + + RandomState rng; + for (size_t rep = 0; rep < AdjustedReps(1000); ++rep) { + for (size_t i = 0; i < N; ++i) { + do { + const uint64_t bits = rng(); + CopyBytes<sizeof(T)>(&bits, &from[i]); // not same size + } while (!value_ok(from[i])); + expected[i] = static_cast<ToT>(HWY_MIN(HWY_MAX(min, from[i]), max)); + } + + const auto in = Load(from_d, from.get()); + HWY_ASSERT_VEC_EQ(to_d, expected.get(), DemoteTo(to_d, in)); + } + } +}; + +HWY_NOINLINE void TestAllDemoteToInt() { + ForDemoteVectors<TestDemoteTo<uint8_t>>()(int16_t()); + ForDemoteVectors<TestDemoteTo<uint8_t>, 2>()(int32_t()); + + ForDemoteVectors<TestDemoteTo<int8_t>>()(int16_t()); + ForDemoteVectors<TestDemoteTo<int8_t>, 2>()(int32_t()); + + const ForDemoteVectors<TestDemoteTo<uint16_t>> to_u16; + to_u16(int32_t()); + + const ForDemoteVectors<TestDemoteTo<int16_t>> to_i16; + to_i16(int32_t()); +} + +HWY_NOINLINE void TestAllDemoteToMixed() { +#if HWY_HAVE_FLOAT64 + const ForDemoteVectors<TestDemoteTo<int32_t>> to_i32; + to_i32(double()); +#endif +} + +template <typename ToT> +struct TestDemoteToFloat { + template <typename T, class D> + HWY_NOINLINE void operator()(T /*unused*/, D from_d) { + // For floats, we clamp differently and cannot call LimitsMin. + static_assert(IsFloat<ToT>(), "Use TestDemoteTo for integer output"); + static_assert(sizeof(T) > sizeof(ToT), "Input type must be wider"); + const Rebind<ToT, D> to_d; + + const size_t N = Lanes(from_d); + auto from = AllocateAligned<T>(N); + auto expected = AllocateAligned<ToT>(N); + + RandomState rng; + for (size_t rep = 0; rep < AdjustedReps(1000); ++rep) { + for (size_t i = 0; i < N; ++i) { + do { + const uint64_t bits = rng(); + CopyBytes<sizeof(T)>(&bits, &from[i]); // not same size + } while (!IsFiniteT(from[i])); + const T magn = std::abs(from[i]); + const T max_abs = HighestValue<ToT>(); + // NOTE: std:: version from C++11 cmath is not defined in RVV GCC, see + // https://lists.freebsd.org/pipermail/freebsd-current/2014-January/048130.html + const T clipped = copysign(HWY_MIN(magn, max_abs), from[i]); + expected[i] = static_cast<ToT>(clipped); + } + + HWY_ASSERT_VEC_EQ(to_d, expected.get(), + DemoteTo(to_d, Load(from_d, from.get()))); + } + } +}; + +HWY_NOINLINE void TestAllDemoteToFloat() { + // Must test f16 separately because we can only load/store/convert them. + +#if HWY_HAVE_FLOAT64 + const ForDemoteVectors<TestDemoteToFloat<float>, 1> to_float; + to_float(double()); +#endif +} + +template <class D> +AlignedFreeUniquePtr<float[]> ReorderBF16TestCases(D d, size_t& padded) { + const float test_cases[] = { + // Same as BF16TestCases: + // +/- 1 + 1.0f, + -1.0f, + // +/- 0 + 0.0f, + -0.0f, + // near 0 + 0.25f, + -0.25f, + // +/- integer + 4.0f, + -32.0f, + // positive +/- delta + 2.015625f, + 3.984375f, + // negative +/- delta + -2.015625f, + -3.984375f, + + // No huge values - would interfere with sum. But add more to fill 2 * N: + -2.0f, + -10.0f, + 0.03125f, + 1.03125f, + 1.5f, + 2.0f, + 4.0f, + 5.0f, + 6.0f, + 8.0f, + 10.0f, + 256.0f, + 448.0f, + 2080.0f, + }; + const size_t kNumTestCases = sizeof(test_cases) / sizeof(test_cases[0]); + const size_t N = Lanes(d); + padded = RoundUpTo(kNumTestCases, 2 * N); // allow loading pairs of vectors + auto in = AllocateAligned<float>(padded); + auto expected = AllocateAligned<float>(padded); + std::copy(test_cases, test_cases + kNumTestCases, in.get()); + std::fill(in.get() + kNumTestCases, in.get() + padded, 0.0f); + return in; +} + +class TestReorderDemote2To { + // In-place N^2 selection sort to avoid dependencies + void Sort(float* p, size_t count) { + for (size_t i = 0; i < count - 1; ++i) { + // Find min_element + size_t idx_min = i; + for (size_t j = i + 1; j < count; j++) { + if (p[j] < p[idx_min]) { + idx_min = j; + } + } + + // Swap with current + const float tmp = p[i]; + p[i] = p[idx_min]; + p[idx_min] = tmp; + } + } + + public: + template <typename TF32, class DF32> + HWY_NOINLINE void operator()(TF32 /*t*/, DF32 d32) { +#if HWY_TARGET != HWY_SCALAR + size_t padded; + auto in = ReorderBF16TestCases(d32, padded); + + using TBF16 = bfloat16_t; + const Repartition<TBF16, DF32> dbf16; + const Half<decltype(dbf16)> dbf16_half; + const size_t N = Lanes(d32); + auto temp16 = AllocateAligned<TBF16>(2 * N); + auto expected = AllocateAligned<float>(2 * N); + auto actual = AllocateAligned<float>(2 * N); + + for (size_t i = 0; i < padded; i += 2 * N) { + const auto f0 = Load(d32, &in[i + 0]); + const auto f1 = Load(d32, &in[i + N]); + const auto v16 = ReorderDemote2To(dbf16, f0, f1); + Store(v16, dbf16, temp16.get()); + const auto promoted0 = PromoteTo(d32, Load(dbf16_half, temp16.get() + 0)); + const auto promoted1 = PromoteTo(d32, Load(dbf16_half, temp16.get() + N)); + + // Smoke test: sum should be same (with tolerance for non-associativity) + const auto sum_expected = GetLane(SumOfLanes(d32, Add(f0, f1))); + const auto sum_actual = + GetLane(SumOfLanes(d32, Add(promoted0, promoted1))); + + HWY_ASSERT(sum_expected - 1E-4 <= sum_actual && + sum_actual <= sum_expected + 1E-4); + + // Ensure values are the same after sorting to undo the Reorder + Store(f0, d32, expected.get() + 0); + Store(f1, d32, expected.get() + N); + Store(promoted0, d32, actual.get() + 0); + Store(promoted1, d32, actual.get() + N); + Sort(expected.get(), 2 * N); + Sort(actual.get(), 2 * N); + HWY_ASSERT_VEC_EQ(d32, expected.get() + 0, Load(d32, actual.get() + 0)); + HWY_ASSERT_VEC_EQ(d32, expected.get() + N, Load(d32, actual.get() + N)); + } +#else // HWY_SCALAR + (void)d32; +#endif + } +}; + +HWY_NOINLINE void TestAllReorderDemote2To() { + ForShrinkableVectors<TestReorderDemote2To>()(float()); +} + +struct TestI32F64 { + template <typename TF, class DF> + HWY_NOINLINE void operator()(TF /*unused*/, const DF df) { + using TI = int32_t; + const Rebind<TI, DF> di; + const size_t N = Lanes(df); + + // Integer positive + HWY_ASSERT_VEC_EQ(di, Iota(di, TI(4)), DemoteTo(di, Iota(df, TF(4.0)))); + + // Integer negative + HWY_ASSERT_VEC_EQ(di, Iota(di, -TI(N)), DemoteTo(di, Iota(df, -TF(N)))); + + // Above positive + HWY_ASSERT_VEC_EQ(di, Iota(di, TI(2)), DemoteTo(di, Iota(df, TF(2.001)))); + + // Below positive + HWY_ASSERT_VEC_EQ(di, Iota(di, TI(3)), DemoteTo(di, Iota(df, TF(3.9999)))); + + const TF eps = static_cast<TF>(0.0001); + // Above negative + HWY_ASSERT_VEC_EQ(di, Iota(di, -TI(N)), + DemoteTo(di, Iota(df, -TF(N + 1) + eps))); + + // Below negative + HWY_ASSERT_VEC_EQ(di, Iota(di, -TI(N + 1)), + DemoteTo(di, Iota(df, -TF(N + 1) - eps))); + + // Huge positive float + HWY_ASSERT_VEC_EQ(di, Set(di, LimitsMax<TI>()), + DemoteTo(di, Set(df, TF(1E12)))); + + // Huge negative float + HWY_ASSERT_VEC_EQ(di, Set(di, LimitsMin<TI>()), + DemoteTo(di, Set(df, TF(-1E12)))); + } +}; + +HWY_NOINLINE void TestAllI32F64() { +#if HWY_HAVE_FLOAT64 + ForDemoteVectors<TestI32F64>()(double()); +#endif +} + +// NOLINTNEXTLINE(google-readability-namespace-comments) +} // namespace HWY_NAMESPACE +} // namespace hwy +HWY_AFTER_NAMESPACE(); + +#endif // !HWY_IS_MSAN + +#if HWY_ONCE + +namespace hwy { +#if !HWY_IS_MSAN +HWY_BEFORE_TEST(HwyDemoteTest); +HWY_EXPORT_AND_TEST_P(HwyDemoteTest, TestAllDemoteToInt); +HWY_EXPORT_AND_TEST_P(HwyDemoteTest, TestAllDemoteToMixed); +HWY_EXPORT_AND_TEST_P(HwyDemoteTest, TestAllDemoteToFloat); +HWY_EXPORT_AND_TEST_P(HwyDemoteTest, TestAllReorderDemote2To); +HWY_EXPORT_AND_TEST_P(HwyDemoteTest, TestAllI32F64); +#endif // !HWY_IS_MSAN +} // namespace hwy + +#endif |