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https://github.com/encounter/dawn-cmake.git
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1db8831be4
This is the same as was done for const eval builtin tests, allowing the error cases to be defined in the same place as we define the positive cases. Also got rid fo the 'overflow' flag, which was used to skip abstract cases in the unit test. Instead, I modified the tests to only add overflow cases if not abstract. This change will make it easier to update tests when we make Inf/NaN failures for concrete float operations. Bug: tint:1581 Bug: tint:1747 Change-Id: I7e5d8f9b24ca486aaa03a3b1bd07ccedb09411c9 Reviewed-on: https://dawn-review.googlesource.com/c/dawn/+/110043 Kokoro: Kokoro <noreply+kokoro@google.com> Commit-Queue: Antonio Maiorano <amaiorano@google.com> Reviewed-by: Ben Clayton <bclayton@google.com>
1784 lines
69 KiB
C++
1784 lines
69 KiB
C++
// Copyright 2021 The Tint Authors.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the empecific language governing permissions and
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// limitations under the License.
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#include "src/tint/resolver/const_eval_test.h"
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#include "src/tint/utils/result.h"
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using namespace tint::number_suffixes; // NOLINT
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using ::testing::HasSubstr;
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namespace tint::resolver {
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namespace {
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// Bring in std::ostream& operator<<(std::ostream& o, const Types& types)
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using resolver::operator<<;
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struct Case {
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Case(utils::VectorRef<Types> in_args, Types expected_value)
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: args(std::move(in_args)), expected(Success{std::move(expected_value), false, false}) {}
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Case(utils::VectorRef<Types> in_args, std::string expected_err)
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: args(std::move(in_args)), expected(Failure{std::move(expected_err)}) {}
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/// Expected value may be positive or negative
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Case& PosOrNeg() {
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Success s = expected.Get();
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s.pos_or_neg = true;
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expected = s;
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return *this;
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}
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/// Expected value should be compared using FLOAT_EQ instead of EQ
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Case& FloatComp() {
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Success s = expected.Get();
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s.float_compare = true;
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expected = s;
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return *this;
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}
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struct Success {
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Types value;
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bool pos_or_neg = false;
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bool float_compare = false;
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};
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struct Failure {
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std::string error;
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};
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utils::Vector<Types, 8> args;
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utils::Result<Success, Failure> expected;
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};
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static std::ostream& operator<<(std::ostream& o, const Case& c) {
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o << "args: ";
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for (auto& a : c.args) {
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o << a << ", ";
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}
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o << "expected: ";
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if (c.expected) {
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auto s = c.expected.Get();
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o << s.value << ", pos_or_neg: " << s.pos_or_neg;
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} else {
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o << "[ERROR: " << c.expected.Failure().error << "]";
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}
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return o;
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}
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using ScalarTypes = std::variant<AInt, AFloat, u32, i32, f32, f16>;
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/// Creates a Case with Values for args and result
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static Case C(std::initializer_list<Types> args, Types result) {
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return Case{utils::Vector<Types, 8>{args}, std::move(result)};
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}
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/// Convenience overload that creates a Case with just scalars
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static Case C(std::initializer_list<ScalarTypes> sargs, ScalarTypes sresult) {
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utils::Vector<Types, 8> args;
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for (auto& sa : sargs) {
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std::visit([&](auto&& v) { return args.Push(Val(v)); }, sa);
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}
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Types result = Val(0_a);
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std::visit([&](auto&& v) { result = Val(v); }, sresult);
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return Case{std::move(args), std::move(result)};
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}
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/// Creates a Case with Values for args and expected error
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static Case E(std::initializer_list<Types> args, std::string err) {
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return Case{utils::Vector<Types, 8>{args}, std::move(err)};
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}
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/// Convenience overload that creates an expected-error Case with just scalars
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static Case E(std::initializer_list<ScalarTypes> sargs, std::string err) {
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utils::Vector<Types, 8> args;
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for (auto& sa : sargs) {
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std::visit([&](auto&& v) { return args.Push(Val(v)); }, sa);
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}
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return Case{std::move(args), std::move(err)};
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}
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using ResolverConstEvalBuiltinTest = ResolverTestWithParam<std::tuple<sem::BuiltinType, Case>>;
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TEST_P(ResolverConstEvalBuiltinTest, Test) {
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Enable(ast::Extension::kF16);
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auto builtin = std::get<0>(GetParam());
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auto& c = std::get<1>(GetParam());
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utils::Vector<const ast::Expression*, 8> args;
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for (auto& a : c.args) {
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std::visit([&](auto&& v) { args.Push(v.Expr(*this)); }, a);
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}
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auto* expr = Call(Source{{12, 34}}, sem::str(builtin), std::move(args));
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GlobalConst("C", expr);
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if (c.expected) {
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auto expected_case = c.expected.Get();
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auto* expected_expr = ToValueBase(expected_case.value)->Expr(*this);
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GlobalConst("E", expected_expr);
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ASSERT_TRUE(r()->Resolve()) << r()->error();
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auto* sem = Sem().Get(expr);
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ASSERT_NE(sem, nullptr);
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const sem::Constant* value = sem->ConstantValue();
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ASSERT_NE(value, nullptr);
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EXPECT_TYPE(value->Type(), sem->Type());
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auto* expected_sem = Sem().Get(expected_expr);
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const sem::Constant* expected_value = expected_sem->ConstantValue();
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ASSERT_NE(expected_value, nullptr);
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EXPECT_TYPE(expected_value->Type(), expected_sem->Type());
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// @TODO(amaiorano): Rewrite using ScalarArgsFrom()
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ForEachElemPair(value, expected_value, [&](const sem::Constant* a, const sem::Constant* b) {
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std::visit(
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[&](auto&& ct_expected) {
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using T = typename std::decay_t<decltype(ct_expected)>::ElementType;
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auto v = a->As<T>();
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auto e = b->As<T>();
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if constexpr (std::is_same_v<bool, T>) {
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EXPECT_EQ(v, e);
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} else if constexpr (IsFloatingPoint<T>) {
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if (std::isnan(e)) {
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EXPECT_TRUE(std::isnan(v));
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} else {
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auto vf = (expected_case.pos_or_neg ? Abs(v) : v);
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if (expected_case.float_compare) {
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EXPECT_FLOAT_EQ(vf, e);
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} else {
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EXPECT_EQ(vf, e);
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}
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}
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} else {
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EXPECT_EQ((expected_case.pos_or_neg ? Abs(v) : v), e);
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// Check that the constant's integer doesn't contain unexpected
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// data in the MSBs that are outside of the bit-width of T.
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EXPECT_EQ(a->As<AInt>(), b->As<AInt>());
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}
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},
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expected_case.value);
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return HasFailure() ? Action::kStop : Action::kContinue;
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});
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} else {
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EXPECT_FALSE(r()->Resolve());
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EXPECT_EQ(r()->error(), c.expected.Failure().error);
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}
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}
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INSTANTIATE_TEST_SUITE_P( //
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MixedAbstractArgs,
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ResolverConstEvalBuiltinTest,
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testing::Combine(testing::Values(sem::BuiltinType::kAtan2),
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testing::ValuesIn(std::vector{
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C({0_a, -0.0_a}, kPi<AFloat>),
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C({1.0_a, 0_a}, kPiOver2<AFloat>),
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})));
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template <typename T, bool finite_only>
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std::vector<Case> AbsCases() {
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std::vector<Case> cases = {
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C({T(0)}, T(0)),
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C({T(2.0)}, T(2.0)),
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C({T::Highest()}, T::Highest()),
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// Vector tests
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C({Vec(T(2.0), T::Highest())}, Vec(T(2.0), T::Highest())),
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};
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ConcatIntoIf<IsSignedIntegral<T>>(
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cases,
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std::vector<Case>{
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C({Negate(T(0))}, T(0)),
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C({Negate(T(2.0))}, T(2.0)),
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// If e is signed and is the largest negative, the result is e
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C({T::Lowest()}, T::Lowest()),
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// 1 more then min i32
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C({Negate(T(2147483647))}, T(2147483647)),
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C({Vec(T(0), Negate(T(0)))}, Vec(T(0), T(0))),
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C({Vec(Negate(T(2.0)), T(2.0), T::Highest())}, Vec(T(2.0), T(2.0), T::Highest())),
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});
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ConcatIntoIf<!finite_only>(cases, std::vector<Case>{
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C({Negate(T::Inf())}, T::Inf()),
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C({T::Inf()}, T::Inf()),
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C({T::NaN()}, T::NaN()),
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C({Vec(Negate(T::Inf()), T::Inf(), T::NaN())},
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Vec(T::Inf(), T::Inf(), T::NaN())),
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});
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return cases;
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}
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INSTANTIATE_TEST_SUITE_P( //
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Abs,
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ResolverConstEvalBuiltinTest,
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testing::Combine(testing::Values(sem::BuiltinType::kAbs),
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testing::ValuesIn(Concat(AbsCases<AInt, false>(), //
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AbsCases<i32, false>(),
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AbsCases<u32, false>(),
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AbsCases<AFloat, true>(),
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AbsCases<f32, false>(),
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AbsCases<f16, false>()))));
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static std::vector<Case> AllCases() {
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return {
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C({Val(true)}, Val(true)),
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C({Val(false)}, Val(false)),
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C({Vec(true, true)}, Val(true)),
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C({Vec(true, false)}, Val(false)),
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C({Vec(false, true)}, Val(false)),
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C({Vec(false, false)}, Val(false)),
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C({Vec(true, true, true)}, Val(true)),
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C({Vec(false, true, true)}, Val(false)),
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C({Vec(true, false, true)}, Val(false)),
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C({Vec(true, true, false)}, Val(false)),
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C({Vec(false, false, false)}, Val(false)),
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C({Vec(true, true, true, true)}, Val(true)),
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C({Vec(false, true, true, true)}, Val(false)),
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C({Vec(true, false, true, true)}, Val(false)),
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C({Vec(true, true, false, true)}, Val(false)),
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C({Vec(true, true, true, false)}, Val(false)),
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C({Vec(false, false, false, false)}, Val(false)),
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};
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}
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INSTANTIATE_TEST_SUITE_P( //
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All,
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ResolverConstEvalBuiltinTest,
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testing::Combine(testing::Values(sem::BuiltinType::kAll), testing::ValuesIn(AllCases())));
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static std::vector<Case> AnyCases() {
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return {
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C({Val(true)}, Val(true)),
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C({Val(false)}, Val(false)),
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C({Vec(true, true)}, Val(true)),
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C({Vec(true, false)}, Val(true)),
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C({Vec(false, true)}, Val(true)),
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C({Vec(false, false)}, Val(false)),
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C({Vec(true, true, true)}, Val(true)),
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C({Vec(false, true, true)}, Val(true)),
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C({Vec(true, false, true)}, Val(true)),
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C({Vec(true, true, false)}, Val(true)),
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C({Vec(false, false, false)}, Val(false)),
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C({Vec(true, true, true, true)}, Val(true)),
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C({Vec(false, true, true, true)}, Val(true)),
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C({Vec(true, false, true, true)}, Val(true)),
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C({Vec(true, true, false, true)}, Val(true)),
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C({Vec(true, true, true, false)}, Val(true)),
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C({Vec(false, false, false, false)}, Val(false)),
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};
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}
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INSTANTIATE_TEST_SUITE_P( //
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Any,
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ResolverConstEvalBuiltinTest,
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testing::Combine(testing::Values(sem::BuiltinType::kAny), testing::ValuesIn(AnyCases())));
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template <typename T, bool finite_only>
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std::vector<Case> Atan2Cases() {
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std::vector<Case> cases = {
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// If y is +/-0 and x is negative or -0, +/-PI is returned
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C({T(0.0), -T(0.0)}, kPi<T>).PosOrNeg().FloatComp(),
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// If y is +/-0 and x is positive or +0, +/-0 is returned
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C({T(0.0), T(0.0)}, T(0.0)).PosOrNeg(),
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// If x is +/-0 and y is negative, -PI/2 is returned
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C({-T(1.0), T(0.0)}, -kPiOver2<T>).FloatComp(), //
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C({-T(1.0), -T(0.0)}, -kPiOver2<T>).FloatComp(),
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// If x is +/-0 and y is positive, +PI/2 is returned
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C({T(1.0), T(0.0)}, kPiOver2<T>).FloatComp(), //
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C({T(1.0), -T(0.0)}, kPiOver2<T>).FloatComp(),
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// Vector tests
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C({Vec(T(0.0), T(0.0)), Vec(-T(0.0), T(0.0))}, Vec(kPi<T>, T(0.0))).PosOrNeg().FloatComp(),
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C({Vec(-T(1.0), -T(1.0)), Vec(T(0.0), -T(0.0))}, Vec(-kPiOver2<T>, -kPiOver2<T>))
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.FloatComp(),
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C({Vec(T(1.0), T(1.0)), Vec(T(0.0), -T(0.0))}, Vec(kPiOver2<T>, kPiOver2<T>)).FloatComp(),
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};
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ConcatIntoIf<!finite_only>( //
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cases, std::vector<Case>{
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// If y is +/-INF and x is finite, +/-PI/2 is returned
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C({T::Inf(), T(0.0)}, kPiOver2<T>).PosOrNeg().FloatComp(),
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C({-T::Inf(), T(0.0)}, kPiOver2<T>).PosOrNeg().FloatComp(),
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// If y is +/-INF and x is -INF, +/-3PI/4 is returned
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C({T::Inf(), -T::Inf()}, k3PiOver4<T>).PosOrNeg().FloatComp(),
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C({-T::Inf(), -T::Inf()}, k3PiOver4<T>).PosOrNeg().FloatComp(),
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// If y is +/-INF and x is +INF, +/-PI/4 is returned
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C({T::Inf(), T::Inf()}, kPiOver4<T>).PosOrNeg().FloatComp(),
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C({-T::Inf(), T::Inf()}, kPiOver4<T>).PosOrNeg().FloatComp(),
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// If x is -INF and y is finite and positive, +PI is returned
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C({T(0.0), -T::Inf()}, kPi<T>).FloatComp(),
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// If x is -INF and y is finite and negative, -PI is returned
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C({-T(0.0), -T::Inf()}, -kPi<T>).FloatComp(),
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// If x is +INF and y is finite and positive, +0 is returned
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C({T(0.0), T::Inf()}, T(0.0)),
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// If x is +INF and y is finite and negative, -0 is returned
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C({-T(0.0), T::Inf()}, -T(0.0)),
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// If either x is NaN or y is NaN, NaN is returned
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C({T::NaN(), T(0.0)}, T::NaN()),
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C({T(0.0), T::NaN()}, T::NaN()),
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C({T::NaN(), T::NaN()}, T::NaN()),
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// Vector tests
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C({Vec(T::Inf(), -T::Inf(), T::Inf(), -T::Inf()), //
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Vec(T(0.0), T(0.0), -T::Inf(), -T::Inf())}, //
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Vec(kPiOver2<T>, kPiOver2<T>, k3PiOver4<T>, k3PiOver4<T>))
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.PosOrNeg()
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.FloatComp(),
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});
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return cases;
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}
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INSTANTIATE_TEST_SUITE_P( //
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Atan2,
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ResolverConstEvalBuiltinTest,
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testing::Combine(testing::Values(sem::BuiltinType::kAtan2),
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testing::ValuesIn(Concat(Atan2Cases<AFloat, true>(), //
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Atan2Cases<f32, false>(),
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Atan2Cases<f16, false>()))));
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template <typename T, bool finite_only>
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std::vector<Case> AtanCases() {
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std::vector<Case> cases = {
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C({T(1.0)}, kPiOver4<T>).FloatComp(),
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C({-T(1.0)}, -kPiOver4<T>).FloatComp(),
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// If i is +/-0, +/-0 is returned
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C({T(0.0)}, T(0.0)).PosOrNeg(),
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// Vector tests
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C({Vec(T(0.0), T(1.0), -T(1.0))}, Vec(T(0.0), kPiOver4<T>, -kPiOver4<T>)).FloatComp(),
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};
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ConcatIntoIf<!finite_only>( //
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cases, std::vector<Case>{
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// If i is +/-INF, +/-PI/2 is returned
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C({T::Inf()}, kPiOver2<T>).PosOrNeg().FloatComp(),
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C({-T::Inf()}, -kPiOver2<T>).FloatComp(),
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// If i is NaN, NaN is returned
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C({T::NaN()}, T::NaN()),
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// Vector tests
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C({Vec(T::Inf(), -T::Inf(), T::Inf(), -T::Inf())}, //
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Vec(kPiOver2<T>, -kPiOver2<T>, kPiOver2<T>, -kPiOver2<T>))
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.FloatComp(),
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});
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return cases;
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}
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INSTANTIATE_TEST_SUITE_P( //
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Atan,
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ResolverConstEvalBuiltinTest,
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testing::Combine(testing::Values(sem::BuiltinType::kAtan),
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testing::ValuesIn(Concat(AtanCases<AFloat, true>(), //
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AtanCases<f32, false>(),
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AtanCases<f16, false>()))));
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template <typename T, bool finite_only>
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std::vector<Case> AtanhCases() {
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std::vector<Case> cases = {
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// If i is +/-0, +/-0 is returned
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C({T(0.0)}, T(0.0)).PosOrNeg(),
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C({T(0.9)}, T(1.4722193)).FloatComp(),
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// Vector tests
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C({Vec(T(0.0), T(0.9), -T(0.9))}, Vec(T(0.0), T(1.4722193), -T(1.4722193))).FloatComp(),
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};
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ConcatIntoIf<finite_only>( //
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cases,
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std::vector<Case>{
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E({1.1_a},
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"12:34 error: atanh must be called with a value in the range (-1 .. 1) (exclusive)"),
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E({-1.1_a},
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"12:34 error: atanh must be called with a value in the range (-1 .. 1) (exclusive)"),
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E({T::Inf()},
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"12:34 error: atanh must be called with a value in the range (-1 .. 1) (exclusive)"),
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E({-T::Inf()},
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"12:34 error: atanh must be called with a value in the range (-1 .. 1) (exclusive)"),
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});
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ConcatIntoIf<!finite_only>( //
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cases, std::vector<Case>{
|
|
// If i is NaN, NaN is returned
|
|
C({T::NaN()}, T::NaN()),
|
|
|
|
// Vector tests
|
|
C({Vec(T::NaN(), T::NaN())}, Vec(T::NaN(), T::NaN())).FloatComp(),
|
|
});
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Atanh,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kAtanh),
|
|
testing::ValuesIn(Concat(AtanhCases<AFloat, true>(), //
|
|
AtanhCases<f32, false>(),
|
|
AtanhCases<f16, false>()))));
|
|
|
|
template <typename T, bool finite_only>
|
|
std::vector<Case> AcosCases() {
|
|
std::vector<Case> cases = {
|
|
// If i is +/-0, +/-0 is returned
|
|
C({T(0.87758256189)}, T(0.5)).FloatComp(),
|
|
|
|
C({T(1.0)}, T(0.0)),
|
|
C({-T(1.0)}, kPi<T>).FloatComp(),
|
|
|
|
// Vector tests
|
|
C({Vec(T(1.0), -T(1.0))}, Vec(T(0), kPi<T>)).FloatComp(),
|
|
};
|
|
|
|
ConcatIntoIf<finite_only>( //
|
|
cases,
|
|
std::vector<Case>{
|
|
E({1.1_a},
|
|
"12:34 error: acos must be called with a value in the range [-1 .. 1] (inclusive)"),
|
|
E({-1.1_a},
|
|
"12:34 error: acos must be called with a value in the range [-1 .. 1] (inclusive)"),
|
|
E({T::Inf()},
|
|
"12:34 error: acos must be called with a value in the range [-1 .. 1] (inclusive)"),
|
|
E({-T::Inf()},
|
|
"12:34 error: acos must be called with a value in the range [-1 .. 1] (inclusive)"),
|
|
});
|
|
|
|
ConcatIntoIf<!finite_only>( //
|
|
cases, std::vector<Case>{
|
|
// If i is NaN, NaN is returned
|
|
C({T::NaN()}, T::NaN()),
|
|
|
|
// Vector tests
|
|
C({Vec(T::NaN(), T::NaN())}, Vec(T::NaN(), T::NaN())),
|
|
});
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Acos,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kAcos),
|
|
testing::ValuesIn(Concat(AcosCases<AFloat, true>(), //
|
|
AcosCases<f32, false>(),
|
|
AcosCases<f16, false>()))));
|
|
|
|
template <typename T, bool finite_only>
|
|
std::vector<Case> AcoshCases() {
|
|
std::vector<Case> cases = {
|
|
C({T(1.0)}, T(0.0)),
|
|
C({T(11.5919532755)}, kPi<T>).FloatComp(),
|
|
|
|
// Vector tests
|
|
C({Vec(T(1.0), T(11.5919532755))}, Vec(T(0), kPi<T>)).FloatComp(),
|
|
};
|
|
|
|
ConcatIntoIf<finite_only>( //
|
|
cases, std::vector<Case>{
|
|
E({T::Smallest()}, "12:34 error: acosh must be called with a value >= 1.0"),
|
|
E({-1.1_a}, "12:34 error: acosh must be called with a value >= 1.0"),
|
|
E({0_a}, "12:34 error: acosh must be called with a value >= 1.0"),
|
|
});
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Acosh,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kAcosh),
|
|
testing::ValuesIn(Concat(AcoshCases<AFloat, true>(), //
|
|
AcoshCases<f32, false>(),
|
|
AcoshCases<f16, false>()))));
|
|
|
|
template <typename T, bool finite_only>
|
|
std::vector<Case> AsinCases() {
|
|
std::vector<Case> cases = {
|
|
// If i is +/-0, +/-0 is returned
|
|
C({T(0.0)}, T(0.0)),
|
|
C({-T(0.0)}, -T(0.0)),
|
|
|
|
C({T(1.0)}, kPiOver2<T>).FloatComp(),
|
|
C({-T(1.0)}, -kPiOver2<T>).FloatComp(),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0.0), T(1.0), -T(1.0))}, Vec(T(0.0), kPiOver2<T>, -kPiOver2<T>)).FloatComp(),
|
|
};
|
|
|
|
ConcatIntoIf<finite_only>( //
|
|
cases,
|
|
std::vector<Case>{
|
|
E({1.1_a},
|
|
"12:34 error: asin must be called with a value in the range [-1 .. 1] (inclusive)"),
|
|
E({-1.1_a},
|
|
"12:34 error: asin must be called with a value in the range [-1 .. 1] (inclusive)"),
|
|
E({T::Inf()},
|
|
"12:34 error: asin must be called with a value in the range [-1 .. 1] (inclusive)"),
|
|
E({-T::Inf()},
|
|
"12:34 error: asin must be called with a value in the range [-1 .. 1] (inclusive)"),
|
|
});
|
|
|
|
ConcatIntoIf<!finite_only>( //
|
|
cases, std::vector<Case>{
|
|
// If i is NaN, NaN is returned
|
|
C({T::NaN()}, T::NaN()),
|
|
|
|
// Vector tests
|
|
C({Vec(T::NaN(), T::NaN())}, Vec(T::NaN(), T::NaN())).FloatComp(),
|
|
});
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Asin,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kAsin),
|
|
testing::ValuesIn(Concat(AsinCases<AFloat, true>(), //
|
|
AsinCases<f32, false>(),
|
|
AsinCases<f16, false>()))));
|
|
|
|
template <typename T, bool finite_only>
|
|
std::vector<Case> AsinhCases() {
|
|
std::vector<Case> cases = {
|
|
// If i is +/-0, +/-0 is returned
|
|
C({T(0.0)}, T(0.0)),
|
|
C({-T(0.0)}, -T(0.0)),
|
|
|
|
C({T(0.9)}, T(0.80886693565278)).FloatComp(),
|
|
C({-T(2.0)}, -T(1.4436354751788)).FloatComp(),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0.0), T(0.9), -T(2.0))}, //
|
|
Vec(T(0.0), T(0.8088669356278), -T(1.4436354751788)))
|
|
.FloatComp(),
|
|
};
|
|
|
|
ConcatIntoIf<!finite_only>( //
|
|
cases, std::vector<Case>{
|
|
// If i is +/- INF, +/-INF is returned
|
|
C({T::Inf()}, T::Inf()),
|
|
C({-T::Inf()}, -T::Inf()),
|
|
|
|
// If i is NaN, NaN is returned
|
|
C({T::NaN()}, T::NaN()),
|
|
|
|
// Vector tests
|
|
C({Vec(T::Inf(), T::NaN(), -T::Inf())}, //
|
|
Vec(T::Inf(), T::NaN(), -T::Inf())),
|
|
});
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Asinh,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kAsinh),
|
|
testing::ValuesIn(Concat(AsinhCases<AFloat, true>(), //
|
|
AsinhCases<f32, false>(),
|
|
AsinhCases<f16, false>()))));
|
|
|
|
template <typename T, bool finite_only>
|
|
std::vector<Case> CeilCases() {
|
|
std::vector<Case> cases = {
|
|
C({T(0)}, T(0)),
|
|
C({-T(0)}, -T(0)),
|
|
C({-T(1.5)}, -T(1.0)),
|
|
C({T(1.5)}, T(2.0)),
|
|
C({T::Lowest()}, T::Lowest()),
|
|
C({T::Highest()}, T::Highest()),
|
|
|
|
C({Vec(T(0), T(1.5), -T(1.5))}, Vec(T(0), T(2.0), -T(1.0))),
|
|
};
|
|
|
|
ConcatIntoIf<!finite_only>(
|
|
cases, std::vector<Case>{
|
|
C({-T::Inf()}, -T::Inf()),
|
|
C({T::Inf()}, T::Inf()),
|
|
C({T::NaN()}, T::NaN()),
|
|
C({Vec(-T::Inf(), T::Inf(), T::NaN())}, Vec(-T::Inf(), T::Inf(), T::NaN())),
|
|
});
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Ceil,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kCeil),
|
|
testing::ValuesIn(Concat(CeilCases<AFloat, true>(),
|
|
CeilCases<f32, false>(),
|
|
CeilCases<f16, false>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> ClampCases() {
|
|
return {
|
|
C({T(0), T(0), T(0)}, T(0)),
|
|
C({T(0), T(42), T::Highest()}, T(42)),
|
|
C({T::Lowest(), T(0), T(42)}, T(0)),
|
|
C({T(0), T::Lowest(), T::Highest()}, T(0)),
|
|
C({T(0), T::Highest(), T::Lowest()}, T::Lowest()),
|
|
C({T::Highest(), T::Highest(), T::Highest()}, T::Highest()),
|
|
C({T::Lowest(), T::Lowest(), T::Lowest()}, T::Lowest()),
|
|
C({T::Highest(), T::Lowest(), T::Highest()}, T::Highest()),
|
|
C({T::Lowest(), T::Lowest(), T::Highest()}, T::Lowest()),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0), T(0)), //
|
|
Vec(T(0), T(42)), //
|
|
Vec(T(0), T::Highest())}, //
|
|
Vec(T(0), T(42))), //
|
|
C({Vec(T::Lowest(), T(0), T(0)), //
|
|
Vec(T(0), T::Lowest(), T::Highest()), //
|
|
Vec(T(42), T::Highest(), T::Lowest())}, //
|
|
Vec(T(0), T(0), T::Lowest())),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Clamp,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kClamp),
|
|
testing::ValuesIn(Concat(ClampCases<AInt>(), //
|
|
ClampCases<i32>(),
|
|
ClampCases<u32>(),
|
|
ClampCases<AFloat>(),
|
|
ClampCases<f32>(),
|
|
ClampCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> CosCases() {
|
|
std::vector<Case> cases = {
|
|
C({-T(0)}, T(1)),
|
|
C({T(0)}, T(1)),
|
|
|
|
C({T(0.75)}, T(0.7316888689)).FloatComp(),
|
|
|
|
// Vector test
|
|
C({Vec(T(0), -T(0), T(0.75))}, Vec(T(1), T(1), T(0.7316888689))).FloatComp(),
|
|
};
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Cos,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kCos),
|
|
testing::ValuesIn(Concat(CosCases<AFloat>(), //
|
|
CosCases<f32>(),
|
|
CosCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> CoshCases() {
|
|
std::vector<Case> cases = {
|
|
C({T(0)}, T(1)),
|
|
C({-T(0)}, T(1)),
|
|
C({T(1)}, T(1.5430806348)).FloatComp(),
|
|
|
|
C({T(.75)}, T(1.2946832847)).FloatComp(),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0), -T(0), T(1))}, Vec(T(1), T(1), T(1.5430806348))).FloatComp(),
|
|
};
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Cosh,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kCosh),
|
|
testing::ValuesIn(Concat(CoshCases<AFloat>(), //
|
|
CoshCases<f32>(),
|
|
CoshCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> CountLeadingZerosCases() {
|
|
using B = BitValues<T>;
|
|
return {
|
|
C({B::Lsh(1, 31)}, T(0)), //
|
|
C({B::Lsh(1, 30)}, T(1)), //
|
|
C({B::Lsh(1, 29)}, T(2)), //
|
|
C({B::Lsh(1, 28)}, T(3)),
|
|
//...
|
|
C({B::Lsh(1, 3)}, T(28)), //
|
|
C({B::Lsh(1, 2)}, T(29)), //
|
|
C({B::Lsh(1, 1)}, T(30)), //
|
|
C({B::Lsh(1, 0)}, T(31)),
|
|
|
|
C({T(0b1111'0000'1111'0000'1111'0000'1111'0000)}, T(0)),
|
|
C({T(0b0111'1000'0111'1000'0111'1000'0111'1000)}, T(1)),
|
|
C({T(0b0011'1100'0011'1100'0011'1100'0011'1100)}, T(2)),
|
|
C({T(0b0001'1110'0001'1110'0001'1110'0001'1110)}, T(3)),
|
|
//...
|
|
C({T(0b0000'0000'0000'0000'0000'0000'0000'0111)}, T(29)),
|
|
C({T(0b0000'0000'0000'0000'0000'0000'0000'0011)}, T(30)),
|
|
C({T(0b0000'0000'0000'0000'0000'0000'0000'0001)}, T(31)),
|
|
C({T(0b0000'0000'0000'0000'0000'0000'0000'0000)}, T(32)),
|
|
|
|
// Same as above, but remove leading 0
|
|
C({T(0b1111'1000'0111'1000'0111'1000'0111'1000)}, T(0)),
|
|
C({T(0b1011'1100'0011'1100'0011'1100'0011'1100)}, T(0)),
|
|
C({T(0b1001'1110'0001'1110'0001'1110'0001'1110)}, T(0)),
|
|
//...
|
|
C({T(0b1000'0000'0000'0000'0000'0000'0000'0111)}, T(0)),
|
|
C({T(0b1000'0000'0000'0000'0000'0000'0000'0011)}, T(0)),
|
|
C({T(0b1000'0000'0000'0000'0000'0000'0000'0001)}, T(0)),
|
|
C({T(0b1000'0000'0000'0000'0000'0000'0000'0000)}, T(0)),
|
|
|
|
// Vector tests
|
|
C({Vec(B::Lsh(1, 31), B::Lsh(1, 30), B::Lsh(1, 29))}, Vec(T(0), T(1), T(2))),
|
|
C({Vec(B::Lsh(1, 2), B::Lsh(1, 1), B::Lsh(1, 0))}, Vec(T(29), T(30), T(31))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
CountLeadingZeros,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kCountLeadingZeros),
|
|
testing::ValuesIn(Concat(CountLeadingZerosCases<i32>(), //
|
|
CountLeadingZerosCases<u32>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> CountTrailingZerosCases() {
|
|
using B = BitValues<T>;
|
|
return {
|
|
C({B::Lsh(1, 31)}, T(31)), //
|
|
C({B::Lsh(1, 30)}, T(30)), //
|
|
C({B::Lsh(1, 29)}, T(29)), //
|
|
C({B::Lsh(1, 28)}, T(28)),
|
|
//...
|
|
C({B::Lsh(1, 3)}, T(3)), //
|
|
C({B::Lsh(1, 2)}, T(2)), //
|
|
C({B::Lsh(1, 1)}, T(1)), //
|
|
C({B::Lsh(1, 0)}, T(0)),
|
|
|
|
C({T(0b0000'1111'0000'1111'0000'1111'0000'1111)}, T(0)),
|
|
C({T(0b0001'1110'0001'1110'0001'1110'0001'1110)}, T(1)),
|
|
C({T(0b0011'1100'0011'1100'0011'1100'0011'1100)}, T(2)),
|
|
C({T(0b0111'1000'0111'1000'0111'1000'0111'1000)}, T(3)),
|
|
//...
|
|
C({T(0b1110'0000'0000'0000'0000'0000'0000'0000)}, T(29)),
|
|
C({T(0b1100'0000'0000'0000'0000'0000'0000'0000)}, T(30)),
|
|
C({T(0b1000'0000'0000'0000'0000'0000'0000'0000)}, T(31)),
|
|
C({T(0b0000'0000'0000'0000'0000'0000'0000'0000)}, T(32)),
|
|
|
|
//// Same as above, but remove trailing 0
|
|
C({T(0b0001'1110'0001'1110'0001'1110'0001'1111)}, T(0)),
|
|
C({T(0b0011'1100'0011'1100'0011'1100'0011'1101)}, T(0)),
|
|
C({T(0b0111'1000'0111'1000'0111'1000'0111'1001)}, T(0)),
|
|
//...
|
|
C({T(0b1110'0000'0000'0000'0000'0000'0000'0001)}, T(0)),
|
|
C({T(0b1100'0000'0000'0000'0000'0000'0000'0001)}, T(0)),
|
|
C({T(0b1000'0000'0000'0000'0000'0000'0000'0001)}, T(0)),
|
|
C({T(0b0000'0000'0000'0000'0000'0000'0000'0001)}, T(0)),
|
|
|
|
// Vector tests
|
|
C({Vec(B::Lsh(1, 31), B::Lsh(1, 30), B::Lsh(1, 29))}, Vec(T(31), T(30), T(29))),
|
|
C({Vec(B::Lsh(1, 2), B::Lsh(1, 1), B::Lsh(1, 0))}, Vec(T(2), T(1), T(0))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
CountTrailingZeros,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kCountTrailingZeros),
|
|
testing::ValuesIn(Concat(CountTrailingZerosCases<i32>(), //
|
|
CountTrailingZerosCases<u32>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> CountOneBitsCases() {
|
|
using B = BitValues<T>;
|
|
return {
|
|
C({T(0)}, T(0)), //
|
|
|
|
C({B::Lsh(1, 31)}, T(1)), //
|
|
C({B::Lsh(1, 30)}, T(1)), //
|
|
C({B::Lsh(1, 29)}, T(1)), //
|
|
C({B::Lsh(1, 28)}, T(1)),
|
|
//...
|
|
C({B::Lsh(1, 3)}, T(1)), //
|
|
C({B::Lsh(1, 2)}, T(1)), //
|
|
C({B::Lsh(1, 1)}, T(1)), //
|
|
C({B::Lsh(1, 0)}, T(1)),
|
|
|
|
C({T(0b1010'1010'1010'1010'1010'1010'1010'1010)}, T(16)),
|
|
C({T(0b0000'1111'0000'1111'0000'1111'0000'1111)}, T(16)),
|
|
C({T(0b0101'0000'0000'0000'0000'0000'0000'0101)}, T(4)),
|
|
|
|
// Vector tests
|
|
C({Vec(B::Lsh(1, 31), B::Lsh(1, 30), B::Lsh(1, 29))}, Vec(T(1), T(1), T(1))),
|
|
C({Vec(B::Lsh(1, 2), B::Lsh(1, 1), B::Lsh(1, 0))}, Vec(T(1), T(1), T(1))),
|
|
|
|
C({Vec(T(0b1010'1010'1010'1010'1010'1010'1010'1010),
|
|
T(0b0000'1111'0000'1111'0000'1111'0000'1111),
|
|
T(0b0101'0000'0000'0000'0000'0000'0000'0101))},
|
|
Vec(T(16), T(16), T(4))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
CountOneBits,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kCountOneBits),
|
|
testing::ValuesIn(Concat(CountOneBitsCases<i32>(), //
|
|
CountOneBitsCases<u32>()))));
|
|
|
|
template <typename T, bool finite_only>
|
|
std::vector<Case> CrossCases() {
|
|
constexpr auto vec_x = [](T v) { return Vec(T(v), T(0), T(0)); };
|
|
constexpr auto vec_y = [](T v) { return Vec(T(0), T(v), T(0)); };
|
|
constexpr auto vec_z = [](T v) { return Vec(T(0), T(0), T(v)); };
|
|
|
|
const auto zero = Vec(T(0), T(0), T(0));
|
|
const auto unit_x = vec_x(T(1));
|
|
const auto unit_y = vec_y(T(1));
|
|
const auto unit_z = vec_z(T(1));
|
|
const auto neg_unit_x = vec_x(-T(1));
|
|
const auto neg_unit_y = vec_y(-T(1));
|
|
const auto neg_unit_z = vec_z(-T(1));
|
|
const auto highest_x = vec_x(T::Highest());
|
|
const auto highest_y = vec_y(T::Highest());
|
|
const auto highest_z = vec_z(T::Highest());
|
|
const auto smallest_x = vec_x(T::Smallest());
|
|
const auto smallest_y = vec_y(T::Smallest());
|
|
const auto smallest_z = vec_z(T::Smallest());
|
|
const auto lowest_x = vec_x(T::Lowest());
|
|
const auto lowest_y = vec_y(T::Lowest());
|
|
const auto lowest_z = vec_z(T::Lowest());
|
|
const auto inf_x = vec_x(T::Inf());
|
|
const auto inf_y = vec_y(T::Inf());
|
|
const auto inf_z = vec_z(T::Inf());
|
|
const auto neg_inf_x = vec_x(-T::Inf());
|
|
const auto neg_inf_y = vec_y(-T::Inf());
|
|
const auto neg_inf_z = vec_z(-T::Inf());
|
|
|
|
std::vector<Case> r = {
|
|
C({zero, zero}, zero),
|
|
|
|
C({unit_x, unit_x}, zero),
|
|
C({unit_y, unit_y}, zero),
|
|
C({unit_z, unit_z}, zero),
|
|
|
|
C({smallest_x, smallest_x}, zero),
|
|
C({smallest_y, smallest_y}, zero),
|
|
C({smallest_z, smallest_z}, zero),
|
|
|
|
C({lowest_x, lowest_x}, zero),
|
|
C({lowest_y, lowest_y}, zero),
|
|
C({lowest_z, lowest_z}, zero),
|
|
|
|
C({highest_x, highest_x}, zero),
|
|
C({highest_y, highest_y}, zero),
|
|
C({highest_z, highest_z}, zero),
|
|
|
|
C({smallest_x, highest_x}, zero),
|
|
C({smallest_y, highest_y}, zero),
|
|
C({smallest_z, highest_z}, zero),
|
|
|
|
C({unit_x, neg_unit_x}, zero).PosOrNeg(),
|
|
C({unit_y, neg_unit_y}, zero).PosOrNeg(),
|
|
C({unit_z, neg_unit_z}, zero).PosOrNeg(),
|
|
|
|
C({unit_x, unit_y}, unit_z),
|
|
C({unit_y, unit_x}, neg_unit_z),
|
|
|
|
C({unit_z, unit_x}, unit_y),
|
|
C({unit_x, unit_z}, neg_unit_y),
|
|
|
|
C({unit_y, unit_z}, unit_x),
|
|
C({unit_z, unit_y}, neg_unit_x),
|
|
|
|
C({vec_x(T(1)), vec_y(T(2))}, vec_z(T(2))),
|
|
C({vec_y(T(1)), vec_x(T(2))}, vec_z(-T(2))),
|
|
C({vec_x(T(2)), vec_y(T(3))}, vec_z(T(6))),
|
|
C({vec_y(T(2)), vec_x(T(3))}, vec_z(-T(6))),
|
|
|
|
C({Vec(T(1), T(2), T(3)), Vec(T(1), T(5), T(7))}, Vec(T(-1), T(-4), T(3))),
|
|
C({Vec(T(33), T(44), T(55)), Vec(T(13), T(42), T(39))}, Vec(T(-594), T(-572), T(814))),
|
|
C({Vec(T(3.5), T(4), T(5.5)), Vec(T(1), T(4.5), T(3.5))},
|
|
Vec(T(-10.75), T(-6.75), T(11.75))),
|
|
};
|
|
|
|
ConcatIntoIf<!finite_only>( //
|
|
r, std::vector<Case>{
|
|
C({highest_x, highest_y}, inf_z).PosOrNeg(), //
|
|
C({highest_y, highest_x}, inf_z).PosOrNeg(), //
|
|
C({highest_z, highest_x}, inf_y).PosOrNeg(), //
|
|
C({highest_x, highest_z}, inf_y).PosOrNeg(), //
|
|
C({highest_y, highest_z}, inf_x).PosOrNeg(), //
|
|
C({highest_z, highest_y}, inf_x).PosOrNeg(), //
|
|
C({lowest_x, lowest_y}, inf_z).PosOrNeg(), //
|
|
C({lowest_y, lowest_x}, inf_z).PosOrNeg(), //
|
|
C({lowest_z, lowest_x}, inf_y).PosOrNeg(), //
|
|
C({lowest_x, lowest_z}, inf_y).PosOrNeg(), //
|
|
C({lowest_y, lowest_z}, inf_x).PosOrNeg(), //
|
|
C({lowest_z, lowest_y}, inf_x).PosOrNeg(),
|
|
});
|
|
|
|
std::string pos_error_msg =
|
|
"12:34 error: " + OverflowErrorMessage(T::Highest(), "*", T::Highest());
|
|
std::string neg_error_msg =
|
|
"12:34 error: " + OverflowErrorMessage(T::Lowest(), "*", T::Lowest());
|
|
|
|
ConcatIntoIf<finite_only>( //
|
|
r, std::vector<Case>{
|
|
E({highest_x, highest_y}, pos_error_msg),
|
|
E({highest_y, highest_x}, pos_error_msg),
|
|
E({highest_z, highest_x}, pos_error_msg),
|
|
E({highest_x, highest_z}, pos_error_msg),
|
|
E({highest_y, highest_z}, pos_error_msg),
|
|
E({highest_z, highest_y}, pos_error_msg),
|
|
E({lowest_x, lowest_y}, neg_error_msg),
|
|
E({lowest_y, lowest_x}, neg_error_msg),
|
|
E({lowest_z, lowest_x}, neg_error_msg),
|
|
E({lowest_x, lowest_z}, neg_error_msg),
|
|
E({lowest_y, lowest_z}, neg_error_msg),
|
|
E({lowest_z, lowest_y}, neg_error_msg),
|
|
});
|
|
|
|
return r;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Cross,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kCross),
|
|
testing::ValuesIn(Concat(CrossCases<AFloat, true>(), //
|
|
CrossCases<f32, false>(),
|
|
CrossCases<f32, false>(), //
|
|
CrossCases<f16, false>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> FirstLeadingBitCases() {
|
|
using B = BitValues<T>;
|
|
auto r = std::vector<Case>{
|
|
// Both signed and unsigned return T(-1) for input 0
|
|
C({T(0)}, T(-1)),
|
|
|
|
C({B::Lsh(1, 30)}, T(30)), //
|
|
C({B::Lsh(1, 29)}, T(29)), //
|
|
C({B::Lsh(1, 28)}, T(28)),
|
|
//...
|
|
C({B::Lsh(1, 3)}, T(3)), //
|
|
C({B::Lsh(1, 2)}, T(2)), //
|
|
C({B::Lsh(1, 1)}, T(1)), //
|
|
C({B::Lsh(1, 0)}, T(0)),
|
|
|
|
C({T(0b0000'0000'0100'1000'1000'1000'0000'0000)}, T(22)),
|
|
C({T(0b0000'0000'0000'0100'1000'1000'0000'0000)}, T(18)),
|
|
|
|
// Vector tests
|
|
C({Vec(B::Lsh(1, 30), B::Lsh(1, 29), B::Lsh(1, 28))}, Vec(T(30), T(29), T(28))),
|
|
C({Vec(B::Lsh(1, 2), B::Lsh(1, 1), B::Lsh(1, 0))}, Vec(T(2), T(1), T(0))),
|
|
};
|
|
|
|
ConcatIntoIf<IsUnsignedIntegral<T>>( //
|
|
r, std::vector<Case>{
|
|
C({B::Lsh(1, 31)}, T(31)),
|
|
|
|
C({T(0b1111'1111'1111'1111'1111'1111'1111'1110)}, T(31)),
|
|
C({T(0b1111'1111'1111'1111'1111'1111'1111'1100)}, T(31)),
|
|
C({T(0b1111'1111'1111'1111'1111'1111'1111'1000)}, T(31)),
|
|
//...
|
|
C({T(0b1110'0000'0000'0000'0000'0000'0000'0000)}, T(31)),
|
|
C({T(0b1100'0000'0000'0000'0000'0000'0000'0000)}, T(31)),
|
|
C({T(0b1000'0000'0000'0000'0000'0000'0000'0000)}, T(31)),
|
|
});
|
|
|
|
ConcatIntoIf<IsSignedIntegral<T>>( //
|
|
r, std::vector<Case>{
|
|
// Signed returns -1 for input -1
|
|
C({T(-1)}, T(-1)),
|
|
|
|
C({B::Lsh(1, 31)}, T(30)),
|
|
|
|
C({T(0b1111'1111'1111'1111'1111'1111'1111'1110)}, T(0)),
|
|
C({T(0b1111'1111'1111'1111'1111'1111'1111'1100)}, T(1)),
|
|
C({T(0b1111'1111'1111'1111'1111'1111'1111'1000)}, T(2)),
|
|
//...
|
|
C({T(0b1110'0000'0000'0000'0000'0000'0000'0000)}, T(28)),
|
|
C({T(0b1100'0000'0000'0000'0000'0000'0000'0000)}, T(29)),
|
|
C({T(0b1000'0000'0000'0000'0000'0000'0000'0000)}, T(30)),
|
|
});
|
|
|
|
return r;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
FirstLeadingBit,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kFirstLeadingBit),
|
|
testing::ValuesIn(Concat(FirstLeadingBitCases<i32>(), //
|
|
FirstLeadingBitCases<u32>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> FirstTrailingBitCases() {
|
|
using B = BitValues<T>;
|
|
auto r = std::vector<Case>{
|
|
C({T(0)}, T(-1)),
|
|
|
|
C({B::Lsh(1, 31)}, T(31)), //
|
|
C({B::Lsh(1, 30)}, T(30)), //
|
|
C({B::Lsh(1, 29)}, T(29)), //
|
|
C({B::Lsh(1, 28)}, T(28)),
|
|
//...
|
|
C({B::Lsh(1, 3)}, T(3)), //
|
|
C({B::Lsh(1, 2)}, T(2)), //
|
|
C({B::Lsh(1, 1)}, T(1)), //
|
|
C({B::Lsh(1, 0)}, T(0)),
|
|
|
|
C({T(0b0000'0000'0100'1000'1000'1000'0000'0000)}, T(11)),
|
|
C({T(0b0000'0100'1000'1000'1000'0000'0000'0000)}, T(15)),
|
|
|
|
// Vector tests
|
|
C({Vec(B::Lsh(1, 31), B::Lsh(1, 30), B::Lsh(1, 29))}, Vec(T(31), T(30), T(29))),
|
|
C({Vec(B::Lsh(1, 2), B::Lsh(1, 1), B::Lsh(1, 0))}, Vec(T(2), T(1), T(0))),
|
|
};
|
|
|
|
return r;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
FirstTrailingBit,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kFirstTrailingBit),
|
|
testing::ValuesIn(Concat(FirstTrailingBitCases<i32>(), //
|
|
FirstTrailingBitCases<u32>()))));
|
|
|
|
template <typename T, bool finite_only>
|
|
std::vector<Case> FloorCases() {
|
|
std::vector<Case> cases = {
|
|
C({T(0)}, T(0)),
|
|
C({-T(0)}, -T(0)),
|
|
C({-T(1.5)}, -T(2.0)),
|
|
C({T(1.5)}, T(1.0)),
|
|
C({T::Lowest()}, T::Lowest()),
|
|
C({T::Highest()}, T::Highest()),
|
|
|
|
C({Vec(T(0), T(1.5), -T(1.5))}, Vec(T(0), T(1.0), -T(2.0))),
|
|
};
|
|
|
|
ConcatIntoIf<!finite_only>(
|
|
cases, std::vector<Case>{
|
|
C({-T::Inf()}, -T::Inf()),
|
|
C({T::Inf()}, T::Inf()),
|
|
C({T::NaN()}, T::NaN()),
|
|
C({Vec(-T::Inf(), T::Inf(), T::NaN())}, Vec(-T::Inf(), T::Inf(), T::NaN())),
|
|
});
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Floor,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kFloor),
|
|
testing::ValuesIn(Concat(FloorCases<AFloat, true>(),
|
|
FloorCases<f32, false>(),
|
|
FloorCases<f16, false>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> InsertBitsCases() {
|
|
using UT = Number<std::make_unsigned_t<UnwrapNumber<T>>>;
|
|
|
|
auto e = /* */ T(0b0101'1100'0011'1010'0101'1100'0011'1010);
|
|
auto newbits = T{0b1010'0011'1100'0101'1010'0011'1100'0101};
|
|
|
|
auto r = std::vector<Case>{
|
|
// args: e, newbits, offset, count
|
|
|
|
// If count is 0, result is e
|
|
C({e, newbits, UT(0), UT(0)}, e), //
|
|
C({e, newbits, UT(1), UT(0)}, e), //
|
|
C({e, newbits, UT(2), UT(0)}, e), //
|
|
C({e, newbits, UT(3), UT(0)}, e), //
|
|
// ...
|
|
C({e, newbits, UT(29), UT(0)}, e), //
|
|
C({e, newbits, UT(30), UT(0)}, e), //
|
|
C({e, newbits, UT(31), UT(0)}, e),
|
|
|
|
// Copy 1 to 32 bits of newbits to e at offset 0
|
|
C({e, newbits, UT(0), UT(1)}, T(0b0101'1100'0011'1010'0101'1100'0011'1011)),
|
|
C({e, newbits, UT(0), UT(2)}, T(0b0101'1100'0011'1010'0101'1100'0011'1001)),
|
|
C({e, newbits, UT(0), UT(3)}, T(0b0101'1100'0011'1010'0101'1100'0011'1101)),
|
|
C({e, newbits, UT(0), UT(4)}, T(0b0101'1100'0011'1010'0101'1100'0011'0101)),
|
|
C({e, newbits, UT(0), UT(5)}, T(0b0101'1100'0011'1010'0101'1100'0010'0101)),
|
|
C({e, newbits, UT(0), UT(6)}, T(0b0101'1100'0011'1010'0101'1100'0000'0101)),
|
|
// ...
|
|
C({e, newbits, UT(0), UT(29)}, T(0b0100'0011'1100'0101'1010'0011'1100'0101)),
|
|
C({e, newbits, UT(0), UT(30)}, T(0b0110'0011'1100'0101'1010'0011'1100'0101)),
|
|
C({e, newbits, UT(0), UT(31)}, T(0b0010'0011'1100'0101'1010'0011'1100'0101)),
|
|
C({e, newbits, UT(0), UT(32)}, T(0b1010'0011'1100'0101'1010'0011'1100'0101)),
|
|
|
|
// Copy at varying offsets and counts
|
|
C({e, newbits, UT(3), UT(8)}, T(0b0101'1100'0011'1010'0101'1110'0010'1010)),
|
|
C({e, newbits, UT(8), UT(8)}, T(0b0101'1100'0011'1010'1100'0101'0011'1010)),
|
|
C({e, newbits, UT(15), UT(1)}, T(0b0101'1100'0011'1010'1101'1100'0011'1010)),
|
|
C({e, newbits, UT(16), UT(16)}, T(0b1010'0011'1100'0101'0101'1100'0011'1010)),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0b1111'0000'1111'0000'1111'0000'1111'0000), //
|
|
T(0b0000'1111'0000'1111'0000'1111'0000'1111), //
|
|
T(0b1010'0101'1010'0101'1010'0101'1010'0101)),
|
|
Vec(T(0b1111'1111'1111'1111'1111'1111'1111'1111), //
|
|
T(0b1111'1111'1111'1111'1111'1111'1111'1111), //
|
|
T(0b1111'1111'1111'1111'1111'1111'1111'1111)),
|
|
Val(UT(3)), Val(UT(8))},
|
|
Vec(T(0b1111'0000'1111'0000'1111'0111'1111'1000), //
|
|
T(0b0000'1111'0000'1111'0000'1111'1111'1111), //
|
|
T(0b1010'0101'1010'0101'1010'0111'1111'1101))),
|
|
};
|
|
|
|
return r;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
InsertBits,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kInsertBits),
|
|
testing::ValuesIn(Concat(InsertBitsCases<i32>(), //
|
|
InsertBitsCases<u32>()))));
|
|
|
|
using ResolverConstEvalBuiltinTest_InsertBits_InvalidOffsetAndCount =
|
|
ResolverTestWithParam<std::tuple<size_t, size_t>>;
|
|
TEST_P(ResolverConstEvalBuiltinTest_InsertBits_InvalidOffsetAndCount, Test) {
|
|
auto& p = GetParam();
|
|
auto* expr = Call(Source{{12, 34}}, sem::str(sem::BuiltinType::kInsertBits), Expr(1_u),
|
|
Expr(1_u), Expr(u32(std::get<0>(p))), Expr(u32(std::get<1>(p))));
|
|
GlobalConst("C", expr);
|
|
EXPECT_FALSE(r()->Resolve());
|
|
EXPECT_EQ(r()->error(),
|
|
"12:34 error: 'offset + 'count' must be less than or equal to the bit width of 'e'");
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P(InsertBits,
|
|
ResolverConstEvalBuiltinTest_InsertBits_InvalidOffsetAndCount,
|
|
testing::Values( //
|
|
std::make_tuple(33, 0), //
|
|
std::make_tuple(34, 0), //
|
|
std::make_tuple(1000, 0), //
|
|
std::make_tuple(u32::Highest(), 0), //
|
|
std::make_tuple(0, 33), //
|
|
std::make_tuple(0, 34), //
|
|
std::make_tuple(0, 1000), //
|
|
std::make_tuple(0, u32::Highest()), //
|
|
std::make_tuple(33, 33), //
|
|
std::make_tuple(34, 34), //
|
|
std::make_tuple(1000, 1000), //
|
|
std::make_tuple(u32::Highest(), u32::Highest())));
|
|
|
|
template <typename T>
|
|
std::vector<Case> ExtractBitsCases() {
|
|
using UT = Number<std::make_unsigned_t<UnwrapNumber<T>>>;
|
|
|
|
// If T is signed, fills most significant bits of `val` with 1s
|
|
auto set_msbs_if_signed = [](T val) {
|
|
if constexpr (IsSignedIntegral<T>) {
|
|
T result = T(~0);
|
|
for (size_t b = 0; val; ++b) {
|
|
if ((val & 1) == 0) {
|
|
result = result & ~(1 << b); // Clear bit b
|
|
}
|
|
val = val >> 1;
|
|
}
|
|
return result;
|
|
} else {
|
|
return val;
|
|
}
|
|
};
|
|
|
|
auto e = T(0b10100011110001011010001111000101);
|
|
auto f = T(0b01010101010101010101010101010101);
|
|
auto g = T(0b11111010001111000101101000111100);
|
|
|
|
auto r = std::vector<Case>{
|
|
// args: e, offset, count
|
|
|
|
// If count is 0, result is 0
|
|
C({e, UT(0), UT(0)}, T(0)), //
|
|
C({e, UT(1), UT(0)}, T(0)), //
|
|
C({e, UT(2), UT(0)}, T(0)), //
|
|
C({e, UT(3), UT(0)}, T(0)),
|
|
// ...
|
|
C({e, UT(29), UT(0)}, T(0)), //
|
|
C({e, UT(30), UT(0)}, T(0)), //
|
|
C({e, UT(31), UT(0)}, T(0)),
|
|
|
|
// Extract at offset 0, varying counts
|
|
C({e, UT(0), UT(1)}, set_msbs_if_signed(T(0b1))), //
|
|
C({e, UT(0), UT(2)}, T(0b01)), //
|
|
C({e, UT(0), UT(3)}, set_msbs_if_signed(T(0b101))), //
|
|
C({e, UT(0), UT(4)}, T(0b0101)), //
|
|
C({e, UT(0), UT(5)}, T(0b00101)), //
|
|
C({e, UT(0), UT(6)}, T(0b000101)), //
|
|
// ...
|
|
C({e, UT(0), UT(28)}, T(0b0011110001011010001111000101)), //
|
|
C({e, UT(0), UT(29)}, T(0b00011110001011010001111000101)), //
|
|
C({e, UT(0), UT(30)}, set_msbs_if_signed(T(0b100011110001011010001111000101))), //
|
|
C({e, UT(0), UT(31)}, T(0b0100011110001011010001111000101)), //
|
|
C({e, UT(0), UT(32)}, T(0b10100011110001011010001111000101)), //
|
|
|
|
// Extract at varying offsets and counts
|
|
C({e, UT(0), UT(1)}, set_msbs_if_signed(T(0b1))), //
|
|
C({e, UT(31), UT(1)}, set_msbs_if_signed(T(0b1))), //
|
|
C({e, UT(3), UT(5)}, set_msbs_if_signed(T(0b11000))), //
|
|
C({e, UT(4), UT(7)}, T(0b0111100)), //
|
|
C({e, UT(10), UT(16)}, set_msbs_if_signed(T(0b1111000101101000))), //
|
|
C({e, UT(10), UT(22)}, set_msbs_if_signed(T(0b1010001111000101101000))),
|
|
|
|
// Vector tests
|
|
C({Vec(e, f, g), //
|
|
Val(UT(5)), Val(UT(8))}, //
|
|
Vec(T(0b00011110), //
|
|
set_msbs_if_signed(T(0b10101010)), //
|
|
set_msbs_if_signed(T(0b11010001)))),
|
|
};
|
|
|
|
return r;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
ExtractBits,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kExtractBits),
|
|
testing::ValuesIn(Concat(ExtractBitsCases<i32>(), //
|
|
ExtractBitsCases<u32>()))));
|
|
|
|
using ResolverConstEvalBuiltinTest_ExtractBits_InvalidOffsetAndCount =
|
|
ResolverTestWithParam<std::tuple<size_t, size_t>>;
|
|
TEST_P(ResolverConstEvalBuiltinTest_ExtractBits_InvalidOffsetAndCount, Test) {
|
|
auto& p = GetParam();
|
|
auto* expr = Call(Source{{12, 34}}, sem::str(sem::BuiltinType::kExtractBits), Expr(1_u),
|
|
Expr(u32(std::get<0>(p))), Expr(u32(std::get<1>(p))));
|
|
GlobalConst("C", expr);
|
|
EXPECT_FALSE(r()->Resolve());
|
|
EXPECT_EQ(r()->error(),
|
|
"12:34 error: 'offset + 'count' must be less than or equal to the bit width of 'e'");
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P(ExtractBits,
|
|
ResolverConstEvalBuiltinTest_ExtractBits_InvalidOffsetAndCount,
|
|
testing::Values( //
|
|
std::make_tuple(33, 0), //
|
|
std::make_tuple(34, 0), //
|
|
std::make_tuple(1000, 0), //
|
|
std::make_tuple(u32::Highest(), 0), //
|
|
std::make_tuple(0, 33), //
|
|
std::make_tuple(0, 34), //
|
|
std::make_tuple(0, 1000), //
|
|
std::make_tuple(0, u32::Highest()), //
|
|
std::make_tuple(33, 33), //
|
|
std::make_tuple(34, 34), //
|
|
std::make_tuple(1000, 1000), //
|
|
std::make_tuple(u32::Highest(), 1), //
|
|
std::make_tuple(1, u32::Highest()), //
|
|
std::make_tuple(u32::Highest(), u32::Highest())));
|
|
|
|
std::vector<Case> Pack4x8snormCases() {
|
|
return {
|
|
C({Vec(f32(0), f32(0), f32(0), f32(0))}, Val(u32(0x0000'0000))),
|
|
C({Vec(f32(0), f32(0), f32(0), f32(-1))}, Val(u32(0x8100'0000))),
|
|
C({Vec(f32(0), f32(0), f32(0), f32(1))}, Val(u32(0x7f00'0000))),
|
|
C({Vec(f32(0), f32(0), f32(-1), f32(0))}, Val(u32(0x0081'0000))),
|
|
C({Vec(f32(0), f32(1), f32(0), f32(0))}, Val(u32(0x0000'7f00))),
|
|
C({Vec(f32(-1), f32(0), f32(0), f32(0))}, Val(u32(0x0000'0081))),
|
|
C({Vec(f32(1), f32(-1), f32(1), f32(-1))}, Val(u32(0x817f'817f))),
|
|
C({Vec(f32::Highest(), f32(-0.5), f32(0.5), f32::Lowest())}, Val(u32(0x8140'c17f))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Pack4x8snorm,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kPack4X8Snorm),
|
|
testing::ValuesIn(Pack4x8snormCases())));
|
|
|
|
std::vector<Case> Pack4x8unormCases() {
|
|
return {
|
|
C({Vec(f32(0), f32(0), f32(0), f32(0))}, Val(u32(0x0000'0000))),
|
|
C({Vec(f32(0), f32(0), f32(0), f32(1))}, Val(u32(0xff00'0000))),
|
|
C({Vec(f32(0), f32(0), f32(1), f32(0))}, Val(u32(0x00ff'0000))),
|
|
C({Vec(f32(0), f32(1), f32(0), f32(0))}, Val(u32(0x0000'ff00))),
|
|
C({Vec(f32(1), f32(0), f32(0), f32(0))}, Val(u32(0x0000'00ff))),
|
|
C({Vec(f32(1), f32(0), f32(1), f32(0))}, Val(u32(0x00ff'00ff))),
|
|
C({Vec(f32::Highest(), f32(0), f32(0.5), f32::Lowest())}, Val(u32(0x0080'00ff))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Pack4x8unorm,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kPack4X8Unorm),
|
|
testing::ValuesIn(Pack4x8unormCases())));
|
|
|
|
std::vector<Case> Pack2x16floatCases() {
|
|
return {
|
|
C({Vec(f32(f16::Lowest()), f32(f16::Highest()))}, Val(u32(0x7bff'fbff))),
|
|
C({Vec(f32(1), f32(-1))}, Val(u32(0xbc00'3c00))),
|
|
C({Vec(f32(0), f32(0))}, Val(u32(0x0000'0000))),
|
|
C({Vec(f32(10), f32(-10.5))}, Val(u32(0xc940'4900))),
|
|
|
|
E({Vec(f32(0), f32::Highest())},
|
|
"12:34 error: value 3.4028234663852885981e+38 cannot be represented as 'f16'"),
|
|
E({Vec(f32::Lowest(), f32(0))},
|
|
"12:34 error: value -3.4028234663852885981e+38 cannot be represented as 'f16'"),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Pack2x16float,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kPack2X16Float),
|
|
testing::ValuesIn(Pack2x16floatCases())));
|
|
|
|
std::vector<Case> Pack2x16snormCases() {
|
|
return {
|
|
C({Vec(f32(0), f32(0))}, Val(u32(0x0000'0000))),
|
|
C({Vec(f32(0), f32(-1))}, Val(u32(0x8001'0000))),
|
|
C({Vec(f32(0), f32(1))}, Val(u32(0x7fff'0000))),
|
|
C({Vec(f32(-1), f32(0))}, Val(u32(0x0000'8001))),
|
|
C({Vec(f32(1), f32(0))}, Val(u32(0x0000'7fff))),
|
|
C({Vec(f32(1), f32(-1))}, Val(u32(0x8001'7fff))),
|
|
C({Vec(f32::Highest(), f32::Lowest())}, Val(u32(0x8001'7fff))),
|
|
C({Vec(f32(-0.5), f32(0.5))}, Val(u32(0x4000'c001))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Pack2x16snorm,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kPack2X16Snorm),
|
|
testing::ValuesIn(Pack2x16snormCases())));
|
|
|
|
std::vector<Case> Pack2x16unormCases() {
|
|
return {
|
|
C({Vec(f32(0), f32(1))}, Val(u32(0xffff'0000))),
|
|
C({Vec(f32(1), f32(0))}, Val(u32(0x0000'ffff))),
|
|
C({Vec(f32(0.5), f32(0))}, Val(u32(0x0000'8000))),
|
|
C({Vec(f32::Highest(), f32::Lowest())}, Val(u32(0x0000'ffff))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Pack2x16unorm,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kPack2X16Unorm),
|
|
testing::ValuesIn(Pack2x16unormCases())));
|
|
|
|
template <typename T>
|
|
std::vector<Case> ReverseBitsCases() {
|
|
using B = BitValues<T>;
|
|
return {
|
|
C({T(0)}, T(0)),
|
|
|
|
C({B::Lsh(1, 0)}, B::Lsh(1, 31)), //
|
|
C({B::Lsh(1, 1)}, B::Lsh(1, 30)), //
|
|
C({B::Lsh(1, 2)}, B::Lsh(1, 29)), //
|
|
C({B::Lsh(1, 3)}, B::Lsh(1, 28)), //
|
|
C({B::Lsh(1, 4)}, B::Lsh(1, 27)), //
|
|
//...
|
|
C({B::Lsh(1, 27)}, B::Lsh(1, 4)), //
|
|
C({B::Lsh(1, 28)}, B::Lsh(1, 3)), //
|
|
C({B::Lsh(1, 29)}, B::Lsh(1, 2)), //
|
|
C({B::Lsh(1, 30)}, B::Lsh(1, 1)), //
|
|
C({B::Lsh(1, 31)}, B::Lsh(1, 0)), //
|
|
|
|
C({/**/ T(0b00010001000100010000000000000000)},
|
|
/* */ T(0b00000000000000001000100010001000)),
|
|
|
|
C({/**/ T(0b00011000000110000000000000000000)},
|
|
/* */ T(0b00000000000000000001100000011000)),
|
|
|
|
C({/**/ T(0b00000100000000001111111111111111)},
|
|
/* */ T(0b11111111111111110000000000100000)),
|
|
|
|
C({/**/ T(0b10010101111000110000011111101010)},
|
|
/* */ T(0b01010111111000001100011110101001)),
|
|
|
|
// Vector tests
|
|
C({/**/ Vec(T(0b00010001000100010000000000000000), //
|
|
T(0b00011000000110000000000000000000), //
|
|
T(0b00000000000000001111111111111111))},
|
|
/* */ Vec(T(0b00000000000000001000100010001000), //
|
|
T(0b00000000000000000001100000011000), //
|
|
T(0b11111111111111110000000000000000))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
ReverseBits,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kReverseBits),
|
|
testing::ValuesIn(Concat(ReverseBitsCases<i32>(), //
|
|
ReverseBitsCases<u32>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> SaturateCases() {
|
|
return {
|
|
C({T(0)}, T(0)),
|
|
C({T(1)}, T(1)),
|
|
C({T::Lowest()}, T(0)),
|
|
C({T::Highest()}, T(1)),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0), T(0))}, //
|
|
Vec(T(0), T(0))), //
|
|
C({Vec(T(1), T(1))}, //
|
|
Vec(T(1), T(1))), //
|
|
C({Vec(T::Lowest(), T(0), T::Highest())}, //
|
|
Vec(T(0), T(0), T(1))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Saturate,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kSaturate),
|
|
testing::ValuesIn(Concat(SaturateCases<AFloat>(), //
|
|
SaturateCases<f32>(),
|
|
SaturateCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> SelectCases() {
|
|
return {
|
|
C({Val(T{1}), Val(T{2}), Val(false)}, Val(T{1})),
|
|
C({Val(T{1}), Val(T{2}), Val(true)}, Val(T{2})),
|
|
|
|
C({Val(T{2}), Val(T{1}), Val(false)}, Val(T{2})),
|
|
C({Val(T{2}), Val(T{1}), Val(true)}, Val(T{1})),
|
|
|
|
C({Vec(T{1}, T{2}), Vec(T{3}, T{4}), Vec(false, false)}, Vec(T{1}, T{2})),
|
|
C({Vec(T{1}, T{2}), Vec(T{3}, T{4}), Vec(false, true)}, Vec(T{1}, T{4})),
|
|
C({Vec(T{1}, T{2}), Vec(T{3}, T{4}), Vec(true, false)}, Vec(T{3}, T{2})),
|
|
C({Vec(T{1}, T{2}), Vec(T{3}, T{4}), Vec(true, true)}, Vec(T{3}, T{4})),
|
|
|
|
C({Vec(T{1}, T{1}, T{2}, T{2}), //
|
|
Vec(T{2}, T{2}, T{1}, T{1}), //
|
|
Vec(false, true, false, true)}, //
|
|
Vec(T{1}, T{2}, T{2}, T{1})), //
|
|
};
|
|
}
|
|
static std::vector<Case> SelectBoolCases() {
|
|
return {
|
|
C({Val(true), Val(false), Val(false)}, Val(true)),
|
|
C({Val(true), Val(false), Val(true)}, Val(false)),
|
|
|
|
C({Val(false), Val(true), Val(true)}, Val(true)),
|
|
C({Val(false), Val(true), Val(false)}, Val(false)),
|
|
|
|
C({Vec(true, true, false, false), //
|
|
Vec(false, false, true, true), //
|
|
Vec(false, true, true, false)}, //
|
|
Vec(true, false, true, false)), //
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Select,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kSelect),
|
|
testing::ValuesIn(Concat(SelectCases<AInt>(), //
|
|
SelectCases<i32>(),
|
|
SelectCases<u32>(),
|
|
SelectCases<AFloat>(),
|
|
SelectCases<f32>(),
|
|
SelectCases<f16>(),
|
|
SelectBoolCases()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> SignCases() {
|
|
return {
|
|
C({-T(1)}, -T(1)),
|
|
C({-T(0.5)}, -T(1)),
|
|
C({T(0)}, T(0)),
|
|
C({-T(0)}, T(0)),
|
|
C({T(0.5)}, T(1)),
|
|
C({T(1)}, T(1)),
|
|
|
|
C({T::Highest()}, T(1.0)),
|
|
C({T::Lowest()}, -T(1.0)),
|
|
|
|
// Vector tests
|
|
C({Vec(-T(0.5), T(0), T(0.5))}, Vec(-T(1.0), T(0.0), T(1.0))),
|
|
C({Vec(T::Highest(), T::Lowest())}, Vec(T(1.0), -T(1.0))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Sign,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kSign),
|
|
testing::ValuesIn(Concat(SignCases<AFloat>(), //
|
|
SignCases<f32>(),
|
|
SignCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> SinCases() {
|
|
std::vector<Case> cases = {
|
|
C({-T(0)}, -T(0)),
|
|
C({T(0)}, T(0)),
|
|
C({T(0.75)}, T(0.68163876)).FloatComp(),
|
|
C({-T(0.75)}, -T(0.68163876)).FloatComp(),
|
|
|
|
// Vector test
|
|
C({Vec(T(0), -T(0), T(0.75))}, Vec(T(0), -T(0), T(0.68163876))).FloatComp(),
|
|
};
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Sin,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kSin),
|
|
testing::ValuesIn(Concat(SinCases<AFloat>(), //
|
|
SinCases<f32>(),
|
|
SinCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> SinhCases() {
|
|
std::vector<Case> cases = {
|
|
C({T(0)}, T(0)),
|
|
C({-T(0)}, -T(0)),
|
|
C({T(1)}, T(1.1752012)).FloatComp(),
|
|
C({T(-1)}, -T(1.1752012)).FloatComp(),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0), -T(0), T(1))}, Vec(T(0), -T(0), T(1.1752012))).FloatComp(),
|
|
};
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Sinh,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kSinh),
|
|
testing::ValuesIn(Concat(SinhCases<AFloat>(), //
|
|
SinhCases<f32>(),
|
|
SinhCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> StepCases() {
|
|
return {
|
|
C({T(0), T(0)}, T(1.0)),
|
|
C({T(0), T(0.5)}, T(1.0)),
|
|
C({T(0.5), T(0)}, T(0.0)),
|
|
C({T(1), T(0.5)}, T(0.0)),
|
|
C({T(0.5), T(1)}, T(1.0)),
|
|
C({T(1.5), T(1)}, T(0.0)),
|
|
C({T(1), T(1.5)}, T(1.0)),
|
|
C({T(-1), T(1)}, T(1.0)),
|
|
C({T(-1), T(1)}, T(1.0)),
|
|
C({T(1), T(-1)}, T(0.0)),
|
|
C({T(-1), T(-1.5)}, T(0.0)),
|
|
C({T(-1.5), T(-1)}, T(1.0)),
|
|
C({T::Highest(), T::Lowest()}, T(0.0)),
|
|
C({T::Lowest(), T::Highest()}, T(1.0)),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0), T(0)), Vec(T(0), T(0))}, Vec(T(1.0), T(1.0))),
|
|
C({Vec(T(-1), T(1)), Vec(T(0), T(0))}, Vec(T(1.0), T(0.0))),
|
|
C({Vec(T::Highest(), T::Lowest()), Vec(T::Lowest(), T::Highest())}, Vec(T(0.0), T(1.0))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Step,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kStep),
|
|
testing::ValuesIn(Concat(StepCases<AFloat>(), //
|
|
StepCases<f32>(),
|
|
StepCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> TanCases() {
|
|
std::vector<Case> cases = {
|
|
C({-T(0)}, -T(0)),
|
|
C({T(0)}, T(0)),
|
|
C({T(.75)}, T(0.9315964599)).FloatComp(),
|
|
|
|
// Vector test
|
|
C({Vec(T(0), -T(0), T(.75))}, Vec(T(0), -T(0), T(0.9315964599))).FloatComp(),
|
|
};
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Tan,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kTan),
|
|
testing::ValuesIn(Concat(TanCases<AFloat>(), //
|
|
TanCases<f32>(),
|
|
TanCases<f16>()))));
|
|
|
|
template <typename T>
|
|
std::vector<Case> TanhCases() {
|
|
std::vector<Case> cases = {
|
|
C({T(0)}, T(0)),
|
|
C({-T(0)}, -T(0)),
|
|
C({T(1)}, T(0.761594156)).FloatComp(),
|
|
C({T(-1)}, -T(0.761594156)).FloatComp(),
|
|
|
|
// Vector tests
|
|
C({Vec(T(0), -T(0), T(1))}, Vec(T(0), -T(0), T(0.761594156))).FloatComp(),
|
|
};
|
|
|
|
return cases;
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Tanh,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kTanh),
|
|
testing::ValuesIn(Concat(TanhCases<AFloat>(), //
|
|
TanhCases<f32>(),
|
|
TanhCases<f16>()))));
|
|
|
|
std::vector<Case> Unpack4x8snormCases() {
|
|
return {
|
|
C({Val(u32(0x0000'0000))}, Vec(f32(0), f32(0), f32(0), f32(0))),
|
|
C({Val(u32(0x8100'0000))}, Vec(f32(0), f32(0), f32(0), f32(-1))),
|
|
C({Val(u32(0x7f00'0000))}, Vec(f32(0), f32(0), f32(0), f32(1))),
|
|
C({Val(u32(0x0081'0000))}, Vec(f32(0), f32(0), f32(-1), f32(0))),
|
|
C({Val(u32(0x0000'7f00))}, Vec(f32(0), f32(1), f32(0), f32(0))),
|
|
C({Val(u32(0x0000'0081))}, Vec(f32(-1), f32(0), f32(0), f32(0))),
|
|
C({Val(u32(0x817f'817f))}, Vec(f32(1), f32(-1), f32(1), f32(-1))),
|
|
C({Val(u32(0x816d'937f))},
|
|
Vec(f32(1), f32(-0.8582677165354), f32(0.8582677165354), f32(-1))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Unpack4x8snorm,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kUnpack4X8Snorm),
|
|
testing::ValuesIn(Unpack4x8snormCases())));
|
|
|
|
std::vector<Case> Unpack4x8unormCases() {
|
|
return {
|
|
C({Val(u32(0x0000'0000))}, Vec(f32(0), f32(0), f32(0), f32(0))),
|
|
C({Val(u32(0xff00'0000))}, Vec(f32(0), f32(0), f32(0), f32(1))),
|
|
C({Val(u32(0x00ff'0000))}, Vec(f32(0), f32(0), f32(1), f32(0))),
|
|
C({Val(u32(0x0000'ff00))}, Vec(f32(0), f32(1), f32(0), f32(0))),
|
|
C({Val(u32(0x0000'00ff))}, Vec(f32(1), f32(0), f32(0), f32(0))),
|
|
C({Val(u32(0x00ff'00ff))}, Vec(f32(1), f32(0), f32(1), f32(0))),
|
|
C({Val(u32(0x0066'00ff))}, Vec(f32(1), f32(0), f32(0.4), f32(0))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Unpack4x8unorm,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kUnpack4X8Unorm),
|
|
testing::ValuesIn(Unpack4x8unormCases())));
|
|
|
|
std::vector<Case> Unpack2x16floatCases() {
|
|
return {
|
|
C({Val(u32(0x7bff'fbff))}, Vec(f32(f16::Lowest()), f32(f16::Highest()))),
|
|
C({Val(u32(0xbc00'3c00))}, Vec(f32(1), f32(-1))),
|
|
C({Val(u32(0x0000'0000))}, Vec(f32(0), f32(0))),
|
|
C({Val(u32(0xc940'4900))}, Vec(f32(10), f32(-10.5))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Unpack2x16float,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kUnpack2X16Float),
|
|
testing::ValuesIn(Unpack2x16floatCases())));
|
|
|
|
std::vector<Case> Unpack2x16snormCases() {
|
|
return {
|
|
C({Val(u32(0x0000'0000))}, Vec(f32(0), f32(0))),
|
|
C({Val(u32(0x8001'0000))}, Vec(f32(0), f32(-1))),
|
|
C({Val(u32(0x7fff'0000))}, Vec(f32(0), f32(1))),
|
|
C({Val(u32(0x0000'8001))}, Vec(f32(-1), f32(0))),
|
|
C({Val(u32(0x0000'7fff))}, Vec(f32(1), f32(0))),
|
|
C({Val(u32(0x8001'7fff))}, Vec(f32(1), f32(-1))),
|
|
C({Val(u32(0x8001'7fff))}, Vec(f32(1), f32(-1))),
|
|
C({Val(u32(0x4000'999a))}, Vec(f32(-0.80001220740379), f32(0.500015259254737))).FloatComp(),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Unpack2x16snorm,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kUnpack2X16Snorm),
|
|
testing::ValuesIn(Unpack2x16snormCases())));
|
|
|
|
std::vector<Case> Unpack2x16unormCases() {
|
|
return {
|
|
C({Val(u32(0xffff'0000))}, Vec(f32(0), f32(1))),
|
|
C({Val(u32(0x0000'ffff))}, Vec(f32(1), f32(0))),
|
|
C({Val(u32(0x0000'6666))}, Vec(f32(0.4), f32(0))),
|
|
C({Val(u32(0x0000'ffff))}, Vec(f32(1), f32(0))),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
Unpack2x16unorm,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kUnpack2X16Unorm),
|
|
testing::ValuesIn(Unpack2x16unormCases())));
|
|
|
|
std::vector<Case> QuantizeToF16Cases() {
|
|
(void)E({Vec(0_f, 0_f)}, ""); // Currently unused, but will be soon.
|
|
return {
|
|
C({0_f}, 0_f), //
|
|
C({-0_f}, -0_f), //
|
|
C({1_f}, 1_f), //
|
|
C({-1_f}, -1_f), //
|
|
|
|
// 0.00006106496 quantized to 0.000061035156 = 0x1p-14
|
|
C({0.00006106496_f}, 0.000061035156_f), //
|
|
C({-0.00006106496_f}, -0.000061035156_f), //
|
|
|
|
// 1.0004883 quantized to 1.0 = 0x1p0
|
|
C({1.0004883_f}, 1.0_f), //
|
|
C({-1.0004883_f}, -1.0_f), //
|
|
|
|
// 8196.0 quantized to 8192.0 = 0x1p13
|
|
C({8196_f}, 8192_f), //
|
|
C({-8196_f}, -8192_f), //
|
|
|
|
// Value in subnormal f16 range
|
|
C({0x0.034p-14_f}, 0x0.034p-14_f), //
|
|
C({-0x0.034p-14_f}, -0x0.034p-14_f), //
|
|
C({0x0.068p-14_f}, 0x0.068p-14_f), //
|
|
C({-0x0.068p-14_f}, -0x0.068p-14_f), //
|
|
|
|
// 0x0.06b7p-14 quantized to 0x0.068p-14
|
|
C({0x0.06b7p-14_f}, 0x0.068p-14_f), //
|
|
C({-0x0.06b7p-14_f}, -0x0.068p-14_f), //
|
|
|
|
// Value out of f16 range
|
|
C({65504.003_f}, 65504_f), //
|
|
C({-65504.003_f}, -65504_f), //
|
|
C({0x1.234p56_f}, 65504_f), //
|
|
C({-0x4.321p65_f}, -65504_f), //
|
|
|
|
// Vector tests
|
|
C({Vec(0_f, -0_f)}, Vec(0_f, -0_f)), //
|
|
C({Vec(1_f, -1_f)}, Vec(1_f, -1_f)), //
|
|
|
|
C({Vec(0.00006106496_f, -0.00006106496_f, 1.0004883_f, -1.0004883_f)},
|
|
Vec(0.000061035156_f, -0.000061035156_f, 1.0_f, -1.0_f)),
|
|
|
|
C({Vec(8196_f, 8192_f, 0x0.034p-14_f)}, Vec(8192_f, 8192_f, 0x0.034p-14_f)),
|
|
|
|
C({Vec(0x0.034p-14_f, -0x0.034p-14_f, 0x0.068p-14_f, -0x0.068p-14_f)},
|
|
Vec(0x0.034p-14_f, -0x0.034p-14_f, 0x0.068p-14_f, -0x0.068p-14_f)),
|
|
|
|
C({Vec(65504.003_f, 0x1.234p56_f)}, Vec(65504_f, 65504_f)),
|
|
C({Vec(-0x1.234p56_f, -65504.003_f)}, Vec(-65504_f, -65504_f)),
|
|
};
|
|
}
|
|
INSTANTIATE_TEST_SUITE_P( //
|
|
QuantizeToF16,
|
|
ResolverConstEvalBuiltinTest,
|
|
testing::Combine(testing::Values(sem::BuiltinType::kQuantizeToF16),
|
|
testing::ValuesIn(QuantizeToF16Cases())));
|
|
|
|
} // namespace
|
|
} // namespace tint::resolver
|