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LeafOS / LeafOS-Project / android_frameworks_native / 226486cdaf606909b5cc9e1f662f0874a6c4d079 / . / libs / ftl / flags_test.cpp
blob: 1279d1147da62b81ebeecadb65315e8dadf15791 [file] [log] [blame]
/*
* Copyright 2020 The Android Open Source Project
*
* 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 <ftl/flags.h>
#include <gtest/gtest.h>
#include <type_traits>
namespace android::test {
using ftl::Flags;
using namespace ftl::flag_operators;
enum class TestFlags : uint8_t { ONE = 0x1, TWO = 0x2, THREE = 0x4 };
TEST(Flags, Test) {
Flags<TestFlags> flags = TestFlags::ONE;
ASSERT_TRUE(flags.test(TestFlags::ONE));
ASSERT_FALSE(flags.test(TestFlags::TWO));
ASSERT_FALSE(flags.test(TestFlags::THREE));
}
TEST(Flags, Any) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::TWO;
ASSERT_TRUE(flags.any());
ASSERT_TRUE(flags.any(TestFlags::ONE));
ASSERT_TRUE(flags.any(TestFlags::TWO));
ASSERT_FALSE(flags.any(TestFlags::THREE));
ASSERT_TRUE(flags.any(TestFlags::ONE | TestFlags::TWO));
ASSERT_TRUE(flags.any(TestFlags::TWO | TestFlags::THREE));
ASSERT_TRUE(flags.any(TestFlags::ONE | TestFlags::THREE));
ASSERT_TRUE(flags.any(TestFlags::ONE | TestFlags::TWO | TestFlags::THREE));
Flags<TestFlags> emptyFlags;
ASSERT_FALSE(emptyFlags.any());
}
TEST(Flags, All) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::TWO;
ASSERT_TRUE(flags.all(TestFlags::ONE));
ASSERT_TRUE(flags.all(TestFlags::TWO));
ASSERT_FALSE(flags.all(TestFlags::THREE));
ASSERT_TRUE(flags.all(TestFlags::ONE | TestFlags::TWO));
ASSERT_FALSE(flags.all(TestFlags::TWO | TestFlags::THREE));
ASSERT_FALSE(flags.all(TestFlags::ONE | TestFlags::THREE));
ASSERT_FALSE(flags.all(TestFlags::ONE | TestFlags::TWO | TestFlags::THREE));
}
TEST(Flags, DefaultConstructor_hasNoFlagsSet) {
Flags<TestFlags> flags;
ASSERT_FALSE(flags.any(TestFlags::ONE | TestFlags::TWO | TestFlags::THREE));
}
TEST(Flags, NotOperator_onEmptyFlagsSetsAllFlags) {
Flags<TestFlags> flags;
flags = ~flags;
ASSERT_TRUE(flags.all(TestFlags::ONE | TestFlags::TWO | TestFlags::THREE));
}
TEST(Flags, NotOperator_onNonEmptyFlagsInvertsFlags) {
Flags<TestFlags> flags = TestFlags::TWO;
flags = ~flags;
ASSERT_TRUE(flags.all(TestFlags::ONE | TestFlags::THREE));
ASSERT_FALSE(flags.test(TestFlags::TWO));
}
TEST(Flags, OrOperator_withNewFlag) {
Flags<TestFlags> flags = TestFlags::ONE;
Flags<TestFlags> flags2 = flags | TestFlags::TWO;
ASSERT_FALSE(flags2.test(TestFlags::THREE));
ASSERT_TRUE(flags2.all(TestFlags::ONE | TestFlags::TWO));
}
TEST(Flags, OrOperator_withExistingFlag) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::THREE;
Flags<TestFlags> flags2 = flags | TestFlags::THREE;
ASSERT_FALSE(flags2.test(TestFlags::TWO));
ASSERT_TRUE(flags2.all(TestFlags::ONE | TestFlags::THREE));
}
TEST(Flags, OrEqualsOperator_withNewFlag) {
Flags<TestFlags> flags;
flags |= TestFlags::THREE;
ASSERT_TRUE(flags.test(TestFlags::THREE));
ASSERT_FALSE(flags.any(TestFlags::ONE | TestFlags::TWO));
}
TEST(Flags, OrEqualsOperator_withExistingFlag) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::THREE;
flags |= TestFlags::THREE;
ASSERT_TRUE(flags.all(TestFlags::ONE | TestFlags::THREE));
ASSERT_FALSE(flags.test(TestFlags::TWO));
}
TEST(Flags, AndOperator_withOneSetFlag) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::THREE;
Flags<TestFlags> andFlags = flags & TestFlags::THREE;
ASSERT_TRUE(andFlags.test(TestFlags::THREE));
ASSERT_FALSE(andFlags.any(TestFlags::ONE | TestFlags::TWO));
}
TEST(Flags, AndOperator_withMultipleSetFlags) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::THREE;
Flags<TestFlags> andFlags = flags & (TestFlags::ONE | TestFlags::THREE);
ASSERT_TRUE(andFlags.all(TestFlags::ONE | TestFlags::THREE));
ASSERT_FALSE(andFlags.test(TestFlags::TWO));
}
TEST(Flags, AndOperator_withNoSetFlags) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::THREE;
Flags<TestFlags> andFlags = flags & TestFlags::TWO;
ASSERT_FALSE(andFlags.any(TestFlags::ONE | TestFlags::TWO | TestFlags::THREE));
}
TEST(Flags, Equality) {
Flags<TestFlags> flags1 = TestFlags::ONE | TestFlags::TWO;
Flags<TestFlags> flags2 = TestFlags::ONE | TestFlags::TWO;
ASSERT_EQ(flags1, flags2);
}
TEST(Flags, Inequality) {
Flags<TestFlags> flags1 = TestFlags::ONE | TestFlags::TWO;
Flags<TestFlags> flags2 = TestFlags::ONE | TestFlags::THREE;
ASSERT_NE(flags1, flags2);
}
TEST(Flags, EqualsOperator) {
Flags<TestFlags> flags;
flags = TestFlags::ONE;
ASSERT_TRUE(flags.test(TestFlags::ONE));
ASSERT_FALSE(flags.any(TestFlags::TWO | TestFlags::THREE));
}
TEST(Flags, EqualsOperator_DontShareState) {
Flags<TestFlags> flags1 = TestFlags::ONE | TestFlags::TWO;
Flags<TestFlags> flags2 = flags1;
ASSERT_EQ(flags1, flags2);
flags1 &= TestFlags::TWO;
ASSERT_NE(flags1, flags2);
}
TEST(Flags, GetValue) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::TWO;
ASSERT_EQ(flags.get(), 0x3);
}
TEST(Flags, String_NoFlags) {
Flags<TestFlags> flags;
ASSERT_EQ(flags.string(), "0x0");
}
TEST(Flags, String_KnownValues) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::TWO;
ASSERT_EQ(flags.string(), "ONE | TWO");
}
TEST(Flags, String_UnknownValues) {
auto flags = Flags<TestFlags>(0b1011);
ASSERT_EQ(flags.string(), "ONE | TWO | 0b1000");
}
TEST(FlagsIterator, IteratesOverAllFlags) {
Flags<TestFlags> flags1 = TestFlags::ONE | TestFlags::TWO;
Flags<TestFlags> flags2;
for (TestFlags f : flags1) {
flags2 |= f;
}
ASSERT_EQ(flags2, flags1);
}
TEST(FlagsIterator, IteratesInExpectedOrder) {
const std::vector<TestFlags> flagOrder = {TestFlags::ONE, TestFlags::TWO};
Flags<TestFlags> flags;
for (TestFlags f : flagOrder) {
flags |= f;
}
size_t idx = 0;
auto iter = flags.begin();
while (iter != flags.end() && idx < flagOrder.size()) {
// Make sure the order is what we expect
ASSERT_EQ(*iter, flagOrder[idx]);
iter++;
idx++;
}
ASSERT_EQ(iter, flags.end());
}
TEST(FlagsIterator, PostFixIncrement) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::TWO;
auto iter = flags.begin();
ASSERT_EQ(*(iter++), TestFlags::ONE);
ASSERT_EQ(*iter, TestFlags::TWO);
ASSERT_EQ(*(iter++), TestFlags::TWO);
ASSERT_EQ(iter, flags.end());
}
TEST(FlagsIterator, PreFixIncrement) {
Flags<TestFlags> flags = TestFlags::ONE | TestFlags::TWO;
auto iter = flags.begin();
ASSERT_EQ(*++iter, TestFlags::TWO);
ASSERT_EQ(++iter, flags.end());
}
} // namespace android::test