src/utils/enum_set_test.cc - tint - Git at Google

 // Copyright 2021 The Tint Authors.
 //
 // 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 "src/utils/enum_set.h"

 #include <sstream>
 #include <vector>

 #include "gmock/gmock.h"

 namespace tint {
 namespace utils {
 namespace {

 using ::testing::ElementsAre;

 enum class E { A = 0, B = 3, C = 7 };

 std::ostream& operator<<(std::ostream& out, E e) {
   switch (e) {
     case E::A:
       return out << "A";
     case E::B:
       return out << "B";
     case E::C:
       return out << "C";
   }
   return out << "E(" << static_cast<uint32_t>(e) << ")";
 }

 TEST(EnumSetTest, ConstructEmpty) {
   EnumSet<E> set;
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_FALSE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
   EXPECT_TRUE(set.Empty());
 }

 TEST(EnumSetTest, ConstructWithSingle) {
   EnumSet<E> set(E::B);
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_TRUE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
   EXPECT_FALSE(set.Empty());
 }

 TEST(EnumSetTest, ConstructWithMultiple) {
   EnumSet<E> set(E::A, E::C);
   EXPECT_TRUE(set.Contains(E::A));
   EXPECT_FALSE(set.Contains(E::B));
   EXPECT_TRUE(set.Contains(E::C));
   EXPECT_FALSE(set.Empty());
 }

 TEST(EnumSetTest, AssignSet) {
   EnumSet<E> set;
   set = EnumSet<E>(E::A, E::C);
   EXPECT_TRUE(set.Contains(E::A));
   EXPECT_FALSE(set.Contains(E::B));
   EXPECT_TRUE(set.Contains(E::C));
 }

 TEST(EnumSetTest, AssignEnum) {
   EnumSet<E> set(E::A);
   set = E::B;
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_TRUE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
 }

 TEST(EnumSetTest, AddEnum) {
   EnumSet<E> set;
   set.Add(E::B);
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_TRUE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
 }

 TEST(EnumSetTest, RemoveEnum) {
   EnumSet<E> set(E::A, E::B);
   set.Remove(E::B);
   EXPECT_TRUE(set.Contains(E::A));
   EXPECT_FALSE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
 }

 TEST(EnumSetTest, AddEnums) {
   EnumSet<E> set;
   set.Add(E::B, E::C);
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_TRUE(set.Contains(E::B));
   EXPECT_TRUE(set.Contains(E::C));
 }

 TEST(EnumSetTest, RemoveEnums) {
   EnumSet<E> set(E::A, E::B);
   set.Remove(E::C, E::B);
   EXPECT_TRUE(set.Contains(E::A));
   EXPECT_FALSE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
 }

 TEST(EnumSetTest, AddEnumSet) {
   EnumSet<E> set;
   set.Add(EnumSet<E>{E::B, E::C});
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_TRUE(set.Contains(E::B));
   EXPECT_TRUE(set.Contains(E::C));
 }

 TEST(EnumSetTest, RemoveEnumSet) {
   EnumSet<E> set(E::A, E::B);
   set.Remove(EnumSet<E>{E::B, E::C});
   EXPECT_TRUE(set.Contains(E::A));
   EXPECT_FALSE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
 }

 TEST(EnumSetTest, OperatorPlusEnum) {
   EnumSet<E> set = EnumSet<E>{E::B} + E::C;
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_TRUE(set.Contains(E::B));
   EXPECT_TRUE(set.Contains(E::C));
 }

 TEST(EnumSetTest, OperatorMinusEnum) {
   EnumSet<E> set = EnumSet<E>{E::A, E::B} - E::B;
   EXPECT_TRUE(set.Contains(E::A));
   EXPECT_FALSE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
 }

 TEST(EnumSetTest, OperatorPlusSet) {
   EnumSet<E> set = EnumSet<E>{E::B} + EnumSet<E>{E::B, E::C};
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_TRUE(set.Contains(E::B));
   EXPECT_TRUE(set.Contains(E::C));
 }

 TEST(EnumSetTest, OperatorMinusSet) {
   EnumSet<E> set = EnumSet<E>{E::A, E::B} - EnumSet<E>{E::B, E::C};
   EXPECT_TRUE(set.Contains(E::A));
   EXPECT_FALSE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
 }

 TEST(EnumSetTest, OperatorAnd) {
   EnumSet<E> set = EnumSet<E>{E::A, E::B} & EnumSet<E>{E::B, E::C};
   EXPECT_FALSE(set.Contains(E::A));
   EXPECT_TRUE(set.Contains(E::B));
   EXPECT_FALSE(set.Contains(E::C));
 }

 TEST(EnumSetTest, EqualitySet) {
   EXPECT_TRUE(EnumSet<E>(E::A, E::B) == EnumSet<E>(E::A, E::B));
   EXPECT_FALSE(EnumSet<E>(E::A, E::B) == EnumSet<E>(E::A, E::C));
 }

 TEST(EnumSetTest, InequalitySet) {
   EXPECT_FALSE(EnumSet<E>(E::A, E::B) != EnumSet<E>(E::A, E::B));
   EXPECT_TRUE(EnumSet<E>(E::A, E::B) != EnumSet<E>(E::A, E::C));
 }

 TEST(EnumSetTest, EqualityEnum) {
   EXPECT_TRUE(EnumSet<E>(E::A) == E::A);
   EXPECT_FALSE(EnumSet<E>(E::B) == E::A);
   EXPECT_FALSE(EnumSet<E>(E::B) == E::C);
   EXPECT_FALSE(EnumSet<E>(E::A, E::B) == E::A);
   EXPECT_FALSE(EnumSet<E>(E::A, E::B) == E::B);
   EXPECT_FALSE(EnumSet<E>(E::A, E::B) == E::C);
 }

 TEST(EnumSetTest, InequalityEnum) {
   EXPECT_FALSE(EnumSet<E>(E::A) != E::A);
   EXPECT_TRUE(EnumSet<E>(E::B) != E::A);
   EXPECT_TRUE(EnumSet<E>(E::B) != E::C);
   EXPECT_TRUE(EnumSet<E>(E::A, E::B) != E::A);
   EXPECT_TRUE(EnumSet<E>(E::A, E::B) != E::B);
   EXPECT_TRUE(EnumSet<E>(E::A, E::B) != E::C);
 }

 TEST(EnumSetTest, Hash) {
   auto hash = [&](EnumSet<E> s) { return std::hash<EnumSet<E>>()(s); };
   EXPECT_EQ(hash(EnumSet<E>(E::A, E::B)), hash(EnumSet<E>(E::A, E::B)));
   EXPECT_NE(hash(EnumSet<E>(E::A, E::B)), hash(EnumSet<E>(E::A, E::C)));
 }

 TEST(EnumSetTest, Value) {
   EXPECT_EQ(EnumSet<E>().Value(), 0u);
   EXPECT_EQ(EnumSet<E>(E::A).Value(), 1u);
   EXPECT_EQ(EnumSet<E>(E::B).Value(), 8u);
   EXPECT_EQ(EnumSet<E>(E::C).Value(), 128u);
   EXPECT_EQ(EnumSet<E>(E::A, E::C).Value(), 129u);
 }

 TEST(EnumSetTest, Iterator) {
   auto set = EnumSet<E>(E::C, E::A);

   auto it = set.begin();
   EXPECT_EQ(*it, E::A);
   EXPECT_NE(it, set.end());
   ++it;
   EXPECT_EQ(*it, E::C);
   EXPECT_NE(it, set.end());
   ++it;
   EXPECT_EQ(it, set.end());
 }

 TEST(EnumSetTest, IteratorEmpty) {
   auto set = EnumSet<E>();
   EXPECT_EQ(set.begin(), set.end());
 }

 TEST(EnumSetTest, Loop) {
   auto set = EnumSet<E>(E::C, E::A);

   std::vector<E> seen;
   for (auto e : set) {
     seen.emplace_back(e);
   }

   EXPECT_THAT(seen, ElementsAre(E::A, E::C));
 }

 TEST(EnumSetTest, Ostream) {
   std::stringstream ss;
   ss << EnumSet<E>(E::A, E::C);
   EXPECT_EQ(ss.str(), "{A, C}");
 }

 }  // namespace
 }  // namespace utils
 }  // namespace tint
	// Copyright 2021 The Tint Authors.
	//
	// 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 "src/utils/enum_set.h"

	#include <sstream>
	#include <vector>

	#include "gmock/gmock.h"

	namespace tint {
	namespace utils {
	namespace {

	using ::testing::ElementsAre;

	enum class E { A = 0, B = 3, C = 7 };

	std::ostream& operator<<(std::ostream& out, E e) {
	switch (e) {
	case E::A:
	return out << "A";
	case E::B:
	return out << "B";
	case E::C:
	return out << "C";
	}
	return out << "E(" << static_cast<uint32_t>(e) << ")";
	}

	TEST(EnumSetTest, ConstructEmpty) {
	EnumSet<E> set;
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_FALSE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	EXPECT_TRUE(set.Empty());
	}

	TEST(EnumSetTest, ConstructWithSingle) {
	EnumSet<E> set(E::B);
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_TRUE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	EXPECT_FALSE(set.Empty());
	}

	TEST(EnumSetTest, ConstructWithMultiple) {
	EnumSet<E> set(E::A, E::C);
	EXPECT_TRUE(set.Contains(E::A));
	EXPECT_FALSE(set.Contains(E::B));
	EXPECT_TRUE(set.Contains(E::C));
	EXPECT_FALSE(set.Empty());
	}

	TEST(EnumSetTest, AssignSet) {
	EnumSet<E> set;
	set = EnumSet<E>(E::A, E::C);
	EXPECT_TRUE(set.Contains(E::A));
	EXPECT_FALSE(set.Contains(E::B));
	EXPECT_TRUE(set.Contains(E::C));
	}

	TEST(EnumSetTest, AssignEnum) {
	EnumSet<E> set(E::A);
	set = E::B;
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_TRUE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	}

	TEST(EnumSetTest, AddEnum) {
	EnumSet<E> set;
	set.Add(E::B);
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_TRUE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	}

	TEST(EnumSetTest, RemoveEnum) {
	EnumSet<E> set(E::A, E::B);
	set.Remove(E::B);
	EXPECT_TRUE(set.Contains(E::A));
	EXPECT_FALSE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	}

	TEST(EnumSetTest, AddEnums) {
	EnumSet<E> set;
	set.Add(E::B, E::C);
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_TRUE(set.Contains(E::B));
	EXPECT_TRUE(set.Contains(E::C));
	}

	TEST(EnumSetTest, RemoveEnums) {
	EnumSet<E> set(E::A, E::B);
	set.Remove(E::C, E::B);
	EXPECT_TRUE(set.Contains(E::A));
	EXPECT_FALSE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	}

	TEST(EnumSetTest, AddEnumSet) {
	EnumSet<E> set;
	set.Add(EnumSet<E>{E::B, E::C});
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_TRUE(set.Contains(E::B));
	EXPECT_TRUE(set.Contains(E::C));
	}

	TEST(EnumSetTest, RemoveEnumSet) {
	EnumSet<E> set(E::A, E::B);
	set.Remove(EnumSet<E>{E::B, E::C});
	EXPECT_TRUE(set.Contains(E::A));
	EXPECT_FALSE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	}

	TEST(EnumSetTest, OperatorPlusEnum) {
	EnumSet<E> set = EnumSet<E>{E::B} + E::C;
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_TRUE(set.Contains(E::B));
	EXPECT_TRUE(set.Contains(E::C));
	}

	TEST(EnumSetTest, OperatorMinusEnum) {
	EnumSet<E> set = EnumSet<E>{E::A, E::B} - E::B;
	EXPECT_TRUE(set.Contains(E::A));
	EXPECT_FALSE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	}

	TEST(EnumSetTest, OperatorPlusSet) {
	EnumSet<E> set = EnumSet<E>{E::B} + EnumSet<E>{E::B, E::C};
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_TRUE(set.Contains(E::B));
	EXPECT_TRUE(set.Contains(E::C));
	}

	TEST(EnumSetTest, OperatorMinusSet) {
	EnumSet<E> set = EnumSet<E>{E::A, E::B} - EnumSet<E>{E::B, E::C};
	EXPECT_TRUE(set.Contains(E::A));
	EXPECT_FALSE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	}

	TEST(EnumSetTest, OperatorAnd) {
	EnumSet<E> set = EnumSet<E>{E::A, E::B} & EnumSet<E>{E::B, E::C};
	EXPECT_FALSE(set.Contains(E::A));
	EXPECT_TRUE(set.Contains(E::B));
	EXPECT_FALSE(set.Contains(E::C));
	}

	TEST(EnumSetTest, EqualitySet) {
	EXPECT_TRUE(EnumSet<E>(E::A, E::B) == EnumSet<E>(E::A, E::B));
	EXPECT_FALSE(EnumSet<E>(E::A, E::B) == EnumSet<E>(E::A, E::C));
	}

	TEST(EnumSetTest, InequalitySet) {
	EXPECT_FALSE(EnumSet<E>(E::A, E::B) != EnumSet<E>(E::A, E::B));
	EXPECT_TRUE(EnumSet<E>(E::A, E::B) != EnumSet<E>(E::A, E::C));
	}

	TEST(EnumSetTest, EqualityEnum) {
	EXPECT_TRUE(EnumSet<E>(E::A) == E::A);
	EXPECT_FALSE(EnumSet<E>(E::B) == E::A);
	EXPECT_FALSE(EnumSet<E>(E::B) == E::C);
	EXPECT_FALSE(EnumSet<E>(E::A, E::B) == E::A);
	EXPECT_FALSE(EnumSet<E>(E::A, E::B) == E::B);
	EXPECT_FALSE(EnumSet<E>(E::A, E::B) == E::C);
	}

	TEST(EnumSetTest, InequalityEnum) {
	EXPECT_FALSE(EnumSet<E>(E::A) != E::A);
	EXPECT_TRUE(EnumSet<E>(E::B) != E::A);
	EXPECT_TRUE(EnumSet<E>(E::B) != E::C);
	EXPECT_TRUE(EnumSet<E>(E::A, E::B) != E::A);
	EXPECT_TRUE(EnumSet<E>(E::A, E::B) != E::B);
	EXPECT_TRUE(EnumSet<E>(E::A, E::B) != E::C);
	}

	TEST(EnumSetTest, Hash) {
	auto hash = [&](EnumSet<E> s) { return std::hash<EnumSet<E>>()(s); };
	EXPECT_EQ(hash(EnumSet<E>(E::A, E::B)), hash(EnumSet<E>(E::A, E::B)));
	EXPECT_NE(hash(EnumSet<E>(E::A, E::B)), hash(EnumSet<E>(E::A, E::C)));
	}

	TEST(EnumSetTest, Value) {
	EXPECT_EQ(EnumSet<E>().Value(), 0u);
	EXPECT_EQ(EnumSet<E>(E::A).Value(), 1u);
	EXPECT_EQ(EnumSet<E>(E::B).Value(), 8u);
	EXPECT_EQ(EnumSet<E>(E::C).Value(), 128u);
	EXPECT_EQ(EnumSet<E>(E::A, E::C).Value(), 129u);
	}

	TEST(EnumSetTest, Iterator) {
	auto set = EnumSet<E>(E::C, E::A);

	auto it = set.begin();
	EXPECT_EQ(*it, E::A);
	EXPECT_NE(it, set.end());
	++it;
	EXPECT_EQ(*it, E::C);
	EXPECT_NE(it, set.end());
	++it;
	EXPECT_EQ(it, set.end());
	}

	TEST(EnumSetTest, IteratorEmpty) {
	auto set = EnumSet<E>();
	EXPECT_EQ(set.begin(), set.end());
	}

	TEST(EnumSetTest, Loop) {
	auto set = EnumSet<E>(E::C, E::A);

	std::vector<E> seen;
	for (auto e : set) {
	seen.emplace_back(e);
	}

	EXPECT_THAT(seen, ElementsAre(E::A, E::C));
	}

	TEST(EnumSetTest, Ostream) {
	std::stringstream ss;
	ss << EnumSet<E>(E::A, E::C);
	EXPECT_EQ(ss.str(), "{A, C}");
	}

	} // namespace
	} // namespace utils
	} // namespace tint