zircon/system/ulib/fbl/test/enum_bits.cc - fuchsia - Git at Google

 // Copyright 2020 The Fuchsia Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include <cstdint>

 #include <fbl/enum_bits.h>
 #include <zxtest/zxtest.h>

 namespace test {

 enum class NonBits {};
 static_assert(!::fbl::internal::IsEnumBits<NonBits>::value);

 enum class Bits : uint64_t {
   None = 0b00,
   A = 0b01,
   B = 0b10,
   C = A | B,
 };
 FBL_ENABLE_ENUM_BITS(Bits)
 static_assert(::fbl::internal::IsEnumBits<Bits>::value);

 struct Nested {
   enum class Bits : uint64_t {
     None = 0b00,
     A = 0b01,
     B = 0b10,
     C = A | B,
   };
 };
 FBL_ENABLE_ENUM_BITS(Nested::Bits)
 static_assert(::fbl::internal::IsEnumBits<Nested::Bits>::value);

 template <typename B>
 constexpr bool TestOperators() {
   static_assert((B::A | B::A) == B::A);
   static_assert((B::A | B::B) == B::C);
   static_assert((B::A | B::C) == B::C);
   static_assert((B::B | B::A) == B::C);
   static_assert((B::B | B::B) == B::B);
   static_assert((B::B | B::C) == B::C);
   static_assert((B::C | B::A) == B::C);
   static_assert((B::C | B::B) == B::C);
   static_assert((B::C | B::C) == B::C);

   static_assert((B::A & B::A) == B::A);
   static_assert((B::A & B::B) == B::None);
   static_assert((B::A & B::C) == B::A);
   static_assert((B::B & B::A) == B::None);
   static_assert((B::B & B::B) == B::B);
   static_assert((B::B & B::C) == B::B);
   static_assert((B::C & B::A) == B::A);
   static_assert((B::C & B::B) == B::B);
   static_assert((B::C & B::C) == B::C);

   static_assert((B::A ^ B::A) == B::None);
   static_assert((B::A ^ B::B) == B::C);
   static_assert((B::A ^ B::C) == B::B);
   static_assert((B::B ^ B::A) == B::C);
   static_assert((B::B ^ B::B) == B::None);
   static_assert((B::B ^ B::C) == B::A);
   static_assert((B::C ^ B::A) == B::B);
   static_assert((B::C ^ B::B) == B::A);
   static_assert((B::C ^ B::C) == B::None);

   static_assert(~B::C != B::None);
   static_assert((B::C & ~B::A) == B::B);

   static_assert(!B::None == true);
   static_assert(!B::C == false);

   // Only verifying that compound assignment operators compile in constexpr
   // context.
   B bits = B::A;
   bits &= B::C;
   bits ^= B::C;
   bits |= B::B;

   return true;
 }

 static_assert(TestOperators<Bits>());
 static_assert(TestOperators<Nested::Bits>());

 #if 0 || TEST_DOES_NOT_COMPILE
 static_assert(TestOperators<NonBits>());
 #endif

 }  // namespace test

 TEST(EnumBits, Operators) {
   using test::Bits;
   using test::Nested;

   EXPECT_EQ((Bits::A | Bits::A), Bits::A);
   EXPECT_EQ((Bits::A | Bits::B), Bits::C);
   EXPECT_EQ((Bits::A | Bits::C), Bits::C);
   EXPECT_EQ((Bits::B | Bits::A), Bits::C);
   EXPECT_EQ((Bits::B | Bits::B), Bits::B);
   EXPECT_EQ((Bits::B | Bits::C), Bits::C);
   EXPECT_EQ((Bits::C | Bits::A), Bits::C);
   EXPECT_EQ((Bits::C | Bits::B), Bits::C);
   EXPECT_EQ((Bits::C | Bits::C), Bits::C);

   EXPECT_EQ((Bits::A & Bits::A), Bits::A);
   EXPECT_EQ((Bits::A & Bits::B), Bits::None);
   EXPECT_EQ((Bits::A & Bits::C), Bits::A);
   EXPECT_EQ((Bits::B & Bits::A), Bits::None);
   EXPECT_EQ((Bits::B & Bits::B), Bits::B);
   EXPECT_EQ((Bits::B & Bits::C), Bits::B);
   EXPECT_EQ((Bits::C & Bits::A), Bits::A);
   EXPECT_EQ((Bits::C & Bits::B), Bits::B);
   EXPECT_EQ((Bits::C & Bits::C), Bits::C);

   EXPECT_EQ((Bits::A ^ Bits::A), Bits::None);
   EXPECT_EQ((Bits::A ^ Bits::B), Bits::C);
   EXPECT_EQ((Bits::A ^ Bits::C), Bits::B);
   EXPECT_EQ((Bits::B ^ Bits::A), Bits::C);
   EXPECT_EQ((Bits::B ^ Bits::B), Bits::None);
   EXPECT_EQ((Bits::B ^ Bits::C), Bits::A);
   EXPECT_EQ((Bits::C ^ Bits::A), Bits::B);
   EXPECT_EQ((Bits::C ^ Bits::B), Bits::A);
   EXPECT_EQ((Bits::C ^ Bits::C), Bits::None);

   EXPECT_NE(~Bits::C, Bits::None);
   EXPECT_EQ((Bits::C & ~Bits::A), Bits::B);

   EXPECT_TRUE(!Bits::None);
   EXPECT_FALSE(!Bits::C);

   {
     Bits value;
     value = Bits::A;
     value &= Bits::C;
     EXPECT_EQ(Bits::A, value);

     value = Bits::A;
     value ^= Bits::C;
     EXPECT_EQ(Bits::B, value);

     value = Bits::A;
     value |= Bits::B;
     EXPECT_EQ(Bits::C, value);

     EXPECT_TRUE(!Bits::None);
     EXPECT_FALSE(!Bits::A);
   }

   EXPECT_EQ((Nested::Bits::A | Nested::Bits::A), Nested::Bits::A);
   EXPECT_EQ((Nested::Bits::A | Nested::Bits::B), Nested::Bits::C);
   EXPECT_EQ((Nested::Bits::A | Nested::Bits::C), Nested::Bits::C);
   EXPECT_EQ((Nested::Bits::B | Nested::Bits::A), Nested::Bits::C);
   EXPECT_EQ((Nested::Bits::B | Nested::Bits::B), Nested::Bits::B);
   EXPECT_EQ((Nested::Bits::B | Nested::Bits::C), Nested::Bits::C);
   EXPECT_EQ((Nested::Bits::C | Nested::Bits::A), Nested::Bits::C);
   EXPECT_EQ((Nested::Bits::C | Nested::Bits::B), Nested::Bits::C);
   EXPECT_EQ((Nested::Bits::C | Nested::Bits::C), Nested::Bits::C);

   EXPECT_EQ((Nested::Bits::A & Nested::Bits::A), Nested::Bits::A);
   EXPECT_EQ((Nested::Bits::A & Nested::Bits::B), Nested::Bits::None);
   EXPECT_EQ((Nested::Bits::A & Nested::Bits::C), Nested::Bits::A);
   EXPECT_EQ((Nested::Bits::B & Nested::Bits::A), Nested::Bits::None);
   EXPECT_EQ((Nested::Bits::B & Nested::Bits::B), Nested::Bits::B);
   EXPECT_EQ((Nested::Bits::B & Nested::Bits::C), Nested::Bits::B);
   EXPECT_EQ((Nested::Bits::C & Nested::Bits::A), Nested::Bits::A);
   EXPECT_EQ((Nested::Bits::C & Nested::Bits::B), Nested::Bits::B);
   EXPECT_EQ((Nested::Bits::C & Nested::Bits::C), Nested::Bits::C);

   EXPECT_EQ((Nested::Bits::A ^ Nested::Bits::A), Nested::Bits::None);
   EXPECT_EQ((Nested::Bits::A ^ Nested::Bits::B), Nested::Bits::C);
   EXPECT_EQ((Nested::Bits::A ^ Nested::Bits::C), Nested::Bits::B);
   EXPECT_EQ((Nested::Bits::B ^ Nested::Bits::A), Nested::Bits::C);
   EXPECT_EQ((Nested::Bits::B ^ Nested::Bits::B), Nested::Bits::None);
   EXPECT_EQ((Nested::Bits::B ^ Nested::Bits::C), Nested::Bits::A);
   EXPECT_EQ((Nested::Bits::C ^ Nested::Bits::A), Nested::Bits::B);
   EXPECT_EQ((Nested::Bits::C ^ Nested::Bits::B), Nested::Bits::A);
   EXPECT_EQ((Nested::Bits::C ^ Nested::Bits::C), Nested::Bits::None);

   EXPECT_NE(~Nested::Bits::C, Nested::Bits::None);
   EXPECT_EQ((Nested::Bits::C & ~Nested::Bits::A), Nested::Bits::B);

   EXPECT_TRUE(!Nested::Bits::None);
   EXPECT_FALSE(!Nested::Bits::C);

   {
     Nested::Bits value;
     value = Nested::Bits::A;
     value &= Nested::Bits::C;
     EXPECT_EQ(Nested::Bits::A, value);

     value = Nested::Bits::A;
     value ^= Nested::Bits::C;
     EXPECT_EQ(Nested::Bits::B, value);

     value = Nested::Bits::A;
     value |= Nested::Bits::B;
     EXPECT_EQ(Nested::Bits::C, value);

     EXPECT_TRUE(!Nested::Bits::None);
     EXPECT_FALSE(!Nested::Bits::A);
   }
 }
	// Copyright 2020 The Fuchsia Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include <cstdint>

	#include <fbl/enum_bits.h>
	#include <zxtest/zxtest.h>

	namespace test {

	enum class NonBits {};
	static_assert(!::fbl::internal::IsEnumBits<NonBits>::value);

	enum class Bits : uint64_t {
	None = 0b00,
	A = 0b01,
	B = 0b10,
	C = A \| B,
	};
	FBL_ENABLE_ENUM_BITS(Bits)
	static_assert(::fbl::internal::IsEnumBits<Bits>::value);

	struct Nested {
	enum class Bits : uint64_t {
	None = 0b00,
	A = 0b01,
	B = 0b10,
	C = A \| B,
	};
	};
	FBL_ENABLE_ENUM_BITS(Nested::Bits)
	static_assert(::fbl::internal::IsEnumBits<Nested::Bits>::value);

	template <typename B>
	constexpr bool TestOperators() {
	static_assert((B::A \| B::A) == B::A);
	static_assert((B::A \| B::B) == B::C);
	static_assert((B::A \| B::C) == B::C);
	static_assert((B::B \| B::A) == B::C);
	static_assert((B::B \| B::B) == B::B);
	static_assert((B::B \| B::C) == B::C);
	static_assert((B::C \| B::A) == B::C);
	static_assert((B::C \| B::B) == B::C);
	static_assert((B::C \| B::C) == B::C);

	static_assert((B::A & B::A) == B::A);
	static_assert((B::A & B::B) == B::None);
	static_assert((B::A & B::C) == B::A);
	static_assert((B::B & B::A) == B::None);
	static_assert((B::B & B::B) == B::B);
	static_assert((B::B & B::C) == B::B);
	static_assert((B::C & B::A) == B::A);
	static_assert((B::C & B::B) == B::B);
	static_assert((B::C & B::C) == B::C);

	static_assert((B::A ^ B::A) == B::None);
	static_assert((B::A ^ B::B) == B::C);
	static_assert((B::A ^ B::C) == B::B);
	static_assert((B::B ^ B::A) == B::C);
	static_assert((B::B ^ B::B) == B::None);
	static_assert((B::B ^ B::C) == B::A);
	static_assert((B::C ^ B::A) == B::B);
	static_assert((B::C ^ B::B) == B::A);
	static_assert((B::C ^ B::C) == B::None);

	static_assert(~B::C != B::None);
	static_assert((B::C & ~B::A) == B::B);

	static_assert(!B::None == true);
	static_assert(!B::C == false);

	// Only verifying that compound assignment operators compile in constexpr
	// context.
	B bits = B::A;
	bits &= B::C;
	bits ^= B::C;
	bits \|= B::B;

	return true;
	}

	static_assert(TestOperators<Bits>());
	static_assert(TestOperators<Nested::Bits>());

	#if 0 \|\| TEST_DOES_NOT_COMPILE
	static_assert(TestOperators<NonBits>());
	#endif

	} // namespace test

	TEST(EnumBits, Operators) {
	using test::Bits;
	using test::Nested;

	EXPECT_EQ((Bits::A \| Bits::A), Bits::A);
	EXPECT_EQ((Bits::A \| Bits::B), Bits::C);
	EXPECT_EQ((Bits::A \| Bits::C), Bits::C);
	EXPECT_EQ((Bits::B \| Bits::A), Bits::C);
	EXPECT_EQ((Bits::B \| Bits::B), Bits::B);
	EXPECT_EQ((Bits::B \| Bits::C), Bits::C);
	EXPECT_EQ((Bits::C \| Bits::A), Bits::C);
	EXPECT_EQ((Bits::C \| Bits::B), Bits::C);
	EXPECT_EQ((Bits::C \| Bits::C), Bits::C);

	EXPECT_EQ((Bits::A & Bits::A), Bits::A);
	EXPECT_EQ((Bits::A & Bits::B), Bits::None);
	EXPECT_EQ((Bits::A & Bits::C), Bits::A);
	EXPECT_EQ((Bits::B & Bits::A), Bits::None);
	EXPECT_EQ((Bits::B & Bits::B), Bits::B);
	EXPECT_EQ((Bits::B & Bits::C), Bits::B);
	EXPECT_EQ((Bits::C & Bits::A), Bits::A);
	EXPECT_EQ((Bits::C & Bits::B), Bits::B);
	EXPECT_EQ((Bits::C & Bits::C), Bits::C);

	EXPECT_EQ((Bits::A ^ Bits::A), Bits::None);
	EXPECT_EQ((Bits::A ^ Bits::B), Bits::C);
	EXPECT_EQ((Bits::A ^ Bits::C), Bits::B);
	EXPECT_EQ((Bits::B ^ Bits::A), Bits::C);
	EXPECT_EQ((Bits::B ^ Bits::B), Bits::None);
	EXPECT_EQ((Bits::B ^ Bits::C), Bits::A);
	EXPECT_EQ((Bits::C ^ Bits::A), Bits::B);
	EXPECT_EQ((Bits::C ^ Bits::B), Bits::A);
	EXPECT_EQ((Bits::C ^ Bits::C), Bits::None);

	EXPECT_NE(~Bits::C, Bits::None);
	EXPECT_EQ((Bits::C & ~Bits::A), Bits::B);

	EXPECT_TRUE(!Bits::None);
	EXPECT_FALSE(!Bits::C);

	{
	Bits value;
	value = Bits::A;
	value &= Bits::C;
	EXPECT_EQ(Bits::A, value);

	value = Bits::A;
	value ^= Bits::C;
	EXPECT_EQ(Bits::B, value);

	value = Bits::A;
	value \|= Bits::B;
	EXPECT_EQ(Bits::C, value);

	EXPECT_TRUE(!Bits::None);
	EXPECT_FALSE(!Bits::A);
	}

	EXPECT_EQ((Nested::Bits::A \| Nested::Bits::A), Nested::Bits::A);
	EXPECT_EQ((Nested::Bits::A \| Nested::Bits::B), Nested::Bits::C);
	EXPECT_EQ((Nested::Bits::A \| Nested::Bits::C), Nested::Bits::C);
	EXPECT_EQ((Nested::Bits::B \| Nested::Bits::A), Nested::Bits::C);
	EXPECT_EQ((Nested::Bits::B \| Nested::Bits::B), Nested::Bits::B);
	EXPECT_EQ((Nested::Bits::B \| Nested::Bits::C), Nested::Bits::C);
	EXPECT_EQ((Nested::Bits::C \| Nested::Bits::A), Nested::Bits::C);
	EXPECT_EQ((Nested::Bits::C \| Nested::Bits::B), Nested::Bits::C);
	EXPECT_EQ((Nested::Bits::C \| Nested::Bits::C), Nested::Bits::C);

	EXPECT_EQ((Nested::Bits::A & Nested::Bits::A), Nested::Bits::A);
	EXPECT_EQ((Nested::Bits::A & Nested::Bits::B), Nested::Bits::None);
	EXPECT_EQ((Nested::Bits::A & Nested::Bits::C), Nested::Bits::A);
	EXPECT_EQ((Nested::Bits::B & Nested::Bits::A), Nested::Bits::None);
	EXPECT_EQ((Nested::Bits::B & Nested::Bits::B), Nested::Bits::B);
	EXPECT_EQ((Nested::Bits::B & Nested::Bits::C), Nested::Bits::B);
	EXPECT_EQ((Nested::Bits::C & Nested::Bits::A), Nested::Bits::A);
	EXPECT_EQ((Nested::Bits::C & Nested::Bits::B), Nested::Bits::B);
	EXPECT_EQ((Nested::Bits::C & Nested::Bits::C), Nested::Bits::C);

	EXPECT_EQ((Nested::Bits::A ^ Nested::Bits::A), Nested::Bits::None);
	EXPECT_EQ((Nested::Bits::A ^ Nested::Bits::B), Nested::Bits::C);
	EXPECT_EQ((Nested::Bits::A ^ Nested::Bits::C), Nested::Bits::B);
	EXPECT_EQ((Nested::Bits::B ^ Nested::Bits::A), Nested::Bits::C);
	EXPECT_EQ((Nested::Bits::B ^ Nested::Bits::B), Nested::Bits::None);
	EXPECT_EQ((Nested::Bits::B ^ Nested::Bits::C), Nested::Bits::A);
	EXPECT_EQ((Nested::Bits::C ^ Nested::Bits::A), Nested::Bits::B);
	EXPECT_EQ((Nested::Bits::C ^ Nested::Bits::B), Nested::Bits::A);
	EXPECT_EQ((Nested::Bits::C ^ Nested::Bits::C), Nested::Bits::None);

	EXPECT_NE(~Nested::Bits::C, Nested::Bits::None);
	EXPECT_EQ((Nested::Bits::C & ~Nested::Bits::A), Nested::Bits::B);

	EXPECT_TRUE(!Nested::Bits::None);
	EXPECT_FALSE(!Nested::Bits::C);

	{
	Nested::Bits value;
	value = Nested::Bits::A;
	value &= Nested::Bits::C;
	EXPECT_EQ(Nested::Bits::A, value);

	value = Nested::Bits::A;
	value ^= Nested::Bits::C;
	EXPECT_EQ(Nested::Bits::B, value);

	value = Nested::Bits::A;
	value \|= Nested::Bits::B;
	EXPECT_EQ(Nested::Bits::C, value);

	EXPECT_TRUE(!Nested::Bits::None);
	EXPECT_FALSE(!Nested::Bits::A);
	}
	}