/* * Author: Patrick-Christopher Mattulat * Company: Lynar Studios * E-Mail: webmaster@lynarstudios.com * Created: 2020-08-09 * Changed: 2021-07-14 * * */ #include #include #include namespace { class IntegerTest : public ::testing::Test { protected: IntegerTest() = default; ~IntegerTest() override = default; void SetUp() override {} void TearDown() override {} }; // assignment operators TEST_F(IntegerTest, operatorAssignment) { ls_std::Integer x{13}; ASSERT_EQ(13, x); x = 44; ASSERT_EQ(44, x); ls_std::Integer y{3}; x = y; ASSERT_EQ(3, x); } // arithmetic operators TEST_F(IntegerTest, operatorHyphen) { ls_std::Integer x{13}; ls_std::Integer y{-13}; ASSERT_EQ(-13, -x); ASSERT_EQ(13, -y); } TEST_F(IntegerTest, operatorAddition) { ls_std::Integer x{13}; ls_std::Integer y{7}; ls_std::Integer z{-15}; ASSERT_EQ(20, x + y); ASSERT_EQ(8, 1 + y); ASSERT_EQ(5, x + y + z); ASSERT_EQ(15, x + 2); ASSERT_EQ(0, x + 2 + z); } TEST_F(IntegerTest, operatorMultiplication) { ls_std::Integer x{3}; ls_std::Integer y{7}; ls_std::Integer z{5}; ASSERT_EQ(21, x * y); ASSERT_EQ(105, x * y * z); ASSERT_EQ(6, x * 2); ASSERT_EQ(71, 1 + y * 2 * z); } TEST_F(IntegerTest, operatorSubtraction) { ls_std::Integer x{51}; ls_std::Integer y{17}; ASSERT_EQ(34, x - y); ASSERT_EQ(30, x - 21); ASSERT_EQ(13, x - 21 - y); } TEST_F(IntegerTest, operatorDivision) { ls_std::Integer x{81}; ls_std::Integer y{9}; ASSERT_EQ(9, x / y); ASSERT_EQ(3, 9 / 3); ASSERT_EQ(3, x / y / 3); ASSERT_EQ(1, 19 / 10); } TEST_F(IntegerTest, operatorModulus) { ls_std::Integer x{85}; ls_std::Integer y{9}; ASSERT_EQ(4, x % y); ASSERT_EQ(1, x % 3); } // compound operators TEST_F(IntegerTest, operatorAddEqual) { ls_std::Integer x{4}; ls_std::Integer y{2}; ASSERT_EQ(4, x); x += y; ASSERT_EQ(6, x); x += 4; ASSERT_EQ(10, x); x += -5; ASSERT_EQ(5, x); } TEST_F(IntegerTest, operatorSubEqual) { ls_std::Integer x{14}; ls_std::Integer y{2}; ASSERT_EQ(14, x); x -= y; ASSERT_EQ(12, x); x -= 6; ASSERT_EQ(6, x); x -= -3; ASSERT_EQ(9, x); } TEST_F(IntegerTest, operatorMulEqual) { ls_std::Integer x{6}; ls_std::Integer y{3}; ASSERT_EQ(6, x); x *= y; ASSERT_EQ(18, x); x *= 2; ASSERT_EQ(36, x); } TEST_F(IntegerTest, operatorDivEqual) { ls_std::Integer x{12}; ls_std::Integer y{3}; ASSERT_EQ(12, x); x /= y; ASSERT_EQ(4, x); x /= 2; ASSERT_EQ(2, x); } // comparison operators TEST_F(IntegerTest, operatorEqual) { ls_std::Integer x{12}; ls_std::Integer y{3}; ls_std::Integer z{3}; ASSERT_TRUE(x == 12); ASSERT_TRUE(y == z); ASSERT_TRUE(z == y); } TEST_F(IntegerTest, operatorNotEqual) { ls_std::Integer x{12}; ls_std::Integer y{3}; ls_std::Integer z{3}; ASSERT_TRUE(x != 14); ASSERT_TRUE(y != x); ASSERT_TRUE(z != x); } TEST_F(IntegerTest, operatorGreaterThan) { ls_std::Integer x{12}; ls_std::Integer y{3}; ASSERT_TRUE(x > 4); ASSERT_TRUE(x > y); } TEST_F(IntegerTest, operatorGreaterThanNegative) { ls_std::Integer x{12}; ls_std::Integer y{3}; ASSERT_FALSE(x > 14); ASSERT_FALSE(x > (y + 20)); } TEST_F(IntegerTest, operatorGreaterThanEqual) { ls_std::Integer x{12}; ls_std::Integer y{12}; ASSERT_TRUE(x >= 12); ASSERT_TRUE(x >= y); } TEST_F(IntegerTest, operatorGreaterThanEqualNegative) { ls_std::Integer x{12}; ls_std::Integer y{13}; ASSERT_FALSE(x >= 13); ASSERT_FALSE(x >= y); } TEST_F(IntegerTest, operatorLessThan) { ls_std::Integer x{10}; ls_std::Integer y{12}; ASSERT_TRUE(x < 12); ASSERT_TRUE(x < y); } TEST_F(IntegerTest, operatorLessThanNegative) { ls_std::Integer x{10}; ls_std::Integer y{10}; ASSERT_FALSE(x < 10); ASSERT_FALSE(x < y); } TEST_F(IntegerTest, operatorLessThanEqual) { ls_std::Integer x{10}; ls_std::Integer y{10}; ASSERT_TRUE(x <= 11); ASSERT_TRUE(x <= y); } TEST_F(IntegerTest, operatorLessThanEqualNegative) { ls_std::Integer x{11}; ls_std::Integer y{10}; ASSERT_FALSE(x <= 10); ASSERT_FALSE(x <= y); } // logical operators TEST_F(IntegerTest, operatorNot) { ls_std::Integer x{}; ASSERT_TRUE(!x); } TEST_F(IntegerTest, operatorNotNegative) { ls_std::Integer x{10}; ASSERT_FALSE(!x); } TEST_F(IntegerTest, operatorAnd) { ls_std::Integer x{1}; ls_std::Integer y{1}; ASSERT_TRUE(x && 1); ASSERT_TRUE(x && true); ASSERT_TRUE(x && y); } TEST_F(IntegerTest, operatorAndNegative) { ls_std::Integer x{}; ls_std::Integer y{1}; ASSERT_FALSE(x && 1); ASSERT_FALSE(x && true); ASSERT_FALSE(x && y); } TEST_F(IntegerTest, operatorOr) { ls_std::Integer x{}; ls_std::Integer y{1}; ASSERT_TRUE(x || 1); ASSERT_TRUE(x || true); ASSERT_TRUE(x || y); } TEST_F(IntegerTest, operatorOrNegative) { ls_std::Integer x{}; ls_std::Integer y{}; ASSERT_FALSE(x || 0); ASSERT_FALSE(x || false); ASSERT_FALSE(x || y); } // increment / decrement operator TEST_F(IntegerTest, operatorIncrement) { ls_std::Integer x{}; ++x; ASSERT_EQ(1, x); ++x; ASSERT_EQ(2, x); } TEST_F(IntegerTest, operatorDecrement) { ls_std::Integer x{}; --x; ASSERT_EQ(-1, x); --x; ASSERT_EQ(-2, x); } // implementation TEST_F(IntegerTest, parse) { ls_std::Integer x{}; x.parse("1989"); ASSERT_EQ(1989, x); x.parse("-17"); ASSERT_EQ(-17, x); } TEST_F(IntegerTest, toString) { ls_std::Integer x{112}; ASSERT_STREQ("112", x.toString().c_str()); } // additional functionality TEST_F(IntegerTest, getValue) { ls_std::Integer x{3}; ASSERT_EQ(3, x.getValue()); } // additional testing TEST_F(IntegerTest, constApproach) { const ls_std::Integer x{3}; ASSERT_EQ(3, x); // x = 4; // wouldn't work } }