#include #include #include using namespace std; using namespace wr; TEST(Vector3Miscellaneous, ExtractionOperator) { geom::Vector3d vec {1.0, 2.0, 3.0}; stringstream vecBuffer; vecBuffer << vec; EXPECT_EQ(vecBuffer.str(), "<1, 2, 3>"); } TEST(Vector3Miscellaneous, SetEpsilon) { geom::Vector3f a {1.0, 1.0, 1.0}; geom::Vector3f b; a.setEpsilon(1.1); EXPECT_EQ(a, b); } TEST(Vector3FloatTests, Magnitude) { geom::Vector3f v3f {1.0, -2.0, 3.0}; const float expected = 3.74165738677394; EXPECT_FLOAT_EQ(v3f.magnitude(), expected); } TEST(Vector3FloatTests, Equality) { geom::Vector3f a {1.0, 2.0, 3.0}; geom::Vector3f b {1.0, 2.0, 3.0}; geom::Vector3f c {1.0, 2.0, 1.0}; EXPECT_EQ(a, b); EXPECT_EQ(b, a); EXPECT_NE(a, c); EXPECT_NE(b, c); } TEST(Vector3FloatTests, Addition) { geom::Vector3f a {1.0, 2.0, 3.0}; geom::Vector3f b {4.0, 5.0, 6.0}; geom::Vector3f expected {5.0, 7.0, 9.0}; EXPECT_EQ(a+b, expected); } TEST(Vector3FloatTests, Subtraction) { geom::Vector3f a {1.0, 2.0, 3.0}; geom::Vector3f b {4.0, 5.0, 6.0}; geom::Vector3f c {5.0, 7.0, 9.0}; EXPECT_EQ(c-b, a); } TEST(Vector3FloatTests, ScalarMultiplication) { geom::Vector3f a {1.0, 2.0, 3.0}; geom::Vector3f expected {3.0, 6.0, 9.0}; EXPECT_EQ(a * 3.0, expected); } TEST(Vector3FloatTests, ScalarDivision) { geom::Vector3f a {1.0, 2.0, 3.0}; geom::Vector3f b {3.0, 6.0, 9.0}; EXPECT_EQ(b / 3.0, a); } TEST(Vector3FloatTests, DotProduct) { geom::Vector3f a {1.0, 2.0, 3.0}; geom::Vector3f b {4.0, 5.0, 6.0}; EXPECT_FLOAT_EQ(a * b, 32.0); } TEST(Vector3FloatTests, UnitVector) { // Test values randomly generated and calculated with numpy. geom::Vector3f vec3 {5.320264018493507, 5.6541812891273935, 1.9233435162644652}; geom::Vector3f unit {0.6651669556972103, 0.7069150218815566, 0.24046636539587804}; EXPECT_EQ(vec3.unitVector(), unit); EXPECT_FALSE(vec3.isUnitVector()); EXPECT_TRUE(unit.isUnitVector()); } TEST(Vector3FloatTests, Angle) { geom::Vector3f a {0.3977933061361172, 8.053980094436525, 8.1287759943773}; geom::Vector3f b {9.817895298608196, 4.034166890407462, 4.37628316513266}; geom::Vector3f c {7.35, 0.221, 5.188}; geom::Vector3f d {2.751, 8.259, 3.985}; EXPECT_FLOAT_EQ(a.angle(b), 0.9914540426033251); EXPECT_NEAR(c.angle(d), 1.052, 0.001); } TEST(Vector3FloatTests, ParallelOrthogonalVectors) { geom::Vector3f a {-2.029, 9.97, 4.172}; geom::Vector3f b {-9.231, -6.639, -7.245}; geom::Vector3f c {-2.328, -7.284, -1.214}; geom::Vector3f d {-1.821, 1.072, -2.94}; geom::Vector3f e {-2.0, 1.0, 3.0}; geom::Vector3f f {-6.0, 3.0, 9.0}; geom::Vector3f zeroVector; EXPECT_FALSE(a.isParallel(b)); EXPECT_FALSE(a.isOrthogonal(b)); EXPECT_FALSE(c.isParallel(d)); EXPECT_TRUE(c.isOrthogonal(d)); EXPECT_TRUE(e.isParallel(f)); EXPECT_FALSE(e.isOrthogonal(f)); EXPECT_TRUE(zeroVector.isZero()); EXPECT_TRUE(c.isParallel(zeroVector)); EXPECT_TRUE(c.isOrthogonal(zeroVector)); } TEST(Vector3FloatTests, Projections) { geom::Vector4f a {3.009, -6.172, 3.692, -2.510}; geom::Vector4f b {6.404, -9.144, 2.759, 8.718}; geom::Vector4f c {1.9685, -2.8108, 0.8481, 2.6798}; geom::Vector4f d {1.0405, -3.3612, 2.8439, -5.1898}; ASSERT_EQ(a.projectParallel(b), c); ASSERT_EQ(a.projectOrthogonal(b), d); } TEST(Vector3DoubleTests, Magnitude) { geom::Vector3d v3d{1.0, -2.0, 3.0}; const double expected = 3.74165738677394; EXPECT_DOUBLE_EQ(v3d.magnitude(), expected); } TEST(Vector3DoubleTests, Equality) { geom::Vector3d a {1.0, 2.0, 3.0}; geom::Vector3d b {1.0, 2.0, 3.0}; geom::Vector3d c {1.0, 2.0, 1.0}; EXPECT_EQ(a, b); EXPECT_EQ(b, a); EXPECT_NE(a, c); EXPECT_NE(b, c); } TEST(Vector3DoubleTests, Addition) { geom::Vector3d a {1.0, 2.0, 3.0}; geom::Vector3d b {4.0, 5.0, 6.0}; geom::Vector3d expected {5.0, 7.0, 9.0}; EXPECT_EQ(a+b, expected); } TEST(Vector3DoubleTests, Subtraction) { geom::Vector3d a {1.0, 2.0, 3.0}; geom::Vector3d b {4.0, 5.0, 6.0}; geom::Vector3d c {5.0, 7.0, 9.0}; EXPECT_EQ(c-b, a); } TEST(Vector3DoubleTests, ScalarMultiplication) { geom::Vector3d a {1.0, 2.0, 3.0}; geom::Vector3d expected {3.0, 6.0, 9.0}; EXPECT_EQ(a * 3.0, expected); } TEST(Vector3DoubleTests, ScalarDivision) { geom::Vector3d a {1.0, 2.0, 3.0}; geom::Vector3d b {3.0, 6.0, 9.0}; EXPECT_EQ(b / 3.0, a); } TEST(Vector3DoubleTests, DotProduct) { geom::Vector3d a {1.0, 2.0, 3.0}; geom::Vector3d b {4.0, 5.0, 6.0}; EXPECT_DOUBLE_EQ(a * b, 32.0); } TEST(Vector3DoubleTests, UnitVector) { // Test values randomly generated and calculated with numpy. geom::Vector3d vec3 {5.320264018493507, 5.6541812891273935, 1.9233435162644652}; geom::Vector3d unit {0.6651669556972103, 0.7069150218815566, 0.24046636539587804}; EXPECT_EQ(vec3.unitVector(), unit); EXPECT_FALSE(vec3.isUnitVector()); EXPECT_TRUE(unit.isUnitVector()); } TEST(Vector3DoubleTests, Angle) { geom::Vector3d a {0.3977933061361172, 8.053980094436525, 8.1287759943773}; geom::Vector3d b {9.817895298608196, 4.034166890407462, 4.37628316513266}; geom::Vector3d c {7.35, 0.221, 5.188}; geom::Vector3d d {2.751, 8.259, 3.985}; EXPECT_DOUBLE_EQ(a.angle(b), 0.9914540426033251); EXPECT_NEAR(c.angle(d), 1.052, 0.001); } TEST(Vector3DoubleTests, ParallelOrthogonalVectors) { geom::Vector3d a {-2.029, 9.97, 4.172}; geom::Vector3d b {-9.231, -6.639, -7.245}; geom::Vector3d c {-2.328, -7.284, -1.214}; geom::Vector3d d {-1.821, 1.072, -2.94}; geom::Vector3d e {-2.0, 1.0, 3.0}; geom::Vector3d f {-6.0, 3.0, 9.0}; geom::Vector3d zeroVector; EXPECT_FALSE(a.isParallel(b)); EXPECT_FALSE(a.isOrthogonal(b)); EXPECT_FALSE(c.isParallel(d)); EXPECT_TRUE(c.isOrthogonal(d)); EXPECT_TRUE(e.isParallel(f)); EXPECT_FALSE(e.isOrthogonal(f)); EXPECT_TRUE(zeroVector.isZero()); EXPECT_TRUE(c.isParallel(zeroVector)); EXPECT_TRUE(c.isOrthogonal(zeroVector)); } TEST(Vector3DoubleTests, Projections) { geom::Vector4d a {3.009, -6.172, 3.692, -2.510}; geom::Vector4d b {6.404, -9.144, 2.759, 8.718}; geom::Vector4d c {1.9685, -2.8108, 0.8481, 2.6798}; geom::Vector4d d {1.0405, -3.3612, 2.8439, -5.1898}; ASSERT_EQ(a.projectParallel(b), c); ASSERT_EQ(a.projectOrthogonal(b), d); } int main(int argc, char **argv) { ::testing::InitGoogleTest(&argc, argv); return RUN_ALL_TESTS(); }