def test_lib_pdfviewer_vec2d_HighLevel(self): basis0 = vec2d(5.0, 0) basis1 = vec2d(0, .5) v = vec2d(10, 1) self.assertTrue(v.convert_to_basis(basis0, basis1) == [2, 2]) self.assertTrue(v.projection(basis0) == (10, 0)) self.assertTrue(basis0.dot(basis1) == 0)
def test_lib_pdfviewer_vec2d_HighLevel(self): basis0 = vec2d(5.0, 0) basis1 = vec2d(0, .5) v = vec2d(10, 1) self.assert_(v.convert_to_basis(basis0, basis1) == [2, 2]) self.assert_(v.projection(basis0) == (10, 0)) self.assert_(basis0.dot(basis1) == 0)
def test_lib_pdfviewer_vec2d_ReverseMath(self): v = vec2d(111, 222) self.assertTrue(1 + v == vec2d(112, 223)) self.assertTrue(2 - v == [-109, -220]) self.assertTrue(3 * v == (333, 666)) self.assertTrue([222, 999] // v == [2, 4]) self.assertTrue([111, 222]**vec2d(2, 3) == [12321, 10941048]) self.assertTrue([-11, 78] + v == vec2d(100, 300))
def test_lib_pdfviewer_vec2d_ReverseMath(self): v = vec2d(111,222) self.assert_(1 + v == vec2d(112,223)) self.assert_(2 - v == [-109,-220]) self.assert_(3 * v == (333,666)) self.assert_([222,999] / v == [2,4]) self.assert_([111,222] ** vec2d(2,3) == [12321, 10941048]) self.assert_([-11, 78] + v == vec2d(100, 300))
def test_lib_pdfviewer_vec2d_Length(self): v = vec2d(3,4) self.assert_(v.length == 5) self.assert_(v.get_length_sqrd() == 25) self.assert_(v.normalize_return_length() == 5) self.assert_(v.length == 1) v.length = 5 self.assert_(v == vec2d(3,4)) v2 = vec2d(10, -2) self.assert_(v.get_distance(v2) == (v - v2).get_length())
def test_lib_pdfviewer_vec2d_Length(self): v = vec2d(3, 4) self.assertTrue(v.length == 5) self.assertTrue(v.get_length_sqrd() == 25) self.assertTrue(v.normalize_return_length() == 5) self.assertTrue(v.length == 1) v.length = 5 self.assertTrue(v == vec2d(3, 4)) v2 = vec2d(10, -2) self.assertTrue(v.get_distance(v2) == (v - v2).get_length())
def test_lib_pdfviewer_vec2d_Math(self): v = vec2d(111,222) self.assertEqual(v + 1, vec2d(112,223)) self.assert_(v - 2 == [109,220]) self.assert_(v * 3 == (333,666)) self.assert_(v / 2.0 == vec2d(55.5, 111)) self.assert_(v / 2 == (55, 111)) self.assert_(v ** vec2d(2,3) == [12321, 10941048]) self.assert_(v + [-11, 78] == vec2d(100, 300)) self.assert_(v / [11,2] == [10,111])
def test_lib_pdfviewer_vec2d_Math(self): v = vec2d(111, 222) self.assertEqual(v + 1, vec2d(112, 223)) self.assertTrue(v - 2 == [109, 220]) self.assertTrue(v * 3 == (333, 666)) self.assertTrue(v / 2.0 == vec2d(55.5, 111)) self.assertTrue(v // 2 == (55, 111)) self.assertTrue(v**vec2d(2, 3) == [12321, 10941048]) self.assertTrue(v + [-11, 78] == vec2d(100, 300)) self.assertTrue(v // [11, 2] == [10, 111])
def test_lib_pdfviewer_vec2d_Inplace(self): inplace_vec = vec2d(5, 13) inplace_ref = inplace_vec inplace_src = vec2d(inplace_vec) inplace_vec *= .5 inplace_vec += .5 inplace_vec //= (3, 6) inplace_vec += vec2d(-1, -1) alternate = (inplace_src * .5 + .5) // vec2d(3, 6) + [-1, -1] self.assertEqual(inplace_vec, inplace_ref) self.assertEqual(inplace_vec, alternate)
def test_lib_pdfviewer_vec2d_Inplace(self): inplace_vec = vec2d(5, 13) inplace_ref = inplace_vec inplace_src = vec2d(inplace_vec) inplace_vec *= .5 inplace_vec += .5 inplace_vec /= (3, 6) inplace_vec += vec2d(-1, -1) alternate = (inplace_src*.5 + .5)/vec2d(3,6) + [-1, -1] self.assertEquals(inplace_vec, inplace_ref) self.assertEquals(inplace_vec, alternate)
def test_lib_pdfviewer_vec2d_Comparison(self): int_vec = vec2d(3, -2) flt_vec = vec2d(3.0, -2.0) zero_vec = vec2d(0, 0) self.assert_(int_vec == flt_vec) self.assert_(int_vec != zero_vec) self.assert_((flt_vec == zero_vec) == False) self.assert_((flt_vec != int_vec) == False) self.assert_(int_vec == (3, -2)) self.assert_(int_vec != [0, 0]) self.assert_(int_vec != 5) self.assert_(int_vec != [3, -2, -5])
def test_lib_pdfviewer_vec2d_Comparison(self): int_vec = vec2d(3, -2) flt_vec = vec2d(3.0, -2.0) zero_vec = vec2d(0, 0) self.assertTrue(int_vec == flt_vec) self.assertTrue(int_vec != zero_vec) self.assertTrue((flt_vec == zero_vec) == False) self.assertTrue((flt_vec != int_vec) == False) self.assertTrue(int_vec == (3, -2)) self.assertTrue(int_vec != [0, 0]) self.assertTrue(int_vec != 5) self.assertTrue(int_vec != [3, -2, -5])
def test_lib_pdfviewer_vec2d_Angles(self): v = vec2d(0, 3) self.assertEqual(v.angle, 90) v2 = vec2d(v) v.rotate(-90) self.assertEqual(v.get_angle_between(v2), 90) v2.angle -= 90 self.assertEqual(v.length, v2.length) self.assertEqual(v2.angle, 0) self.assertEqual(v2, [3, 0]) self.assertTrue((v - v2).length < .00001) self.assertEqual(v.length, v2.length) v2.rotate(300) self.assertAlmostEqual(v.get_angle_between(v2), -60) v2.rotate(v2.get_angle_between(v)) angle = v.get_angle_between(v2) self.assertAlmostEqual(v.get_angle_between(v2), 0)
def test_lib_pdfviewer_vec2d_Angles(self): v = vec2d(0, 3) self.assertEquals(v.angle, 90) v2 = vec2d(v) v.rotate(-90) self.assertEqual(v.get_angle_between(v2), 90) v2.angle -= 90 self.assertEqual(v.length, v2.length) self.assertEquals(v2.angle, 0) self.assertEqual(v2, [3, 0]) self.assert_((v - v2).length < .00001) self.assertEqual(v.length, v2.length) v2.rotate(300) self.assertAlmostEquals(v.get_angle_between(v2), -60) v2.rotate(v2.get_angle_between(v)) angle = v.get_angle_between(v2) self.assertAlmostEquals(v.get_angle_between(v2), 0)
def test_lib_pdfviewer_vec2d_CreationAndAccess(self): v = vec2d(111, 222) self.assertTrue(v.x == 111 and v.y == 222) v.x = 333 v[1] = 444 self.assertTrue(v[0] == 333 and v[1] == 444)
def test_lib_pdfviewer_vec2d_Cross(self): lhs = vec2d(1, .5) rhs = vec2d(4, 6) self.assertTrue(lhs.cross(rhs) == 4)
def test_lib_pdfviewer_vec2d_CreationAndAccess(self): v = vec2d(111,222) self.assert_(v.x == 111 and v.y == 222) v.x = 333 v[1] = 444 self.assert_(v[0] == 333 and v[1] == 444)
def test_lib_pdfviewer_vec2d_Unary(self): v = vec2d(111,222) v = -v self.assert_(v == [-111,-222]) v = abs(v) self.assert_(v == [111,222])
def test_lib_pdfviewer_vec2d_Unary(self): v = vec2d(111, 222) v = -v self.assertTrue(v == [-111, -222]) v = abs(v) self.assertTrue(v == [111, 222])
def test_lib_pdfviewer_vec2d_Cross(self): lhs = vec2d(1, .5) rhs = vec2d(4,6) self.assert_(lhs.cross(rhs) == 4)
def test_lib_pdfviewer_vec2d_Pickle(self): testvec = vec2d(5, .3) testvec_str = pickle.dumps(testvec) loaded_vec = pickle.loads(testvec_str) self.assertEqual(testvec, loaded_vec)
def test_lib_pdfviewer_vec2d_Pickle(self): testvec = vec2d(5, .3) testvec_str = pickle.dumps(testvec) loaded_vec = pickle.loads(testvec_str) self.assertEquals(testvec, loaded_vec)