Example #1
0
    def testEulerAnglesToQuaternion(self):
        #Verified with Rollett, Tony (2008) Advanced Characterization and Microstructural Analysis

        #Test calculation
        e = eulers.Eulers(0, 0, 0)
        q = quaternions.eulerangles_to_quaternion(e)
        expected_q = quaternions.Quaternion(1, 0, 0, 0)
        self.assertTrue(quaternions.almostequal(q, expected_q))

        e = eulers.Eulers(0, pi / 4, 0)
        q = quaternions.eulerangles_to_quaternion(e)
        expected_q = quaternions.Quaternion(cos(0.5 * pi / 4),
                                            sin(0.5 * pi / 4), 0, 0)
        self.assertTrue(quaternions.almostequal(q, expected_q))

        e = eulers.Eulers(35 / 180.0 * pi, 27 / 180.0 * pi, 102 / 180.0 * pi)
        q = quaternions.eulerangles_to_quaternion(e)
        expected_q = quaternions.axisangle_to_quaternion(35 / 180.0 * pi, (0, 0, 1)) * \
                     quaternions.axisangle_to_quaternion(27 / 180.0 * pi, (1, 0, 0)) * \
                     quaternions.axisangle_to_quaternion(102 / 180.0 * pi, (0, 0, 1))
        self.assertTrue(quaternions.almostequal(q, expected_q))

        for _i in range(REPETITIONS):
            e1 = random.random() * 360
            e2 = random.random() * 180
            e3 = random.random() * 360

            e = eulers.eulers_deg_to_eulers_rad(e1, e2, e3)
            q = quaternions.eulerangles_to_quaternion(e)
            expected_q = quaternions.axisangle_to_quaternion(e[1], (0, 0, 1)) * \
                         quaternions.axisangle_to_quaternion(e[2], (1, 0, 0)) * \
                         quaternions.axisangle_to_quaternion(e[3], (0, 0, 1))
            self.assertTrue(quaternions.almostequal(q, expected_q))
Example #2
0
    def test__eq__(self):
        euler = eulers.Eulers(0.1, 0.2, 0.3)
        self.assertTrue(self.e1 == euler)

        euler = eulers.Eulers(0.4, 0.5, 0.6)
        self.assertTrue(self.e2 == euler)

        euler = eulers.Eulers(0.7, 0.8, 0.9)
        self.assertTrue(self.e3 == euler)
Example #3
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    def testnegative(self):
        e1 = eulers.negative(eulers.Eulers(0, 0, 0)).to_rad()
        self.assertAlmostEqual(e1[0], 0.0)
        self.assertAlmostEqual(e1[1], 0.0)
        self.assertAlmostEqual(e1[2], 0.0)

        eulers1 = eulers.Eulers(pi, 0, pi)
        eulers1.negative()
        e1 = eulers1.to_rad()
        self.assertAlmostEqual(e1[0], pi)
        self.assertAlmostEqual(e1[1], 0.0)
        self.assertAlmostEqual(e1[2], pi)

        eulers1 = eulers.Eulers(3.0 * pi / 2.0, 0, 5 * pi / 3)
        eulers1.negative()
        e1 = eulers1.to_rad()
        self.assertAlmostEqual(e1[0], -pi / 2.0)
        self.assertAlmostEqual(e1[1], 0)
        self.assertAlmostEqual(e1[2], -pi / 3)
Example #4
0
    def testpositive(self):
        e1 = eulers.positive(eulers.Eulers(0, 0, 0)).to_rad()
        self.assertAlmostEqual(e1[0], 0.0)
        self.assertAlmostEqual(e1[1], 0.0)
        self.assertAlmostEqual(e1[2], 0.0)

        eulers1 = eulers.Eulers(pi, 0, pi)
        eulers1.positive()
        e1 = eulers1.to_rad()
        self.assertAlmostEqual(e1[0], pi)
        self.assertAlmostEqual(e1[1], 0.0)
        self.assertAlmostEqual(e1[2], pi)

        eulers1 = eulers.Eulers(-pi / 2.0, 0, -pi / 3)
        eulers1.positive()
        e1 = eulers1.to_rad()
        self.assertAlmostEqual(e1[0], 3.0 * pi / 2.0)
        self.assertAlmostEqual(e1[1], 0.0)
        self.assertAlmostEqual(e1[2], 5.0 * pi / 3.0)
Example #5
0
    def testrotate(self):
        #Test of successive rotations
        q = quaternions.Quaternion(0, 1, 0, 0)  #Vector (1,0,0)
        q1 = quaternions.axisangle_to_quaternion(
            pi / 2.0, (0, 0, 1))  #90deg rotation along z-axis
        q2 = quaternions.axisangle_to_quaternion(
            pi / 2.0, (1, 0, 0))  #90deg rotation along x-axis

        qq1 = quaternions.rotate(q, [q1])
        expected_qq1 = quaternions.Quaternion(0, 0, 1, 0)
        self.assertTrue(quaternions.almostequal(expected_qq1, qq1))

        # Vector (0,1,0)

        qq1q2 = quaternions.rotate(qq1, [q2])
        expected_qq1q2 = quaternions.Quaternion(0, 0, 0, 1)
        self.assertTrue(quaternions.almostequal(
            qq1q2, expected_qq1q2))  #Vector (0,0,1)

        expected_qq1q2 = quaternions.rotate(q, [q1, q2])
        self.assertTrue(quaternions.almostequal(
            qq1q2, expected_qq1q2))  #Order of rotation q1 then q2

        notexpected_qq1q2 = quaternions.rotate(q, [q2, q1])
        self.assertFalse(quaternions.almostequal(qq1q2, notexpected_qq1q2))

        #Test of successive rotations
        q = quaternions.Quaternion(0, 1, 0, 0)  #Vector (1,0,0)
        q1 = quaternions.eulerangles_to_quaternion(eulers.Eulers(13, 0, 93))
        q2 = quaternions.eulerangles_to_quaternion(eulers.Eulers(60, 80, 152))
        q3 = quaternions.eulerangles_to_quaternion(eulers.Eulers(150, 0, 12))

        qq1 = quaternions.rotate(q, [q1])
        qq1q2 = quaternions.rotate(qq1, [q2])
        qq1q2q3 = quaternions.rotate(qq1q2, [q3])

        #Order of rotation q1, q2 then q3
        expected_qq1q2q3 = quaternions.rotate(q, [q1, q2, q3])
        self.assertTrue(quaternions.almostequal(qq1q2q3, expected_qq1q2q3))

        notexpected_qq1q2q3 = quaternions.rotate(q, [q3, q2, q1])
        self.assertFalse(quaternions.almostequal(qq1q2q3, notexpected_qq1q2q3))
Example #6
0
    def to_eulerangles(self):
        """
        Give the euler angles for the quaternion.
        
        **References**
        
          Martin Baker (2008) Euclidean Space http://www.euclideansplace.com
        
        :rtype: :class:`eulers.Eulers`
        """
        qcalc = normalize(self)

        q0 = qcalc._a
        q1 = qcalc._A[0]
        q2 = qcalc._A[1]
        q3 = qcalc._A[2]

        x = (q0**2 + q3**2) * (q1**2 + q2**2)

        if round(abs(x), 7 * 2) == 0.0:
            if round(abs(q1), 7) == 0.0 and round(abs(q2), 7) == 0.0:
                theta1 = atan2(2 * q0 * q3, q0**2 - q3**2)
                theta2 = 0
                theta3 = 0
            elif round(abs(q0), 7) == 0.0 and round(abs(q3), 7) == 0.0:
                theta1 = atan2(2 * q1 * q2, q1**2 - q2**2)
                theta2 = pi
                theta3 = 0
        else:
            theta1 = atan2(q3, q0) + atan2(q2, q1)
            theta2 = acos(1 - 2 * q1**2 - 2 * q2**2)
            theta3 = atan2(q3, q0) - atan2(q2, q1)
            assert round(abs(theta2 - acos(q0**2 - q1**2 - q2**2 + q3**2)),
                         7) == 0.0

        assert round(
            abs(2 * atan2(sqrt(q1**2 + q2**2), sqrt(q0**2 + q3**2)) -
                theta2)) == 0.0

        e1 = eulers.Eulers(theta1, theta2, theta3)
        e1.positive()
        return e1
Example #7
0
    def testto_eulerangles(self):
        # Random eulers
        for _i in range(REPETITIONS):
            euler1 = random.random() * 360
            euler2 = random.random() * 180
            euler3 = random.random() * 360

            e = eulers.eulers_deg_to_eulers_rad(euler1, euler2, euler3)
            q1 = quaternions.eulerangles_to_quaternion(e)
            q2 = quaternions.axisangle_to_quaternion(e[1], (0, 0, 1)) * \
                 quaternions.axisangle_to_quaternion(e[2], (1, 0, 0)) * \
                 quaternions.axisangle_to_quaternion(e[3], (0, 0, 1))
            self.assertTrue(quaternions.almostequal(q1, q2))

            qangles = q1.to_eulerangles().to_deg()
            self.assertAlmostEqual(euler2, qangles[1])
            self.assertAlmostEqual(euler1, qangles[0])
            self.assertAlmostEqual(euler3, qangles[2])

        # Special case when theta2 = 0
        for _i in range(REPETITIONS):
            euler1 = random.random() * 360
            euler2 = 0.0
            euler3 = random.random() * (360 - euler1)

            e = eulers.eulers_deg_to_eulers_rad(euler1, euler2, euler3)
            q = quaternions.eulerangles_to_quaternion(e)

            qangles = q.to_eulerangles().to_deg()
            euler13 = euler1 + euler3
            self.assertAlmostEqual(euler13, qangles[0])
            self.assertAlmostEqual(0.0, qangles[1])
            self.assertAlmostEqual(0.0, qangles[2])

            euler3 = random.random() * 360
            euler2 = 0.0
            euler1 = random.random() * (360 - euler3)

            e = eulers.eulers_deg_to_eulers_rad(euler1, euler2, euler3)
            q = quaternions.eulerangles_to_quaternion(e)

            qangles = q.to_eulerangles().to_deg()
            euler13 = euler1 + euler3
            self.assertAlmostEqual(euler13, qangles[0])
            self.assertAlmostEqual(0.0, qangles[1])
            self.assertAlmostEqual(0.0, qangles[2])

        # Special case when theta2 = pi
        for _i in range(REPETITIONS):
            euler1 = random.random() * 360
            euler2 = 180
            euler3 = random.random() * (360 - euler1)

            e = eulers.eulers_deg_to_eulers_rad(euler1, euler2, euler3)
            q = quaternions.eulerangles_to_quaternion(e)

            qangles = q.to_eulerangles().to_deg()
            euler13 = euler1 - euler3
            e = eulers.Eulers(euler13 / 180.0 * pi, pi, 0.0)
            e.positive()
            angles = e.to_deg()
            self.assertAlmostEqual(angles[0], qangles[0])
            self.assertAlmostEqual(angles[1], qangles[1])
            self.assertAlmostEqual(angles[2], qangles[2])

            euler3 = random.random() * 360
            euler2 = 180
            euler1 = random.random() * (360 - euler3)

            e = eulers.eulers_deg_to_eulers_rad(euler1, euler2, euler3)
            q = quaternions.eulerangles_to_quaternion(e)

            qangles = q.to_eulerangles().to_deg()
            euler13 = euler1 - euler3
            e = eulers.Eulers(euler13 / 180.0 * pi, pi, 0.0)
            e.positive()
            angles = e.to_deg()
            self.assertAlmostEqual(angles[0], qangles[0])
            self.assertAlmostEqual(angles[1], qangles[1])
            self.assertAlmostEqual(angles[2], qangles[2])
Example #8
0
    def setUp(self):
        unittest.TestCase.setUp(self)

        self.e1 = eulers.Eulers(0.1, 0.2, 0.3)
        self.e2 = eulers.Eulers([0.4, 0.5, 0.6])
        self.e3 = eulers.Eulers((0.7, 0.8, 0.9))