Esempi in Python per Calibration.set_radial_distortion

Esempio n. 1

File: test_trafo_bindings.py Progetto: research-software-company/openptv

 def test_full_correction(self):
     """Round trip distortion/correction."""
     # This is all based on values from liboptv/tests/check_imgcoord.c
     cal = Calibration()
     cal.set_pos(np.r_[0., 0., 40.])
     cal.set_angles(np.r_[0., 0., 0.])
     cal.set_primary_point(np.r_[0., 0., 10.])
     cal.set_glass_vec(np.r_[0., 0., 20.])
     cal.set_radial_distortion(np.zeros(3))
     cal.set_decentering(np.zeros(2))
     cal.set_affine_trans(np.r_[1, 0])
     
     # reference metric positions:
     # Note the last value is different than in test_brown_affine() because
     # the iteration does not converge for a point too far out.
     ref_pos = np.array([
         [0.1, 0.1],
         [1., -1.],
         [-5., 5.]
     ])
     
     cal.set_radial_distortion(np.r_[0.001, 0., 0.])
     distorted = distort_arr_brown_affine(ref_pos, cal)
     corrected = distorted_to_flat(distorted, cal) # default tight tolerance
     np.testing.assert_array_almost_equal(ref_pos, corrected, decimal=6)

Esempio n. 2

File: test_trafo_bindings.py Progetto: research-software-company/openptv

 def test_brown_affine(self):
     """Distortion and correction of pixel coordinates."""
     
     # This is all based on values from liboptv/tests/check_imgcoord.c
     cal = Calibration()
     cal.set_pos(np.r_[0., 0., 40.])
     cal.set_angles(np.r_[0., 0., 0.])
     cal.set_primary_point(np.r_[0., 0., 10.])
     cal.set_glass_vec(np.r_[0., 0., 20.])
     cal.set_radial_distortion(np.zeros(3))
     cal.set_decentering(np.zeros(2))
     cal.set_affine_trans(np.r_[1, 0])
     
     # reference metric positions:
     ref_pos = np.array([
         [0.1, 0.1],
         [1., -1.],
         [-10., 10.]
     ])
     
     # Perfect camera: distortion = identity.
     distorted = distort_arr_brown_affine(ref_pos, cal)
     np.testing.assert_array_almost_equal(distorted, ref_pos)
     
     # Some small radial distortion:
     cal.set_radial_distortion(np.r_[0.001, 0., 0.])
     distorted = distort_arr_brown_affine(ref_pos, cal)
     self.failUnless(np.all(abs(distorted) > abs(ref_pos)))

Esempio n. 3

File: test_img_coord.py Progetto: OpenPTV/openptv

class Test_image_coordinates(unittest.TestCase):
    def setUp(self):
        self.control = ControlParams(4) 
    
        self.calibration = Calibration()
        
    def test_img_coord_typecheck(self):
        
        with self.assertRaises(TypeError):
            list = [[0 for x in range(3)] for x in range(10)]  # initialize a 10x3 list (but not numpy matrix)
            flat_image_coordinates(list, self.control, out=None)
        with self.assertRaises(TypeError):
            flat_image_coordinates(np.empty((10, 2)), self.calibration, self.control.get_multimedia_params(), output=None)
        with self.assertRaises(TypeError):
            image_coordinates(np.empty((10, 3)), self.calibration, self.control.get_multimedia_params(), output=np.zeros((10, 3)))
        with self.assertRaises(TypeError):
            image_coordinates(np.zeros((10, 2)), self.calibration, self.control.get_multimedia_params(), output=np.zeros((10, 2)))
   
    def test_image_coord_regress(self):
        
        self.calibration.set_pos(np.array([0, 0, 40]))
        self.calibration.set_angles(np.array([0, 0, 0]))
        self.calibration.set_primary_point(np.array([0, 0, 10]))
        self.calibration.set_glass_vec(np.array([0, 0, 20]))
        self.calibration.set_radial_distortion(np.array([0, 0, 0]))
        self.calibration.set_decentering(np.array([0, 0]))
        self.calibration.set_affine_trans(np.array([1, 0]))

        self.mult = MultimediaParams(n1=1,
                                     n2=np.array([1]),
                                     n3=1,
                                     d=np.array([1]))
        
        input = np.array([[10., 5., -20.],
                          [10., 5., -20.]])  # vec3d
        output = np.zeros((2, 2))
        
        x = 10. / 6.
        y = x / 2.
        correct_output = np.array([[x, y],
                                   [x, y]])

        flat_image_coordinates(input=input, cal=self.calibration, mult_params=self.mult, output=output)
        np.testing.assert_array_equal(output, correct_output)
        
        output=np.full((2,2), 999.)
        image_coordinates(input=input, cal=self.calibration, mult_params=self.mult, output=output)

        np.testing.assert_array_equal(output, correct_output)

Esempio n. 4

File: test_calibration_binding.py Progetto: research-software-company/openptv

class Test_Calibration(unittest.TestCase):
    def setUp(self):        
        self.input_ori_file_name = b"testing_fodder/calibration/cam1.tif.ori"
        self.input_add_file_name = b"testing_fodder/calibration/cam2.tif.addpar"
        self.output_directory = b"testing_fodder/calibration/testing_output/"
        
        # create a temporary output directory (will be deleted by the end of test)
        if not os.path.exists(self.output_directory):
            os.makedirs(self.output_directory)
            
        # create an instance of Calibration wrapper class
        self.cal = Calibration()
            
    def test_full_instantiate(self):
        pos = numpy.r_[1., 3., 5.]
        angs = numpy.r_[2., 4., 6.]
        prim_point = pos * 3
        rad_dist = pos * 4
        decent = pos[:2] * 5
        affine = decent * 1.5
        glass = pos * 7
        
        cal = Calibration(pos, angs, prim_point, rad_dist, decent, affine, 
            glass)
        
        numpy.testing.assert_array_equal(pos, cal.get_pos())
        numpy.testing.assert_array_equal(angs, cal.get_angles())
        numpy.testing.assert_array_equal(prim_point, cal.get_primary_point())
        numpy.testing.assert_array_equal(rad_dist, cal.get_radial_distortion())
        numpy.testing.assert_array_equal(decent, cal.get_decentering())
        numpy.testing.assert_array_equal(affine, cal.get_affine())
        numpy.testing.assert_array_equal(glass, cal.get_glass_vec())
        
    def test_Calibration_instantiation(self):
        """Filling a calibration object by reading ori files"""
        self.output_ori_file_name = self.output_directory + b"output_ori"
        self.output_add_file_name = self.output_directory + b"output_add"
                
        # Using a round-trip test.
        self.cal.from_file(self.input_ori_file_name, self.input_add_file_name)
        self.cal.write(self.output_ori_file_name, self.output_add_file_name)
        
        self.assertTrue(filecmp.cmp(self.input_ori_file_name, self.output_ori_file_name, 0))
        self.assertTrue(filecmp.cmp(self.input_add_file_name, self.output_add_file_name, 0))
        
    def test_set_pos(self):
        """Set exterior position, only for admissible values"""
        # test set_pos() by passing a numpy array of 3 elements
        new_np = numpy.array([111.1111, 222.2222, 333.3333])
        self.cal.set_pos(new_np)

        # test getting position and assert that position is equal to set position
        numpy.testing.assert_array_equal(new_np, self.cal.get_pos())
        
        # assert set_pos() raises ValueError exception when given more or less than 3 elements 
        self.assertRaises(ValueError, self.cal.set_pos, numpy.array([1, 2, 3, 4]))
        self.assertRaises(ValueError, self.cal.set_pos, numpy.array([1, 2]))
    
    def test_set_angles(self):
        """set angles correctly"""
        dmatrix_before = self.cal.get_rotation_matrix()  # dmatrix before setting angles
        angles_np = numpy.array([0.1111, 0.2222, 0.3333])
        self.cal.set_angles(angles_np)
        
        dmatrix_after = self.cal.get_rotation_matrix()  # dmatrix after setting angles
        numpy.testing.assert_array_equal(self.cal.get_angles(), angles_np)
        
        # assert dmatrix was recalculated (before vs after)
        self.assertFalse(numpy.array_equal(dmatrix_before, dmatrix_after))
        
        self.assertRaises(ValueError, self.cal.set_angles, numpy.array([1, 2, 3, 4]))
        self.assertRaises(ValueError, self.cal.set_angles, numpy.array([1, 2]))
    
    def tearDown(self):
        # remove the testing output directory and its files
        shutil.rmtree(self.output_directory)
        
    def test_set_primary(self):
        """Set primary point (interior) position, only for admissible values"""
        new_pp = numpy.array([111.1111, 222.2222, 333.3333])
        self.cal.set_primary_point(new_pp)

        numpy.testing.assert_array_equal(new_pp, self.cal.get_primary_point())
        self.assertRaises(ValueError, self.cal.set_primary_point, numpy.ones(4))
        self.assertRaises(ValueError, self.cal.set_primary_point, numpy.ones(2))
    
    def test_set_radial(self):
        """Set radial distortion, only for admissible values"""
        new_rd = numpy.array([111.1111, 222.2222, 333.3333])
        self.cal.set_radial_distortion(new_rd)

        numpy.testing.assert_array_equal(new_rd, 
            self.cal.get_radial_distortion())
        self.assertRaises(ValueError, self.cal.set_radial_distortion, 
            numpy.ones(4))
        self.assertRaises(ValueError, self.cal.set_radial_distortion,
            numpy.ones(2))
    
    def test_set_decentering(self):
        """Set radial distortion, only for admissible values"""
        new_de = numpy.array([111.1111, 222.2222])
        self.cal.set_decentering(new_de)

        numpy.testing.assert_array_equal(new_de, self.cal.get_decentering())
        self.assertRaises(ValueError, self.cal.set_decentering, numpy.ones(3))
        self.assertRaises(ValueError, self.cal.set_decentering, numpy.ones(1))
    
    def test_set_glass(self):
        """Set glass vector, only for admissible values"""
        new_gv = numpy.array([1., 2., 3.])
        self.cal.set_glass_vec(new_gv)

        numpy.testing.assert_array_equal(new_gv, self.cal.get_glass_vec())
        self.assertRaises(ValueError, self.cal.set_glass_vec, numpy.ones(2))
        self.assertRaises(ValueError, self.cal.set_glass_vec, numpy.ones(1))

Esempio n. 5

File: test_img_coord.py Progetto: scharlton2/openptv

class Test_image_coordinates(unittest.TestCase):
    def setUp(self):
        self.control = ControlParams(4)

        self.calibration = Calibration()

    def test_img_coord_typecheck(self):

        with self.assertRaises(TypeError):
            list = [[0 for x in range(3)] for x in range(10)
                    ]  # initialize a 10x3 list (but not numpy matrix)
            flat_image_coordinates(list, self.control, out=None)
        with self.assertRaises(TypeError):
            flat_image_coordinates(np.empty((10, 2)),
                                   self.calibration,
                                   self.control.get_multimedia_params(),
                                   output=None)
        with self.assertRaises(TypeError):
            image_coordinates(np.empty((10, 3)),
                              self.calibration,
                              self.control.get_multimedia_params(),
                              output=np.zeros((10, 3)))
        with self.assertRaises(TypeError):
            image_coordinates(np.zeros((10, 2)),
                              self.calibration,
                              self.control.get_multimedia_params(),
                              output=np.zeros((10, 2)))

    def test_image_coord_regress(self):

        self.calibration.set_pos(np.array([0, 0, 40]))
        self.calibration.set_angles(np.array([0, 0, 0]))
        self.calibration.set_primary_point(np.array([0, 0, 10]))
        self.calibration.set_glass_vec(np.array([0, 0, 20]))
        self.calibration.set_radial_distortion(np.array([0, 0, 0]))
        self.calibration.set_decentering(np.array([0, 0]))
        self.calibration.set_affine_trans(np.array([1, 0]))

        self.mult = MultimediaParams(n1=1,
                                     n2=np.array([1]),
                                     n3=1,
                                     d=np.array([1]))

        input = np.array([[10., 5., -20.], [10., 5., -20.]])  # vec3d
        output = np.zeros((2, 2))

        x = 10. / 6.
        y = x / 2.
        correct_output = np.array([[x, y], [x, y]])

        flat_image_coordinates(input=input,
                               cal=self.calibration,
                               mult_params=self.mult,
                               output=output)
        np.testing.assert_array_equal(output, correct_output)

        output = np.full((2, 2), 999.)
        image_coordinates(input=input,
                          cal=self.calibration,
                          mult_params=self.mult,
                          output=output)

        np.testing.assert_array_equal(output, correct_output)

Esempio n. 6

File: test_calibration_binding.py Progetto: segalmax/openptv

class Test_Calibration(unittest.TestCase):
    def setUp(self):        
        self.input_ori_file_name = "testing_fodder/calibration/cam1.tif.ori"
        self.input_add_file_name = "testing_fodder/calibration/cam2.tif.addpar"
        self.output_directory = "testing_fodder/calibration/testing_output/"
        
        # create a temporary output directory (will be deleted by the end of test)
        if not os.path.exists(self.output_directory):
            os.makedirs(self.output_directory)
            
        # create an instance of Calibration wrapper class
        self.cal = Calibration()
            
    def test_Calibration_instantiation(self):
        """Filling a calibration object by reading ori files"""
        self.output_ori_file_name = self.output_directory + "output_ori"
        self.output_add_file_name = self.output_directory + "output_add"
                
        # Using a round-trip test.
        self.cal.from_file(self.input_ori_file_name, self.input_add_file_name)
        self.cal.write(self.output_ori_file_name, self.output_add_file_name)
        
        self.assertTrue(filecmp.cmp(self.input_ori_file_name, self.output_ori_file_name, 0))
        self.assertTrue(filecmp.cmp(self.input_add_file_name, self.output_add_file_name, 0))
        
    def test_set_pos(self):
        """Set exterior position, only for admissible values"""
        # test set_pos() by passing a numpy array of 3 elements
        new_np = numpy.array([111.1111, 222.2222, 333.3333])
        self.cal.set_pos(new_np)

        # test getting position and assert that position is equal to set position
        numpy.testing.assert_array_equal(new_np, self.cal.get_pos())
        
        # assert set_pos() raises ValueError exception when given more or less than 3 elements 
        self.assertRaises(ValueError, self.cal.set_pos, numpy.array([1, 2, 3, 4]))
        self.assertRaises(ValueError, self.cal.set_pos, numpy.array([1, 2]))
    
    def test_set_angles(self):
        """set angles correctly"""
        dmatrix_before = self.cal.get_rotation_matrix()  # dmatrix before setting angles
        angles_np = numpy.array([0.1111, 0.2222, 0.3333])
        self.cal.set_angles(angles_np)
        
        dmatrix_after = self.cal.get_rotation_matrix()  # dmatrix after setting angles
        numpy.testing.assert_array_equal(self.cal.get_angles(), angles_np)
        
        # assert dmatrix was recalculated (before vs after)
        self.assertFalse(numpy.array_equal(dmatrix_before, dmatrix_after))
        
        self.assertRaises(ValueError, self.cal.set_angles, numpy.array([1, 2, 3, 4]))
        self.assertRaises(ValueError, self.cal.set_angles, numpy.array([1, 2]))
    
    def tearDown(self):
        # remove the testing output directory and its files
        shutil.rmtree(self.output_directory)
        
    def test_set_primary(self):
        """Set primary point (interior) position, only for admissible values"""
        new_pp = numpy.array([111.1111, 222.2222, 333.3333])
        self.cal.set_primary_point(new_pp)

        numpy.testing.assert_array_equal(new_pp, self.cal.get_primary_point())
        self.assertRaises(ValueError, self.cal.set_primary_point, numpy.ones(4))
        self.assertRaises(ValueError, self.cal.set_primary_point, numpy.ones(2))
    
    def test_set_radial(self):
        """Set radial distortion, only for admissible values"""
        new_rd = numpy.array([111.1111, 222.2222, 333.3333])
        self.cal.set_radial_distortion(new_rd)

        numpy.testing.assert_array_equal(new_rd, 
            self.cal.get_radial_distortion())
        self.assertRaises(ValueError, self.cal.set_radial_distortion, 
            numpy.ones(4))
        self.assertRaises(ValueError, self.cal.set_radial_distortion,
            numpy.ones(2))
    
    def test_set_decentering(self):
        """Set radial distortion, only for admissible values"""
        new_de = numpy.array([111.1111, 222.2222])
        self.cal.set_decentering(new_de)

        numpy.testing.assert_array_equal(new_de, self.cal.get_decentering())
        self.assertRaises(ValueError, self.cal.set_decentering, numpy.ones(3))
        self.assertRaises(ValueError, self.cal.set_decentering, numpy.ones(1))
    
    def test_set_glass(self):
        """Set glass vector, only for admissible values"""
        new_gv = numpy.array([1., 2., 3.])
        self.cal.set_glass_vec(new_gv)

        numpy.testing.assert_array_equal(new_gv, self.cal.get_glass_vec())
        self.assertRaises(ValueError, self.cal.set_glass_vec, numpy.ones(2))
        self.assertRaises(ValueError, self.cal.set_glass_vec, numpy.ones(1))