def test1_create_wrong_coordinate_system(self):
        # coordinate system
        cs_params = CoordinateSystemParameters()
        cs_params.name = "coordinate_system_test"
        cs_params.distance = 1500
        cs_params.P[0].x = 100
        cs_params.P[0].y = 250
        cs_params.P[1].x = 200
        cs_params.P[1].y = 0
        cs_params.P[2].x = 200
        cs_params.P[2].y = 200
        cs_params.P[3].x = 0
        cs_params.P[3].y = 200
        cs_params.T[0].x = 0
        cs_params.T[0].y = 0
        cs_params.resolution = 1000

        try:
            self.projector_manager.connect_and_setup()
            status = self.projector_manager.get_connection_status()
            if status:
                self.projector_manager.define_coordinate_system(
                    cs_params, False)
                self.fail("Library accepted invalid data")
            else:
                self.fail("connection error")

        except Exception as e:
            pass
    def test1_create_projection_elements(self):
        # coordinate system
        cs_params            = CoordinateSystemParameters()
        cs_params.name       = "coordinate_system_test"
        cs_params.distance   = 1500
        cs_params.P[0].x     = -100
        cs_params.P[0].y     = -100
        cs_params.P[1].x     =  100
        cs_params.P[1].y     = -100
        cs_params.P[2].x     =  100
        cs_params.P[2].y     =  100
        cs_params.P[3].x     = -100
        cs_params.P[3].y     =  100
        cs_params.T[0].x     =    0
        cs_params.T[0].y     =    0
        cs_params.resolution = 1000
        
        # common
        figure = Figure()
        figure.projection_group = "figure_test"
        figure.position.x = 0      
        figure.position.y = 0        
        figure.position.z = 0        
        figure.angle.append(0)
        # polyline
        polyline = deepcopy(figure)
        polyline.figure_type = Figure.POLYLINE
        polyline.figure_name = "polyline_test"
        polyline.size.append(100) # length
        # circle
        circle = deepcopy(figure)
        circle.figure_type = Figure.CIRCLE
        circle.figure_name = "circle_test"
        circle.size.append(50) # radius
        # text
        text = deepcopy(figure)
        text.figure_type = Figure.TEXT
        text.figure_name = "text_test"
        text.size.append(10) # heigh
        text.size.append(2) # char spacing
        text.text = "TEST"

        try:
            self.projector_manager.connect_and_setup()
            status = self.projector_manager.get_connection_status()
            if status:
                self.projector_manager.define_coordinate_system(cs_params, False)
                self.projector_manager.create_polyline(polyline)
                self.projector_manager.create_curve(circle)
                self.projector_manager.create_text(text)
                pass
            else:
                self.fail("connection error")

        except Exception as e:
            self.fail("Exception raised: {}".format(e))
    def test2_create_coordinate_system(self):
        name1 = "coordinate_system_test_1"
        name2 = "coordinate_system_test_2"
        # coordinate system 1
        cs_params1 = CoordinateSystemParameters()
        cs_params1.name = name1
        cs_params1.distance = 1500
        cs_params1.P[0].x = -100
        cs_params1.P[0].y = -100
        cs_params1.P[1].x = 100
        cs_params1.P[1].y = -100
        cs_params1.P[2].x = 100
        cs_params1.P[2].y = 100
        cs_params1.P[3].x = -100
        cs_params1.P[3].y = 100
        cs_params1.T[0].x = 0
        cs_params1.T[0].y = 0
        cs_params1.resolution = 1000
        # coordinate system 2
        cs_params2 = deepcopy(cs_params1)
        cs_params2.name = name2
        cs_params2.distance = 2000

        try:
            self.projector_manager.connect_and_setup()
            status = self.projector_manager.get_connection_status()
            if status:
                # create coordinate system 1
                self.projector_manager.define_coordinate_system(
                    cs_params1, False)
                cs_read = self.projector_manager.get_coordinate_system_params(
                    name1)
                self.assertEquals(cs_read.distance, cs_params1.distance)
                self.assertEquals(cs_read.name, name1)
                # create coordinate system 2
                self.projector_manager.define_coordinate_system(
                    cs_params2, False)
                cs_read = self.projector_manager.get_coordinate_system_params(
                    name2)
                self.assertEquals(cs_read.distance, cs_params2.distance)
                self.assertEquals(cs_read.name, name2)
                # change to coordinate system 1 and remove 2
                self.projector_manager.set_coordinate_system(name1)
                cs_list, cs_active = self.projector_manager.get_coordinate_systems_list(
                )
                self.assertEquals(cs_active, name1)
                self.projector_manager.remove_coordinate_system(name2)
                pass
            else:
                self.fail("connection error")

        except Exception as e:
            self.fail("Exception raised: {}".format(e))
예제 #4
0
    def test2_coordinate_system(self):

        cs = CoordinateSystemParameters()
        try:
            # this fields should be available
            cs.name = "test"
            cs.distance = 120.5
            cs.resolution = 200
            self.assertEquals(len(cs.P), 4)
            self.assertEquals(len(cs.T), 4)
        except Exception as e:
            self.fail("Exception raised: {}".format(e))
    def test2_projection_element(self):    
        # coordinate system
        cs_params            = CoordinateSystemParameters()
        cs_params.name       = "coordinate_system_test"
        cs_params.distance   = 1500
        cs_params.P[0].x     = -100
        cs_params.P[0].y     = -100
        cs_params.P[1].x     =  100
        cs_params.P[1].y     = -100
        cs_params.P[2].x     =  100
        cs_params.P[2].y     =  100
        cs_params.P[3].x     = -100
        cs_params.P[3].y     =  100
        cs_params.T[0].x     =    0
        cs_params.T[0].y     =    0
        cs_params.resolution = 1000

        # polyline
        polyline = Figure()
        polyline.figure_type = Figure.POLYLINE
        polyline.projection_group = "figure_test"
        polyline.figure_name = "polyline_test"
        polyline.position.x = 0.0      
        polyline.position.y = 0.0        
        polyline.position.z = 0.0        
        polyline.angle.append(0)
        polyline.size.append(100) # length

        # proj_elem
        proj_elem = ProjectionElementRequest()
        proj_elem.figure_type = Figure.POLYLINE
        proj_elem.projection_group = "figure_test"
        proj_elem.figure_name = "polyline_test"

        try:
            self.projector_manager.connect_and_setup()
            status = self.projector_manager.get_connection_status()
            if status:
                self.projector_manager.define_coordinate_system(cs_params, False)
                self.projector_manager.create_polyline(polyline)
                figure = self.projector_manager.get_proj_elem(proj_elem)
                self.assertEqual(figure.size[0], polyline.size[0])
                self.assertEqual(figure.angle[0], polyline.angle[0])
                self.assertEqual(figure.position.x, polyline.position.x)
                # if figure is ok, do operations
                self.projector_manager.hide_proj_elem(proj_elem)
                self.projector_manager.unhide_proj_elem(proj_elem)
                self.projector_manager.remove_proj_elem(proj_elem)
            else:
                self.fail("connection error")

        except Exception as e:
            self.fail("Exception raised: {}".format(e))
    def test3_define_pointer(self):
        
        # coordinate system
        cs_params            = CoordinateSystemParameters()
        cs_params.name       = "coordinate_system_test"
        cs_params.distance   = 1500
        cs_params.P[0].x     = -100
        cs_params.P[0].y     = -100
        cs_params.P[1].x     =  100
        cs_params.P[1].y     = -100
        cs_params.P[2].x     =  100
        cs_params.P[2].y     =  100
        cs_params.P[3].x     = -100
        cs_params.P[3].y     =  100
        cs_params.T[0].x     =    0
        cs_params.T[0].y     =    0
        cs_params.resolution = 1000        

        # pointer
        pointer = Figure()
        pointer.figure_type = Figure.POINTER
        pointer.projection_group = "figure_test"
        pointer.figure_name = "pointer_test"
        pointer.position.x = 0.0      
        pointer.position.y = 0.0        
        pointer.position.z = 0.0
        pointer.size.append(5) # height
        pointer.angle.append(0)

        # proj_elem
        proj_elem = ProjectionElementRequest()
        proj_elem.figure_type = Figure.POINTER
        proj_elem.projection_group = "figure_test"
        proj_elem.figure_name = "pointer_test"

        try:
            self.projector_manager.connect_and_setup()
            status = self.projector_manager.get_connection_status()
            if status:
                self.projector_manager.define_coordinate_system(cs_params, False)
                self.projector_manager.create_pointer(pointer)
                figure = self.projector_manager.get_proj_elem(proj_elem)
                self.assertEqual(figure.size[0], pointer.size[0])
                self.assertEqual(figure.position.x, pointer.position.x)
            else:
                self.fail("connection error")

        except Exception as e:
            self.fail("Exception raised: {}".format(e))
예제 #7
0
    def read_rosparam_coordinate_system(self):
        """Get parameters of the active reference system from rosparams.

        Returns:
            cs_params (object): object with the parameters of the active reference system
        """
        cs_params            = CoordinateSystemParameters()
        cs_params.name       = rospy.get_param('coordinate_system_name', "default_cs")
        cs_params.distance   = rospy.get_param('coordinate_system_distance', 1500)
        cs_params.P[0].x     = rospy.get_param('P0/x', -100)
        cs_params.P[0].y     = rospy.get_param('P0/y', -100)
        cs_params.P[1].x     = rospy.get_param('P1/x', -100)
        cs_params.P[1].y     = rospy.get_param('P1/y',  100)
        cs_params.P[2].x     = rospy.get_param('P2/x',  100)
        cs_params.P[2].y     = rospy.get_param('P2/y',  100)
        cs_params.P[3].x     = rospy.get_param('P3/x',  100)
        cs_params.P[3].y     = rospy.get_param('P3/y', -100)
        cs_params.T[0].x     = rospy.get_param('T0/x',    0)
        cs_params.T[0].y     = rospy.get_param('T0/y',    0)
        cs_params.resolution = rospy.get_param('coordinate_system_resolution', 1000)
        return cs_params
    def test3_create_coordinate_system(self):
        name = "coordinate_system_test"
        # coordinate system
        cs_params = CoordinateSystemParameters()
        cs_params.name = name
        cs_params.distance = 1500
        cs_params.P[0].x = -100
        cs_params.P[0].y = -100
        cs_params.P[1].x = 100
        cs_params.P[1].y = -100
        cs_params.P[2].x = 100
        cs_params.P[2].y = 100
        cs_params.P[3].x = -100
        cs_params.P[3].y = 100
        cs_params.T[0].x = 0
        cs_params.T[0].y = 0
        cs_params.resolution = 1000

        try:
            self.projector_manager.connect_and_setup()
            status = self.projector_manager.get_connection_status()
            if status:
                # create coordinate system
                self.projector_manager.define_coordinate_system(
                    cs_params, False)
                cs_read = self.projector_manager.get_coordinate_system_params(
                    name)
                self.assertEquals(cs_read.distance, cs_params.distance)
                # create axes and frame
                self.projector_manager.cs_axes_create(cs_params)
                self.projector_manager.cs_frame_create(cs_params)
                pass
            else:
                self.fail("connection error")

        except Exception as e:
            self.fail("Exception raised: {}".format(e))