Example #1
0
    def test_actionable_submission(self):
        """Tests actionable_submission correctly filters submissions."""
        # t1 created and updated before take off.
        t1 = Target(user=self.user, target_type=TargetType.standard)
        t1.save()
        t1.alphanumeric = 'A'
        t1.save()

        # t2 created before take off and updated in flight.
        t2 = Target(user=self.user, target_type=TargetType.standard)
        t2.save()

        event = TakeoffOrLandingEvent(user=self.user, uas_in_air=True)
        event.save()

        t2.alphanumeric = 'A'
        t2.save()

        # t3 created and updated in flight.
        t3 = Target(user=self.user, target_type=TargetType.standard)
        t3.save()
        t3.alphanumeric = 'A'
        t3.save()

        # t4 created in flight and updated after landing.
        t4 = Target(user=self.user, target_type=TargetType.standard)
        t4.save()

        event = TakeoffOrLandingEvent(user=self.user, uas_in_air=False)
        event.save()

        t4.alphanumeric = 'A'
        t4.save()

        # t5 created and updated after landing.
        t5 = Target(user=self.user, target_type=TargetType.standard)
        t5.save()
        t5.alphanumeric = 'A'
        t5.save()

        self.assertFalse(t1.actionable_submission())
        self.assertFalse(t2.actionable_submission())
        self.assertTrue(t3.actionable_submission())
        self.assertFalse(t4.actionable_submission())
        self.assertFalse(t5.actionable_submission())
Example #2
0
    def test_actionable_submission(self):
        """Tests actionable_submission correctly filters submissions."""
        # t1 created and updated before take off.
        t1 = Target(user=self.user, target_type=TargetType.standard)
        t1.save()
        t1.alphanumeric = "A"
        t1.save()

        # t2 created before take off and updated in flight.
        t2 = Target(user=self.user, target_type=TargetType.standard)
        t2.save()

        event = TakeoffOrLandingEvent(user=self.user, uas_in_air=True)
        event.save()

        t2.alphanumeric = "A"
        t2.save()

        # t3 created and updated in flight.
        t3 = Target(user=self.user, target_type=TargetType.standard)
        t3.save()
        t3.alphanumeric = "A"
        t3.save()

        # t4 created in flight and updated after landing.
        t4 = Target(user=self.user, target_type=TargetType.standard)
        t4.save()

        event = TakeoffOrLandingEvent(user=self.user, uas_in_air=False)
        event.save()

        t4.alphanumeric = "A"
        t4.save()

        # t5 created and updated after landing.
        t5 = Target(user=self.user, target_type=TargetType.standard)
        t5.save()
        t5.alphanumeric = "A"
        t5.save()

        self.assertFalse(t1.actionable_submission())
        self.assertFalse(t2.actionable_submission())
        self.assertTrue(t3.actionable_submission())
        self.assertFalse(t4.actionable_submission())
        self.assertFalse(t5.actionable_submission())
Example #3
0
    def test_last_modified_time(self):
        """Last modified time is set on creation and changes every update."""
        t = Target(user=self.user, target_type=TargetType.standard)
        t.save()

        orig = t.last_modified_time
        self.assertIsNotNone(orig)

        t.alphanumeric = 'A'
        t.save()

        self.assertGreater(t.last_modified_time, orig)
Example #4
0
    def test_creation_time(self):
        """Creation time is set on creation and doesn't change on update."""
        t = Target(user=self.user, target_type=TargetType.standard)
        t.save()

        orig = t.creation_time
        self.assertIsNotNone(orig)

        t.alphanumeric = 'A'
        t.save()

        self.assertEqual(orig, t.creation_time)
Example #5
0
    def test_last_modified_time(self):
        """Last modified time is set on creation and changes every update."""
        t = Target(user=self.user, target_type=TargetType.standard)
        t.save()

        orig = t.last_modified_time
        self.assertIsNotNone(orig)

        t.alphanumeric = 'A'
        t.save()

        self.assertGreater(t.last_modified_time, orig)
Example #6
0
    def test_creation_time(self):
        """Creation time is set on creation and doesn't change on update."""
        t = Target(user=self.user, target_type=TargetType.standard)
        t.save()

        orig = t.creation_time
        self.assertIsNotNone(orig)

        t.alphanumeric = 'A'
        t.save()

        self.assertEqual(orig, t.creation_time)
Example #7
0
    def test_similar_classifications(self):
        """Tests similar classification counts are computed correctly."""
        # Test equal standard targets.
        l = GpsPosition(latitude=38, longitude=-76)
        l.save()
        t1 = Target(user=self.user,
                    target_type=TargetType.standard,
                    location=l,
                    orientation=Orientation.s,
                    shape=Shape.square,
                    background_color=Color.white,
                    alphanumeric='ABC',
                    alphanumeric_color=Color.black,
                    description='Test target',
                    autonomous=True)
        t1.save()
        t2 = Target(user=self.user,
                    target_type=TargetType.standard,
                    location=l,
                    orientation=Orientation.s,
                    shape=Shape.square,
                    background_color=Color.white,
                    alphanumeric='ABC',
                    alphanumeric_color=Color.black,
                    description='Test other target',
                    autonomous=True)
        t2.save()
        self.assertAlmostEqual(1.0, t1.similar_classifications(t2))

        # Test unequal standard targets.
        t1.alphanumeric = 'DEF'
        t1.alphanumeric_color = Color.blue
        t1.save()
        self.assertAlmostEqual(3.0 / 5.0, t1.similar_classifications(t2))
        t1.shape = Shape.circle
        t1.background_color = Color.orange
        t1.save()
        self.assertAlmostEqual(1.0 / 5.0, t1.similar_classifications(t2))

        # Test different types.
        t1.target_type = TargetType.off_axis
        t1.save()
        self.assertAlmostEqual(0, t1.similar_classifications(t2))

        # Test off_axis is same as standard.
        t2.target_type = TargetType.off_axis
        t2.alphanumeric = 'DEF'
        t2.save()
        self.assertAlmostEqual(2.0 / 5.0, t1.similar_classifications(t2))

        # Test emergent type is always 1.
        t1.target_type = TargetType.emergent
        t1.save()
        t2.target_type = TargetType.emergent
        t2.save()
        self.assertAlmostEqual(1.0, t1.similar_classifications(t2))

        # Test QRC is only description.
        t1.target_type = TargetType.qrc
        t1.save()
        t2.target_type = TargetType.qrc
        t2.save()
        self.assertAlmostEqual(0.0, t1.similar_classifications(t2))
        t2.description = 'Test target'
        t2.save()
        self.assertAlmostEqual(1.0, t1.similar_classifications(t2))
Example #8
0
    def test_similar_classifications(self):
        """Tests similar classification counts are computed correctly."""
        # Test equal standard targets.
        l = GpsPosition(latitude=38, longitude=-76)
        l.save()
        t1 = Target(
            user=self.user,
            target_type=TargetType.standard,
            location=l,
            orientation=Orientation.s,
            shape=Shape.square,
            background_color=Color.white,
            alphanumeric="ABC",
            alphanumeric_color=Color.black,
            description="Test target",
            autonomous=True,
        )
        t1.save()
        t2 = Target(
            user=self.user,
            target_type=TargetType.standard,
            location=l,
            orientation=Orientation.s,
            shape=Shape.square,
            background_color=Color.white,
            alphanumeric="ABC",
            alphanumeric_color=Color.black,
            description="Test other target",
            autonomous=True,
        )
        t2.save()
        self.assertAlmostEqual(1.0, t1.similar_classifications(t2))

        # Test unequal standard targets.
        t1.alphanumeric = "DEF"
        t1.alphanumeric_color = Color.blue
        t1.save()
        self.assertAlmostEqual(3.0 / 5.0, t1.similar_classifications(t2))
        t1.shape = Shape.circle
        t1.background_color = Color.orange
        t1.save()
        self.assertAlmostEqual(1.0 / 5.0, t1.similar_classifications(t2))

        # Test different types.
        t1.target_type = TargetType.off_axis
        t1.save()
        self.assertAlmostEqual(0, t1.similar_classifications(t2))

        # Test off_axis is same as standard.
        t2.target_type = TargetType.off_axis
        t2.alphanumeric = "DEF"
        t2.save()
        self.assertAlmostEqual(2.0 / 5.0, t1.similar_classifications(t2))

        # Test emergent type is always 1.
        t1.target_type = TargetType.emergent
        t1.save()
        t2.target_type = TargetType.emergent
        t2.save()
        self.assertAlmostEqual(1.0, t1.similar_classifications(t2))

        # Test QRC is only description.
        t1.target_type = TargetType.qrc
        t1.save()
        t2.target_type = TargetType.qrc
        t2.save()
        self.assertAlmostEqual(0.0, t1.similar_classifications(t2))
        t2.description = "Test target"
        t2.save()
        self.assertAlmostEqual(1.0, t1.similar_classifications(t2))