def test_after(self):
        bounds1 = Bounds1D(1., 2.)
        bounds2 = Bounds1D(3., 4.)
        self.assertFalse(after()(bounds1, bounds2))
        self.assertTrue(after()(bounds2, bounds1))

        bounds3 = Bounds1D(2., 4.)
        self.assertTrue(after()(bounds3, bounds1))
    def test_before(self):
        bounds1 = Bounds1D(1., 2.)
        bounds2 = Bounds1D(3., 4.)
        self.assertTrue(before()(bounds1, bounds2))
        self.assertFalse(before()(bounds2, bounds1))

        bounds3 = Bounds1D(2., 4.)
        self.assertTrue(before()(bounds1, bounds3))
    def test_or(self):
        bounds1 = Bounds1D(1., 3.)
        bounds2 = Bounds1D(2., 4.)

        self.assertTrue(or_pred(before(), overlaps_before())(bounds1, bounds2))
        self.assertFalse(or_pred(before(), false_pred())(bounds1, bounds2))
        self.assertTrue(
            or_pred(overlaps_before(), overlaps())(bounds1, bounds2))
        self.assertTrue(or_pred(overlaps_before(), before())(bounds1, bounds2))
 def test_equal(self):
     pred = equal()
     bounds1 = Bounds1D(1., 2.)
     bounds2 = Bounds1D(2., 4.)
     bounds3 = Bounds1D(2., 4.)
     self.assertTrue(pred(bounds1, bounds1))
     self.assertTrue(pred(bounds2, bounds2))
     self.assertTrue(pred(bounds3, bounds3))
     self.assertTrue(pred(bounds2, bounds3))
     self.assertFalse(pred(bounds1, bounds2))
 def test_and(self):
     bounds1 = Bounds1D(1., 2.)
     bounds2 = Bounds1D(1., 2.)
     self.assertTrue(and_pred(equal(), overlaps())(bounds1, bounds2))
     self.assertFalse(
         and_pred(equal(), overlaps_before())(bounds1, bounds2))
     self.assertFalse(
         and_pred(overlaps_before(), equal())(bounds1, bounds2))
     self.assertFalse(
         and_pred(overlaps_before(), overlaps_after())(bounds1, bounds2))
    def test_finishesinv(self):
        pred = finishes_inv()
        bounds1 = Bounds1D(1., 3.)
        bounds2 = Bounds1D(2., 4.)
        self.assertFalse(pred(bounds1, bounds2))
        self.assertFalse(pred(bounds2, bounds1))

        bounds3 = Bounds1D(1., 4.)
        bounds4 = Bounds1D(2.5, 4.)
        self.assertFalse(pred(bounds2, bounds3))
        self.assertTrue(pred(bounds2, bounds4))
    def test_startsinv(self):
        pred = starts_inv()
        bounds1 = Bounds1D(1., 3.)
        bounds2 = Bounds1D(2., 4.)
        self.assertFalse(pred(bounds1, bounds2))
        self.assertFalse(pred(bounds2, bounds1))

        bounds3 = Bounds1D(2., 5.)
        bounds4 = Bounds1D(2., 3.)
        self.assertFalse(pred(bounds2, bounds3))
        self.assertTrue(pred(bounds2, bounds4))
    def test_duringinv(self):
        pred = during_inv()
        bounds1 = Bounds1D(3., 3.5)
        bounds2 = Bounds1D(2., 4.)
        self.assertFalse(pred(bounds1, bounds2))
        self.assertTrue(pred(bounds2, bounds1))

        bounds3 = Bounds1D(1., 4.)
        bounds4 = Bounds1D(2.5, 4.)
        self.assertFalse(pred(bounds2, bounds3))
        self.assertFalse(pred(bounds2, bounds4))
    def test_overlapsafter(self):
        pred = overlaps_after()
        bounds1 = Bounds1D(1., 3.)
        bounds2 = Bounds1D(2., 4.)
        self.assertFalse(pred(bounds1, bounds2))
        self.assertTrue(pred(bounds2, bounds1))

        bounds3 = Bounds1D(1., 4.)
        bounds4 = Bounds1D(2.5, 4.)
        self.assertFalse(pred(bounds2, bounds3))
        self.assertFalse(pred(bounds2, bounds4))
    def test_meetsafter(self):
        pred = meets_after()
        bounds1 = Bounds1D(1., 2.)
        bounds2 = Bounds1D(2., 4.)
        self.assertFalse(pred(bounds1, bounds2))
        self.assertTrue(pred(bounds2, bounds1))

        bounds3 = Bounds1D(1., 4.)
        bounds4 = Bounds1D(2.5, 4.)
        self.assertFalse(pred(bounds2, bounds3))
        self.assertFalse(pred(bounds2, bounds4))
    def test_overlapsbefore(self):
        pred = overlaps_before()
        bounds1 = Bounds1D(1., 3.)
        bounds2 = Bounds1D(2., 4.)
        self.assertTrue(pred(bounds1, bounds2))
        self.assertFalse(pred(bounds2, bounds1))

        bounds3 = Bounds1D(2., 5.)
        bounds4 = Bounds1D(2., 3.)
        self.assertFalse(pred(bounds2, bounds3))
        self.assertFalse(pred(bounds2, bounds4))
    def test_after_range(self):
        pred = after(10., 20.)
        bounds1 = Bounds1D(1., 2.)
        bounds2 = Bounds1D(3., 4.)
        self.assertFalse(pred(bounds1, bounds2))
        self.assertFalse(pred(bounds2, bounds1))

        bounds3 = Bounds1D(12., 15.)
        bounds4 = Bounds1D(22.5, 25.)
        self.assertTrue(pred(bounds3, bounds1))
        self.assertFalse(pred(bounds4, bounds1))
        self.assertTrue(pred(bounds4, bounds2))
    def test_before_range(self):
        pred = before(10., 20.)
        bounds1 = Bounds1D(1., 2.)
        bounds2 = Bounds1D(3., 4.)
        self.assertFalse(pred(bounds1, bounds2))
        self.assertFalse(pred(bounds2, bounds1))

        bounds3 = Bounds1D(12., 15.)
        bounds4 = Bounds1D(22.5, 25.)
        self.assertTrue(pred(bounds1, bounds3))
        self.assertFalse(pred(bounds1, bounds4))
        self.assertTrue(pred(bounds2, bounds4))
Beispiel #14
0
def IntervalSetMapping_second_to_frame(ism):
    intervalSets_frame = {}
    for video_id, intervalSet in ism.get_grouped_intervals().items():
        video = Video.objects.filter(id=video_id)[0]
        fps = video.fps
        intervalSets_frame[video_id] = IntervalSet(
            [Interval(Bounds1D(int(i.bounds['t1'] * fps), int(i.bounds['t2'] * fps)), i.payload) \
            for i in intervalSet.get_intervals()] )
    return IntervalSetMapping(intervalSets_frame)
    def test_not(self):
        bounds1 = Bounds1D(1., 3.)
        bounds2 = Bounds1D(2., 4.)

        self.assertTrue(overlaps()(bounds1, bounds2))
        self.assertFalse(not_pred(overlaps())(bounds1, bounds2))
    def test_overlaps(self):
        pred = overlaps()
        bounds1 = Bounds1D(1., 2.)
        bounds2 = Bounds1D(3., 4.)

        self.assertFalse(pred(bounds1, bounds2))
        self.assertFalse(pred(bounds2, bounds1))

        bounds3 = Bounds1D(3.5, 4.5)
        bounds4 = Bounds1D(2.5, 3.5)
        self.assertTrue(pred(bounds2, bounds3))
        self.assertTrue(pred(bounds2, bounds4))

        bounds5 = Bounds1D(2.5, 4.5)
        bounds6 = Bounds1D(3.3, 3.6)
        self.assertTrue(pred(bounds2, bounds5))
        self.assertTrue(pred(bounds2, bounds6))

        bounds7 = Bounds1D(3., 3.5)
        bounds8 = Bounds1D(3., 4.5)
        self.assertTrue(pred(bounds2, bounds7))
        self.assertTrue(pred(bounds2, bounds8))

        bounds9 = Bounds1D(3.3, 4.)
        bounds10 = Bounds1D(2.1, 4.)
        self.assertTrue(pred(bounds2, bounds9))
        self.assertTrue(pred(bounds2, bounds10))

        bounds11 = Bounds1D(2.3, 3.)
        bounds12 = Bounds1D(4., 4.5)
        self.assertFalse(pred(bounds2, bounds11))
        self.assertFalse(pred(bounds2, bounds12))

        self.assertTrue(pred(bounds2, bounds2))
 def test_true_pred(self):
     bounds1 = Bounds1D(1, 2)
     bounds2 = Bounds1D(5, 6)
     self.assertTrue(true_pred()(bounds1, bounds2))
Beispiel #18
0
 def bounds_parser(item):
     return Bounds1D(key_accessor(item, schema_final['t1']),
                     key_accessor(item, schema_final['t2']))
 def test_false_pred(self):
     bounds1 = Bounds1D(1, 2)
     bounds2 = Bounds1D(5, 6)
     self.assertFalse(false_pred()(bounds1, bounds2))