Exemplo n.º 1
0
 def test_seg_belt_shrink(self):
     sbelt = SegmentedBelt()
     sbelt.fix_ends(source=(10,10), sink=(15,15))
     seg_nums = []
     for l in SOL.shrinker_loop(sbelt.num_segs, init=10):
         seg_nums.append(l)
     self.assertEqual(seg_nums[-1], 2)
Exemplo n.º 2
0
 def test_seg_belt_contains(self):
     sb = SegmentedBelt()
     SOL.add(sb.contains(Point2D(0, 0)))
     SOL.add(sb.contains(Point2D(10, 10)))
     d = None
     for d in SOL.shrinker_loop(sb.num_segs):
         pass
     self.assertEqual(2, d)
Exemplo n.º 3
0
    def test_one_seg_belt(self):
        sbelt = SegmentedBelt()
        sbelt.fix_ends(source=(10, 10), sink=(15, 10))
        SOL.add(sbelt.num_segs == 1)
        m = SOL.model()
        self.assertIsNotNone(m)

        s = sbelt.segment(0)
        self.assertEqual(s.p1.eval_as_tuple(), (10,10))
        self.assertEqual(s.p2.eval_as_tuple(), (15,10))
Exemplo n.º 4
0
 def test_intersecting_segbelt_and_dseg(self):
     sb = SegmentedBelt()
     SOL.add(sb.corner(0) == Point2D(0, 0))
     SOL.add(sb.corner(1) == Point2D(10, 0))
     SOL.add(sb.sink() == Point2D(20, 0))
     SOL.add(sb.num_segs >= 2)
     ds = Segment(Point2D(), Point2D(), is_diag=True)
     SOL.add(ds.p1 == Point2D(12, 0))
     SOL.add(ds.p2 == Point2D(15, 3))
     SOL.add(non_intersecting_seg_belt_diag_seg(sb, ds))
     d = None
     for d in SOL.shrinker_loop(sb.num_segs):
         pass
     self.assertEqual(4, d)
Exemplo n.º 5
0
def plot_segmented_belt(belt: P.SegmentedBelt, color='gray'):
    GAP = 0.2
    corners = belt.eval_corners()
    for c1, c2 in zip(corners, corners[1:]):
        x1 = min(c1[0], c2[0])
        x2 = max(c1[0], c2[0])
        y1 = min(c1[1], c2[1])
        y2 = max(c1[1], c2[1])

        r = patches.Rectangle((x1 - 0.5 + GAP, y1 - 0.5 + GAP),
                              x2 - x1 + 1 - 2 * GAP,
                              y2 - y1 + 1 - 2 * GAP,
                              color=color)
        plt.gca().add_patch(r)
Exemplo n.º 6
0
 def test_seg_contains(self):
     sb = SegmentedBelt()
     SOL.add(sb.num_segs >= 2)
     SOL.add(sb.segment(0).contains(Point2D(5, 2)))
     SOL.add(sb.segment(1).contains(Point2D(10, 5)))
     SOL.add(sb.segment(0).horizontal())
     SOL.model()
     c1 = SOL.eval(sb.corner(1))
     self.assertEqual(c1, Point2D(10,2))
Exemplo n.º 7
0
    def test_two_seg_belt(self):
        sbelt = SegmentedBelt()
        sbelt.fix_ends(source=(10, 10), sink=(15, 15))
        SOL.add(sbelt.num_segs == 2)
        m = SOL.model()
        self.assertIsNotNone(m)

        s = sbelt.segment(0)
        p1 = s.p1
        p2 = s.p2

        self.assertEqual(p1.eval_as_tuple(), (10,10))
        self.assertTrue(p2.eval_as_tuple() in [(15,10), (10,15)])

        s = sbelt.segment(1)
        p2 = s.p2
        self.assertEqual(p2.eval_as_tuple(), (15,15))
Exemplo n.º 8
0
    def test_seg_belt_enumerate(self):
        sb = SegmentedBelt()
        SOL.add(sb.source() == (0,0))
        SOL.add(sb.sink() == (5,5))
        SOL.add(sb.num_segs < 5)
        ln = sb.len(5)

        for d in SOL.shrinker_loop(ln):
            pass

        self.assertEqual(11, d)

        p0 = None
        for p in sb.enumerate_points():
            if p0:
                dx = p.x - p0.x
                dy = p.y - p0.y
                self.assertTrue(dx == 0 and dy == 1 or dx == 1 and dy == 0)
            p0 = p
Exemplo n.º 9
0
    def test_three_seg_belts(self):
        """ There segmented belts crossing each other if drawn straight.
        Total length is minified by iterative tightening of constaint """

        belt1 = SegmentedBelt()
        belt2 = SegmentedBelt()
        belt3 = SegmentedBelt()

        SOL.add(non_intersecting_seg_belts(belt1, belt2))
        SOL.add(non_intersecting_seg_belts(belt1, belt3))
        SOL.add(non_intersecting_seg_belts(belt2, belt3))

        belt1.fix_ends((0,0), (20, 20))
        belt2.fix_ends((0,10), (20, 10))
        belt3.fix_ends((0,20), (20, 0))

        sz = IntVal()
        SOL.add(sz.v == belt1.num_segs + belt2.num_segs + belt3.num_segs)

        t0 = time()
        dts = []
        sizes = []

        for cur_sz in SOL.shrinker_loop(sz, init=38, restore=False):
            t1 = time()
            dts.append(t1 - t0)
            t0 = time()
            sizes.append(cur_sz)

        self.assertGreater(len(sizes), 0)
        self.assertEqual(9, sizes[-1])  # number got from experiments with visualization