Exemplo n.º 1
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    def testissemicompressed(self):
        T = SNT(2, 1, 1, 4)
        p1 = Point([0], Euclidean())
        p2 = Point([2], Euclidean())
        p3 = Point([11], Euclidean())
        p4 = Point([28], Euclidean())
        T.setroot(p1)
        T.insert(p2, T.root)
        T.insert(p3, T.root)
        T.insert(p4, [ch for ch in T.root.getchild().ch if ch.point == p3][0])
        ver = SNTVerify(T, [p1, p2, p3, p4])
        ver.populate()
        self.assertTrue(ver.issemicompressed())
        n1 = [n for n in ver.uncomplevels[2] if n.point == p3][0]
        n2 = Node(p3, 1)
        n2.addch(n1.getchild())
        n1.addch(n2)
        ver.populate()
        self.assertFalse(ver.issemicompressed())

        p1 = Point([-9956], Euclidean())
        p2 = Point([1288], Euclidean())
        T = SNT(7, 1, 1, 14 / 3)
        T.setroot(p1)
        T.insert(p2, T.root)
        ver = SNTVerify(T, [p1, p2])
        ver.populate()
        self.assertTrue(ver.issemicompressed())
Exemplo n.º 2
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 def testupdateonsplit(self):
     T = SNT(3, 1, 1)
     T.tau = 2
     T.cr = 3
     r = Point([0], Euclidean())
     T.setroot(r)
     a = Point([1], Euclidean())
     b = Point([8], Euclidean())
     c = Point([13], Euclidean())
     d = Point([30], Euclidean())
     e = Point([63], Euclidean())
     f = Point([96], Euclidean())
     ploc = SNTPointLocation(T, [a, b, c, d, e, f])
     n1 = Node(r, 7)
     n2 = Node(r, 3)
     n1.addch(n2)
     ploc._rnn_in[n1] = {a, b, c, d}
     ploc._rnn_out[n1] = {e, f}
     ploc._nn[a] = ploc._nn[b] = ploc._nn[c] = ploc._nn[d] = ploc._nn[
         e] = ploc._nn[f] = n1
     ploc.updateonsplit(n2)
     self.assertEqual(ploc._rnn_in[n1], {d})
     self.assertEqual(ploc._rnn_out[n1], {e, f})
     self.assertEqual(ploc._rnn_in[n2], {a})
     self.assertEqual(ploc._rnn_out[n2], {b, c})
Exemplo n.º 3
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 def testfinduncomplevels(self):
     T = SNT(2, 1, 1, 4)
     p1 = Point([0], Euclidean())
     p2 = Point([2], Euclidean())
     p3 = Point([11], Euclidean())
     p4 = Point([28], Euclidean())
     T.setroot(p1)
     T.insert(p2, T.root)
     T.insert(p3, T.root)
     T.insert(p4, [ch for ch in T.root.getchild().ch if ch.point == p3][0])
     ver = SNTVerify(T, [p1, p2, p3, p4])
     ver.finduncomplevels()
     self.assertEqual(len(ver.uncomplevels), 7)
     self.assertEqual(next(iter(ver.uncomplevels[5])).point, p1)
     self.assertEqual(next(iter(ver.uncomplevels[5])).level, 5)
     self.assertEqual({n.point for n in ver.uncomplevels[4]}, {p1, p4})
     self.assertEqual(len([n.level for n in ver.uncomplevels[4] if n.level == 4]), 2)
     self.assertEqual({n.point for n in ver.uncomplevels[3]}, {p1, p3, p4})
     self.assertEqual(len([n.level for n in ver.uncomplevels[3] if n.level == 3]), 3)
     self.assertEqual({n.point for n in ver.uncomplevels[2]}, {p1, p3, p4})
     self.assertEqual(len([n.level for n in ver.uncomplevels[2] if n.level == 2]), 2)
     self.assertEqual(len([n.level for n in ver.uncomplevels[2] if n.level == 3]), 1)
     self.assertEqual({n.point for n in ver.uncomplevels[1]}, {p1, p3, p4})
     self.assertEqual(len([n.level for n in ver.uncomplevels[1] if n.level == 1]), 1)
     self.assertEqual(len([n.level for n in ver.uncomplevels[1] if n.level == 2]), 1)
     self.assertEqual(len([n.level for n in ver.uncomplevels[1] if n.level == 3]), 1)
     self.assertEqual({n.point for n in ver.uncomplevels[0]}, {p1, p2, p3, p4})
     self.assertEqual(len([n.level for n in ver.uncomplevels[0] if n.level == 0]), 2)
     self.assertEqual(len([n.level for n in ver.uncomplevels[0] if n.level == 2]), 1)
     self.assertEqual(len([n.level for n in ver.uncomplevels[0] if n.level == 3]), 1)
     self.assertEqual({n.point for n in ver.uncomplevels[-1]}, {p1, p2, p3, p4})
     self.assertEqual(len([n.level for n in ver.uncomplevels[-1] if n.level == -1]), 2)
     self.assertEqual(len([n.level for n in ver.uncomplevels[-1] if n.level == 2]), 1)
     self.assertEqual(len([n.level for n in ver.uncomplevels[-1] if n.level == 3]), 1)
Exemplo n.º 4
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 def testsetroot(self):
     T = SNT(3, 1, 2, 2)
     rootpoint = Point([1, 2, 3, 4, 5], Euclidean())
     T.setroot(rootpoint)
     self.assertEqual(T.root.point, rootpoint)
     self.assertEqual(T.root.level, float('inf'))
     self.assertEqual(T.root.getchild().point, rootpoint)
     self.assertEqual(T.root.getchild().level, float('-inf'))
Exemplo n.º 5
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 def testaddnode(self):
     T = SNT(5, 1, 1)
     T.setroot(Point([0], Euclidean()))
     ploc = SNTPointLocation(T, [])
     a = Node(Point([1], Euclidean()), 2)
     ploc.addnode(a)
     self.assertEqual(ploc._rnn_in[a], set())
     self.assertEqual(ploc._rnn_out[a], set())
Exemplo n.º 6
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 def testsplitabove(self):
     T = SNT(4, 1, 1, 2)
     T.setroot(Point([0], Euclidean()))
     a = T.splitbelow(T.root, 10)
     b = T.splitbelow(a, 0)
     n = T.splitabove(b, 5)
     self.assertEqual(n.level, 5)
     self.assertEqual(n.ch, {b})
     self.assertEqual(n.par, a)
     self.assertEqual(b.par, n)
     self.assertEqual(a.ch, {n})
Exemplo n.º 7
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 def testsplitbelow_root(self):
     T = SNT(3, 1, 1)
     T.setroot(Point([0], Euclidean()))
     n = T.splitbelow(T.root, 1)
     self.assertEqual(n.point, T.root.point)
     self.assertEqual(n.level, 1)
     self.assertEqual(n.par, T.root)
     self.assertEqual(T.root.ch, {n})
     self.assertTrue(n in T.root.ch)
     self.assertEqual(n.getchild().level, float('-inf'))
     self.assertEqual(n.rel, {n})
Exemplo n.º 8
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 def testinit(self):
     T = SNT(5, 1, 1)
     T.setroot(Point([0], Euclidean()))
     points = [Point([i], Euclidean()) for i in [1, 2, 4, 8]]
     ploc = SNTPointLocation(T, points)
     for p in points:
         self.assertEqual(ploc._nn[p], T.root)
     self.assertEqual(len(ploc._rnn_in), 1)
     self.assertEqual(len(ploc._rnn_out), 1)
     self.assertEqual(ploc._rnn_in[T.root], set(points))
     self.assertEqual(len(ploc._rnn_out[T.root]), 0)
Exemplo n.º 9
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 def testsplitbelow_leaf(self):
     T = SNT(3, 1, 1)
     T.setroot(Point([0], Euclidean()))
     a = T.splitbelow(T.root, 10)
     n = T.splitbelow(a, 0)
     self.assertEqual(n.point, a.point)
     self.assertEqual(n.level, 0)
     self.assertEqual(n.par, a)
     self.assertEqual(a.ch, {n})
     self.assertTrue(n in a.ch)
     self.assertTrue(n not in T.root.ch)
     self.assertEqual(n.getchild().level, float('-inf'))
     self.assertEqual(n.rel, {n})
Exemplo n.º 10
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 def testrelativescorrect(self):
     T = SNT(2, 1, 1, 4)
     p1 = Point([0], Euclidean())
     p2 = Point([2], Euclidean())
     p3 = Point([11], Euclidean())
     p4 = Point([28], Euclidean())
     T.setroot(p1)
     T.insert(p2, T.root)
     T.insert(p3, T.root)
     T.insert(p4, [ch for ch in T.root.getchild().ch if ch.point == p3][0])
     ver = SNTVerify(T, [p1, p2, p3, p4])
     ver.populate()
     self.assertTrue(ver.relativescorrect())
     [n for n in ver.uncomplevels[2] if n.point == p1][0].rel.discard([n for n in ver.uncomplevels[2] if n.point == p3][0])
     self.assertFalse(ver.relativescorrect())
Exemplo n.º 11
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 def testinsert_onepointafterroot(self):
     T = SNT(4, 1, 1, 4)
     metric = Euclidean()
     T.setroot(Point([0, 0], metric))
     T.insert(Point([6, 0], metric), T.root)
     #  Check root got split below
     a = next(iter(T.root.ch))
     self.assertEqual(a.point, T.root.point)
     self.assertEqual(a.level, 2)
     self.assertEqual(len(a.ch), 2)
     b, c = tuple(child for child in a.ch)
     self.assertTrue(b.point is not c.point)
     self.assertEqual(b.level, 1)
     self.assertEqual(c.level, 1)
     self.assertEqual(b.getchild().level, float('-inf'))
     self.assertEqual(c.getchild().level, float('-inf'))
Exemplo n.º 12
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 def testrnn(self):
     T = SNT(3, 1, 1)
     T.setroot(Point([0], Euclidean()))
     ploc = SNTPointLocation(T, [])
     a = Point([1], Euclidean())
     b = Point([2], Euclidean())
     c = Point([3], Euclidean())
     d = Point([4], Euclidean())
     n = Node(Point([10], Euclidean()), 3)
     ploc.addnode(n)
     ploc._rnn_in[T.root] = {a}
     ploc._rnn_out[T.root] = {b}
     ploc._rnn_in[n] = {c}
     ploc._rnn_out[n] = {d}
     self.assertEqual(ploc.rnn_in(T.root), {a})
     self.assertEqual(ploc.rnn_out(T.root), {b})
     self.assertEqual(ploc.rnn_in(n), {c})
     self.assertEqual(ploc.rnn_out(n), {d})
     self.assertEqual(ploc.rnn_in([T.root, n]), {a, c})
     self.assertEqual(ploc.rnn_out([T.root, n]), {b, d})
     self.assertEqual(ploc.rnn([T.root, n]), {a, b, c, d})
Exemplo n.º 13
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 def testfindminlevelrels(self):
     T = SNT(2, 1, 1, 4)
     p1 = Point([0], Euclidean())
     p2 = Point([2], Euclidean())
     p3 = Point([11], Euclidean())
     p4 = Point([28], Euclidean())
     T.setroot(p1)
     T.insert(p2, T.root)
     T.insert(p3, T.root)
     T.insert(p4, [ch for ch in T.root.getchild().ch if ch.point == p3][0])
     ver = SNTVerify(T, [p1, p2, p3, p4])
     ver.findminlevelrels()
     self.assertEqual(ver.minlevels[(p1, p1)], float('-inf'))
     self.assertEqual(ver.minlevels[(p2, p2)], float('-inf'))
     self.assertEqual(ver.minlevels[(p3, p3)], float('-inf'))
     self.assertEqual(ver.minlevels[(p4, p4)], float('-inf'))
     self.assertEqual(ver.minlevels[(p1, p2)], -1)
     self.assertEqual(ver.minlevels[(p1, p3)], 2)
     self.assertEqual(ver.minlevels[(p1, p4)], 3)
     self.assertEqual(ver.minlevels[(p2, p3)], 2)
     self.assertEqual(ver.minlevels[(p2, p4)], 3)
     self.assertEqual(ver.minlevels[(p3, p4)], 3)
Exemplo n.º 14
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 def testislocalnettree(self):
     T = SNT(2, 1, 1, 4)
     p1 = Point([0], Euclidean())
     p2 = Point([2], Euclidean())
     p3 = Point([11], Euclidean())
     p4 = Point([28], Euclidean())
     T.setroot(p1)
     T.insert(p2, T.root)
     T.insert(p3, T.root)
     T.insert(p4, [ch for ch in T.root.getchild().ch if ch.point == p3][0])
     ver = SNTVerify(T, [p1, p2, p3, p4])
     ver.populate()
     self.assertTrue(ver.islocalnettree())
     p3.coords = [8]
     self.assertFalse(ver.islocalnettree())
     p3.coords = [17]
     self.assertFalse(ver.islocalnettree())
     p3.coords = [11]
     self.assertTrue(ver.islocalnettree())
     n1 = [n for n in ver.uncomplevels[3] if n.point == p1][0]
     n1.point = Point([1], Euclidean())
     self.assertFalse(ver.islocalnettree())
Exemplo n.º 15
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 def testinsert(self):
     T = SNT(2, 1, 1, 4)
     p1 = Point([0], Euclidean())
     p2 = Point([2], Euclidean())
     p3 = Point([11], Euclidean())
     p4 = Point([28], Euclidean())
     T.setroot(p1)
     T.insert(p2, T.root)
     T.insert(p3, T.root)
     T.insert(p4, [ch for ch in T.root.getchild().ch if ch.point == p3][0])
     self.assertEqual(T.root.getchild().point, p1)
     self.assertEqual(T.root.getchild().level, 5)
     n1 = [ch for ch in T.root.getchild().ch if ch.point == p1][0]
     n2 = [ch for ch in T.root.getchild().ch if ch.point == p4][0]
     self.assertTrue(n1.level == n2.level == 4)
     self.assertEqual(n2.getchild().point, p4)
     self.assertEqual(n2.getchild().level, 3)
     self.assertEqual(n2.getchild().getchild().level, float('-inf'))
     n3 = [ch for ch in n1.ch if ch.point == p1][0]
     n4 = [ch for ch in n1.ch if ch.point == p3][0]
     self.assertTrue(n3.level == n4.level == 3)
     self.assertEqual(n4.getchild().point, p3)
     self.assertEqual(n4.getchild().level, 2)
     self.assertEqual(n4.getchild().getchild().level, float('-inf'))
     self.assertEqual(n3.getchild().point, p1)
     self.assertEqual(n3.getchild().level, 2)
     self.assertEqual(n3.getchild().getchild().point, p1)
     self.assertEqual(n3.getchild().getchild().level, 1)
     n5 = [ch for ch in n3.getchild().getchild().ch if ch.point == p1][0]
     n6 = [ch for ch in n3.getchild().getchild().ch if ch.point == p2][0]
     self.assertTrue(n5.level == n6.level == 0)
     self.assertEqual(n5.getchild().point, p1)
     self.assertEqual(n5.getchild().level, -1)
     self.assertEqual(n6.getchild().point, p2)
     self.assertEqual(n6.getchild().level, -1)
     self.assertEqual(n5.getchild().getchild().level, float('-inf'))
     self.assertEqual(n6.getchild().getchild().level, float('-inf'))