Example #1
0
 def test_DEGREE_ONE_GENERATORS(self):
     # for now, just checking that we do not get errors
     examples.p1().DEGREE_ONE_GENERATORS
     examples.p2().DEGREE_ONE_GENERATORS
     examples.p3().DEGREE_ONE_GENERATORS
     polymake.cube(3).DEGREE_ONE_GENERATORS
     polymake.cube(4).DEGREE_ONE_GENERATORS
 def test_DEGREE_ONE_GENERATORS(self):
     # for now, just checking that we do not get errors
     examples.p1().DEGREE_ONE_GENERATORS
     examples.p2().DEGREE_ONE_GENERATORS
     examples.p3().DEGREE_ONE_GENERATORS
     polymake.cube(3).DEGREE_ONE_GENERATORS
     polymake.cube(4).DEGREE_ONE_GENERATORS
 def test_COMPLEXITY(self):
     c3 = polymake.cube(3)
     c4 = polymake.cube(4)
     with self.assertRaises(RuntimeError):
         c3.COMPLEXITY
     comp = c4.COMPLEXITY
     self.assertLess(comp, 3.14286)
     self.assertGreater(comp, 3.14285)
Example #4
0
 def test_COMPLEXITY(self):
     c3 = polymake.cube(3)
     c4 = polymake.cube(4)
     with self.assertRaises(RuntimeError):
         c3.COMPLEXITY
     comp = c4.COMPLEXITY
     self.assertLess(comp, 3.14286)
     self.assertGreater(comp, 3.14285)
Example #5
0
 def test_EHRHART_POLYNOMIAL_COEFF(self):
     for pol in [
             examples.p1(),
             examples.p3(),
             polymake.cube(3),
             polymake.cube(4)
     ]:
         v = pol.EHRHART_POLYNOMIAL_COEFF
 def test_EDGE_ORIENTATION(self):
     m = examples.p1().EDGE_ORIENTATION
     with self.assertRaises(ValueError):
         examples.p2().EDGE_ORIENTATION
     with self.assertRaises(ValueError):
         examples.p3().EDGE_ORIENTATION
     m = polymake.cube(3).EDGE_ORIENTATION
     m = polymake.cube(4).EDGE_ORIENTATION
Example #7
0
 def test_EDGE_ORIENTATION(self):
     m = examples.p1().EDGE_ORIENTATION
     with self.assertRaises(ValueError):
         examples.p2().EDGE_ORIENTATION
     with self.assertRaises(ValueError):
         examples.p3().EDGE_ORIENTATION
     m = polymake.cube(3).EDGE_ORIENTATION
     m = polymake.cube(4).EDGE_ORIENTATION
    def test_EDGE_ORIENTABLE(self):
        self.assertEqual(examples.p1().EDGE_ORIENTABLE, True)
# BUG: now a RuntimeError
#        with self.assertRaises(ValueError):
#            examples.p2().EDGE_ORIENTABLE
#        with self.assertRaises(ValueError):
#            examples.p3().EDGE_ORIENTABLE
        self.assertTrue(polymake.cube(3).EDGE_ORIENTABLE, True)
        self.assertTrue(polymake.cube(4).EDGE_ORIENTABLE, True)
Example #9
0
 def test_EDGE_ORIENTABLE(self):
     self.assertEqual(examples.p1().EDGE_ORIENTABLE, True)
     # BUG: now a RuntimeError
     #        with self.assertRaises(ValueError):
     #            examples.p2().EDGE_ORIENTABLE
     #        with self.assertRaises(ValueError):
     #            examples.p3().EDGE_ORIENTABLE
     self.assertTrue(polymake.cube(3).EDGE_ORIENTABLE, True)
     self.assertTrue(polymake.cube(4).EDGE_ORIENTABLE, True)
Example #10
0
 def test_DUAL_GRAPH(self):
     for pol in [
             examples.p1(),
             examples.p2(),
             examples.p3(),
             polymake.cube(3),
             polymake.cube(4)
     ]:
         g = pol.DUAL_GRAPH
         self.assertTrue(g.type_name().startswith('Graph<Undirected>'))
 def test_CD_INDEX_COEFFICIENTS(self):
     # for now, jut checking that we do not get errors
     examples.p1().CD_INDEX_COEFFICIENTS
     examples.p2().CD_INDEX_COEFFICIENTS
     examples.p3().CD_INDEX_COEFFICIENTS
     polymake.cube(3).CD_INDEX_COEFFICIENTS
 def test_ESSENTIALLY_GENERIC(self):
     self.assertFalse(examples.p1().ESSENTIALLY_GENERIC)
     self.assertFalse(examples.p2().ESSENTIALLY_GENERIC)
     self.assertTrue(examples.p3().ESSENTIALLY_GENERIC)
     self.assertFalse(polymake.cube(3).ESSENTIALLY_GENERIC)
     self.assertFalse(polymake.cube(4).ESSENTIALLY_GENERIC)
 def test_EHRHART_POLYNOMIAL_COEFF(self):
     for pol in [examples.p1(), examples.p3(),
             polymake.cube(3), polymake.cube(4)]:
         v = pol.EHRHART_POLYNOMIAL_COEFF
 def test_DUAL_GRAPH(self):
     for pol in [examples.p1(), examples.p2(), examples.p3(),
             polymake.cube(3), polymake.cube(4)]:
         g = pol.DUAL_GRAPH
         self.assertTrue(g.type_name().startswith('Graph<Undirected>'))
Example #15
0
 def test_CUBICAL(self):
     self.assertTrue(examples.p1().CUBICAL)
     self.assertFalse(examples.p2().CUBICAL)
     self.assertTrue(examples.p3().CUBICAL)
     self.assertTrue(polymake.cube(3).CUBICAL)
 def test_CUBICAL(self):
     self.assertTrue(examples.p1().CUBICAL)
     self.assertFalse(examples.p2().CUBICAL)
     self.assertTrue(examples.p3().CUBICAL)
     self.assertTrue(polymake.cube(3).CUBICAL)
 def test_CS_PERMUTATION(self):
     with self.assertRaises(ValueError):
         examples.p1().CS_PERMUTATION
     polymake.cube(3).CS_PERMUTATION
Example #18
0
 def test_CS_PERMUTATION(self):
     with self.assertRaises(ValueError):
         examples.p1().CS_PERMUTATION
     polymake.cube(3).CS_PERMUTATION
Example #19
0
 def test_CD_INDEX_COEFFICIENTS(self):
     # for now, jut checking that we do not get errors
     examples.p1().CD_INDEX_COEFFICIENTS
     examples.p2().CD_INDEX_COEFFICIENTS
     examples.p3().CD_INDEX_COEFFICIENTS
     polymake.cube(3).CD_INDEX_COEFFICIENTS
Example #20
0
 def test_ESSENTIALLY_GENERIC(self):
     self.assertFalse(examples.p1().ESSENTIALLY_GENERIC)
     self.assertFalse(examples.p2().ESSENTIALLY_GENERIC)
     self.assertTrue(examples.p3().ESSENTIALLY_GENERIC)
     self.assertFalse(polymake.cube(3).ESSENTIALLY_GENERIC)
     self.assertFalse(polymake.cube(4).ESSENTIALLY_GENERIC)