def test_add_inequalities_with_dupe_vars(self): """ Test adding two inequalities to the system with overlapping vars.""" sys = IneqSys.InequalitySystem() w = IneqSys.Variable('w') x = IneqSys.Variable('x') y = IneqSys.Variable('y') z = IneqSys.Variable('z') p = IneqSys.Inequality(lhs=w, rhs=IneqSys.Sum([x, z])) q = IneqSys.Inequality(lhs=x, rhs=IneqSys.Sum([y, z, w])) sys.add(p) sys.add(q) self.assertItemsEqual(sys, [p, q]) self.assertDictEqual(sys._variables, {'w': w, 'x': x, 'y': y, 'z': z})
def test_simple_unsat_system2(self): """ Test a simple unsatisfiable system #2 (with product). """ sys1 = IneqSys.InequalitySystem() a = IneqSys.Variable('a', upper=20) b = IneqSys.Variable('b', upper=3) c = IneqSys.Variable('c', upper=5) d = IneqSys.Variable('d', upper=2) p = IneqSys.Inequality(lhs=a, rhs=IneqSys.Product([b, c])) q = IneqSys.Inequality(coeff=10, lhs=c, rhs=IneqSys.Product([d, a])) sys1.add(p) sys1.add(q) solution = sys1.solve() self.assertEquals(solution, None)
def test_simple_unsat_system(self): """ Test a simple unsatisfiable system. """ sys = IneqSys.InequalitySystem() a = IneqSys.Variable('a') b = IneqSys.Variable('b') p = IneqSys.Inequality(coeff=2, lhs=a, rhs=IneqSys.Sum([b])) q = IneqSys.Inequality(lhs=b, rhs=IneqSys.Sum([a])) sys.add(p) sys.add(q) solution = sys.solve(debug=True) # Debug on to achieve coverage self.assertEquals(solution, None) self.assertEquals(a.upper, 0) self.assertEquals(a.lower, 1)
def test_simple_sat_system(self): """ Test a simple satisfiable system. """ sys = IneqSys.InequalitySystem() a = IneqSys.Variable('a', upper=50) b = IneqSys.Variable('b', lower=20) c = IneqSys.Variable('c') p = IneqSys.Inequality(lhs=b, rhs=IneqSys.Sum([a])) q = IneqSys.Inequality(lhs=c, rhs=IneqSys.Product([a, b])) sys.add(p) sys.add(q) solution = sys.solve(debug=True) # Debug on to achieve coverage self.assertEquals(solution['a'], 50) self.assertEquals(solution['b'], 50) self.assertEquals(solution['c'], 2500)
def test_simple_sat_system3(self): """ Test a simple satisfiable system #3 (with product). """ sys1 = IneqSys.InequalitySystem() a = IneqSys.Variable('a', upper=20) b = IneqSys.Variable('b', upper=3) c = IneqSys.Variable('c', upper=5) d = IneqSys.Variable('d', upper=2) p = IneqSys.Inequality(lhs=a, rhs=IneqSys.Product([b, c])) q = IneqSys.Inequality(coeff=6, lhs=c, rhs=IneqSys.Product([d, a])) sys1.add(p) sys1.add(q) solution = sys1.solve(debug=True) self.assertEquals(solution['a'], 15) self.assertEquals(solution['b'], 3) self.assertEquals(solution['c'], 5) self.assertEquals(solution['d'], 2)
def test_add_inequality(self): """ Test adding an inequality to the system. """ sys = IneqSys.InequalitySystem() x = IneqSys.Variable('x') y = IneqSys.Variable('y') z = IneqSys.Variable('z') q = IneqSys.Inequality(lhs=x, rhs=IneqSys.Sum([y, z])) sys.add(q) self.assertItemsEqual(sys, [q]) self.assertDictEqual(sys._variables, {'x': x, 'y': y, 'z': z})
def test_simple_sat_system2(self): """ Test a simple satisfiable system #2. """ sys1 = IneqSys.InequalitySystem() a = IneqSys.Variable('a') b = IneqSys.Variable('b') p = IneqSys.Inequality(lhs=a, rhs=IneqSys.Sum([a, b])) sys1.add(p) solution = sys1.solve() self.assertEquals(solution['a'], sys.maxint) self.assertEquals(solution['b'], sys.maxint)
def test_inequality(self): """ Test an inequality with custom coefficient. """ x = IneqSys.Variable('x', upper=100, lower=10) y = IneqSys.Variable('y', upper=50) z = IneqSys.Variable('z', upper=20) ineq = IneqSys.Inequality(coeff=10, lhs=x, rhs=IneqSys.Sum([y, z])) self.assertEquals(ineq._coeff, 10) self.assertEquals(ineq.tostring(), "10 * x <= y + z") ineq.evaluate() x.update() self.assertEquals(x.upper, 7) self.assertTrue(x.is_invalid())
def test_default_inequality(self): """ Test an inequality with default settings. """ x = IneqSys.Variable('x', upper=100) y = IneqSys.Variable('y', upper=50) z = IneqSys.Variable('z', upper=20) ineq = IneqSys.Inequality(lhs=x, rhs=IneqSys.Sum([y, z])) self.assertEquals(ineq._coeff, 1) self.assertEquals(ineq.tostring(), "x <= y + z") ineq.evaluate() x.update() self.assertEquals(x.upper, 70) self.assertEquals(x._status, _VariableStatus.valid)
def test_unsat_system_from_paper(self): """ Test an unsatisfiable system of inequalities from Smaragdakis (Fig 9a). """ sys = IneqSys.InequalitySystem() # Two object types related by a binary fact type obj1 = IneqSys.Variable("obj1") obj2 = IneqSys.Variable("obj2") rol1 = IneqSys.Variable("rol1") rol2 = IneqSys.Variable("rol2") fact = IneqSys.Variable("fact") # Constants cons1 = IneqSys.Variable("con1", lower=1000000, upper=1000000) cons2 = IneqSys.Variable("con2", lower=2, upper=2) # Inequalities that represent Smaragdakis' rules # Cardinality: # >= 1000000 for obj1, # <= 2 for obj2 sys.add(IneqSys.Inequality(lhs=cons1, rhs=IneqSys.Sum([obj1]))) sys.add(IneqSys.Inequality(lhs=obj2, rhs=IneqSys.Sum([cons2]))) # Role 1 is mandatory sys.add(IneqSys.Inequality(lhs=obj1, rhs=IneqSys.Sum([rol1]))) # Simple uniqueness constraints sys.add(IneqSys.Inequality(lhs=fact, rhs=IneqSys.Sum([rol1]))) sys.add(IneqSys.Inequality(lhs=fact, rhs=IneqSys.Sum([rol2]))) # Semantics of roles sys.add(IneqSys.Inequality(lhs=rol1, rhs=IneqSys.Sum([obj1]))) sys.add(IneqSys.Inequality(lhs=rol1, rhs=IneqSys.Sum([fact]))) sys.add(IneqSys.Inequality(lhs=rol2, rhs=IneqSys.Sum([fact]))) sys.add(IneqSys.Inequality(lhs=rol2, rhs=IneqSys.Sum([obj2]))) # Solve the system and assert that there is no solution solution = sys.solve() self.assertEquals(solution, None) self.assertEquals(cons1.lower, 1000000) self.assertEquals(cons1.upper, 2)
def test_unsat_system_from_paper2(self): """ Test an unsatisfiable system of inequalities from Smaragdakis (Fig 9b). """ sys = IneqSys.InequalitySystem() # Two object types related by a binary fact type obj1 = IneqSys.Variable("obj1", upper=50) obj2 = IneqSys.Variable("obj2", upper=2) rol1 = IneqSys.Variable("rol1", upper=50) rol2 = IneqSys.Variable("rol2", upper=50) fact = IneqSys.Variable("fact", upper=50) # Constant con3 = IneqSys.Variable("con3", lower=3, upper=3) # Semantics of roles sys.add(IneqSys.Inequality(lhs=rol1, rhs=IneqSys.Sum([obj1]))) sys.add(IneqSys.Inequality(lhs=rol1, rhs=IneqSys.Sum([fact]))) sys.add(IneqSys.Inequality(lhs=rol2, rhs=IneqSys.Sum([fact]))) sys.add(IneqSys.Inequality(lhs=rol2, rhs=IneqSys.Sum([obj2]))) # Frequency constraint sys.add(IneqSys.Inequality(lhs=fact, rhs=IneqSys.Product([con3, rol1]))) sys.add(IneqSys.Inequality(coeff=3, lhs=rol1, rhs=IneqSys.Sum([fact]))) # Uniqueness sys.add(IneqSys.Inequality(lhs=fact, rhs=IneqSys.Product([rol1, rol2]))) # Disjunctive mandatory sys.add(IneqSys.Inequality(lhs=obj1, rhs=IneqSys.Sum([rol1]))) sys.add(IneqSys.Inequality(lhs=obj2, rhs=IneqSys.Sum([rol2]))) # Solve the system solution = sys.solve() self.assertEquals(solution, None) self.assertEquals(rol1.upper, 0)
def test_unsat_system_from_paper3(self): """ Test an unsatisfiable system of inequalities from Smaragdakis (Fig 9c). """ sys = IneqSys.InequalitySystem() # Two object types related by two binary fact types obj1 = IneqSys.Variable("obj1", upper=20) obj2 = IneqSys.Variable("obj2", upper=20) rol11 = IneqSys.Variable("rol11", upper=20) rol12 = IneqSys.Variable("rol12", upper=20) rol21 = IneqSys.Variable("rol21", upper=20) rol22 = IneqSys.Variable("rol22", upper=20) fact1 = IneqSys.Variable("fact1", upper=20) fact2 = IneqSys.Variable("fact2", upper=20) # Constant con2 = IneqSys.Variable("con2", lower=2, upper=2) # Semantics of roles sys.add(IneqSys.Inequality(lhs=rol11, rhs=IneqSys.Sum([obj1]))) sys.add(IneqSys.Inequality(lhs=rol11, rhs=IneqSys.Sum([fact1]))) sys.add(IneqSys.Inequality(lhs=rol21, rhs=IneqSys.Sum([fact1]))) sys.add(IneqSys.Inequality(lhs=rol21, rhs=IneqSys.Sum([obj2]))) sys.add(IneqSys.Inequality(lhs=rol12, rhs=IneqSys.Sum([obj1]))) sys.add(IneqSys.Inequality(lhs=rol12, rhs=IneqSys.Sum([fact2]))) sys.add(IneqSys.Inequality(lhs=rol22, rhs=IneqSys.Sum([fact2]))) sys.add(IneqSys.Inequality(lhs=rol22, rhs=IneqSys.Sum([obj2]))) # Uniqueness of fact types sys.add( IneqSys.Inequality(lhs=fact1, rhs=IneqSys.Product([rol11, rol21]))) sys.add( IneqSys.Inequality(lhs=fact2, rhs=IneqSys.Product([rol12, rol22]))) # Disjunctive mandatory sys.add(IneqSys.Inequality(lhs=obj1, rhs=IneqSys.Sum([rol11, rol12]))) sys.add(IneqSys.Inequality(lhs=obj2, rhs=IneqSys.Sum([rol21, rol22]))) # Simple uniqueness sys.add(IneqSys.Inequality(lhs=fact1, rhs=IneqSys.Sum([rol21]))) sys.add(IneqSys.Inequality(lhs=fact2, rhs=IneqSys.Sum([rol12]))) # Simple mandatory sys.add(IneqSys.Inequality(lhs=obj1, rhs=IneqSys.Sum([rol11]))) sys.add(IneqSys.Inequality(lhs=obj2, rhs=IneqSys.Sum([rol22]))) # Frequency sys.add( IneqSys.Inequality(lhs=fact1, rhs=IneqSys.Product([con2, rol11]))) sys.add( IneqSys.Inequality(coeff=2, lhs=rol11, rhs=IneqSys.Sum([fact1]))) solution = sys.solve() self.assertEquals(solution, None) self.assertEquals(rol11.upper, 0)