Exemple #1
0
 def test_getname_relativeto(self):
     m = block()
     m.b = block()
     m.b.v = variable()
     self.assertEqual(m.b.v.getname(fully_qualified=True), 'b.v')
     self.assertEqual(m.b.v.getname(fully_qualified=True, relative_to=m.b),
                      'v')
    def test_active(self):

        s = suffix()
        with self.assertRaises(AttributeError):
            s.active = False

        model = block()
        model.s = s
        b = block()
        b.model = model
        bdict = block_dict()
        bdict[0] = b
        bdict[None] = block()
        m = block()
        m.bdict = bdict

        self.assertEqual(m.active, True)
        self.assertEqual(bdict.active, True)
        self.assertEqual(bdict[None].active, True)
        self.assertEqual(b.active, True)
        self.assertEqual(model.active, True)
        self.assertEqual(s.active, True)

        m.deactivate(shallow=False, descend_into=True)

        self.assertEqual(m.active, False)
        self.assertEqual(bdict.active, False)
        self.assertEqual(bdict[None].active, False)
        self.assertEqual(b.active, False)
        self.assertEqual(model.active, False)
        self.assertEqual(s.active, False)

        m.activate(shallow=False, descend_into=True)

        self.assertEqual(m.active, True)
        self.assertEqual(bdict.active, True)
        self.assertEqual(bdict[None].active, True)
        self.assertEqual(b.active, True)
        self.assertEqual(model.active, True)
        self.assertEqual(s.active, True)

        m.deactivate(shallow=True, descend_into=True)

        self.assertEqual(m.active, False)
        self.assertEqual(bdict.active, True)
        self.assertEqual(bdict[None].active, False)
        self.assertEqual(b.active, False)
        self.assertEqual(model.active, False)
        self.assertEqual(s.active, True)

        m.activate(shallow=True, descend_into=True)

        self.assertEqual(m.active, True)
        self.assertEqual(bdict.active, True)
        self.assertEqual(bdict[None].active, True)
        self.assertEqual(b.active, True)
        self.assertEqual(model.active, True)
        self.assertEqual(s.active, True)
Exemple #3
0
 def test_import_suffix_generator(self):
     m = block()
     m.s0 = suffix(direction=suffix.LOCAL)
     m.s0i = suffix(direction=suffix.LOCAL,
                   datatype=suffix.INT)
     m.s1 = suffix(direction=suffix.IMPORT_EXPORT)
     m.s1i = suffix(direction=suffix.IMPORT_EXPORT,
                    datatype=suffix.INT)
     m.s2 = suffix(direction=suffix.IMPORT)
     m.s2i = suffix(direction=suffix.IMPORT,
                   datatype=suffix.INT)
     m.s3 = suffix(direction=suffix.EXPORT)
     m.s3i = suffix(direction=suffix.EXPORT,
                    datatype=suffix.INT)
     m.b = block()
     m.b.s0 = suffix(direction=suffix.LOCAL)
     m.b.s0i = suffix(direction=suffix.LOCAL,
                      datatype=suffix.INT)
     m.b.s1 = suffix(direction=suffix.IMPORT_EXPORT)
     m.b.s1i = suffix(direction=suffix.IMPORT_EXPORT,
                      datatype=suffix.INT)
     m.b.s2 = suffix(direction=suffix.IMPORT)
     m.b.s2i = suffix(direction=suffix.IMPORT,
                      datatype=suffix.INT)
     m.b.s3 = suffix(direction=suffix.EXPORT)
     m.b.s3i = suffix(direction=suffix.EXPORT,
                      datatype=suffix.INT)
     # default
     self.assertEqual([id(c_) for c_
                       in import_suffix_generator(m)],
                      [id(m.s1), id(m.s1i),
                       id(m.s2), id(m.s2i),
                       id(m.b.s1), id(m.b.s1i),
                       id(m.b.s2), id(m.b.s2i)])
     # descend_into=False
     self.assertEqual([id(c_) for c_
                       in import_suffix_generator(m,
                                                  descend_into=False)],
                      [id(m.s1), id(m.s1i),
                       id(m.s2), id(m.s2i)])
     # datatype=INT
     self.assertEqual([id(c_) for c_
                       in import_suffix_generator(m,
                                                  datatype=suffix.INT)],
                      [id(m.s1i),
                       id(m.s2i),
                       id(m.b.s1i),
                       id(m.b.s2i)])
     # active=True
     m.s1.deactivate()
     m.b.deactivate()
     self.assertEqual([id(c_) for c_
                       in import_suffix_generator(m,
                                                  active=True)],
                      [id(m.s1i), id(m.s2), id(m.s2i)])
 def test_local_suffix_generator(self):
     m = block()
     m.s0 = suffix(direction=suffix.LOCAL)
     m.s0i = suffix(direction=suffix.LOCAL, datatype=suffix.INT)
     m.s1 = suffix(direction=suffix.IMPORT_EXPORT)
     m.s1i = suffix(direction=suffix.IMPORT_EXPORT, datatype=suffix.INT)
     m.s2 = suffix(direction=suffix.IMPORT)
     m.s2i = suffix(direction=suffix.IMPORT, datatype=suffix.INT)
     m.s3 = suffix(direction=suffix.EXPORT)
     m.s3i = suffix(direction=suffix.EXPORT, datatype=suffix.INT)
     m.b = block()
     m.b.s0 = suffix(direction=suffix.LOCAL)
     m.b.s0i = suffix(direction=suffix.LOCAL, datatype=suffix.INT)
     m.b.s1 = suffix(direction=suffix.IMPORT_EXPORT)
     m.b.s1i = suffix(direction=suffix.IMPORT_EXPORT, datatype=suffix.INT)
     m.b.s2 = suffix(direction=suffix.IMPORT)
     m.b.s2i = suffix(direction=suffix.IMPORT, datatype=suffix.INT)
     m.b.s3 = suffix(direction=suffix.EXPORT)
     m.b.s3i = suffix(direction=suffix.EXPORT, datatype=suffix.INT)
     # default
     self.assertEqual(
         [(ck_, c_.name)
          for ck_, c_ in local_suffix_generator(m, return_key=True)],
         [("s0", m.s0.name), ("s0i", m.s0i.name), ("s0", m.b.s0.name),
          ("s0i", m.b.s0i.name)])
     self.assertEqual(
         [id(c_) for c_ in local_suffix_generator(m, return_key=False)],
         [id(m.s0), id(m.s0i), id(m.b.s0),
          id(m.b.s0i)])
     # descend_into=False
     self.assertEqual([(ck_, c_.name) for ck_, c_ in local_suffix_generator(
         m, descend_into=False, return_key=True)], [("s0", m.s0.name),
                                                    ("s0i", m.s0i.name)])
     self.assertEqual([
         id(c_) for c_ in local_suffix_generator(
             m, descend_into=False, return_key=False)
     ], [id(m.s0), id(m.s0i)])
     # datatype=INT
     self.assertEqual([(ck_, c_.name) for ck_, c_ in local_suffix_generator(
         m, datatype=suffix.INT, return_key=True)], [("s0i", m.s0i.name),
                                                     ("s0i", m.b.s0i.name)])
     self.assertEqual([
         id(c_) for c_ in local_suffix_generator(
             m, datatype=suffix.INT, return_key=False)
     ], [id(m.s0i), id(m.b.s0i)])
     # active=True
     m.s0.deactivate()
     m.b.deactivate()
     self.assertEqual([(ck_, c_.name) for ck_, c_ in local_suffix_generator(
         m, active=True, return_key=True)], [("s0i", m.s0i.name)])
     self.assertEqual([
         id(c_)
         for c_ in local_suffix_generator(m, active=True, return_key=False)
     ], [id(m.s0i)])
Exemple #5
0
    def test_preorder_visit(self):
        # test that we can use the advanced preorder_visit
        # function on a block to efficiently check for these
        # constraint containers (without iterating over
        # their children)
        A = numpy.ones((3, 3))

        m = block()
        m.c = matrix_constraint(A)
        m.B = block_list()
        m.B.append(tiny_block())
        m.B[0].c = matrix_constraint(A)
        m.b = block()
        m.b.c = constraint_dict()
        m.b.c[None] = matrix_constraint(A)
        m.b.c[1] = matrix_constraint(A)
        m.b.c[2] = constraint()

        # don't visit things below a matrix constraint
        # (e.g., cases where we want to handle it in bulk)
        def visit_mc(x):
            visit_mc.count += 1
            if isinstance(x, matrix_constraint):
                return False
            return True

        visit_mc.count = 0

        def visit_all(x):
            visit_all.count += 1
            return True

        visit_all.count = 0

        m.preorder_visit(visit_mc,
                         ctype=matrix_constraint.ctype,
                         include_all_parents=False)
        self.assertEqual(visit_mc.count, 6)
        visit_mc.count = 0

        m.preorder_visit(visit_all,
                         ctype=matrix_constraint.ctype,
                         include_all_parents=False)
        #   number of matrix constraints (4)
        # + number of plain constraints (4*3 + 1)
        # + number of other constraint containers (1)
        self.assertEqual(visit_all.count, 18)

        self.assertEqual(len(list(m.components(ctype=constraint.ctype))), 13)
 def test_pprint(self):
     # Not really testing what the output is, just that
     # an error does not occur. The pprint functionality
     # is still in the early stages.
     p = parameter()
     pyomo.core.kernel.pprint(p)
     b = block()
     b.p = p
     pyomo.core.kernel.pprint(p)
     pyomo.core.kernel.pprint(b)
     m = block()
     m.b = b
     pyomo.core.kernel.pprint(p)
     pyomo.core.kernel.pprint(b)
     pyomo.core.kernel.pprint(m)
 def test_pprint(self):
     # Not really testing what the output is, just that
     # an error does not occur. The pprint functionality
     # is still in the early stages.
     cdict = self._container_type({None: self._ctype_factory()})
     pyomo.core.kernel.pprint(cdict)
     b = block()
     b.cdict = cdict
     pyomo.core.kernel.pprint(cdict)
     pyomo.core.kernel.pprint(b)
     m = block()
     m.b = b
     pyomo.core.kernel.pprint(cdict)
     pyomo.core.kernel.pprint(b)
     pyomo.core.kernel.pprint(m)
 def test_pprint(self):
     # Not really testing what the output is, just that
     # an error does not occur. The pprint functionality
     # is still in the early stages.
     vlist = variable_list([variable(), variable()])
     s = sos(vlist)
     pyomo.core.kernel.pprint(s)
     b = block()
     b.s = s
     pyomo.core.kernel.pprint(s)
     pyomo.core.kernel.pprint(b)
     m = block()
     m.b = b
     pyomo.core.kernel.pprint(s)
     pyomo.core.kernel.pprint(b)
     pyomo.core.kernel.pprint(m)
 def test_pickle(self):
     v = variable(lb=1,
                  ub=2,
                  domain_type=IntegerSet,
                  fixed=True)
     self.assertEqual(v.lb, 1)
     self.assertEqual(type(v.lb), int)
     self.assertEqual(v.ub, 2)
     self.assertEqual(type(v.ub), int)
     self.assertEqual(v.domain_type, IntegerSet)
     self.assertEqual(v.fixed, True)
     self.assertEqual(v.parent, None)
     vup = pickle.loads(
         pickle.dumps(v))
     self.assertEqual(vup.lb, 1)
     self.assertEqual(type(vup.lb), int)
     self.assertEqual(vup.ub, 2)
     self.assertEqual(type(vup.ub), int)
     self.assertEqual(vup.domain_type, IntegerSet)
     self.assertEqual(vup.fixed, True)
     self.assertEqual(vup.parent, None)
     b = block()
     b.v = v
     self.assertIs(v.parent, b)
     bup = pickle.loads(
         pickle.dumps(b))
     vup = bup.v
     self.assertEqual(vup.lb, 1)
     self.assertEqual(vup.ub, 2)
     self.assertEqual(vup.domain_type, IntegerSet)
     self.assertEqual(vup.fixed, True)
     self.assertIs(vup.parent, bup)
 def test_pprint(self):
     import pyomo.kernel
     # Not really testing what the output is, just that
     # an error does not occur. The pprint functionality
     # is still in the early stages.
     v = variable()
     pyomo.kernel.pprint(v)
     b = block()
     b.v = v
     pyomo.kernel.pprint(v)
     pyomo.kernel.pprint(b)
     m = block()
     m.b = b
     pyomo.kernel.pprint(v)
     pyomo.kernel.pprint(b)
     pyomo.kernel.pprint(m)
 def test_pickle(self):
     for key in transforms.registered_transforms:
         v = variable(lb=1,ub=3)
         p = transforms.piecewise([1,2,3],
                                  [1,2,1],
                                  input=v,
                                  validate=False,
                                  repn=key)
         self.assertEqual(p.parent, None)
         self.assertEqual(p.input.expr.parent, None)
         self.assertIs(p.input.expr, v)
         pup = pickle.loads(
             pickle.dumps(p))
         self.assertEqual(pup.parent, None)
         self.assertEqual(pup.input.expr.parent, None)
         self.assertIsNot(pup.input.expr, v)
         b = block()
         b.v = v
         b.p = p
         self.assertIs(p.parent, b)
         self.assertEqual(p.input.expr.parent, b)
         bup = pickle.loads(
             pickle.dumps(b))
         pup = bup.p
         self.assertIs(pup.parent, bup)
         self.assertEqual(pup.input.expr.parent, bup)
         self.assertIs(pup.input.expr, bup.v)
         self.assertIsNot(pup.input.expr, b.v)
    def test_active(self):
        o = objective()
        self.assertEqual(o.active, True)
        o.deactivate()
        self.assertEqual(o.active, False)
        o.activate()
        self.assertEqual(o.active, True)

        b = block()
        self.assertEqual(b.active, True)
        b.deactivate()
        self.assertEqual(b.active, False)
        b.o = o
        self.assertEqual(o.active, True)
        self.assertEqual(b.active, False)
        o.deactivate()
        self.assertEqual(o.active, False)
        self.assertEqual(b.active, False)
        b.activate()
        self.assertEqual(o.active, False)
        self.assertEqual(b.active, True)
        b.activate(shallow=False)
        self.assertEqual(o.active, True)
        self.assertEqual(b.active, True)
        b.deactivate(shallow=False)
        self.assertEqual(o.active, False)
        self.assertEqual(b.active, False)
    def test_active(self):
        s = sos([])
        self.assertEqual(s.active, True)
        s.deactivate()
        self.assertEqual(s.active, False)
        s.activate()
        self.assertEqual(s.active, True)

        b = block()
        self.assertEqual(b.active, True)
        b.deactivate()
        self.assertEqual(b.active, False)
        b.s = s
        self.assertEqual(s.active, True)
        self.assertEqual(b.active, False)
        s.deactivate()
        self.assertEqual(s.active, False)
        self.assertEqual(b.active, False)
        b.activate()
        self.assertEqual(s.active, False)
        self.assertEqual(b.active, True)
        b.activate(shallow=False)
        self.assertEqual(s.active, True)
        self.assertEqual(b.active, True)
        b.deactivate(shallow=False)
        self.assertEqual(s.active, False)
        self.assertEqual(b.active, False)
Exemple #14
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    def test_pickle(self):
        v = variable()
        e = noclone(v)
        self.assertEqual(type(e), noclone)
        self.assertIs(type(e.expr), variable)
        eup = pickle.loads(pickle.dumps(e))
        self.assertEqual(type(eup), noclone)
        self.assertTrue(e is not eup)
        self.assertIs(type(eup.expr), variable)
        self.assertIs(type(e.expr), variable)
        self.assertTrue(eup.expr is not e.expr)

        del e
        del v

        v = variable(value=1)
        b = block()
        b.v = v
        eraw = b.v + 1
        b.e = 1 + noclone(eraw)
        bup = pickle.loads(pickle.dumps(b))
        self.assertTrue(isinstance(bup.e, NumericValue))
        self.assertEqual(value(bup.e), 3.0)
        b.v.value = 2
        self.assertEqual(value(b.e), 4.0)
        self.assertEqual(value(bup.e), 3.0)
        bup.v.value = -1
        self.assertEqual(value(b.e), 4.0)
        self.assertEqual(value(bup.e), 1.0)

        self.assertIs(b.v.parent, b)
        self.assertIs(bup.v.parent, bup)

        del b.v
Exemple #15
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 def test_pickle(self):
     s = suffix(direction=suffix.EXPORT,
                datatype=suffix.FLOAT)
     self.assertEqual(s.direction, suffix.EXPORT)
     self.assertEqual(s.datatype, suffix.FLOAT)
     self.assertEqual(s.parent, None)
     sup = pickle.loads(
         pickle.dumps(s))
     self.assertEqual(sup.direction, suffix.EXPORT)
     self.assertEqual(sup.datatype, suffix.FLOAT)
     self.assertEqual(sup.parent, None)
     b = block()
     b.s = s
     self.assertIs(s.parent, b)
     bup = pickle.loads(
         pickle.dumps(b))
     sup = bup.s
     self.assertEqual(sup.direction, suffix.EXPORT)
     self.assertEqual(sup.datatype, suffix.FLOAT)
     self.assertIs(sup.parent, bup)
     b.v = variable(lb=1)
     b.s[b.v] = 1.0
     bup = pickle.loads(
         pickle.dumps(b))
     sup = bup.s
     vup = bup.v
     self.assertEqual(sup[vup], 1.0)
Exemple #16
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 def test_pickle(self):
     vlist = create_variable_list(3)
     ctuple = matrix_constraint(
         numpy.array([[0,0,0],[0,0,0]]),
         x=vlist)
     self.assertTrue((ctuple.lb == -numpy.inf).all())
     self.assertTrue((ctuple.ub == numpy.inf).all())
     self.assertTrue((ctuple.equality == False).all())
     self.assertEqual(ctuple.parent, None)
     ctuple_up = pickle.loads(
         pickle.dumps(ctuple))
     self.assertTrue((ctuple_up.lb == -numpy.inf).all())
     self.assertTrue((ctuple_up.ub == numpy.inf).all())
     self.assertTrue((ctuple_up.equality == False).all())
     self.assertEqual(ctuple_up.parent, None)
     b = block()
     b.ctuple = ctuple
     self.assertIs(ctuple.parent, b)
     bup = pickle.loads(
         pickle.dumps(b))
     ctuple_up = bup.ctuple
     self.assertTrue((ctuple_up.lb == -numpy.inf).all())
     self.assertTrue((ctuple_up.ub == numpy.inf).all())
     self.assertTrue((ctuple_up.equality == False).all())
     self.assertIs(ctuple_up.parent, bup)
 def test_to_string(self):
     b = block()
     p = parameter()
     e = noclone(p**2)
     self.assertEqual(str(e.expr), "<parameter>**2.0")
     self.assertEqual(str(e), "{<parameter>**2.0}")
     e.to_string()
     out = StringIO()
     e.to_string(ostream=out)
     self.assertEqual(out.getvalue(), "<parameter>**2.0")
     e.to_string(verbose=False)
     out = StringIO()
     e.to_string(ostream=out, verbose=False)
     self.assertEqual(out.getvalue(), "<parameter>**2.0")
     e.to_string(verbose=True)
     out = StringIO()
     e.to_string(ostream=out, verbose=True)
     self.assertEqual(out.getvalue(), "{pow( <parameter> , 2.0 )}")
     b.e = e
     b.p = p
     self.assertNotEqual(p.name, None)
     e.to_string(verbose=True)
     out = StringIO()
     e.to_string(ostream=out, verbose=True)
     self.assertEqual(out.getvalue(), "{pow( " + p.name + " , 2.0 )}")
     self.assertEqual(out.getvalue(), "{pow( p , 2.0 )}")
     del b.e
     del b.p
 def test_pprint(self):
     # Not really testing what the output is, just that
     # an error does not occur. The pprint functionality
     # is still in the early stages.
     v = variable()
     o = objective(expr=v**2)
     pyomo.core.kernel.pprint(o)
     b = block()
     b.o = o
     pyomo.core.kernel.pprint(o)
     pyomo.core.kernel.pprint(b)
     m = block()
     m.b = b
     pyomo.core.kernel.pprint(o)
     pyomo.core.kernel.pprint(b)
     pyomo.core.kernel.pprint(m)
    def test_init(self):
        v = variable()
        self.assertTrue(v.parent is None)
        self.assertEqual(v.ctype, Var)
        self.assertEqual(v.domain_type, RealSet)
        self.assertEqual(v.lb, None)
        self.assertEqual(v.ub, None)
        self.assertEqual(v.fixed, False)
        self.assertEqual(v.value, None)
        self.assertEqual(v.stale, True)
        b = block()
        b.v = v
        self.assertTrue(v.parent is b)
        del b.v
        self.assertTrue(v.parent is None)

        v = variable(domain_type=IntegerSet, value=1, lb=0, ub=2, fixed=True)
        self.assertTrue(v.parent is None)
        self.assertEqual(v.ctype, Var)
        self.assertEqual(v.domain_type, IntegerSet)
        self.assertEqual(v.lb, 0)
        self.assertEqual(v.ub, 2)
        self.assertEqual(v.fixed, True)
        self.assertEqual(v.value, 1)
        self.assertEqual(v.stale, True)
    def test_pickle(self):
        v = variable()
        s = sos([v], weights=[1])
        self.assertEqual(len(s), 1)
        self.assertIs(s.variables[0], v)
        self.assertTrue(v in s)
        self.assertEqual(s.weights[0], 1)
        self.assertEqual(s.level, 1)
        self.assertEqual(s.parent, None)
        sup = pickle.loads(pickle.dumps(s))
        self.assertEqual(len(sup), 1)
        self.assertIsNot(sup.variables[0], v)
        self.assertFalse(v in sup)
        self.assertEqual(sup.weights[0], 1)
        self.assertEqual(sup.level, 1)
        self.assertEqual(sup.parent, None)

        b = block()
        b.v = v
        self.assertIs(v.parent, b)
        b.s = s
        self.assertIs(s.parent, b)
        bup = pickle.loads(pickle.dumps(b))
        sup = bup.s
        self.assertEqual(len(sup), 1)
        self.assertIs(sup.variables[0], bup.v)
        self.assertTrue(bup.v in sup)
        self.assertEqual(sup.weights[0], 1)
        self.assertEqual(sup.level, 1)
        self.assertIs(sup.parent, bup)
Exemple #21
0
 def test_pprint(self):
     # Not really testing what the output is, just that
     # an error does not occur. The pprint functionality
     # is still in the early stages.
     v = variable()
     e = noclone(v**2)
     pyomo.core.kernel.pprint(e)
     pyomo.core.kernel.pprint(e, indent=1)
     b = block()
     b.e = expression(expr=e)
     pyomo.core.kernel.pprint(e)
     pyomo.core.kernel.pprint(b)
     m = block()
     m.b = b
     pyomo.core.kernel.pprint(e)
     pyomo.core.kernel.pprint(b)
     pyomo.core.kernel.pprint(m)
Exemple #22
0
 def test_pprint(self):
     import pyomo.kernel
     # Not really testing what the output is, just that
     # an error does not occur. The pprint functionality
     # is still in the early stages.
     p = parameter()
     e = self._ctype_factory(p**2)
     pyomo.kernel.pprint(e)
     b = block()
     b.e = e
     pyomo.kernel.pprint(e)
     pyomo.kernel.pprint(b)
     m = block()
     m.b = b
     pyomo.kernel.pprint(e)
     pyomo.kernel.pprint(b)
     pyomo.kernel.pprint(m)
Exemple #23
0
 def test_pprint(self):
     # Not really testing what the output is, just that
     # an error does not occur. The pprint functionality
     # is still in the early stages.
     m, n = 3, 2
     vlist = create_variable_list(2)
     A = numpy.random.rand(m, n)
     ctuple = matrix_constraint(A, lb=1, ub=2, x=vlist)
     pyomo.core.kernel.pprint(ctuple)
     b = block()
     b.c = ctuple
     pyomo.core.kernel.pprint(ctuple)
     pyomo.core.kernel.pprint(b)
     m = block()
     m.b = b
     pyomo.core.kernel.pprint(ctuple)
     pyomo.core.kernel.pprint(b)
     pyomo.core.kernel.pprint(m)
Exemple #24
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 def test_init_non_NumericValue(self):
     types = [None, 1, 1.1, True, ""]
     if numpy_available:
         types.extend([numpy.float32(1), numpy.bool_(True), numpy.int32(1)])
     types.append(block())
     types.append(block)
     for obj in types:
         self.assertEqual(noclone(obj), obj)
         self.assertIs(type(noclone(obj)), type(obj))
 def test_active(self):
     v = variable()
     b = block()
     self.assertEqual(b.active, True)
     b.deactivate()
     self.assertEqual(b.active, False)
     b.v = v
     self.assertEqual(b.active, False)
     b.activate()
     self.assertEqual(b.active, True)
Exemple #26
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 def test_remove(self):
     model = block()
     index = range(5)
     c = self._container_type(
         self._ctype_factory() for i in index)
     for i in index:
         cdata = c[0]
         self.assertEqual(cdata in c, True)
         c.remove(cdata)
         self.assertEqual(cdata in c, False)
 def test_pickle(self):
     for key in transforms_nd.registered_transforms:
         p = transforms_nd.piecewise_nd(_test_tri, _test_values, repn=key)
         self.assertEqual(p.parent, None)
         pup = pickle.loads(pickle.dumps(p))
         self.assertEqual(pup.parent, None)
         b = block()
         b.p = p
         self.assertIs(p.parent, b)
         bup = pickle.loads(pickle.dumps(b))
         pup = bup.p
         self.assertIs(pup.parent, bup)
    def test_pprint(self):
        # Not really testing what the output is, just that
        # an error does not occur. The pprint functionality
        # is still in the early stages.
        v = variable()
        clist = constraint_list([constraint()])
        s = suffix()
        s[v] = 1
        s[clist] = None
        pyomo.core.kernel.pprint(s)
        b = block()
        b.s = s
        pyomo.core.kernel.pprint(s)
        pyomo.core.kernel.pprint(b)
        m = block()
        m.b = b
        pyomo.core.kernel.pprint(s)
        pyomo.core.kernel.pprint(b)
        pyomo.core.kernel.pprint(m)

        pyomo.core.kernel.pprint({'a': 1, 'b': 2})
 def test_pickle(self):
     p = parameter(value=1.0)
     self.assertEqual(p.value, 1.0)
     self.assertEqual(p.parent, None)
     pup = pickle.loads(pickle.dumps(p))
     self.assertEqual(pup.value, 1.0)
     self.assertEqual(pup.parent, None)
     b = block()
     b.p = p
     self.assertIs(p.parent, b)
     bup = pickle.loads(pickle.dumps(b))
     pup = bup.p
     self.assertEqual(pup.value, 1.0)
     self.assertIs(pup.parent, bup)
Exemple #30
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 def test_to_string(self):
     b = block()
     p = parameter()
     e = noclone(p**2)
     self.assertEqual(str(e.expr), "<parameter>**2")
     self.assertEqual(str(e), "{(<parameter>**2)}")
     self.assertEqual(e.to_string(), "(<parameter>**2)")
     self.assertEqual(e.to_string(verbose=False), "(<parameter>**2)")
     self.assertEqual(e.to_string(verbose=True), "{pow(<parameter>, 2)}")
     b.e = e
     b.p = p
     self.assertNotEqual(p.name, None)
     self.assertEqual(e.to_string(verbose=True), "{pow(" + p.name + ", 2)}")
     self.assertEqual(e.to_string(verbose=True), "{pow(p, 2)}")
     del b.e
     del b.p