def test_attr_declaration(self): """ <xs:group name="attrDecls"> <xs:sequence> <xs:choice minOccurs="0" maxOccurs="unbounded"> <xs:element name="attribute" type="xs:attribute"/> <xs:element name="attributeGroup" type="xs:attributeGroupRef"/> </xs:choice> <xs:element ref="xs:anyAttribute" minOccurs="0"/> </xs:sequence> </xs:group> """ group = self.schema_class.meta_schema.groups['attrDecls'] model = XsdModelVisitor(group) for match in [False, False, True]: self.check_advance(model, match) self.assertIsNone(model.element) model = XsdModelVisitor(group) for match in [False, True]: self.check_advance(model, match) self.assertEqual(model.element, group[0][0]) model = XsdModelVisitor(group) for match in [False, True, False, False]: self.check_advance(model, match) self.assertEqual(model.element, group[1]) model = XsdModelVisitor(group) for match in [False, True, True, False, True, False, False]: self.check_advance(model, match) self.assertEqual(model.element, group[1])
def test_simple_derivation_model(self): """ <xs:group name="simpleDerivation"> <xs:choice> <xs:element ref="xs:restriction"/> <xs:element ref="xs:list"/> <xs:element ref="xs:union"/> </xs:choice> </xs:group> """ group = self.schema_class.meta_schema.groups['simpleDerivation'] model = XsdModelVisitor(group) self.check_advance_true(model) # <restriction> match self.assertIsNone(model.element) model = XsdModelVisitor(group) self.check_advance_false(model) # <list> not match with <restriction> self.check_advance_true(model) # <list> match self.assertIsNone(model.element) model = XsdModelVisitor(group) self.check_advance_false(model) # <union> not match with <restriction> self.check_advance_false(model) # <union> not match with <list> self.check_advance_true(model) # <union> match self.assertIsNone(model.element) model = XsdModelVisitor(group) self.check_advance_false(model) # <other> not match with <restriction> self.check_advance_false(model) # <other> not match with <list> self.check_advance_false(model, [(group, 0, group[:])]) # <other> not match with <union> self.assertIsNone(model.element)
def test_schema_model(self): """ <xs:group name="schemaTop"> <xs:choice> <xs:group ref="xs:redefinable"/> <xs:element ref="xs:element"/> <xs:element ref="xs:attribute"/> <xs:element ref="xs:notation"/> </xs:choice> </xs:group> <xs:group name="redefinable"> <xs:choice> <xs:element ref="xs:simpleType"/> <xs:element ref="xs:complexType"/> <xs:element ref="xs:group"/> <xs:element ref="xs:attributeGroup"/> </xs:choice> </xs:group> """ group = self.schema_class.meta_schema.groups['schemaTop'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0][0][0]) self.check_advance_false(model) # <simpleType> don't match self.assertEqual(model.element, group[0][0][1]) self.check_advance_true(model) # <complexType> match self.assertIsNone(model.element) model.restart() self.assertEqual(model.element, group[0][0][0]) self.check_advance_false(model) # <simpleType> don't match self.assertEqual(model.element, group[0][0][1]) self.check_advance_false(model) # <complexType> don't match self.assertEqual(model.element, group[0][0][2]) self.check_advance_false(model) # <group> don't match self.assertEqual(model.element, group[0][0][3]) self.check_advance_false(model) # <attributeGroup> don't match self.assertEqual(model.element, group[1]) self.check_advance_false(model) # <element> don't match self.assertEqual(model.element, group[2]) self.check_advance_false(model) # <attribute> don't match self.assertEqual(model.element, group[3]) self.check_advance_false(model, [(group, 0, group[0][0][:]+group[1:])]) # <notation> don't match model.restart() self.assertEqual(model.element, group[0][0][0]) self.check_advance_false(model) # <simpleType> don't match self.assertEqual(model.element, group[0][0][1]) self.check_advance_false(model) # <complexType> don't match self.assertEqual(model.element, group[0][0][2]) self.check_advance_false(model) # <group> don't match self.assertEqual(model.element, group[0][0][3]) self.check_advance_false(model) # <attributeGroup> don't match self.assertEqual(model.element, group[1]) self.check_advance_false(model) # <element> don't match self.assertEqual(model.element, group[2]) self.check_advance_true(model) # <attribute> match self.assertIsNone(model.element)
def test_cars_model(self): # Emptiable 1:1 sequence with one emptiable and unlimited element. group = self.vh_schema.elements['cars'].type.content_type model = XsdModelVisitor(group) self.check_advance_true(model) # <car> self.check_advance_true(model) # <car> self.check_advance_true(model) # <car> self.check_advance_false(model) # (end) self.assertIsNone(model.element) model = XsdModelVisitor(group) self.check_advance_false(model) # <not-a-car> self.assertIsNone(model.element)
def test_vehicles_model(self): # Sequence with two not-emptiable single-occurs elements group = self.vh_schema.elements['vehicles'].type.content_type model = XsdModelVisitor(group) self.check_advance_true(model) # <cars> self.check_advance_true(model) # <bikes> self.assertIsNone(model.element) model = XsdModelVisitor(group) self.check_advance_true(model) # <cars> self.check_advance_true(model) # <bikes> self.check_advance_true(model, ValueError) # <bikes> self.assertIsNone(model.element)
def test_collection_model(self): # Sequence with one not-emptiable and unlimited element. group = self.col_schema.elements['collection'].type.content_type model = XsdModelVisitor(group) self.check_advance_true(model) # <car> self.check_advance_true(model) # <car> self.check_advance_true(model) # <car> self.check_advance_true(model) # <car> self.check_advance_false(model) # (end) self.assertIsNone(model.element) model = XsdModelVisitor(group) self.check_advance_false( model, [(group[0], 0, [group[0]]), (group, 0, [group[0]])] ) # <not-a-car> self.assertIsNone(model.element)
def test_model_group4(self): group = self.models_schema.groups['group4'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0]) for match in [True, False, True]: self.check_advance(model, match) self.check_stop(model)
def test_model_group1(self): group = self.models_schema.groups['group1'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0]) self.check_stop(model) model.restart() self.assertEqual(model.element, group[0]) for _ in range(3): self.check_advance_false(model) self.assertIsNone(model.element) model.restart() for match in [False, True, False]: self.check_advance(model, match) self.assertIsNone(model.element)
def test_model_group5(self): group = self.models_schema.groups['group5'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0][0]) for match in [True, True, True, True, True]: # match [<elem1> .. <elem5>] self.check_advance(model, match) self.assertEqual(model.element.name, 'elem6') self.check_advance_true(model) # match choice with <elem6> self.check_stop(model)
def test_schema_model(self): """ <xs:group name="schemaTop"> <xs:choice> <xs:group ref="xs:redefinable"/> <xs:element ref="xs:element"/> <xs:element ref="xs:attribute"/> <xs:element ref="xs:notation"/> </xs:choice> </xs:group> <xs:group name="redefinable"> <xs:choice> <xs:element ref="xs:simpleType"/> <xs:element ref="xs:complexType"/> <xs:element ref="xs:group"/> <xs:element ref="xs:attributeGroup"/> </xs:choice> </xs:group> """ group = self.schema_class.meta_schema.groups['schemaTop'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0][0][0]) self.check_advance_false(model) # <simpleType> don't match self.assertEqual(model.element, group[0][0][1]) self.check_advance_true(model) # <complexType> match self.assertIsNone(model.element) model.start() self.assertEqual(model.element, group[0][0][0]) self.check_advance_false(model) # <simpleType> don't match self.assertEqual(model.element, group[0][0][1]) self.check_advance_false(model) # <complexType> don't match self.assertEqual(model.element, group[0][0][2]) self.check_advance_false(model) # <group> don't match self.assertEqual(model.element, group[0][0][3]) self.check_advance_false(model) # <attributeGroup> don't match self.assertEqual(model.element, group[1]) self.check_advance_false(model) # <element> don't match self.assertEqual(model.element, group[2]) self.check_advance_false(model) # <attribute> don't match self.assertEqual(model.element, group[3]) self.check_advance_false(model, [(group, 0, group[0][0][:]+group[1:])]) # <notation> don't match model.start() self.assertEqual(model.element, group[0][0][0]) self.check_advance_false(model) # <simpleType> don't match self.assertEqual(model.element, group[0][0][1]) self.check_advance_false(model) # <complexType> don't match self.assertEqual(model.element, group[0][0][2]) self.check_advance_false(model) # <group> don't match self.assertEqual(model.element, group[0][0][3]) self.check_advance_false(model) # <attributeGroup> don't match self.assertEqual(model.element, group[1]) self.check_advance_false(model) # <element> don't match self.assertEqual(model.element, group[2]) self.check_advance_true(model) # <attribute> match self.assertIsNone(model.element)
def test_person_type_model(self): # Sequence with four single elements, last two are also emptiable. group = self.col_schema.types['personType'].content_type model = XsdModelVisitor(group) self.check_advance_true(model) # <name> self.check_advance_true(model) # <born> self.check_advance_true(model) # <dead> self.check_advance_true(model) # <qualification> self.assertIsNone(model.element) model = XsdModelVisitor(group) self.check_advance_true(model) # <name> self.check_advance_true(model) # <born> self.check_stop(model) self.assertIsNone(model.element) model = XsdModelVisitor(group) self.check_advance_true(model) # <name> match self.check_advance_false(model, [(group[1], 0, [group[1]])]) # <born> missing! self.check_advance_true(model) # <dead> match self.check_stop(model) # <qualification> is optional self.assertIsNone(model.element)
def test_complex_type_model(self): """ <xs:group name="complexTypeModel"> <xs:choice> <xs:element ref="xs:simpleContent"/> <xs:element ref="xs:complexContent"/> <xs:sequence> <xs:group ref="xs:typeDefParticle" minOccurs="0"/> <xs:group ref="xs:attrDecls"/> </xs:sequence> </xs:choice> </xs:group> <xs:group name="typeDefParticle"> <xs:choice> <xs:element name="group" type="xs:groupRef"/> <xs:element ref="xs:all"/> <xs:element ref="xs:choice"/> <xs:element ref="xs:sequence"/> </xs:choice> </xs:group> """ group = self.schema_class.meta_schema.groups['complexTypeModel'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0]) self.check_advance_true(model) # <simpleContent> match self.assertIsNone(model.element) model.start() self.assertEqual(model.element, group[0]) for match in [False, True]: self.check_advance(model, match) # <complexContent> match self.assertIsNone(model.element) model.start() self.assertEqual(model.element, group[0]) for match in [False, False, False, False, True]: self.check_advance(model, match) # <all> match self.check_stop(model) self.assertIsNone(model.element) model.start() self.assertEqual(model.element, group[0]) for match in [False, False, False, False, True, False, True, False, False, False]: self.check_advance(model, match) # <all> match, <attributeGroup> match self.assertIsNone(model.element)
def test_model_group2(self): group = self.models_schema.groups['group2'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0]) for match in [False, False, False]: self.check_advance(model, match) # group1 do not match self.assertEqual(model.element, group[1][0][0][2]) # <elem3> of group1 for match in [False] * 8: self.check_advance(model, match) self.assertEqual(model.element, group[2]) # <elem12> self.check_advance_false(model) self.assertEqual(model.element, group[3]) # <elem13> self.check_advance_false(model) self.assertIsNone(model.element)
def test_complex_type_model(self): """ <xs:group name="complexTypeModel"> <xs:choice> <xs:element ref="xs:simpleContent"/> <xs:element ref="xs:complexContent"/> <xs:sequence> <xs:group ref="xs:typeDefParticle" minOccurs="0"/> <xs:group ref="xs:attrDecls"/> </xs:sequence> </xs:choice> </xs:group> <xs:group name="typeDefParticle"> <xs:choice> <xs:element name="group" type="xs:groupRef"/> <xs:element ref="xs:all"/> <xs:element ref="xs:choice"/> <xs:element ref="xs:sequence"/> </xs:choice> </xs:group> """ group = self.schema_class.meta_schema.groups['complexTypeModel'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0]) self.check_advance_true(model) # <simpleContent> match self.assertIsNone(model.element) model.restart() self.assertEqual(model.element, group[0]) self.check_advance_false(model) self.check_advance_true(model) # <complexContent> match self.assertIsNone(model.element) model.restart() self.assertEqual(model.element, group[0]) for match in [False, False, False, False, True]: self.check_advance(model, match) # <all> match self.check_stop(model) self.assertIsNone(model.element) model.restart() self.assertEqual(model.element, group[0]) for match in [False, False, False, False, True, False, True, False, False, False]: self.check_advance(model, match) # <all> match, <attributeGroup> match self.assertIsNone(model.element)
def test_simple_restriction_model(self): """ <xs:group name="facets"> <xs:choice> <xs:element ref="xs:minExclusive"/> <xs:element ref="xs:minInclusive"/> <xs:element ref="xs:maxExclusive"/> <xs:element ref="xs:maxInclusive"/> <xs:element ref="xs:totalDigits"/> <xs:element ref="xs:fractionDigits"/> <xs:element ref="xs:length"/> <xs:element ref="xs:minLength"/> <xs:element ref="xs:maxLength"/> <xs:element ref="xs:enumeration"/> <xs:element ref="xs:whiteSpace"/> <xs:element ref="xs:pattern"/> </xs:choice> </xs:group> <xs:group name="simpleRestrictionModel"> <xs:sequence> <xs:element name="simpleType" type="xs:localSimpleType" minOccurs="0"/> <xs:group ref="xs:facets" minOccurs="0" maxOccurs="unbounded"/> </xs:sequence> </xs:group> """ # Sequence with an optional single element and an optional unlimited choice. group = self.schema_class.meta_schema.groups['simpleRestrictionModel'] model = XsdModelVisitor(group) self.assertEqual(model.element, group[0]) self.check_advance_true(model) # <simpleType> match self.assertEqual(model.element, group[1][0][0]) self.check_advance_false(model) # <maxExclusive> do not match self.assertEqual(model.element, group[1][0][1]) self.check_advance_false(model) # <maxExclusive> do not match self.assertEqual(model.element, group[1][0][2]) self.check_advance_true(model) # <maxExclusive> match self.assertEqual(model.element, group[1][0][0]) for _ in range(12): self.check_advance_false(model) # no match for all the inner choice group "xs:facets" self.assertIsNone(model.element)