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 = ModelVisitor(group)
self.check_advance_true(model) # <restriction> match
self.assertIsNone(model.element)
model = ModelVisitor(group)
self.check_advance_false(model) # <list> not match with <restriction>
self.check_advance_true(model) # <list> match
self.assertIsNone(model.element)
model = ModelVisitor(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 = ModelVisitor(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_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 = ModelVisitor(group)
for match in [False, False, True]:
self.check_advance(model, match)
self.assertIsNone(model.element)
model = ModelVisitor(group)
self.check_advance_false(model)
self.check_advance_true(model)
self.assertEqual(model.element, group[0][0])
model = ModelVisitor(group)
for match in [False, True, False, False]:
self.check_advance(model, match)
self.assertEqual(model.element, group[1])
model = ModelVisitor(group)
for match in [False, True, True, False, True, False, False]:
self.check_advance(model, match)
self.assertEqual(model.element, group[1])
def test_issue_086(self):
issue_086_xsd = self.casepath(testdata_dir + '/issues/issue_086/issue_086.xsd')
schema = self.schema_class(issue_086_xsd)
group = schema.types['Foo'].content_type
# issue_086-1.xml sequence simulation
model = ModelVisitor(group)
self.assertEqual(model.element, group[0])
self.check_advance_true(model) # <header> matching
self.assertEqual(model.element, group[1][0][0]) # 'a' element
self.check_advance_true(model) # <a> matching
self.assertEqual(model.element, group[1][0][0]) # 'a' element
self.check_advance_true(model) # <a> matching
self.assertEqual(model.element, group[1][0][0]) # 'a' element
self.check_advance_false(model)
self.assertEqual(model.element, group[1][0][0]) # 'a' element
self.check_advance_false(model)
self.assertEqual(model.element, group[1][1][0]) # 'b' element
self.check_advance_true(model) # <b> matching
self.assertEqual(model.element, group[1][1][0]) # 'b' element
self.check_advance_true(model) # <b> matching
self.check_advance_false(model)
self.assertEqual(model.element, group[1][0][0]) # 'a' element (choice group restarted)
self.check_advance_false(model)
self.check_advance_false(model)
self.assertEqual(model.element, group[1][2][0]) # 'c' element
self.check_advance_true(model) # <c> matching
self.assertEqual(model.element, group[1][2][0]) # 'c' element
self.check_advance_true(model) # <c> matching
self.check_stop(model)
# issue_086-2.xml sequence simulation
model = ModelVisitor(group)
self.check_advance_true(model) # <header> matching
self.assertEqual(model.element, group[1][0][0]) # 'a' element
self.check_advance_false(model)
self.assertEqual(model.element, group[1][1][0]) # 'b' element
self.check_advance_true(model) # <b> matching
self.assertEqual(model.element, group[1][1][0]) # 'b' element
self.check_advance_true(model) # <b> matching
self.check_advance_false(model)
self.assertEqual(model.element, group[1][0][0]) # 'a' element (choice group restarted)
self.check_advance_false(model)
self.check_advance_false(model)
self.assertEqual(model.element, group[1][2][0]) # 'c' element
self.check_advance_true(model) # <c> matching
self.assertEqual(model.element, group[1][2][0]) # 'c' element
self.check_advance_true(model) # <c> matching
self.check_advance_false(model)
self.assertEqual(model.element, group[1][0][0]) # 'a' element
self.check_advance_true(model) # <a> matching
self.assertEqual(model.element, group[1][0][0]) # 'a' element
self.check_advance_true(model) # <a> matching
self.assertEqual(model.element, group[1][0][0]) # 'a' element
self.check_stop(model)
def test_model_group7(self):
group = self.models_schema.types['complexType7'].content_type
model = ModelVisitor(group)
self.assertEqual(model.element, group[0][0])
self.check_stop(model, [(group[0][0], 0, [group[0][0]])])
group = self.models_schema.types['complexType7_emptiable'].content_type
model = ModelVisitor(group)
self.assertEqual(model.element, group[0][0])
self.check_stop(model)
def test_vehicles_model(self):
# Sequence with two not-emptiable single-occurs elements
group = self.vh_schema.elements['vehicles'].type.content_type
model = ModelVisitor(group)
self.check_advance_true(model) # <cars>
self.check_advance_true(model) # <bikes>
self.assertIsNone(model.element)
model = ModelVisitor(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_cars_model(self):
# Emptiable 1:1 sequence with one emptiable and unlimited element.
group = self.vh_schema.elements['cars'].type.content_type
model = ModelVisitor(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 = ModelVisitor(group)
self.check_advance_false(model) # <not-a-car>
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 = ModelVisitor(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 = ModelVisitor(group)
self.check_advance_false(model,
[(group[0], 0, [group[0]])]) # <not-a-car>
self.assertIsNone(model.element)
def test_model_group4(self):
group = self.models_schema.groups['group4']
model = ModelVisitor(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_group6(self):
group = self.models_schema.groups['group6']
model = ModelVisitor(group)
self.assertEqual(model.element, group[0][0])
self.check_advance_true(model) # match choice with <elem1>
self.check_advance_true(model) # match choice with <elem2>
self.assertIsNone(model.element)
def test_schema_document_model(self):
group = self.schema_class.meta_schema.elements[
'schema'].type.content_type
# A schema model with a wrong tag
model = ModelVisitor(group)
self.assertEqual(model.element, group[0][0])
self.check_advance_false(model) # eg. anyAttribute
self.check_stop(model)
def test_model_group5(self):
group = self.models_schema.groups['group5']
model = ModelVisitor(group)
self.assertEqual(model.element, group[0][0])
for _ in range(5): # match [<elem1> .. <elem5>]
self.check_advance_true(model)
self.assertEqual(model.element.name, 'elem6')
self.check_advance_true(model) # match choice with <elem6>
self.check_stop(model)
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 = ModelVisitor(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_model_group2(self):
group = self.models_schema.groups['group2']
model = ModelVisitor(group)
self.assertEqual(model.element, group[0])
for _ in range(3):
self.check_advance_false(model) # group1 do not match
self.assertEqual(model.element, group[1][0][0][2]) # <elem3> of group1
for _ in range(8):
self.check_advance_false(model)
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_person_type_model(self):
# Sequence with four single elements, last two are also emptiable.
group = self.col_schema.types['personType'].content_type
model = ModelVisitor(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 = ModelVisitor(group)
self.check_advance_true(model) # <name>
self.check_advance_true(model) # <born>
self.check_stop(model)
self.assertIsNone(model.element)
model = ModelVisitor(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_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 = ModelVisitor(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)
def test_model_group1(self):
group = self.models_schema.groups['group1']
model = ModelVisitor(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_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 = ModelVisitor(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)
