path: root/test/schema/test_schema.py

"""

Part of the tagit test suite.
A copy of the license is provided with the project.
Author: Matthias Baumgartner, 2022
"""
# imports
import operator
import unittest

# bsfs imports
from bsfs.namespace import ns
from bsfs.schema import types, from_string
from bsfs.utils import errors

# objects to test
from bsfs.schema.schema import Schema


## code ##

class TestSchema(unittest.TestCase):

    def setUp(self):
        self.schema_str = '''
            prefix rdfs: <http://www.w3.org/2000/01/rdf-schema#>
            prefix xsd: <http://www.w3.org/2001/XMLSchema#>

            prefix bsfs: <http://bsfs.ai/schema/>
            prefix bse: <http://bsfs.ai/schema/Entity#>

            bsfs:Entity rdfs:subClassOf bsfs:Node .
            bsfs:Tag rdfs:subClassOf bsfs:Node .
            bsfs:Image rdfs:subClassOf bsfs:Entity .
            bsfs:Unused rdfs:subClassOf bsfs:Node .

            xsd:string rdfs:subClassOf bsfs:Literal .
            bsfs:Number rdfs:subClassOf bsfs:Literal .
            xsd:integer rdfs:subClassOf bsfs:Number .
            xsd:boolean rdfs:subClassOf bsfs:Literal .

            bse:tag rdfs:subClassOf bsfs:Predicate ;
                rdfs:domain bsfs:Entity ;
                rdfs:range bsfs:Tag ;
                bsfs:unique "false"^^xsd:boolean .

            bse:group rdfs:subClassOf bse:tag ;
                rdfs:domain bsfs:Image ;
                rdfs:range bsfs:Tag ;
                bsfs:unique "false"^^xsd:boolean .

            bse:comment rdfs:subClassOf bsfs:Predicate ;
                rdfs:domain bsfs:Node ;
                rdfs:range xsd:string ;
                bsfs:unique "true"^^xsd:boolean .

            '''
        # nodes
        self.n_root = types.ROOT_NODE
        self.n_ent = self.n_root.child(ns.bsfs.Entity)
        self.n_img = self.n_ent.child(ns.bsfs.Image)
        self.n_tag = self.n_root.child(ns.bsfs.Tag)
        self.n_unused = self.n_root.child(ns.bsfs.Unused)
        self.nodes = [self.n_root, self.n_ent, self.n_img, self.n_tag, self.n_unused]

        # literals
        self.l_root = types.ROOT_LITERAL
        self.l_number = types.ROOT_NUMBER
        self.l_array = types.ROOT_ARRAY
        self.l_time = types.ROOT_TIME
        self.l_string = self.l_root.child(ns.xsd.string)
        self.l_integer = self.l_root.child(ns.xsd.integer)
        self.l_unused = self.l_root.child(ns.xsd.boolean)
        self.f_root = types.ROOT_FEATURE
        self.literals = [self.l_root, self.l_array, self.f_root, self.l_number, self.l_time, self.l_string, self.l_integer, self.l_unused]

        # predicates
        self.p_root = types.ROOT_PREDICATE
        self.p_tag = self.p_root.child(ns.bse.tag, self.n_ent, self.n_tag, False)
        self.p_group = self.p_tag.child(ns.bse.group, self.n_img, self.n_tag, False)
        self.p_comment = self.p_root.child(ns.bse.comment, self.n_root, self.l_string, True)
        self.predicates = [self.p_root, self.p_tag, self.p_group, self.p_comment]

    def test_construction(self):
        # no args yields a minimal schema
        schema = Schema()
        self.assertSetEqual(set(schema.nodes()), {self.n_root})
        self.assertSetEqual(set(schema.literals()), {self.l_root, self.l_number, self.l_array, self.l_time, self.f_root})
        self.assertSetEqual(set(schema.predicates()), {self.p_root})

        # nodes and literals are optional
        schema = Schema(self.predicates)
        self.assertSetEqual(set(schema.nodes()), {self.n_root, self.n_ent, self.n_img, self.n_tag})
        self.assertSetEqual(set(schema.literals()), {self.l_root, self.l_string, self.l_number, self.l_time, self.l_array, self.f_root})
        self.assertSetEqual(set(schema.predicates()), set(self.predicates))

        # predicates, nodes, and literals are respected
        schema = Schema(self.predicates, self.nodes, self.literals)
        self.assertSetEqual(set(schema.nodes()), set(self.nodes))
        self.assertSetEqual(set(schema.literals()), set(self.literals))
        self.assertSetEqual(set(schema.predicates()), set(self.predicates))

        # nodes are complete (w/o unused)
        schema = Schema(self.predicates, None, self.literals)
        self.assertSetEqual(set(schema.nodes()), {self.n_root, self.n_ent, self.n_img, self.n_tag})
        schema = Schema(self.predicates, [], self.literals)
        self.assertSetEqual(set(schema.nodes()), {self.n_root, self.n_ent, self.n_img, self.n_tag})
        schema = Schema(self.predicates, [self.n_img, self.n_tag], self.literals)
        self.assertSetEqual(set(schema.nodes()), {self.n_root, self.n_ent, self.n_img, self.n_tag})
        schema = Schema(self.predicates, [self.n_unused], self.literals)
        self.assertSetEqual(set(schema.nodes()), set(self.nodes))

        # literals are complete
        schema = Schema(self.predicates, self.nodes, None)
        self.assertSetEqual(set(schema.literals()), {self.l_root, self.l_string, self.l_number, self.l_array, self.l_time, self.f_root})
        schema = Schema(self.predicates, self.nodes, [])
        self.assertSetEqual(set(schema.literals()), {self.l_root, self.l_string, self.l_number, self.l_array, self.l_time, self.f_root})
        schema = Schema(self.predicates, self.nodes, [self.l_string])
        self.assertSetEqual(set(schema.literals()), {self.l_root, self.l_string, self.l_number, self.l_array, self.l_time, self.f_root})
        schema = Schema(self.predicates, self.nodes, [self.l_integer])
        self.assertSetEqual(set(schema.literals()), {self.l_root, self.l_string, self.l_integer, self.l_number, self.l_array, self.l_time, self.f_root})
        schema = Schema(self.predicates, self.nodes, [self.l_integer, self.l_unused])
        self.assertSetEqual(set(schema.literals()), set(self.literals))

        # predicates are complete
        schema = Schema([], self.nodes, self.literals)
        self.assertSetEqual(set(schema.predicates()), {self.p_root})
        schema = Schema([self.p_group], self.nodes, self.literals)
        self.assertSetEqual(set(schema.predicates()), {self.p_root, self.p_tag, self.p_group})
        schema = Schema([self.p_group, self.p_comment], self.nodes, self.literals)
        self.assertSetEqual(set(schema.predicates()), set(self.predicates))

        # node uris must be unique
        self.assertRaises(errors.ConsistencyError, Schema, self.predicates,
            self.nodes + [types.Node(ns.bsfs.Entity, None)], self.literals)
        self.assertRaises(errors.ConsistencyError, Schema, self.predicates,
            self.nodes + [types.Node(ns.bsfs.Entity, types.Node(ns.bsfs.Foo, None))], self.literals)
        self.assertRaises(errors.ConsistencyError, Schema, self.predicates,
            self.nodes + [types.Node(ns.bsfs.Entity, self.n_img)], self.literals)
        self.assertRaises(errors.ConsistencyError, Schema, self.predicates,
            [types.Node(ns.bsfs.Entity, self.n_img)], self.literals)

        # literal uris must be unique
        self.assertRaises(errors.ConsistencyError, Schema, self.predicates, self.nodes,
            self.literals + [types.Literal(ns.xsd.string, None)])
        self.assertRaises(errors.ConsistencyError, Schema, self.predicates, self.nodes,
            self.literals + [types.Literal(ns.xsd.string, types.Literal(ns.bsfs.Foo, None))])
        self.assertRaises(errors.ConsistencyError, Schema, self.predicates, self.nodes,
            self.literals + [types.Literal(ns.xsd.string, self.l_integer)])
        self.assertRaises(errors.ConsistencyError, Schema, self.predicates, self.nodes,
            [types.Literal(ns.xsd.string, self.l_integer)])

        # predicate uris must be unique
        self.assertRaises(errors.ConsistencyError, Schema,
            self.predicates + [types.Predicate(ns.bse.tag, self.p_root, self.n_root, self.n_tag, False)])
        self.assertRaises(errors.ConsistencyError, Schema,
            self.predicates + [types.Predicate(ns.bse.tag, self.p_root, self.n_ent, self.n_img, False)])
        self.assertRaises(errors.ConsistencyError, Schema,
            self.predicates + [types.Predicate(ns.bse.tag, self.p_root, self.n_ent, self.n_tag, True)])
        self.assertRaises(errors.ConsistencyError, Schema,
            self.predicates + [types.Predicate(ns.bse.tag, None, self.n_ent, self.n_tag, False)])

        # uris must be unique across nodes, literals, and predicates
        self.assertRaises(errors.ConsistencyError, Schema,
            {}, {types.Node(ns.bsfs.Foo, None)}, {types.Node(ns.bsfs.Foo, None)})
        self.assertRaises(errors.ConsistencyError, Schema,
            {types.Predicate(ns.bsfs.Foo, None, types.Node(ns.bsfs.Node, None), types.ROOT_VERTEX, False)}, {}, {types.Node(ns.bsfs.Foo, None)})
        self.assertRaises(errors.ConsistencyError, Schema,
            {types.Predicate(ns.bsfs.Foo, None, types.Node(ns.bsfs.Node, None), types.ROOT_VERTEX, False)}, {types.Node(ns.bsfs.Foo, None)}, {})
        self.assertRaises(errors.ConsistencyError, Schema,
            {types.Predicate(ns.bsfs.Foo, None, types.Node(ns.bsfs.Node, None), types.ROOT_VERTEX, False)}, {types.Node(ns.bsfs.Foo, None)}, {types.Node(ns.bsfs.Foo, None)})


    def test_str(self):
        # string conversion
        self.assertEqual(str(Schema([])), 'Schema()')
        self.assertEqual(str(Schema([], [], [])), 'Schema()')
        self.assertEqual(str(Schema(self.predicates, self.nodes, self.literals)), 'Schema()')
        # repr conversion with only default nodes, literals, and predicates
        n = [ns.bsfs.Node]
        l = [ns.bsfs.Array, ns.bsfs.Feature, ns.bsfs.Literal, ns.bsfs.Number, ns.bsfs.Time]
        p = [ns.bsfs.Predicate]
        self.assertEqual(repr(Schema()), f'Schema({n}, {l}, {p})')
        self.assertEqual(repr(Schema([], [], [])), f'Schema({n}, {l}, {p})')
        # repr conversion
        n = [ns.bsfs.Entity, ns.bsfs.Image, ns.bsfs.Node, ns.bsfs.Tag, ns.bsfs.Unused]
        l = [ns.bsfs.Array, ns.bsfs.Feature, ns.bsfs.Literal, ns.bsfs.Number, ns.bsfs.Time, ns.xsd.boolean, ns.xsd.integer, ns.xsd.string]
        p = [ns.bse.comment, ns.bse.group, ns.bse.tag, ns.bsfs.Predicate]
        self.assertEqual(repr(Schema(self.predicates, self.nodes, self.literals)), f'Schema({n}, {l}, {p})')

    def test_equality(self):
        schema = Schema(self.predicates, self.nodes, self.literals)
        # instance is equal to itself
        self.assertEqual(schema, schema)
        self.assertEqual(hash(schema), hash(schema))
        # instance is equal to a clone
        self.assertEqual(schema, Schema(self.predicates, self.nodes, self.literals))
        self.assertEqual(hash(schema), hash(Schema(self.predicates, self.nodes, self.literals)))
        # equality respects nodes
        self.assertNotEqual(schema,
            Schema(self.predicates, [self.n_root, self.n_ent, self.n_img, self.n_tag], self.literals))
        self.assertNotEqual(hash(schema),
            hash(Schema(self.predicates, [self.n_root, self.n_ent, self.n_img, self.n_tag], self.literals)))
        self.assertNotEqual(schema,
            Schema(self.predicates, self.nodes + [types.Node(ns.bsfs.Document, self.n_ent)], self.literals))
        self.assertNotEqual(hash(schema),
            hash(Schema(self.predicates, self.nodes + [types.Node(ns.bsfs.Document, self.n_ent)], self.literals)))
        # equality respects literals
        self.assertNotEqual(schema,
            Schema(self.predicates, self.nodes, [self.l_root, self.l_string, self.l_integer]))
        self.assertNotEqual(hash(schema),
            hash(Schema(self.predicates, self.nodes, [self.l_root, self.l_string, self.l_integer])))
        self.assertNotEqual(schema,
            Schema(self.predicates, self.nodes, self.literals + [types.Literal(ns.xsd.number, self.l_root)]))
        self.assertNotEqual(hash(schema),
            hash(Schema(self.predicates, self.nodes, self.literals + [types.Literal(ns.xsd.number, self.l_root)])))
        # equality respects predicates
        self.assertNotEqual(schema,
            Schema([self.p_group, self.p_tag, self.p_root], self.nodes, self.literals))
        self.assertNotEqual(hash(schema),
            hash(Schema([self.p_group, self.p_tag, self.p_root], self.nodes, self.literals)))
        self.assertNotEqual(schema,
            Schema(self.predicates + [self.p_root.child(ns.bse.filesize, self.n_ent, self.l_integer)], self.nodes, self.literals))
        self.assertNotEqual(hash(schema),
            hash(Schema(self.predicates + [self.p_root.child(ns.bse.filesize, self.n_ent, self.l_integer)], self.nodes, self.literals)))

    def test_order(self):
        # setup
        class Foo(): pass
        p_foo = self.p_root.child(ns.bse.foo, self.n_ent, self.l_string, True)
        p_sub = p_foo.child(ns.bse.sub, self.n_ent, self.l_string, True)
        p_bar = self.p_root.child(ns.bse.bar, self.n_ent, self.l_string, True)

        # can only compare schema to other schema
        # <
        self.assertRaises(TypeError, operator.lt, Schema({p_foo, p_bar}), 'hello world')
        self.assertRaises(TypeError, operator.lt, Schema({p_foo, p_bar}), 1234)
        self.assertRaises(TypeError, operator.lt, Schema({p_foo, p_bar}), p_foo)
        self.assertRaises(TypeError, operator.lt, Schema({p_foo, p_bar}), Foo())
        # <=
        self.assertRaises(TypeError, operator.le, Schema({p_foo, p_bar}), 'hello world')
        self.assertRaises(TypeError, operator.le, Schema({p_foo, p_bar}), 1234)
        self.assertRaises(TypeError, operator.le, Schema({p_foo, p_bar}), p_foo)
        self.assertRaises(TypeError, operator.le, Schema({p_foo, p_bar}), Foo())
        # >
        self.assertRaises(TypeError, operator.gt, Schema({p_foo, p_bar}), 'hello world')
        self.assertRaises(TypeError, operator.gt, Schema({p_foo, p_bar}), 1234)
        self.assertRaises(TypeError, operator.gt, Schema({p_foo, p_bar}), p_foo)
        self.assertRaises(TypeError, operator.gt, Schema({p_foo, p_bar}), Foo())
        # >=
        self.assertRaises(TypeError, operator.ge, Schema({p_foo, p_bar}), 'hello world')
        self.assertRaises(TypeError, operator.ge, Schema({p_foo, p_bar}), 1234)
        self.assertRaises(TypeError, operator.ge, Schema({p_foo, p_bar}), p_foo)
        self.assertRaises(TypeError, operator.ge, Schema({p_foo, p_bar}), Foo())

        # a schema is a subset of itself
        self.assertTrue(operator.le(Schema({self.p_tag}), Schema({self.p_tag})))
        # a schema is a superset of itself
        self.assertTrue(operator.ge(Schema({self.p_tag}), Schema({self.p_tag})))
        # a schema is not a true subset of itself
        self.assertFalse(operator.lt(Schema({self.p_tag}), Schema({self.p_tag})))
        # a schema is not a true superset of itself
        self.assertFalse(operator.gt(Schema({self.p_tag}), Schema({self.p_tag})))

        # subset considers predicates
        self.assertTrue(operator.lt(Schema({p_foo}), Schema({p_foo, p_bar})))
        self.assertTrue(operator.lt(Schema({p_foo}), Schema({p_sub})))
        self.assertFalse(operator.lt(Schema({p_foo}), Schema({p_bar})))
        # subset considers nodes
        self.assertTrue(operator.lt(Schema({self.p_tag}), Schema({self.p_tag}, {self.n_unused})))
        self.assertFalse(operator.lt(Schema({self.p_tag}, {self.n_unused}), Schema({self.p_tag})))
        # subset considers literals
        self.assertTrue(operator.lt(Schema({self.p_tag}), Schema({self.p_tag}, {}, {self.l_unused})))
        self.assertFalse(operator.lt(Schema({self.p_tag}, {}, {self.l_unused}), Schema({self.p_tag})))
        # subset considers differences in predicates and nodes
        self.assertTrue(operator.lt(Schema({self.p_tag}), Schema({self.p_group})))
        self.assertTrue(operator.le(Schema({self.p_tag}), Schema({self.p_group})))
        # subset considers differences in predicates and literals
        self.assertTrue(operator.lt(Schema(), Schema({self.p_comment})))
        # subset considers differences in predicates, nodes, and literals
        self.assertTrue(operator.le(Schema({}), Schema()))
        self.assertTrue(operator.lt(Schema({self.p_tag}), from_string(self.schema_str)))
        self.assertTrue(operator.le(Schema({self.p_tag}), from_string(self.schema_str)))
        self.assertFalse(operator.lt(Schema({self.p_comment}), Schema({self.p_tag})))
        self.assertFalse(operator.le(Schema({self.p_comment}), Schema({self.p_tag})))

        # superset considers predicates
        self.assertTrue(operator.gt(Schema({p_foo, p_bar}), Schema({p_foo})))
        self.assertTrue(operator.gt(Schema({p_sub}), Schema({p_foo})))
        self.assertFalse(operator.gt(Schema({p_foo}), Schema({p_bar})))
        # superset considers nodes
        self.assertTrue(operator.gt(Schema({self.p_tag}, {self.n_unused}), Schema({self.p_tag})))
        self.assertFalse(operator.gt(Schema({self.p_tag}), Schema({self.p_tag}, {self.n_unused})))
        # superset considers literals
        self.assertTrue(operator.gt(Schema({self.p_tag}, {}, {self.l_unused}), Schema({self.p_tag})))
        self.assertFalse(operator.gt(Schema({self.p_tag}), Schema({self.p_tag}, {}, {self.l_unused})))
        # superset considers differences in predicates and nodes
        self.assertTrue(operator.gt(Schema({self.p_group}), Schema({self.p_tag})))
        self.assertTrue(operator.ge(Schema({self.p_group}), Schema({self.p_tag})))
        # superset considers differences in predicates and literals
        self.assertTrue(operator.gt(Schema({self.p_comment}), Schema()))
        # superset considers differences in predicates, nodes, and literals
        self.assertTrue(operator.ge(Schema(), Schema({})))
        self.assertTrue(operator.gt(from_string(self.schema_str), Schema({self.p_tag})))
        self.assertTrue(operator.ge(from_string(self.schema_str), Schema({self.p_tag})))
        self.assertFalse(operator.gt(Schema({self.p_tag}), Schema({self.p_comment})))
        self.assertFalse(operator.ge(Schema({self.p_tag}), Schema({self.p_comment})))

        # inconsistent schema cannot be a subset
        self.assertFalse(operator.le(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_ent, self.l_integer, True)}))) # inconsistent w.r.t. literal
        self.assertFalse(operator.le(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_img, self.l_string, True)}))) # inconsistent w.r.t. node
        self.assertFalse(operator.le(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_ent, self.l_string, False)}))) # inconsistent w.r.t. unique
        self.assertFalse(operator.le(Schema({}, {self.n_img}), Schema({}, {
            types.Node(ns.bsfs.Image, types.Node(ns.bsfs.Node, None))})))
        self.assertFalse(operator.le(Schema({}, {}, {self.l_integer}), Schema({}, {}, {
            types.Literal(ns.xsd.integer, types.Literal(ns.xsd.number, types.Literal(ns.bsfs.Literal, None)))})))
        # inconsistent schema cannot be a true subset
        self.assertFalse(operator.lt(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_ent, self.l_integer, True)}))) # inconsistent w.r.t. literal
        self.assertFalse(operator.lt(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_img, self.l_string, True)}))) # inconsistent w.r.t. node
        self.assertFalse(operator.lt(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_ent, self.l_string, False)}))) # inconsistent w.r.t. unique
        self.assertFalse(operator.lt(Schema({}, {self.n_img}), Schema({}, {
            types.Node(ns.bsfs.Image, types.Node(ns.bsfs.Node, None))})))
        self.assertFalse(operator.lt(Schema({}, {}, {self.l_integer}), Schema({}, {}, {
            types.Literal(ns.xsd.integer, types.Literal(ns.xsd.number, types.Literal(ns.bsfs.Literal, None)))})))
        # inconsistent schema cannot be a superset
        self.assertFalse(operator.ge(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_ent, self.l_integer, True)}))) # inconsistent w.r.t. literal
        self.assertFalse(operator.ge(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_img, self.l_string, True)}))) # inconsistent w.r.t. node
        self.assertFalse(operator.ge(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_ent, self.l_string, False)}))) # inconsistent w.r.t. unique
        self.assertFalse(operator.ge(Schema({}, {self.n_img}), Schema({}, {
            types.Node(ns.bsfs.Image, types.Node(ns.bsfs.Node, None))})))
        self.assertFalse(operator.ge(Schema({}, {}, {self.l_integer}), Schema({}, {}, {
            types.Literal(ns.xsd.integer, types.Literal(ns.xsd.number, types.Literal(ns.bsfs.Literal, None)))})))
        # inconsistent schema cannot be a true superset
        self.assertFalse(operator.gt(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_ent, self.l_integer, True)}))) # inconsistent w.r.t. literal
        self.assertFalse(operator.gt(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_img, self.l_string, True)}))) # inconsistent w.r.t. node
        self.assertFalse(operator.gt(Schema({p_foo}), Schema({
            self.p_root.child(ns.bse.foo, self.n_ent, self.l_string, False)}))) # inconsistent w.r.t. unique
        self.assertFalse(operator.gt(Schema({}, {self.n_img}), Schema({}, {
            types.Node(ns.bsfs.Image, types.Node(ns.bsfs.Node, None))})))
        self.assertFalse(operator.gt(Schema({}, {}, {self.l_integer}), Schema({}, {}, {
            types.Literal(ns.xsd.integer, types.Literal(ns.xsd.number, types.Literal(ns.bsfs.Literal, None)))})))



    def test_diff(self):
        # difference can be empty
        diff = Schema({self.p_tag}).diff(Schema({self.p_group}))
        self.assertSetEqual(set(diff.nodes), set())
        self.assertSetEqual(set(diff.literals), set())
        self.assertSetEqual(set(diff.predicates), set())

        # difference contains predicates from the LHS
        diff = Schema({self.p_group}).diff(Schema({self.p_tag}))
        self.assertSetEqual(set(diff.nodes), {self.n_img})
        self.assertSetEqual(set(diff.literals), set())
        self.assertSetEqual(set(diff.predicates), {self.p_group})

        # difference does not contain predicates from the RHS
        diff = Schema({self.p_tag, self.p_comment}).diff(Schema({self.p_group}))
        self.assertSetEqual(set(diff.nodes), set())
        self.assertSetEqual(set(diff.literals), {self.l_string})
        self.assertSetEqual(set(diff.predicates), {self.p_comment})

        # difference considers extra nodes and literals
        diff = Schema({self.p_tag}, {self.n_unused}, {self.l_unused}).diff(Schema({self.p_tag}))
        self.assertSetEqual(set(diff.nodes), {self.n_unused})
        self.assertSetEqual(set(diff.literals), {self.l_unused})
        self.assertSetEqual(set(diff.predicates), set())

        # difference considers inconsistent types
        diff = Schema({self.p_tag}, {self.n_unused}, {self.l_unused}).diff(
            Schema({self.p_tag}, {types.Node(ns.bsfs.Unused, None)}, {types.Literal(ns.xsd.boolean, None)}))
        self.assertSetEqual(set(diff.nodes), {self.n_unused})
        self.assertSetEqual(set(diff.literals), {self.l_unused})
        self.assertSetEqual(set(diff.predicates), set())

        # __sub__ is an alias for diff
        diff = Schema({self.p_comment}, {self.n_unused}, {self.l_unused}) - Schema({self.p_group})
        self.assertSetEqual(set(diff.nodes), {self.n_unused})
        self.assertSetEqual(set(diff.literals), {self.l_string, self.l_unused})
        self.assertSetEqual(set(diff.predicates), {self.p_comment})
        # __sub__ only accepts Schema instances
        class Foo(): pass
        self.assertRaises(TypeError, operator.sub, Schema({self.p_comment}, {self.n_unused}, {self.l_unused}), 1234)
        self.assertRaises(TypeError, operator.sub, Schema({self.p_comment}, {self.n_unused}, {self.l_unused}), 'hello world')
        self.assertRaises(TypeError, operator.sub, Schema({self.p_comment}, {self.n_unused}, {self.l_unused}), Foo())

    def test_consistent_with(self):
        # argument must be a schema
        class Foo(): pass
        self.assertRaises(TypeError, Schema([]).consistent_with, 1234)
        self.assertRaises(TypeError, Schema([]).consistent_with, 'hello world')
        self.assertRaises(TypeError, Schema([]).consistent_with, Foo())

        # node consistency
        self.assertTrue(Schema([], {self.n_ent, self.n_tag, self.n_unused}).consistent_with(
            Schema(self.predicates)))
        self.assertFalse(Schema([], {types.Node(ns.bsfs.Entity, None)}).consistent_with(
            Schema(self.predicates)))
        # order doesn't matter
        self.assertTrue(Schema(self.predicates).consistent_with(
            Schema([], {self.n_ent, self.n_tag, self.n_unused})))

        # literal consistency
        self.assertTrue(Schema([], [], {self.l_string, self.l_unused}).consistent_with(
            Schema(self.predicates)))
        self.assertFalse(Schema([], [], {types.Literal(ns.xsd.string, None)}).consistent_with(
            Schema(self.predicates)))
        # order doesn't matter
        self.assertTrue(Schema(self.predicates).consistent_with(
            Schema([], [], {self.l_string, self.l_unused})))

        # predicate consistency
        self.assertTrue(Schema({self.p_tag}).consistent_with(
            Schema(self.predicates)))
        self.assertFalse(Schema({types.Predicate(ns.bse.tag, None, self.n_root, self.n_root, False)}).consistent_with(
            Schema(self.predicates)))
        # order doesn't matter
        self.assertTrue(Schema(self.predicates).consistent_with(
            Schema({self.p_tag})))

        # global consistency
        self.assertFalse(Schema({types.Predicate(ns.bsfs.Entity, None, self.n_root, self.n_root, False)}).consistent_with(
            Schema(self.predicates)))
        self.assertFalse(Schema([], {types.Node(ns.xsd.string, None)}).consistent_with(
            Schema(self.predicates)))
        self.assertFalse(Schema([], [], {types.Literal(ns.bsfs.Entity, None)}).consistent_with(
            Schema(self.predicates)))


    def test_union(self):
        # must provide at least one schema
        self.assertRaises(TypeError, Schema.Union)

        # can pass schemas as list
        self.assertEqual(Schema.Union([Schema({self.p_tag})]), Schema({self.p_tag}))
        self.assertEqual(Schema.Union([Schema({self.p_tag}), Schema({self.p_comment})]),
            Schema({self.p_tag, self.p_comment}))

        # can pass schemas as arguments
        self.assertEqual(Schema.Union(Schema({self.p_tag})), Schema({self.p_tag}))
        self.assertEqual(Schema.Union(Schema({self.p_tag}), Schema({self.p_comment})),
            Schema({self.p_tag, self.p_comment}))

        # cannot mix the two argument passing styles
        self.assertRaises(TypeError, Schema.Union, [Schema(self.predicates)], Schema(self.predicates))

        # all arguments must be Schema instances
        self.assertRaises(TypeError, Schema.Union, Schema(self.predicates), 1234)
        self.assertRaises(TypeError, Schema.Union, Schema(self.predicates), 1234, Schema(self.predicates))
        self.assertRaises(TypeError, Schema.Union, Schema(self.predicates), 'hello world')

        # Union merges predicates, nodes, and literals
        self.assertEqual(Schema.Union(
            Schema({self.p_comment}, {self.n_unused}, {}),
            Schema({self.p_group}, {self.n_img}, {self.l_unused})),
            Schema({self.p_comment, self.p_group}, {self.n_img, self.n_unused}, {self.l_unused}))

        # Union does not accept inconsistent nodes
        self.assertRaises(errors.ConsistencyError, Schema.Union, Schema(self.predicates),
            Schema({}, {types.Node(ns.bsfs.Entity, None)}))
        self.assertRaises(errors.ConsistencyError, Schema.Union, Schema({}, {self.n_ent}),
            Schema({}, {types.Node(ns.bsfs.Entity, None)}))
        self.assertRaises(errors.ConsistencyError, Schema.Union, Schema({}, {self.n_ent}),
            Schema({}, {}, {types.Literal(ns.bsfs.Entity, None)}))

        # Union does not accept inconsistent literals
        self.assertRaises(errors.ConsistencyError, Schema.Union, Schema(self.predicates),
            Schema({}, {}, {types.Literal(ns.xsd.string, None)}))
        self.assertRaises(errors.ConsistencyError, Schema.Union, Schema({}, {}, {self.l_string}),
            Schema({}, {}, {types.Literal(ns.xsd.string, None)}))
        self.assertRaises(errors.ConsistencyError, Schema.Union, Schema({}, {}, {self.l_string}),
            Schema({}, {types.Node(ns.xsd.string, None)}))

        # Union does not accept inconsistent predicates
        self.assertRaises(errors.ConsistencyError, Schema.Union, Schema({self.p_tag}),
            Schema({types.Predicate(ns.bse.tag, None, self.n_ent, self.n_tag, False)}))
        self.assertRaises(errors.ConsistencyError, Schema.Union, Schema({self.p_tag}),
            Schema({}, {types.Node(ns.bse.tag, None)}))

        # union is an alias for Union
        self.assertEqual(Schema({self.p_comment}, {self.n_unused}, {}).union(
            Schema({self.p_group}, {self.n_img}, {self.l_unused})),
            Schema({self.p_comment, self.p_group}, {self.n_img, self.n_unused}, {self.l_unused}))
        # union only accepts Schema instances
        class Foo(): pass
        self.assertRaises(TypeError, Schema({self.p_comment}, {self.n_unused}, {}).union, 1234)
        self.assertRaises(TypeError, Schema({self.p_comment}, {self.n_unused}, {}).union, 'hello world')
        self.assertRaises(TypeError, Schema({self.p_comment}, {self.n_unused}, {}).union, Foo())

        # __add__ is an alias for Union
        self.assertEqual(Schema({self.p_comment}, {self.n_unused}, {}) + Schema({self.p_group}, {self.n_img}, {self.l_unused}),
            Schema({self.p_comment, self.p_group}, {self.n_img, self.n_unused}, {self.l_unused}))
        # __add__ only accepts Schema instances
        class Foo(): pass
        self.assertRaises(TypeError, operator.add, Schema({self.p_comment}, {self.n_unused}, {}), 1234)
        self.assertRaises(TypeError, operator.add, Schema({self.p_comment}, {self.n_unused}, {}), 'hello world')
        self.assertRaises(TypeError, operator.add, Schema({self.p_comment}, {self.n_unused}, {}), Foo())

        # __or__ is an alias for Union
        self.assertEqual(Schema({self.p_comment}, {self.n_unused}, {}) | Schema({self.p_group}, {self.n_img}, {self.l_unused}),
            Schema({self.p_comment, self.p_group}, {self.n_img, self.n_unused}, {self.l_unused}))
        # __or__ only accepts Schema instances
        class Foo(): pass
        self.assertRaises(TypeError, operator.or_, Schema({self.p_comment}, {self.n_unused}, {}), 1234)
        self.assertRaises(TypeError, operator.or_, Schema({self.p_comment}, {self.n_unused}, {}), 'hello world')
        self.assertRaises(TypeError, operator.or_, Schema({self.p_comment}, {self.n_unused}, {}), Foo())

    def test_type_getters(self):
        schema = Schema(self.predicates, self.nodes, self.literals)
        # nodes
        self.assertEqual(self.n_root, schema.node(ns.bsfs.Node))
        self.assertEqual(self.n_ent, schema.node(ns.bsfs.Entity))
        self.assertEqual(self.n_img, schema.node(ns.bsfs.Image))
        self.assertRaises(KeyError, schema.node, ns.bsfs.Document)
        self.assertRaises(KeyError, schema.node, self.n_root)
        # literals
        self.assertEqual(self.l_root, schema.literal(ns.bsfs.Literal))
        self.assertEqual(self.l_string, schema.literal(ns.xsd.string))
        self.assertEqual(self.l_integer, schema.literal(ns.xsd.integer))
        self.assertRaises(KeyError, schema.literal, ns.xsd.number)
        self.assertRaises(KeyError, schema.literal, self.l_root)
        # predicates
        self.assertEqual(self.p_root, schema.predicate(ns.bsfs.Predicate))
        self.assertEqual(self.p_tag, schema.predicate(ns.bse.tag))
        self.assertEqual(self.p_group, schema.predicate(ns.bse.group))
        self.assertRaises(KeyError, schema.predicate, ns.bse.mimetype)
        self.assertRaises(KeyError, schema.predicate, self.p_root)

    def test_list_getters(self):
        schema = Schema(self.predicates, self.nodes, self.literals)
        self.assertSetEqual(set(self.nodes), set(schema.nodes()))
        self.assertSetEqual(set(self.literals), set(schema.literals()))
        self.assertSetEqual(set(self.predicates), set(schema.predicates()))

    def test_has(self):
        schema = Schema(self.predicates, self.nodes, self.literals)
        # nodes
        self.assertTrue(schema.has_node(ns.bsfs.Node))
        self.assertTrue(schema.has_node(ns.bsfs.Entity))
        self.assertTrue(schema.has_node(ns.bsfs.Image))
        self.assertFalse(schema.has_node(ns.bsfs.Document))
        self.assertFalse(schema.has_node(self.n_root))
        # literals
        self.assertTrue(schema.has_literal(ns.bsfs.Literal))
        self.assertTrue(schema.has_literal(ns.xsd.string))
        self.assertTrue(schema.has_literal(ns.xsd.integer))
        self.assertFalse(schema.has_literal(ns.xsd.number))
        self.assertFalse(schema.has_literal(self.l_root))
        # predicates
        self.assertTrue(schema.has_predicate(ns.bsfs.Predicate))
        self.assertTrue(schema.has_predicate(ns.bse.tag))
        self.assertTrue(schema.has_predicate(ns.bse.group))
        self.assertFalse(schema.has_predicate(ns.bse.mimetype))
        self.assertFalse(schema.has_predicate(self.p_root))

## main ##

if __name__ == '__main__':
    unittest.main()

## EOF ##