def test_mapper_with_pruning(self):
"""
A test case to check that the
mapper works even in the case
of pruning.
"""
# A mock RDF object
t = CallableGeneratorTest.Temp()
# Head node
node = Node(None, None)
# Set of operations to build the graph
n1 = node.Define()
n2 = node.Filter().Filter()
n4 = n2.Count()
n5 = n1.Count()
n6 = node.Filter()
n5 = n1.Filter() # Reason for pruning (change of reference)
# Generate and execute the mapper
generator = CallableGenerator(node)
mapper_func = generator.get_callable()
values = mapper_func(t)
nodes = generator.get_action_nodes()
reqd_order = [1, 2, 2, 2, 3, 2]
# Assertions
self.assertEqual(t.ord_list, reqd_order)
self.assertListEqual(nodes, [n4.action_node])
self.assertListEqual(values, [t])
def test_dfs_graph_with_computed_values_pruning(self):
"""
"""
# Head node
node = Node(None, None)
# Graph nodes
n1 = node.Define()
n2 = node.Filter()
n3 = n2.Filter()
n4 = n3.Count()
n5 = n1.Filter()
n6 = n5.Count()
n7 = node.Filter()
# This is to make sure action nodes with
# already computed values are pruned.
n6.action_node.value = 1
# This is to make sure that transformation
# leaf nodes with value (possibly set intentionally)
# don't get pruned.
n7.value = 1
obtained_order = DfsTest.traverse(node=node.get_head())
# The node 'n6' will be pruned. Hence,
# there's only one '3' in this list.
reqd_order = [1, 2, 2, 2, 3, 2]
self.assertEqual(obtained_order, reqd_order)
def test_mapper_from_graph(self):
"""
A simple test case to check
the working of mapper.
"""
# A mock RDF object
t = CallableGeneratorTest.Temp()
# Head node
node = Node(None, None)
# Set of operations to build the graph
n1 = node.Define()
n2 = node.Filter().Filter()
n4 = n2.Count()
n5 = n1.Count()
n6 = node.Filter()
# Generate and execute the mapper
generator = CallableGenerator(node)
mapper_func = generator.get_callable()
values = mapper_func(t)
nodes = generator.get_action_nodes()
reqd_order = [1, 3, 2, 2, 3, 2]
# Assertions
self.assertEqual(t.ord_list, reqd_order)
self.assertListEqual(nodes, [n5.action_node, n4.action_node])
self.assertListEqual(values, [t, t])
def test_dfs_graph_with_parent_pruning(self):
"""
Test case to check that parent nodes with
no user references don't get pruned.
"""
# Head node
node = Node(None, None)
# Graph nodes
n1 = node.Define()
n2 = node.Filter()
n3 = n2.Filter()
n4 = n3.Count()
n5 = n1.Filter()
n6 = node.Filter()
# Remove references from n2 (which shouldn't affect the graph)
n2 = None
obtained_order = DfsTest.traverse(node=node.get_head())
reqd_order = [1, 2, 2, 2, 3, 2]
# Removing references from n2 will not prune any node
# because n2 still has children
self.assertEqual(obtained_order, reqd_order)
def test_dfs_graph_with_recursive_pruning(self):
"""
Test case to check that nodes in a PyRDF
graph with no user references and no children
get pruned recursively.
"""
# Head node
node = Node(None, None)
# Graph nodes
n1 = node.Define()
n2 = node.Filter()
n3 = n2.Filter()
n4 = n3.Count()
n5 = n1.Filter()
n6 = node.Filter()
# Remove references from n4 and it's parent nodes
n4 = n3 = n2 = None
obtained_order = DfsTest.traverse(node=node.get_head())
reqd_order = [1, 2, 2]
self.assertEqual(obtained_order, reqd_order)
def test_dfs_graph_with_pruning_transformations(self):
"""
Test case to check that transformation nodes with
no children and no user references get pruned.
"""
# Head node
node = Node(None, None)
# Graph nodes
n1 = node.Define()
n2 = node.Filter()
n3 = n2.Filter()
n4 = n3.Count()
n5 = n1.Filter()
n6 = node.Filter()
# Transformation pruning
n5 = n1.Count() # n5 was earlier a transformation node
obtained_order = DfsTest.traverse(node=node.get_head())
reqd_order = [1, 3, 2, 2, 3, 2]
self.assertEqual(obtained_order, reqd_order)
def test_node_pickle(self):
"""
Test cases to check that nodes can be accurately
pickled and un-pickled.
"""
import pickle
# Node definitions
node = Node(None, None) # Head node
n1 = node.Define("a", b="c") # First child node
n2 = n1.Count()
n3 = node.Filter("b")
n4 = n3.Count()
# Pickled representation of nodes
pickled_node = pickle.dumps(node)
pickled_n3 = pickle.dumps(n3)
# Un-pickled node objects
unpickled_node = pickle.loads(pickled_node)
unpickled_n3 = pickle.loads(pickled_n3)
self.assertIsInstance(unpickled_node, type(node))
self.assertIsInstance(unpickled_n3, type(n3))
self.assertGraphs(node, unpickled_node)
self.assertGraphs(n3, unpickled_n3)
def test_dfs_graph_without_pruning(self):
"""
Test case to check that node pruning does not
occur if every node either has children or some
user references.
"""
# Head node
node = Node(None, None)
# Graph nodes
n1 = node.Define()
n2 = node.Filter()
n3 = n2.Filter()
n4 = n3.Count()
n5 = n1.Count()
n6 = node.Filter()
obtained_order = DfsTest.traverse(node=node.get_head())
reqd_order = [1, 3, 2, 2, 3, 2]
self.assertEqual(obtained_order, reqd_order)
