private void TestRemoveTriplesDiscarded(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
IGraph g = store[new Uri(TestGraphUri1)];
INode rdfType = g.CreateUriNode(new Uri(NamespaceMapper.RDF + "type"));
g.Retract(g.GetTriplesWithPredicate(rdfType).ToList());
Assert.False(g.GetTriplesWithPredicate(rdfType).Any(), "Removed triples should not be present in in-memory view prior to Flush/Discard");
Graph h = new Graph();
manager.LoadGraph(h, g.BaseUri);
Assert.True(h.GetTriplesWithPredicate(rdfType).Any(), "Removed triples should still be present in underlying store prior to Flush/Discard");
store.Discard();
Assert.True(g.GetTriplesWithPredicate(rdfType).Any(), "Removed triples should now be present in in-memory view after Discard");
h = new Graph();
manager.LoadGraph(h, g.BaseUri);
Assert.True(h.GetTriplesWithPredicate(rdfType).Any(), "Removed triples should still be present in underlying store after Discard");
}
finally
{
store.Dispose();
}
}
private void TestDumpStorePrimed(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
// First prime the persistent store by loading a bunch of stuff
Assert.True(store.HasGraph(new Uri(TestGraphUri1)), "URI 1 should return true for HasGraph()");
Assert.True(store.Graphs.Contains(new Uri(TestGraphUri1)), "URI 1 should return true for Graphs.Contains()");
Assert.True(store.HasGraph(new Uri(TestGraphUri2)), "URI 2 should return true for HasGraph()");
Assert.True(store.Graphs.Contains(new Uri(TestGraphUri2)), "URI 2 should return true for Graphs.Contains()");
Assert.True(store.HasGraph(new Uri(TestGraphUri3)), "URI 3 should return true for HasGraph()");
Assert.True(store.Graphs.Contains(new Uri(TestGraphUri3)), "URI 3 should return true for Graphs.Contains()");
Uri noSuchThing = new Uri("http://example.org/persistence/graphs/noSuchGraph");
Assert.False(store.HasGraph(noSuchThing), "Bad URI should return false for HasGraph()");
Assert.False(store.Graphs.Contains(noSuchThing), "Bad URI should return false for Graphs.Contains()");
// Then try and dump
StringWriter strWriter = new StringWriter();
TriGWriter writer = new TriGWriter();
writer.UseMultiThreadedWriting = false;
writer.Save(store, strWriter);
Console.WriteLine("TriG output:");
Console.WriteLine(strWriter.ToString());
Assert.False(String.IsNullOrEmpty(strWriter.ToString()));
}
finally
{
store.Dispose();
}
}
private void TestAddTriplesDiscarded(IStorageProvider manager)
{
this.EnsureGraphDeleted(manager, new Uri(TestGraphUri1));
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
IGraph g = store[new Uri(TestGraphUri1)];
Triple toAdd = new Triple(g.CreateUriNode(new Uri("http://example.org/subject")), g.CreateUriNode(new Uri("http://example.org/predicate")), g.CreateUriNode(new Uri("http://example.org/object")));
g.Assert(toAdd);
Assert.True(g.ContainsTriple(toAdd), "Added triple should be present in in-memory view prior to Flush/Discard");
Graph h = new Graph();
manager.LoadGraph(h, g.BaseUri);
Assert.False(h.ContainsTriple(toAdd), "Added triple should not be present in underlying store prior to Flush/Discard");
store.Discard();
Assert.False(g.ContainsTriple(toAdd), "Added triple should not be present in in-memory view after Discard");
h = new Graph();
manager.LoadGraph(h, g.BaseUri);
Assert.False(h.ContainsTriple(toAdd), "Added triple should not be present in underlying store after Discard");
}
finally
{
store.Dispose();
}
}
private void TestRemoveThenAddGraphDiscarded(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
Uri toRemove = new Uri(TestGraphUri1);
IGraph g = store[toRemove];
Assert.True(store.HasGraph(toRemove), "In-memory view should contain the Graph we wish to remove");
store.Remove(toRemove);
Assert.False(store.HasGraph(toRemove), "In-memory view should no longer contain the Graph we removed prior to the Flush/Discard operation");
store.Add(g);
Assert.True(store.HasGraph(toRemove), "In-memory should now contain the Graph we added back");
store.Discard();
Assert.True(store.HasGraph(toRemove), "In-Memory view should still contain the Graph we removed and added back regardless as we Discarded that change");
AnyHandler handler = new AnyHandler();
manager.LoadGraph(handler, toRemove);
Assert.True(handler.Any, "Attempting to load Graph from underlying store should return something as the Discard() prevented the removal and add back being persisted");
}
finally
{
store.Dispose();
}
}
private void TestAddThenRemoveGraphDiscarded(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
Graph g = new Graph();
g.BaseUri = new Uri("http://example.org/persistence/graphs/added/discarded");
this.EnsureGraphDeleted(manager, g.BaseUri);
g.Assert(g.CreateUriNode("rdf:subject"), g.CreateUriNode("rdf:predicate"), g.CreateUriNode("rdf:object"));
store.Add(g);
Assert.True(store.HasGraph(g.BaseUri), "Newly added graph should exist in in-memory view of store");
Assert.False(manager.ListGraphs().Contains(g.BaseUri), "Newly added graph should not yet exist in underlying store");
store.Remove(g.BaseUri);
Assert.False(store.HasGraph(g.BaseUri), "Graph then removed before Flush/Discard() should no longer exist in in-memory view of store");
Assert.False(manager.ListGraphs().Contains(g.BaseUri), "Graph then removed should still not exist in underlying store");
store.Discard();
Assert.False(store.HasGraph(g.BaseUri), "After Discard() is called graph should not exist in in-memory view of store");
Assert.False(manager.ListGraphs().Contains(g.BaseUri), "After Discard() is called added then removed graph should not exist in underlying store");
}
finally
{
store.Dispose();
}
}
private void TestRemoveThenAddGraphFlushed(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
Uri toRemove = new Uri(TestGraphUri1);
IGraph g = store[toRemove];
Assert.True(store.HasGraph(toRemove), "In-memory view should contain the Graph we wish to remove");
store.Remove(toRemove);
Assert.False(store.HasGraph(toRemove), "In-memory view should no longer contain the Graph we removed prior to the Flush/Discard operation");
store.Add(g);
Assert.True(store.HasGraph(toRemove), "In-memory should now contain the Graph we added back");
store.Flush();
Assert.True(store.HasGraph(toRemove), "In-Memory view should still contain the Graph we added back after Flushing");
AnyHandler handler = new AnyHandler();
manager.LoadGraph(handler, toRemove);
Assert.True(handler.Any, "Attempting to load Graph from underlying store should return something after the Flush() operation since we didn't remove the graph in the end");
}
finally
{
store.Dispose();
}
}
private void TestAddGraphDiscarded(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
Graph g = new Graph();
g.BaseUri = new Uri("http://example.org/persistence/graphs/added/discarded");
this.EnsureGraphDeleted(manager, g.BaseUri);
g.Assert(g.CreateUriNode("rdf:subject"), g.CreateUriNode("rdf:predicate"), g.CreateUriNode("rdf:object"));
store.Add(g);
Assert.True(store.HasGraph(g.BaseUri), "Newly added graph should exist in in-memory view of store");
Assert.False(manager.ListGraphs().Contains(g.BaseUri), "Newly added graph should not yet exist in underlying store");
store.Discard();
Graph h = new Graph();
try
{
manager.LoadGraph(h, g.BaseUri);
}
catch
{
//No catch needed
}
Assert.True(h.IsEmpty, "After Discard() is called a graph may exist in the underlying store but it MUST be empty");
}
finally
{
store.Dispose();
}
}
private void TestRemoveGraphFlushed(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
Uri toRemove = new Uri(TestGraphUri1);
Assert.True(store.HasGraph(toRemove), "In-memory view should contain the Graph we wish to remove");
store.Remove(toRemove);
Assert.False(store.HasGraph(toRemove), "In-memory view should no longer contain the Graph we removed prior to the Flush/Discard operation");
store.Flush();
Assert.False(store.HasGraph(toRemove), "In-Memory view should no longer contain the Graph we removed after Flushing");
AnyHandler handler = new AnyHandler();
try
{
manager.LoadGraph(handler, toRemove);
}
catch
{
}
Assert.False(handler.Any, "Attempting to load Graph from underlying store should return nothing after the Flush() operation");
}
finally
{
store.Dispose();
}
}
private void TestUpdate(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
Uri updateUri = new Uri("http://example.org/persistence/update/temp");
this.EnsureGraphDeleted(manager, updateUri);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
Assert.False(store.HasGraph(updateUri), "Prior to SPARQL Update our target graph should not exist using HasGraph()");
Assert.False(store.Graphs.Contains(updateUri), "Prior to SPARQL Update out target graph should not exist using Graphs.Contains()");
Assert.False(manager.ListGraphs().Contains(updateUri), "Prior to SPARQL Update our target graph should not exist in the underlying store");
store.ExecuteUpdate("LOAD <http://dbpedia.org/resource/Ilkeston> INTO GRAPH <" + updateUri.ToString() + ">");
Assert.True(store.HasGraph(updateUri), "SPARQL Update should have loaded into our target graph so that HasGraph() returns true");
Assert.True(store.Graphs.Contains(updateUri), "SPARQL Update should have loaded into out target graph so that Graphs.Contains() returns true");
//Note that SPARQL Updates go directly to the underlying store so the change is persisted immediately
Assert.True(manager.ListGraphs().Contains(updateUri), "SPARQL Update should loaded into our target graph directly in the underlying store");
}
finally
{
store.Dispose();
}
}
private void TestUpdateUnsynced(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
store.Remove(new Uri(TestGraphUri1));
store.ExecuteUpdate("LOAD <http://dbpedia.org/resource/Ilkeston>");
}
finally
{
store.Discard();
store.Dispose();
}
}
private void TestQueryUnsynced(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
store.Remove(new Uri(TestGraphUri1));
store.ExecuteQuery("SELECT * WHERE { ?s ?p ?o }");
}
finally
{
store.Discard();
store.Dispose();
}
}
private void TestQuerySelect(IStorageProvider manager, String query)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
SparqlResultSet results = store.ExecuteQuery(query) as SparqlResultSet;
if (results == null)
{
Assert.True(false, "Did not get a SPARQL Result Set as expected");
}
TestTools.ShowResults(results);
}
finally
{
store.Dispose();
}
}
private void TestQueryDescribe(IStorageProvider manager, String query)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
IGraph g = store.ExecuteQuery(query) as IGraph;
if (g == null)
{
Assert.True(false, "Did not get a Graph as expected");
}
TestTools.ShowResults(g);
}
finally
{
store.Dispose();
}
}
private void TestUpdateUnsynced(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
Skip.IfNot(TestConfigManager.GetSettingAsBoolean(TestConfigManager.UseRemoteParsing),
"Test Config marks Remote Parsing as unavailable, test cannot be run");
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
store.Remove(new Uri(TestGraphUri1));
store.ExecuteUpdate("LOAD <http://dbpedia.org/resource/Ilkeston>");
}
finally
{
store.Discard();
store.Dispose();
}
}
private void TestGetGraph(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
Graph aExpected = new Graph();
aExpected.LoadFromEmbeddedResource("VDS.RDF.Configuration.configuration.ttl");
aExpected.Retract(aExpected.Triples.Where(t => !t.IsGroundTriple).ToList());
aExpected.BaseUri = new Uri(TestGraphUri1);
IGraph aActual = store[aExpected.BaseUri];
Assert.Equal(aExpected, aActual);
aActual = store.Graphs[aExpected.BaseUri];
Assert.Equal(aExpected, aActual);
Graph bExpected = new Graph();
bExpected.LoadFromFile("resources\\InferenceTest.ttl");
bExpected.Retract(bExpected.Triples.Where(t => !t.IsGroundTriple).ToList());
bExpected.BaseUri = new Uri(TestGraphUri2);
IGraph bActual = store[bExpected.BaseUri];
Assert.Equal(bExpected, bActual);
bActual = store.Graphs[bExpected.BaseUri];
Assert.Equal(bExpected, bActual);
Graph cExpected = new Graph();
cExpected.LoadFromEmbeddedResource("VDS.RDF.Query.Optimisation.OptimiserStats.ttl");
cExpected.Retract(cExpected.Triples.Where(t => !t.IsGroundTriple).ToList());
cExpected.BaseUri = new Uri(TestGraphUri3);
IGraph cActual = store[cExpected.BaseUri];
Assert.Equal(cExpected, cActual);
cActual = store.Graphs[cExpected.BaseUri];
Assert.Equal(cExpected, cActual);
}
finally
{
store.Dispose();
}
}
private void TestDumpStoreEmpty(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
// Try and dump
StringWriter strWriter = new StringWriter();
TriGWriter writer = new TriGWriter();
writer.UseMultiThreadedWriting = false;
writer.Save(store, strWriter);
Console.WriteLine("TriG output:");
Console.WriteLine(strWriter.ToString());
Assert.True(String.IsNullOrEmpty(strWriter.ToString()));
}
finally
{
store.Dispose();
}
}
private void TestQueryAsk(IStorageProvider manager, String query, bool expected)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
SparqlResultSet results = store.ExecuteQuery(query) as SparqlResultSet;
if (results == null)
{
Assert.Fail("Did not get a SPARQL Result Set as expected");
}
TestTools.ShowResults(results);
Assert.AreEqual(SparqlResultsType.Boolean, results.ResultsType, "Did not get Boolean result as expected");
Assert.AreEqual(expected, results.Result, "Boolean Result failed to match");
}
finally
{
store.Dispose();
}
}
private void TestContains(IStorageProvider manager)
{
this.EnsureTestDataset(manager);
PersistentTripleStore store = new PersistentTripleStore(manager);
try
{
Assert.True(store.HasGraph(new Uri(TestGraphUri1)), "URI 1 should return true for HasGraph()");
Assert.True(store.Graphs.Contains(new Uri(TestGraphUri1)), "URI 1 should return true for Graphs.Contains()");
Assert.True(store.HasGraph(new Uri(TestGraphUri2)), "URI 2 should return true for HasGraph()");
Assert.True(store.Graphs.Contains(new Uri(TestGraphUri2)), "URI 2 should return true for Graphs.Contains()");
Assert.True(store.HasGraph(new Uri(TestGraphUri3)), "URI 3 should return true for HasGraph()");
Assert.True(store.Graphs.Contains(new Uri(TestGraphUri3)), "URI 3 should return true for Graphs.Contains()");
Uri noSuchThing = new Uri("http://example.org/persistence/graphs/noSuchGraph");
Assert.False(store.HasGraph(noSuchThing), "Bad URI should return false for HasGraph()");
Assert.False(store.Graphs.Contains(noSuchThing), "Bad URI should return false for Graphs.Contains()");
}
finally
{
store.Dispose();
}
}
public void CloseConnection()
{
store.Dispose();
}
public void ShutDown()
{
_repository.Dispose();
_allegroGraphConnector.Dispose();
}
public void ShutDown()
{
_repository.Dispose();
_stardogGraphConnector.Dispose();
}
