func (ts *MongoTripleStore) OptimizeIterator(it graph.Iterator) (graph.Iterator, bool) { switch it.Type() { case "linksto": return ts.optimizeLinksTo(it.(*graph.LinksToIterator)) } return it, false }
func (ts *QuadStore) OptimizeIterator(it graph.Iterator) (graph.Iterator, bool) { switch it.Type() { case graph.LinksTo: return ts.optimizeLinksTo(it.(*iterator.LinksTo)) } return it, false }
func (qs *QuadStore) OptimizeIterator(it graph.Iterator) (graph.Iterator, bool) { switch it.Type() { case graph.LinksTo: return qs.optimizeLinksTo(it.(*iterator.LinksTo)) case graph.HasA: return qs.optimizeHasA(it.(*iterator.HasA)) case graph.And: return qs.optimizeAnd(it.(*iterator.And)) } return it, false }
func (qs *QuadStore) OptimizeIterator(it graph.Iterator) (graph.Iterator, bool) { switch it.Type() { case graph.LinksTo: return qs.optimizeLinksTo(it.(*iterator.LinksTo)) case graph.And: return qs.optimizeAndIterator(it.(*iterator.And)) case graph.Comparison: return qs.optimizeComparison(it.(*iterator.Comparison)) } return it, false }
func TestIterator(t *testing.T) { var ts *LevelDBTripleStore Convey("Given a prepared database", t, func() { tmpDir, _ := ioutil.TempDir(os.TempDir(), "cayley_test") t.Log(tmpDir) defer os.RemoveAll(tmpDir) ok := CreateNewLevelDB(tmpDir) So(ok, ShouldBeTrue) ts = NewDefaultLevelDBTripleStore(tmpDir, nil) ts.AddTripleSet(makeTripleSet()) var it graph.Iterator Convey("Can create an all iterator for nodes", func() { it = ts.GetNodesAllIterator() So(it, ShouldNotBeNil) Convey("Has basics", func() { size, accurate := it.Size() So(size, ShouldBeBetween, 0, 20) So(accurate, ShouldBeFalse) So(it.Type(), ShouldEqual, "all") re_it, ok := it.Optimize() So(ok, ShouldBeFalse) So(re_it, ShouldPointTo, it) }) Convey("Iterates all nodes", func() { expected := []string{ "A", "B", "C", "D", "E", "F", "G", "follows", "status", "cool", "status_graph", } sort.Strings(expected) actual := extractValuesFromIterator(ts, it) sort.Strings(actual) So(actual, ShouldResemble, expected) it.Reset() actual = extractValuesFromIterator(ts, it) sort.Strings(actual) So(actual, ShouldResemble, expected) }) Convey("Contains a couple nodes", func() { So(it.Check(ts.GetIdFor("A")), ShouldBeTrue) So(it.Check(ts.GetIdFor("cool")), ShouldBeTrue) //So(it.Check(ts.GetIdFor("baller")), ShouldBeFalse) }) Reset(func() { it.Reset() }) }) Convey("Can create an all iterator for edges", func() { it := ts.GetTriplesAllIterator() So(it, ShouldNotBeNil) Convey("Has basics", func() { size, accurate := it.Size() So(size, ShouldBeBetween, 0, 20) So(accurate, ShouldBeFalse) So(it.Type(), ShouldEqual, "all") re_it, ok := it.Optimize() So(ok, ShouldBeFalse) So(re_it, ShouldPointTo, it) }) Convey("Iterates an edge", func() { edge_val, _ := it.Next() triple := ts.GetTriple(edge_val) set := makeTripleSet() var string_set []string for _, t := range set { string_set = append(string_set, t.ToString()) } So(triple.ToString(), ShouldBeIn, string_set) }) Reset(func() { ts.Close() }) }) }) }
func TestIterator(t *testing.T) { tmpDir, err := ioutil.TempDir(os.TempDir(), "cayley_test") if err != nil { t.Fatalf("Could not create working directory: %v", err) } defer os.RemoveAll(tmpDir) t.Log(tmpDir) err = createNewLevelDB(tmpDir, nil) if err != nil { t.Fatal("Failed to create LevelDB database.") } qs, err := newTripleStore(tmpDir, nil) if qs == nil || err != nil { t.Error("Failed to create leveldb TripleStore.") } qs.AddTripleSet(makeTripleSet()) var it graph.Iterator it = qs.NodesAllIterator() if it == nil { t.Fatal("Got nil iterator.") } size, exact := it.Size() if size <= 0 || size >= 20 { t.Errorf("Unexpected size, got:%d expect:(0, 20)", size) } if exact { t.Errorf("Got unexpected exact result.") } if typ := it.Type(); typ != graph.All { t.Errorf("Unexpected iterator type, got:%v expect:%v", typ, graph.All) } optIt, changed := it.Optimize() if changed || optIt != it { t.Errorf("Optimize unexpectedly changed iterator.") } expect := []string{ "A", "B", "C", "D", "E", "F", "G", "follows", "status", "cool", "status_graph", } sort.Strings(expect) for i := 0; i < 2; i++ { got := iteratedNames(qs, it) sort.Strings(got) if !reflect.DeepEqual(got, expect) { t.Errorf("Unexpected iterated result on repeat %d, got:%v expect:%v", i, got, expect) } it.Reset() } for _, pq := range expect { if !it.Contains(qs.ValueOf(pq)) { t.Errorf("Failed to find and check %q correctly", pq) } } // FIXME(kortschak) Why does this fail? /* for _, pq := range []string{"baller"} { if it.Contains(qs.ValueOf(pq)) { t.Errorf("Failed to check %q correctly", pq) } } */ it.Reset() it = qs.TriplesAllIterator() edge, _ := graph.Next(it) triple := qs.Quad(edge) set := makeTripleSet() var ok bool for _, t := range set { if t.String() == triple.String() { ok = true break } } if !ok { t.Errorf("Failed to find %q during iteration, got:%q", triple, set) } qs.Close() }
func (s *queryShape) MakeNode(it graph.Iterator) *Node { n := Node{Id: s.nodeId} for _, tag := range it.Tagger().Tags() { n.Tags = append(n.Tags, tag) } for k, _ := range it.Tagger().Fixed() { n.Tags = append(n.Tags, k) } switch it.Type() { case graph.And: for _, sub := range it.SubIterators() { s.nodeId++ newNode := s.MakeNode(sub) if sub.Type() != graph.Or { s.StealNode(&n, newNode) } else { s.AddNode(newNode) s.AddLink(&Link{n.Id, newNode.Id, 0, 0}) } } case graph.Fixed: n.IsFixed = true for graph.Next(it) { n.Values = append(n.Values, s.qs.NameOf(it.Result())) } case graph.HasA: hasa := it.(*HasA) s.PushHasa(n.Id, hasa.dir) s.nodeId++ newNode := s.MakeNode(hasa.primaryIt) s.AddNode(newNode) s.RemoveHasa() case graph.Or: for _, sub := range it.SubIterators() { s.nodeId++ newNode := s.MakeNode(sub) if sub.Type() == graph.Or { s.StealNode(&n, newNode) } else { s.AddNode(newNode) s.AddLink(&Link{n.Id, newNode.Id, 0, 0}) } } case graph.LinksTo: n.IsLinkNode = true lto := it.(*LinksTo) s.nodeId++ newNode := s.MakeNode(lto.primaryIt) hasaID, hasaDir := s.LastHasa() if (hasaDir == quad.Subject && lto.dir == quad.Object) || (hasaDir == quad.Object && lto.dir == quad.Subject) { s.AddNode(newNode) if hasaDir == quad.Subject { s.AddLink(&Link{hasaID, newNode.Id, 0, n.Id}) } else { s.AddLink(&Link{newNode.Id, hasaID, 0, n.Id}) } } else if lto.primaryIt.Type() == graph.Fixed { s.StealNode(&n, newNode) } else { s.AddNode(newNode) } case graph.Optional: // Unsupported, for the moment fallthrough case graph.All: } return &n }
// TestQuadStoreNodesAllIterator iterates the nodes in a fixture and asserts // the result. func TestQuadStoreNodesAllIterator(t *testing.T, ctx context.Context) { qs := ContextQuadStore(ctx) _, err := WriteFixtureQuadStore(qs, "simple") if err != nil { t.Errorf("Unexpected error writing fixures: %v", err) } var it graph.Iterator it = qs.NodesAllIterator() if it == nil { t.Fatal("Got nil iterator.") } defer it.Reset() size, _ := it.Size() if size <= 0 || size >= 20 { t.Errorf("Unexpected size, got:%d expect:(0, 20)", size) } if typ := it.Type(); typ != graph.All { t.Errorf("Unexpected iterator type, got:%v expect:%v", typ, graph.All) } optIt, changed := it.Optimize() if changed || optIt != it { t.Errorf("Optimize unexpectedly changed iterator.") } expect := []string{ "A", "B", "C", "D", "E", "F", "G", "follows", "status", "cool", "status_graph", } sort.Strings(expect) for i := 0; i < 2; i++ { got := IterateNames(qs, it) sort.Strings(got) if !reflect.DeepEqual(got, expect) { t.Errorf("Unexpected iterated result on repeat %d, got:%v expect:%v", i, got, expect) } it.Reset() } for _, pq := range expect { if !it.Contains(qs.ValueOf(pq)) { t.Errorf("Failed to find and check %q correctly", pq) } } for _, pq := range []string{"baller"} { if it.Contains(qs.ValueOf(pq)) { t.Errorf("Failed to check %q correctly", pq) } } }
func (qs *queryShape) MakeNode(it graph.Iterator) *Node { n := Node{Id: qs.nodeId} for _, tag := range it.Tags() { n.Tags = append(n.Tags, tag) } for k, _ := range it.FixedTags() { n.Tags = append(n.Tags, k) } switch it.Type() { case "and": for _, sub := range it.GetSubIterators() { qs.nodeId++ newNode := qs.MakeNode(sub) if sub.Type() != "or" { qs.StealNode(&n, newNode) } else { qs.AddNode(newNode) qs.AddLink(&Link{n.Id, newNode.Id, 0, 0}) } } case "fixed": n.IsFixed = true for { val, more := it.Next() if !more { break } n.Values = append(n.Values, qs.ts.GetNameFor(val)) } case "hasa": hasa := it.(*HasA) qs.PushHasa(n.Id, hasa.dir) qs.nodeId++ newNode := qs.MakeNode(hasa.primaryIt) qs.AddNode(newNode) qs.RemoveHasa() case "or": for _, sub := range it.GetSubIterators() { qs.nodeId++ newNode := qs.MakeNode(sub) if sub.Type() == "or" { qs.StealNode(&n, newNode) } else { qs.AddNode(newNode) qs.AddLink(&Link{n.Id, newNode.Id, 0, 0}) } } case "linksto": n.IsLinkNode = true lto := it.(*LinksTo) qs.nodeId++ newNode := qs.MakeNode(lto.primaryIt) hasaID, hasaDir := qs.LastHasa() if (hasaDir == graph.Subject && lto.dir == graph.Object) || (hasaDir == graph.Object && lto.dir == graph.Subject) { qs.AddNode(newNode) if hasaDir == graph.Subject { qs.AddLink(&Link{hasaID, newNode.Id, 0, n.Id}) } else { qs.AddLink(&Link{newNode.Id, hasaID, 0, n.Id}) } } else if lto.primaryIt.Type() == "fixed" { qs.StealNode(&n, newNode) } else { qs.AddNode(newNode) } case "optional": // Unsupported, for the moment fallthrough case "all": } return &n }
func TestIterator(t testing.TB, gen DatabaseFunc) { qs, opts, closer := gen(t) defer closer() MakeWriter(t, qs, opts, MakeQuadSet()...) var it graph.Iterator it = qs.NodesAllIterator() require.NotNil(t, it) size, _ := it.Size() require.True(t, size > 0 && size < 20, "Unexpected size") // TODO: leveldb had this test //if exact { // t.Errorf("Got unexpected exact result.") //} require.Equal(t, graph.All, it.Type(), "Unexpected iterator type") optIt, changed := it.Optimize() require.True(t, !changed && optIt == it, "Optimize unexpectedly changed iterator: %v, %T", changed, optIt) expect := []string{ "A", "B", "C", "D", "E", "F", "G", "follows", "status", "cool", "status_graph", } sort.Strings(expect) for i := 0; i < 2; i++ { got := IteratedRawStrings(t, qs, it) sort.Strings(got) require.Equal(t, expect, got, "Unexpected iterated result on repeat %d", i) it.Reset() } for _, pq := range expect { require.True(t, it.Contains(qs.ValueOf(quad.Raw(pq))), "Failed to find and check %q correctly", pq) } // FIXME(kortschak) Why does this fail? /* for _, pq := range []string{"baller"} { if it.Contains(qs.ValueOf(pq)) { t.Errorf("Failed to check %q correctly", pq) } } */ it.Reset() it = qs.QuadsAllIterator() optIt, changed = it.Optimize() require.True(t, !changed && optIt == it, "Optimize unexpectedly changed iterator: %v, %T", changed, optIt) require.True(t, graph.Next(it)) q := qs.Quad(it.Result()) require.Nil(t, it.Err()) require.True(t, q.IsValid(), "Invalid quad returned: %q", q) set := MakeQuadSet() var ok bool for _, e := range set { if e.String() == q.String() { ok = true break } } require.True(t, ok, "Failed to find %q during iteration, got:%q", q, set) }