@Test
public void testSingleIndex() throws Exception {
SPARQLParser parser = new SPARQLParser();
ParsedQuery pq1 = parser.parseQuery(q15, null);
ParsedQuery pq2 = parser.parseQuery(q7, null);
ParsedQuery pq3 = parser.parseQuery(q8, null);
ParsedQuery pq4 = parser.parseQuery(q9, null);
SimpleExternalTupleSet extTup1 = new SimpleExternalTupleSet((Projection) pq2.getTupleExpr());
SimpleExternalTupleSet extTup2 = new SimpleExternalTupleSet((Projection) pq3.getTupleExpr());
SimpleExternalTupleSet extTup3 = new SimpleExternalTupleSet((Projection) pq4.getTupleExpr());
List<ExternalTupleSet> list = new ArrayList<ExternalTupleSet>();
list.add(extTup1);
List<QueryModelNode> optTupNodes = Lists.newArrayList();
optTupNodes.add(extTup2);
optTupNodes.add(extTup3);
IndexedExecutionPlanGenerator iep = new IndexedExecutionPlanGenerator(pq1.getTupleExpr(), list);
Iterator<TupleExpr> plans = new TupleExecutionPlanGenerator().getPlans(iep.getIndexedTuples());
IndexPlanValidator ipv = new IndexPlanValidator(false);
Iterator<TupleExpr> validPlans = ipv.getValidTuples(plans);
ThreshholdPlanSelector tps = new ThreshholdPlanSelector(pq1.getTupleExpr());
TupleExpr optimalTup = tps.getThreshholdQueryPlan(validPlans, .1, 1, 0, 0);
NodeCollector nc = new NodeCollector();
optimalTup.visit(nc);
List<QueryModelNode> qNodes = nc.getNodes();
Assert.assertEquals(qNodes.size(), optTupNodes.size());
for (QueryModelNode node : qNodes) {
Assert.assertTrue(optTupNodes.contains(node));
}
}
@Test
public void twoIndexFilterTest() {
String q1 =
"" //
+ "SELECT ?f ?m ?d ?e ?l ?c " //
+ "{" //
+ " Filter(?f > \"5\")." //
+ " Filter(?e > \"5\")." //
+ " ?f a ?m ." //
+ " ?e a ?l ." //
+ " ?d <uri:talksTo> ?f . " //
+ " ?c <uri:talksTo> ?e . " //
+ " ?m <http://www.w3.org/2000/01/rdf-schema#label> ?d ." //
+ " ?l <http://www.w3.org/2000/01/rdf-schema#label> ?c ." //
+ "}"; //
String q2 =
"" //
+ "SELECT ?s ?t ?u " //
+ "{" //
+ " ?s a ?t ." //
+ " ?t <http://www.w3.org/2000/01/rdf-schema#label> ?u ." //
+ " ?u <uri:talksTo> ?s . " //
+ "}"; //
String q3 =
"" //
+ "SELECT ?s ?t ?u " //
+ "{" //
+ " Filter(?s > \"5\") ." //
+ " ?s a ?t ." //
+ " ?t <http://www.w3.org/2000/01/rdf-schema#label> ?u ." //
+ " ?u <uri:talksTo> ?s . " //
+ "}"; //
String q4 =
"" //
+ "SELECT ?f ?m ?d " //
+ "{" //
+ " Filter(?f > \"5\") ." //
+ " ?f a ?m ." //
+ " ?m <http://www.w3.org/2000/01/rdf-schema#label> ?d ." //
+ " ?d <uri:talksTo> ?f . " //
+ "}"; //
String q5 =
"" //
+ "SELECT ?e ?l ?c " //
+ "{" //
+ " Filter(?e > \"5\") ." //
+ " ?e a ?l ." //
+ " ?l <http://www.w3.org/2000/01/rdf-schema#label> ?c ." //
+ " ?c <uri:talksTo> ?e . " //
+ "}"; //
SPARQLParser parser = new SPARQLParser();
ParsedQuery pq1 = null;
ParsedQuery pq2 = null;
ParsedQuery pq3 = null;
ParsedQuery pq4 = null;
ParsedQuery pq5 = null;
try {
pq1 = parser.parseQuery(q1, null);
pq2 = parser.parseQuery(q2, null);
pq3 = parser.parseQuery(q3, null);
pq4 = parser.parseQuery(q4, null);
pq5 = parser.parseQuery(q5, null);
} catch (Exception e) {
e.printStackTrace();
}
SimpleExternalTupleSet extTup1 = new SimpleExternalTupleSet((Projection) pq2.getTupleExpr());
SimpleExternalTupleSet extTup2 = new SimpleExternalTupleSet((Projection) pq3.getTupleExpr());
SimpleExternalTupleSet extTup3 = new SimpleExternalTupleSet((Projection) pq4.getTupleExpr());
SimpleExternalTupleSet extTup4 = new SimpleExternalTupleSet((Projection) pq5.getTupleExpr());
List<ExternalTupleSet> list = new ArrayList<ExternalTupleSet>();
list.add(extTup2);
list.add(extTup1);
List<ExternalTupleSet> list2 = new ArrayList<ExternalTupleSet>();
list2.add(extTup3);
list2.add(extTup4);
IndexedExecutionPlanGenerator iep = new IndexedExecutionPlanGenerator(pq1.getTupleExpr(), list);
Iterator<TupleExpr> plans = new TupleExecutionPlanGenerator().getPlans(iep.getIndexedTuples());
IndexPlanValidator ipv = new IndexPlanValidator(false);
Iterator<TupleExpr> validPlans = ipv.getValidTuples(plans);
ThreshholdPlanSelector tps = new ThreshholdPlanSelector(pq1.getTupleExpr());
TupleExpr optimalTup = tps.getThreshholdQueryPlan(validPlans, .4, .8, .1, .1);
NodeCollector nc = new NodeCollector();
optimalTup.visit(nc);
Assert.assertEquals(nc.getNodes().size(), list2.size());
for (QueryModelNode e : nc.getNodes()) {
Assert.assertTrue(list2.contains(e));
}
}
@Test
public void testTwoIndex() throws Exception {
String q1 =
"" //
+ "SELECT ?f ?m ?d ?h ?i " //
+ "{" //
+ " ?f a ?m ." //
+ " ?m <http://www.w3.org/2000/01/rdf-schema#label> ?d ." //
+ " ?d <uri:talksTo> ?f . " //
+ " ?d <uri:hangOutWith> ?f ." //
+ " ?f <uri:hangOutWith> ?h ." //
+ " ?f <uri:associatesWith> ?i ." //
+ " ?i <uri:associatesWith> ?h ." //
+ "}"; //
String q2 =
"" //
+ "SELECT ?t ?s ?u " //
+ "{" //
+ " ?s a ?t ." //
+ " ?t <http://www.w3.org/2000/01/rdf-schema#label> ?u ." //
+ " ?u <uri:talksTo> ?s . " //
+ "}"; //
String q3 =
"" //
+ "SELECT ?s ?t ?u " //
+ "{" //
+ " ?s <uri:hangOutWith> ?t ." //
+ " ?t <uri:hangOutWith> ?u ." //
+ "}"; //
String q4 =
"" //
+ "SELECT ?s ?t ?u " //
+ "{" //
+ " ?s <uri:associatesWith> ?t ." //
+ " ?t <uri:associatesWith> ?u ." //
+ "}"; //
String q5 =
"" //
+ "SELECT ?m ?f ?d " //
+ "{" //
+ " ?f a ?m ." //
+ " ?m <http://www.w3.org/2000/01/rdf-schema#label> ?d ." //
+ " ?d <uri:talksTo> ?f . " //
+ "}"; //
String q6 =
"" //
+ "SELECT ?d ?f ?h " //
+ "{" //
+ " ?d <uri:hangOutWith> ?f ." //
+ " ?f <uri:hangOutWith> ?h ." //
+ "}"; //
String q7 =
"" //
+ "SELECT ?f ?i ?h " //
+ "{" //
+ " ?f <uri:associatesWith> ?i ." //
+ " ?i <uri:associatesWith> ?h ." //
+ "}"; //
SPARQLParser parser = new SPARQLParser();
ParsedQuery pq1 = parser.parseQuery(q1, null);
ParsedQuery pq2 = parser.parseQuery(q2, null);
ParsedQuery pq3 = parser.parseQuery(q3, null);
ParsedQuery pq4 = parser.parseQuery(q4, null);
ParsedQuery pq5 = parser.parseQuery(q5, null);
ParsedQuery pq6 = parser.parseQuery(q6, null);
ParsedQuery pq7 = parser.parseQuery(q7, null);
SimpleExternalTupleSet extTup1 = new SimpleExternalTupleSet((Projection) pq2.getTupleExpr());
SimpleExternalTupleSet extTup2 = new SimpleExternalTupleSet((Projection) pq3.getTupleExpr());
SimpleExternalTupleSet extTup3 = new SimpleExternalTupleSet((Projection) pq4.getTupleExpr());
SimpleExternalTupleSet extTup4 = new SimpleExternalTupleSet((Projection) pq5.getTupleExpr());
SimpleExternalTupleSet extTup5 = new SimpleExternalTupleSet((Projection) pq6.getTupleExpr());
SimpleExternalTupleSet extTup6 = new SimpleExternalTupleSet((Projection) pq7.getTupleExpr());
List<ExternalTupleSet> list = new ArrayList<ExternalTupleSet>();
list.add(extTup2);
list.add(extTup1);
list.add(extTup3);
List<QueryModelNode> optTupNodes = Lists.newArrayList();
optTupNodes.add(extTup4);
optTupNodes.add(extTup6);
optTupNodes.add(extTup5);
IndexedExecutionPlanGenerator iep = new IndexedExecutionPlanGenerator(pq1.getTupleExpr(), list);
Iterator<TupleExpr> plans = new TupleExecutionPlanGenerator().getPlans(iep.getIndexedTuples());
IndexPlanValidator ipv = new IndexPlanValidator(true);
Iterator<TupleExpr> validPlans = ipv.getValidTuples(plans);
ThreshholdPlanSelector tps = new ThreshholdPlanSelector(pq1.getTupleExpr());
TupleExpr optimalTup = tps.getThreshholdQueryPlan(validPlans, .2, .6, .4, 0);
NodeCollector nc = new NodeCollector();
optimalTup.visit(nc);
List<QueryModelNode> qNodes = nc.getNodes();
Assert.assertTrue(qNodes.equals(optTupNodes));
}
@Test
public void largeQueryFourtyIndexTest() {
String q1 =
"" //
+ "SELECT ?f ?m ?d ?e ?l ?c ?n ?o ?p ?a ?h ?r " //
+ "{" //
+ " ?f a ?m ." //
+ " ?e a ?l ." //
+ " ?n a ?o ." //
+ " ?a a ?h ." //
+ " ?m <http://www.w3.org/2000/01/rdf-schema#label> ?d ." //
+ " ?l <http://www.w3.org/2000/01/rdf-schema#label> ?c ." //
+ " ?o <http://www.w3.org/2000/01/rdf-schema#label> ?p ." //
+ " ?h <http://www.w3.org/2000/01/rdf-schema#label> ?r ." //
+ " ?d <uri:talksTo> ?f . " //
+ " ?c <uri:talksTo> ?e . " //
+ " ?p <uri:talksTo> ?n . " //
+ " ?r <uri:talksTo> ?a . " //
+ "}"; //
String q2 =
"" //
+ "SELECT ?s ?t ?u " //
+ "{" //
+ " ?s a ?t ." //
+ " ?t <http://www.w3.org/2000/01/rdf-schema#label> ?u ." //
+ " ?u <uri:talksTo> ?s . " //
+ "}"; //
String q3 =
"" //
+ "SELECT ?s ?t ?u ?d ?f ?g " //
+ "{" //
+ " ?s a ?t ." //
+ " ?t <http://www.w3.org/2000/01/rdf-schema#label> ?u ." //
+ " ?u <uri:talksTo> ?s . " //
+ " ?d a ?f ." //
+ " ?f <http://www.w3.org/2000/01/rdf-schema#label> ?g ." //
+ " ?g <uri:talksTo> ?d . " //
+ "}"; //
String q4 =
"" //
+ "SELECT ?s ?t ?u ?d ?f ?g ?a ?b ?c" //
+ "{" //
+ " ?s a ?t ." //
+ " ?t <http://www.w3.org/2000/01/rdf-schema#label> ?u ." //
+ " ?u <uri:talksTo> ?s . " //
+ " ?d a ?f ." //
+ " ?f <http://www.w3.org/2000/01/rdf-schema#label> ?g ." //
+ " ?g <uri:talksTo> ?d . " //
+ " ?a a ?b ." //
+ " ?b <http://www.w3.org/2000/01/rdf-schema#label> ?c ." //
+ " ?c <uri:talksTo> ?a . " //
+ "}"; //
String q5 =
"" //
+ "SELECT ?f ?m ?d ?a ?h ?r " //
+ "{" //
+ " ?f a ?m ." //
+ " ?m <http://www.w3.org/2000/01/rdf-schema#label> ?d ." //
+ " ?d <uri:talksTo> ?f . " //
+ " ?a a ?h ." //
+ " ?h <http://www.w3.org/2000/01/rdf-schema#label> ?r ." //
+ " ?r <uri:talksTo> ?a . " //
+ "}"; //
String q6 =
"" //
+ "SELECT ?e ?l ?c " //
+ "{" //
+ " ?e a ?l ." //
+ " ?l <http://www.w3.org/2000/01/rdf-schema#label> ?c ." //
+ " ?c <uri:talksTo> ?e . " //
+ "}"; //
String q7 =
"" //
+ "SELECT ?n ?o ?p " //
+ "{" //
+ " ?n a ?o ." //
+ " ?o <http://www.w3.org/2000/01/rdf-schema#label> ?p ." //
+ " ?p <uri:talksTo> ?n . " //
+ "}"; //
SPARQLParser parser = new SPARQLParser();
ParsedQuery pq1 = null;
ParsedQuery pq2 = null;
ParsedQuery pq3 = null;
ParsedQuery pq4 = null;
ParsedQuery pq5 = null;
ParsedQuery pq6 = null;
ParsedQuery pq7 = null;
try {
pq1 = parser.parseQuery(q1, null);
pq2 = parser.parseQuery(q2, null);
pq3 = parser.parseQuery(q3, null);
pq4 = parser.parseQuery(q4, null);
pq5 = parser.parseQuery(q5, null);
pq6 = parser.parseQuery(q6, null);
pq7 = parser.parseQuery(q7, null);
} catch (Exception e) {
e.printStackTrace();
}
SimpleExternalTupleSet extTup1 = new SimpleExternalTupleSet((Projection) pq2.getTupleExpr());
SimpleExternalTupleSet extTup2 = new SimpleExternalTupleSet((Projection) pq3.getTupleExpr());
SimpleExternalTupleSet extTup3 = new SimpleExternalTupleSet((Projection) pq4.getTupleExpr());
SimpleExternalTupleSet extTup4 = new SimpleExternalTupleSet((Projection) pq5.getTupleExpr());
SimpleExternalTupleSet extTup5 = new SimpleExternalTupleSet((Projection) pq6.getTupleExpr());
SimpleExternalTupleSet extTup6 = new SimpleExternalTupleSet((Projection) pq7.getTupleExpr());
List<ExternalTupleSet> list = new ArrayList<ExternalTupleSet>();
list.add(extTup2);
list.add(extTup1);
list.add(extTup3);
List<ExternalTupleSet> list2 = new ArrayList<ExternalTupleSet>();
list2.add(extTup4);
list2.add(extTup5);
list2.add(extTup6);
IndexedExecutionPlanGenerator iep = new IndexedExecutionPlanGenerator(pq1.getTupleExpr(), list);
Iterator<TupleExpr> plans = new TupleExecutionPlanGenerator().getPlans(iep.getIndexedTuples());
IndexPlanValidator ipv = new IndexPlanValidator(false);
Iterator<TupleExpr> validPlans = ipv.getValidTuples(plans);
ThreshholdPlanSelector tps = new ThreshholdPlanSelector(pq1.getTupleExpr());
TupleExpr optimalTup = tps.getThreshholdQueryPlan(validPlans, .4, .8, .1, .1);
NodeCollector nc = new NodeCollector();
optimalTup.visit(nc);
}
@Test
public void testSingleIndex2() throws Exception {
String q1 =
"" //
+ "SELECT ?f ?m ?d ?e ?l ?c " //
+ "{" //
+ " ?f a ?m ." //
+ " ?c a ?l ." //
+ " ?d <uri:talksTo> ?f . " //
+ " ?e <uri:talksTo> ?c . " //
+ " ?m <http://www.w3.org/2000/01/rdf-schema#label> ?d ." //
+ " ?l <http://www.w3.org/2000/01/rdf-schema#label> ?e ." //
+ " ?m <uri:talksTo> ?e . " //
+ "}"; //
String q2 =
"" //
+ "SELECT ?u ?s ?t " //
+ "{" //
+ " ?s a ?t ." //
+ " ?t <http://www.w3.org/2000/01/rdf-schema#label> ?u ." //
+ " ?u <uri:talksTo> ?s . " //
+ "}"; //
String q3 =
"" //
+ "SELECT ?e ?c ?l " //
+ "{" //
+ " ?c a ?l ." //
+ " ?l <http://www.w3.org/2000/01/rdf-schema#label> ?e ." //
+ " ?e <uri:talksTo> ?c . " //
+ "}"; //
String q4 =
"" //
+ "SELECT ?d ?f ?m " //
+ "{" //
+ " ?f a ?m ." //
+ " ?m <http://www.w3.org/2000/01/rdf-schema#label> ?d ." //
+ " ?d <uri:talksTo> ?f . " //
+ "}"; //
SPARQLParser parser = new SPARQLParser();
ParsedQuery pq1 = parser.parseQuery(q1, null);
ParsedQuery pq2 = parser.parseQuery(q2, null);
ParsedQuery pq3 = parser.parseQuery(q3, null);
ParsedQuery pq4 = parser.parseQuery(q4, null);
SimpleExternalTupleSet extTup1 = new SimpleExternalTupleSet((Projection) pq2.getTupleExpr());
SimpleExternalTupleSet extTup2 = new SimpleExternalTupleSet((Projection) pq3.getTupleExpr());
SimpleExternalTupleSet extTup3 = new SimpleExternalTupleSet((Projection) pq4.getTupleExpr());
List<ExternalTupleSet> list = new ArrayList<ExternalTupleSet>();
list.add(extTup1);
List<StatementPattern> spList = StatementPatternCollector.process(pq1.getTupleExpr());
List<QueryModelNode> optTupNodes = Lists.newArrayList();
optTupNodes.add(extTup3);
optTupNodes.add(spList.get(6));
optTupNodes.add(extTup2);
IndexedExecutionPlanGenerator iep = new IndexedExecutionPlanGenerator(pq1.getTupleExpr(), list);
Iterator<TupleExpr> plans = new TupleExecutionPlanGenerator().getPlans(iep.getIndexedTuples());
IndexPlanValidator ipv = new IndexPlanValidator(true);
Iterator<TupleExpr> validPlans = ipv.getValidTuples(plans);
ThreshholdPlanSelector tps = new ThreshholdPlanSelector(pq1.getTupleExpr());
TupleExpr optimalTup = tps.getThreshholdQueryPlan(validPlans, .4, .7, .1, .2);
NodeCollector nc = new NodeCollector();
optimalTup.visit(nc);
List<QueryModelNode> qNodes = nc.getNodes();
Assert.assertTrue(qNodes.equals(optTupNodes));
}