org.apache.jena.sparql.algebra.Algebra Java Examples
The following examples show how to use
org.apache.jena.sparql.algebra.Algebra.
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Example #1
| Source File: RuleforJena.java From quetzal with Eclipse Public License 2.0 | 6 votes |
|
public RuleforJena(Query constructQuery, int id) {
this.id = id;
antecedent = Algebra.compile(constructQuery);
// KAVITHA: the consequent should be a single triple
List<Triple> list = constructQuery.getConstructTemplate().getBGP()
.getList();
consequent = new OpTriple(list.get(0));
if (SPARQLRewriterForJena.GENERATE_TRACE == true) {
Op bind = null;
VarExprList expr = new VarExprList();
expr.add(
Var.alloc("RULEID"),
new NodeValueNode(NodeFactory.createLiteral(String
.valueOf(id))));
bind = OpExtend.extend(antecedent, expr);
antecedent = bind;
}
}
Example #2
| Source File: labelSearch.java From xcurator with Apache License 2.0 | 6 votes |
|
private QueryIterator buildSyntax(QueryIterator input, Node nodeVar, String pattern, ExecutionContext execCxt)
{
Var var2 = createNewVar() ;
// Triple patterns for ?x rdfs:label ?hiddenVar
ElementTriplesBlock elementBGP = new ElementTriplesBlock();
Triple t = new Triple(nodeVar, RDFS.label.asNode(), var2) ;
elementBGP.addTriple(t) ;
// Regular expression for regex(?hiddenVar, "pattern", "i")
Expr regex = new E_Regex(new ExprVar(var2.getName()), pattern, "i") ;
ElementGroup elementGroup = new ElementGroup() ;
elementGroup.addElement(elementBGP) ;
elementGroup.addElement(new ElementFilter(regex)) ;
// Compile it.
// The better design is to build the Op structure programmatically,
Op op = Algebra.compile(elementGroup) ;
op = Algebra.optimize(op, execCxt.getContext()) ;
return QC.execute(op, input, execCxt) ;
}
Example #3
| Source File: AlgebraEx.java From xcurator with Apache License 2.0 | 6 votes |
|
public static void main(String []args)
{
String s = "SELECT DISTINCT ?s { ?s ?p ?o }";
// Parse
Query query = QueryFactory.create(s) ;
System.out.println(query) ;
// Generate algebra
Op op = Algebra.compile(query) ;
op = Algebra.optimize(op) ;
System.out.println(op) ;
// Execute it.
QueryIterator qIter = Algebra.exec(op, ExQuerySelect1.createModel()) ;
// Results
for ( ; qIter.hasNext() ; )
{
Binding b = qIter.nextBinding() ;
System.out.println(b) ;
}
qIter.close() ;
}
Example #4
| Source File: SparqlToGremlinCompiler.java From sparql-gremlin with Apache License 2.0 | 5 votes |
|
GraphTraversal<Vertex, ?> convertToGremlinTraversal(final Query query) {
final Op op = Algebra.compile(query);
OpWalker.walk(op, this);
if (!query.isQueryResultStar()) {
final List<String> vars = query.getResultVars();
switch (vars.size()) {
case 0:
throw new IllegalStateException();
case 1:
if (query.isDistinct()) {
traversal = traversal.dedup(vars.get(0));
}
traversal = traversal.select(vars.get(0));
break;
case 2:
if (query.isDistinct()) {
traversal = traversal.dedup(vars.get(0), vars.get(1));
}
traversal = traversal.select(vars.get(0), vars.get(1));
break;
default:
final String[] all = new String[vars.size()];
vars.toArray(all);
if (query.isDistinct()) {
traversal = traversal.dedup(all);
}
final String[] others = Arrays.copyOfRange(all, 2, vars.size());
traversal = traversal.select(vars.get(0), vars.get(1), others);
break;
}
} else {
if (query.isDistinct()) {
traversal = traversal.dedup();
}
}
return traversal;
}
Example #5
| Source File: JenaUtil.java From quetzal with Eclipse Public License 2.0 | 4 votes |
|
public static Op compile(String queryString) throws MalformedURLException, IOException {
return Algebra.compile(parse(queryString));
}
Example #6
| Source File: JenaUtil.java From quetzal with Eclipse Public License 2.0 | 4 votes |
|
public static Op compile(Query query) throws MalformedURLException, IOException {
return Algebra.compile(query);
}
Example #7
| Source File: ResolutionEngineForJena.java From quetzal with Eclipse Public License 2.0 | 4 votes |
|
/***
* Takes a SELECT query and unroll it into a more complex SPARQL query under
* rules
*
* @param query
*/
public Query unfold(Query query) {
ResolutionVisitor visitor = new ResolutionVisitor(rules);
Op body = Algebra.compile(query);
OpVariableVistor<String> collector = new OpVariableVistor<String>(body,
true) {
@Override
protected String processVar(Node v) {
return v.getName();
}
};
OpWalker.walk(body, collector);
Set<String> bindingNames = new HashSet<String>(collector.getResult());
visitor.setBindingNames(bindingNames);
Op newQuery = body;
newQuery = Transformer.transform(visitor, body);
VarExprList expr = new VarExprList();
// E_StrConcat trace = getRuleTracingConcat(newQuery);
E_StrConcat trace = null;
if (trace!=null) {
expr.add(Var.alloc("trace"),trace);
newQuery = OpExtend.extend(newQuery, expr);
newQuery = OpJoin.create(newQuery, OpTable.unit());
if (SPARQLRewriterForJena.GENERATE_TRACE_SUMMARY) {
VarExprList groupVars = new VarExprList();
groupVars.add(Var.alloc("trace"));
AggCount count = new AggCount();
ExprAggregator aggregators = new ExprAggregator(Var.alloc("trace.sum"), count);
List<ExprAggregator> list = new LinkedList<ExprAggregator>();
list.add(aggregators);
Op groupBy = new OpGroup(newQuery, groupVars, list);
VarExprList expr2 = new VarExprList();
expr2.add(Var.alloc("sum"), new ExprVar("trace.sum"));
groupBy = OpExtend.extend(groupBy, expr2);
List<Var> vars = new LinkedList<Var>();
vars.add(Var.alloc("sum"));
vars.add(Var.alloc("trace"));
OpProject project = new OpProject(groupBy, vars);
newQuery = project;
}
}
Query q = OpAsQuery.asQuery(newQuery);
q.setDistinct(true); // KAVITHA: Not setting distinct on the consequent leaves duplicates
return q;
}
Example #8
| Source File: AlgebraExec.java From xcurator with Apache License 2.0 | 4 votes |
|
public static void main (String[] argv)
{
String BASE = "http://example/" ;
BasicPattern bp = new BasicPattern() ;
Var var_x = Var.alloc("x") ;
Var var_z = Var.alloc("z") ;
// ---- Build expression
bp.add(new Triple(var_x, NodeFactory.createURI(BASE+"p"), var_z)) ;
Op op = new OpBGP(bp) ;
//Expr expr = ExprUtils.parse("?z < 2 ") ;
Expr expr = new E_LessThan(new ExprVar(var_z), NodeValue.makeNodeInteger(2)) ;
op = OpFilter.filter(expr, op) ;
// ---- Example setup
Model m = makeModel() ;
m.write(System.out, "TTL") ;
System.out.println("--------------") ;
System.out.print(op) ;
System.out.println("--------------") ;
// ---- Execute expression
QueryIterator qIter = Algebra.exec(op, m.getGraph()) ;
// -------- Either read the query iterator directly ...
if ( false )
{
for ( ; qIter.hasNext() ; )
{
Binding b = qIter.nextBinding() ;
Node n = b.get(var_x) ;
System.out.println(NodeFmtLib.displayStr(n)) ;
System.out.println(b) ;
}
qIter.close() ;
}
else
{
// -------- Or make ResultSet from it (but not both - reading an
// iterator consumes the current solution)
List<String> varNames = new ArrayList<String>() ;
varNames.add("x") ;
varNames.add("z") ;
ResultSet rs = new ResultSetStream(varNames, m, qIter);
ResultSetFormatter.out(rs) ;
qIter.close() ;
}
System.exit(0) ;
}
Example #9
| Source File: labelSearch.java From xcurator with Apache License 2.0 | 4 votes |
|
@Override
public QueryIterator exec(QueryIterator input, PropFuncArg argSubject, Node predicate, PropFuncArg argObject, ExecutionContext execCxt)
{
// No real need to check the pattern arguments because
// the replacement triple pattern and regex will cope
// but we illustrate testing here.
Node nodeVar = argSubject.getArg() ;
String pattern = NodeUtils.stringLiteral(argObject.getArg()) ;
if ( pattern == null )
{
Log.warn(this, "Pattern must be a plain literal or xsd:string: "+argObject.getArg()) ;
return QueryIterNullIterator.create(execCxt) ;
}
if ( false )
// Old (ARQ 1) way - not recommended.
return buildSyntax(input, nodeVar, pattern, execCxt) ;
// Better
// Build a SPARQL algebra expression
Var var2 = createNewVar() ; // Hidden variable
BasicPattern bp = new BasicPattern() ;
Triple t = new Triple(nodeVar, RDFS.label.asNode(), var2) ;
bp.add(t) ;
OpBGP op = new OpBGP(bp) ;
Expr regex = new E_Regex(new ExprVar(var2.getName()), pattern, "i") ;
Op filter = OpFilter.filter(regex, op) ;
// ---- Evaluation
if ( true )
{
// Use the reference query engine
// Create a table for the input stream (so it uses working memory at this point,
// which is why this is not the preferred way).
// Then join to expression for this stage.
Table table = TableFactory.create(input) ;
Op op2 = OpJoin.create(OpTable.create(table), filter) ;
return Algebra.exec(op2, execCxt.getDataset()) ;
}
// Use the default, optimizing query engine.
return QC.execute(filter, input, execCxt) ;
}
