use of org.eclipse.rdf4j.query.algebra.MultiProjection in project rdf4j by eclipse.
the class TupleExprBuilder method visit.
@Override
public TupleExpr visit(ASTConstruct node, Object data) throws VisitorException {
TupleExpr result = (TupleExpr) data;
// Collect construct triples
graphPattern = new GraphPattern();
super.visit(node, null);
TupleExpr constructExpr = graphPattern.buildTupleExpr();
// Retrieve all StatementPatterns from the construct expression
List<StatementPattern> statementPatterns = StatementPatternCollector.process(constructExpr);
if (constructExpr instanceof Filter) {
// sameTerm filters in construct (this can happen when there's a
// cyclic
// path defined, see SES-1685 and SES-2104)
// we remove the sameTerm filters by simply replacing all mapped
// variable occurrences
Set<SameTerm> sameTermConstraints = getSameTermConstraints((Filter) constructExpr);
statementPatterns = replaceSameTermVars(statementPatterns, sameTermConstraints);
}
Set<Var> constructVars = getConstructVars(statementPatterns);
VarCollector whereClauseVarCollector = new VarCollector();
result.visit(whereClauseVarCollector);
// Create BNodeGenerators for all anonymous variables
// NB: preserve order for a deterministic output
Map<Var, ExtensionElem> extElemMap = new LinkedHashMap<Var, ExtensionElem>();
for (Var var : constructVars) {
if (var.isAnonymous() && !extElemMap.containsKey(var)) {
ValueExpr valueExpr;
if (var.hasValue()) {
valueExpr = new ValueConstant(var.getValue());
} else {
valueExpr = new BNodeGenerator();
}
extElemMap.put(var, new ExtensionElem(valueExpr, var.getName()));
} else if (!whereClauseVarCollector.collectedVars.contains(var)) {
// non-anon var in construct clause not present in where clause
if (!extElemMap.containsKey(var)) {
// assign non-anonymous vars not present in where clause as
// extension elements. This is necessary to make external
// binding
// assingnment possible (see SES-996)
extElemMap.put(var, new ExtensionElem(var, var.getName()));
}
}
}
if (!extElemMap.isEmpty()) {
result = new Extension(result, extElemMap.values());
}
// Create a Projection for each StatementPattern in the constructor
List<ProjectionElemList> projList = new ArrayList<ProjectionElemList>();
for (StatementPattern sp : statementPatterns) {
ProjectionElemList projElemList = new ProjectionElemList();
projElemList.addElement(new ProjectionElem(sp.getSubjectVar().getName(), "subject"));
projElemList.addElement(new ProjectionElem(sp.getPredicateVar().getName(), "predicate"));
projElemList.addElement(new ProjectionElem(sp.getObjectVar().getName(), "object"));
if (sp.getContextVar() != null) {
projElemList.addElement(new ProjectionElem(sp.getContextVar().getName(), "context"));
}
projList.add(projElemList);
}
if (projList.size() == 1) {
result = new Projection(result, projList.get(0));
} else if (projList.size() > 1) {
result = new MultiProjection(result, projList);
} else {
// Empty constructor
result = new EmptySet();
}
return new Reduced(result);
}
use of org.eclipse.rdf4j.query.algebra.MultiProjection in project rdf4j by eclipse.
the class AbstractQueryBuilder method multiProjection.
private UnaryTupleOperator multiProjection() {
MultiProjection aProjection = new MultiProjection();
Extension aExt = null;
for (StatementPattern aPattern : mProjectionPatterns) {
ProjectionElemList aList = new ProjectionElemList();
aList.addElement(new ProjectionElem(aPattern.getSubjectVar().getName(), "subject"));
aList.addElement(new ProjectionElem(aPattern.getPredicateVar().getName(), "predicate"));
aList.addElement(new ProjectionElem(aPattern.getObjectVar().getName(), "object"));
if (aPattern.getSubjectVar().hasValue()) {
if (aExt == null) {
aExt = new Extension();
}
aExt.addElements(new ExtensionElem(new ValueConstant(aPattern.getSubjectVar().getValue()), aPattern.getSubjectVar().getName()));
}
if (aPattern.getPredicateVar().hasValue()) {
if (aExt == null) {
aExt = new Extension();
}
aExt.addElements(new ExtensionElem(new ValueConstant(aPattern.getPredicateVar().getValue()), aPattern.getPredicateVar().getName()));
}
if (aPattern.getObjectVar().hasValue()) {
if (aExt == null) {
aExt = new Extension();
}
aExt.addElements(new ExtensionElem(new ValueConstant(aPattern.getObjectVar().getValue()), aPattern.getObjectVar().getName()));
}
aProjection.addProjection(aList);
}
if (aExt != null) {
aProjection.setArg(aExt);
}
return aProjection;
}
use of org.eclipse.rdf4j.query.algebra.MultiProjection in project rdf4j by eclipse.
the class ConstructorBuilder method buildConstructor.
private TupleExpr buildConstructor(TupleExpr bodyExpr, TupleExpr constructExpr, boolean explicitConstructor, boolean distinct, boolean reduced) {
TupleExpr result = bodyExpr;
// Retrieve all StatementPattern's from the construct expression
List<StatementPattern> statementPatterns = StatementPatternCollector.process(constructExpr);
Set<Var> constructVars = getConstructVars(statementPatterns);
// Finally, the spo-bindings are again filtered for duplicates.
if (distinct || reduced) {
// Create projection that removes all bindings that are not used in the
// constructor
ProjectionElemList projElemList = new ProjectionElemList();
for (Var var : constructVars) {
// the distinct
if (!var.isAnonymous() && !var.hasValue()) {
projElemList.addElement(new ProjectionElem(var.getName()));
}
}
result = new Projection(result, projElemList);
// Filter the duplicates from these projected bindings
if (distinct) {
result = new Distinct(result);
} else {
result = new Reduced(result);
}
}
// Create BNodeGenerator's for all anonymous variables
Map<Var, ExtensionElem> extElemMap = new HashMap<Var, ExtensionElem>();
for (Var var : constructVars) {
if (var.isAnonymous() && !extElemMap.containsKey(var)) {
ValueExpr valueExpr = null;
if (var.hasValue()) {
valueExpr = new ValueConstant(var.getValue());
} else if (explicitConstructor) {
// only generate bnodes in case of an explicit constructor
valueExpr = new BNodeGenerator();
}
if (valueExpr != null) {
extElemMap.put(var, new ExtensionElem(valueExpr, var.getName()));
}
}
}
if (!extElemMap.isEmpty()) {
result = new Extension(result, extElemMap.values());
}
// Create a Projection for each StatementPattern in the constructor
List<ProjectionElemList> projections = new ArrayList<ProjectionElemList>();
for (StatementPattern sp : statementPatterns) {
ProjectionElemList projElemList = new ProjectionElemList();
projElemList.addElement(new ProjectionElem(sp.getSubjectVar().getName(), "subject"));
projElemList.addElement(new ProjectionElem(sp.getPredicateVar().getName(), "predicate"));
projElemList.addElement(new ProjectionElem(sp.getObjectVar().getName(), "object"));
projections.add(projElemList);
}
if (projections.size() == 1) {
result = new Projection(result, projections.get(0));
// Note: no need to apply the second duplicate elimination step if
// there's just one projection
} else if (projections.size() > 1) {
result = new MultiProjection(result, projections);
if (distinct) {
// Add another distinct to filter duplicate statements
result = new Distinct(result);
} else if (reduced) {
result = new Reduced(result);
}
} else {
// Empty constructor
result = new EmptySet();
}
return result;
}
use of org.eclipse.rdf4j.query.algebra.MultiProjection in project rdf4j by eclipse.
the class ConstructorBuilder method buildConstructor.
private TupleExpr buildConstructor(TupleExpr bodyExpr, TupleExpr constructExpr, boolean explicitConstructor, boolean distinct, boolean reduced) {
TupleExpr result = bodyExpr;
// Retrieve all StatementPattern's from the construct expression
List<StatementPattern> statementPatterns = StatementPatternCollector.process(constructExpr);
Set<Var> constructVars = getConstructVars(statementPatterns);
// Finally, the spo-bindings are again filtered for duplicates.
if (distinct || reduced) {
// Create projection that removes all bindings that are not used in the
// constructor
ProjectionElemList projElemList = new ProjectionElemList();
for (Var var : constructVars) {
// the distinct
if (!var.isAnonymous() && !var.hasValue()) {
projElemList.addElement(new ProjectionElem(var.getName()));
}
}
result = new Projection(result, projElemList);
// Filter the duplicates from these projected bindings
if (distinct) {
result = new Distinct(result);
} else {
result = new Reduced(result);
}
}
// Create BNodeGenerator's for all anonymous variables
Map<Var, ExtensionElem> extElemMap = new HashMap<Var, ExtensionElem>();
for (Var var : constructVars) {
if (var.isAnonymous() && !extElemMap.containsKey(var)) {
ValueExpr valueExpr = null;
if (var.hasValue()) {
valueExpr = new ValueConstant(var.getValue());
} else if (explicitConstructor) {
// only generate bnodes in case of an explicit constructor
valueExpr = new BNodeGenerator();
}
if (valueExpr != null) {
extElemMap.put(var, new ExtensionElem(valueExpr, var.getName()));
}
}
}
if (!extElemMap.isEmpty()) {
result = new Extension(result, extElemMap.values());
}
// Create a Projection for each StatementPattern in the constructor
List<ProjectionElemList> projections = new ArrayList<ProjectionElemList>();
for (StatementPattern sp : statementPatterns) {
ProjectionElemList projElemList = new ProjectionElemList();
projElemList.addElement(new ProjectionElem(sp.getSubjectVar().getName(), "subject"));
projElemList.addElement(new ProjectionElem(sp.getPredicateVar().getName(), "predicate"));
projElemList.addElement(new ProjectionElem(sp.getObjectVar().getName(), "object"));
projections.add(projElemList);
}
if (projections.size() == 1) {
result = new Projection(result, projections.get(0));
// Note: no need to apply the second duplicate elimination step if
// there's just one projection
} else if (projections.size() > 1) {
result = new MultiProjection(result, projections);
if (distinct) {
// Add another distinct to filter duplicate statements
result = new Distinct(result);
} else if (reduced) {
result = new Reduced(result);
}
} else {
// Empty constructor
result = new EmptySet();
}
return result;
}
use of org.eclipse.rdf4j.query.algebra.MultiProjection in project rdf4j by eclipse.
the class AbstractQueryBuilder method projection.
private UnaryTupleOperator projection() {
if (!mProjectionPatterns.isEmpty()) {
return multiProjection();
} else {
Extension aExt = null;
ProjectionElemList aList = new ProjectionElemList();
for (String aVar : mProjectionVars) {
aList.addElement(new ProjectionElem(aVar));
}
Projection aProjection = new Projection();
aProjection.setProjectionElemList(aList);
if (aExt != null) {
aProjection.setArg(aExt);
}
return aProjection;
}
}
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