AbstractCrystalizer.this.jobCreated(j); } else { AbstractCrystalizer.this.jobCreated(n.contents);
public void resolveAt(String owningProcess, int[] completionIndex) { NamedNode n = nodeAt(completionIndex); if (n != null) { assignNamesTo(n, completionIndex); } else { // We know what the list depth should be, so we can // construct appropriate depth empty lists to fill in the // gaps. Job j = getEmptyJob(owningProcess, completionIndex, context); insertJob(j); jobCreated(j); } }
AbstractCrystalizer.this.jobCreated(j); } else { AbstractCrystalizer.this.jobCreated(n.contents);
AbstractCrystalizer.this.jobCreated(j); } else { AbstractCrystalizer.this.jobCreated(n.contents);
public void resolveAt(String owningProcess, int[] completionIndex) { NamedNode n = nodeAt(completionIndex); if (n != null) { assignNamesTo(n, completionIndex); } else { // We know what the list depth should be, so we can // construct appropriate depth empty lists to fill in the // gaps. Job j = getEmptyJob(owningProcess, completionIndex, context); // System.out.println("Inserting new empty collection "+j); insertJob(j); jobCreated(j); } }
public void resolveAt(String owningProcess, int[] completionIndex) { NamedNode n = nodeAt(completionIndex); if (n != null) { assignNamesTo(n, completionIndex); } else { // We know what the list depth should be, so we can // construct appropriate depth empty lists to fill in the // gaps. Job j = getEmptyJob(owningProcess, completionIndex, context); // System.out.println("Inserting new empty collection "+j); insertJob(j); jobCreated(j); } }
jobCreated(j); if (j.getIndex().length == 0) { cacheMap.remove(j.getOwningProcess());
jobCreated(j); if (j.getIndex().length == 0) { cacheMap.remove(j.getOwningProcess());
jobCreated(j); if (j.getIndex().length == 0) { cacheMap.remove(j.getOwningProcess());