@Override protected void requestSubCancel() { if ( output != null ) output.cancel(); }
@Override protected void requestCancel() { if ( iterator != null ) { iterator.cancel(); } } }
@Override protected void requestSubCancel() { if ( currentStage != null ) currentStage.cancel() ; // [CANCEL] cancelRequested = true; } }
@Override protected void requestCancel() { if ( iterator != null ) { iterator.cancel(); } }
/** cancel an iterator */ protected static void performRequestCancel(QueryIterator iter) { if ( iter == null ) return ; iter.cancel() ; }
@Override protected void requestSubCancel() { if (procIter != null) procIter.cancel(); }
@Override protected void requestSubCancel() { if (output != null) output.cancel(); }
@Override protected void requestCancel() { iterator.cancel() ; }
@Override public void abort() { synchronized (lockTimeout) { isCancelled.set(true); // This is called asynchronously to the execution. // synchronized is for coordination with other calls of // .abort and with the timeout2 reset code. if ( queryIterator != null ) // we notify the chain of iterators, // however, we do *not* close the // iterators. // That happens after the cancellation // is properly over. queryIterator.cancel(); } }
@Override public void requestCancel() { this.embeddedIterator.cancel() ; super.requestCancel() ; }
@Override protected void requestCancel() { if ( killList != null ) for ( Abortable it : killList ) it.abort() ; if ( originalInput != null ) originalInput.cancel(); } }
@Override public void requestCancel() { this.embeddedIterator.cancel(); super.requestCancel(); }
@Override protected void requestCancel() { if ( killList != null ) for ( Abortable it : killList ) it.abort() ; if ( originalInput != null ) originalInput.cancel(); } }
@Override public void requestCancel() { this.db.cancel(); this.embeddedIterator.cancel(); super.requestCancel(); }
queryIterator.cancel() ;