Class SupplyingBarrierStep<S,E>
- java.lang.Object
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- org.apache.tinkerpop.gremlin.process.traversal.step.util.AbstractStep<S,E>
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- org.apache.tinkerpop.gremlin.process.traversal.step.util.SupplyingBarrierStep<S,E>
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- All Implemented Interfaces:
Serializable
,Cloneable
,Iterator<Traverser.Admin<E>>
,Step<S,E>
,Barrier<Boolean>
,MemoryComputing<Boolean>
- Direct Known Subclasses:
SideEffectCapStep
public abstract class SupplyingBarrierStep<S,E> extends AbstractStep<S,E> implements Barrier<Boolean>
- Author:
- Marko A. Rodriguez (http://markorodriguez.com)
- See Also:
- Serialized Form
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Field Summary
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Fields inherited from class org.apache.tinkerpop.gremlin.process.traversal.step.util.AbstractStep
id, labels, nextEnd, nextStep, previousStep, starts, traversal, traverserStepIdAndLabelsSetByChild
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Constructor Summary
Constructors Constructor Description SupplyingBarrierStep(Traversal.Admin traversal)
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Method Summary
All Methods Instance Methods Abstract Methods Concrete Methods Modifier and Type Method Description void
addBarrier(Boolean barrier)
Add a barrier to the step.void
addStart(Traverser.Admin<S> start)
Add a singleTraverser.Admin
to the step.void
addStarts(Iterator<Traverser.Admin<S>> starts)
Add an iterator ofTraverser.Admin
objects of type S to the step.SupplyingBarrierStep<S,E>
clone()
Cloning is used to duplicate steps for the purpose of traversal optimization and OLTP replication.void
done()
A way to hard set that the barrier is complete.MemoryComputeKey<Boolean>
getMemoryComputeKey()
TheMemoryComputeKey
that will be used by this step.boolean
hasNextBarrier()
Whether or not the step has an accessible barrier.Boolean
nextBarrier()
Get the next barrier within this step.void
processAllStarts()
Process all left traversers by do not yield the resultant output.Traverser.Admin<E>
processNextStart()
void
reset()
Reset the state of the step such that it has no incoming starts.protected abstract E
supply()
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Methods inherited from class org.apache.tinkerpop.gremlin.process.traversal.step.util.AbstractStep
addLabel, equals, getId, getLabels, getNextStep, getPreviousStep, getStarts, getTraversal, hashCode, hasNext, hasStarts, isTraverserStepIdAndLabelsSetByChild, next, prepareTraversalForNextStep, removeLabel, setId, setNextStep, setPreviousStep, setTraversal, toString
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Methods inherited from class java.lang.Object
finalize, getClass, notify, notifyAll, wait, wait, wait
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Methods inherited from interface java.util.Iterator
forEachRemaining, remove
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Methods inherited from interface org.apache.tinkerpop.gremlin.process.traversal.Step
equals, getRequirements
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Constructor Detail
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SupplyingBarrierStep
public SupplyingBarrierStep(Traversal.Admin traversal)
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Method Detail
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supply
protected abstract E supply()
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addStarts
public void addStarts(Iterator<Traverser.Admin<S>> starts)
Description copied from interface:Step
Add an iterator ofTraverser.Admin
objects of type S to the step.
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addStart
public void addStart(Traverser.Admin<S> start)
Description copied from interface:Step
Add a singleTraverser.Admin
to the step.
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reset
public void reset()
Description copied from interface:Step
Reset the state of the step such that it has no incoming starts. Internal states are to be reset, but any sideEffect data structures are not to be recreated.
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processNextStart
public Traverser.Admin<E> processNextStart()
- Specified by:
processNextStart
in classAbstractStep<S,E>
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clone
public SupplyingBarrierStep<S,E> clone()
Description copied from interface:Step
Cloning is used to duplicate steps for the purpose of traversal optimization and OLTP replication. When cloning a step, it is important that the steps, the cloned step is equivalent to the state of the step whenStep.reset()
is called. Moreover, the previous and next steps should be set toEmptyStep
.
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processAllStarts
public void processAllStarts()
Description copied from interface:Barrier
Process all left traversers by do not yield the resultant output. This method is useful for steps likeReducingBarrierStep
, where traversers can be processed "on the fly" and thus, reduce memory consumption.- Specified by:
processAllStarts
in interfaceBarrier<S>
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hasNextBarrier
public boolean hasNextBarrier()
Description copied from interface:Barrier
Whether or not the step has an accessible barrier.- Specified by:
hasNextBarrier
in interfaceBarrier<S>
- Returns:
- whether a barrier exists or not
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nextBarrier
public Boolean nextBarrier() throws NoSuchElementException
Description copied from interface:Barrier
Get the next barrier within this step. Barriers from parallel steps can be the be merged to create a single step with merge barriers.- Specified by:
nextBarrier
in interfaceBarrier<S>
- Returns:
- the next barrier of the step
- Throws:
NoSuchElementException
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addBarrier
public void addBarrier(Boolean barrier)
Description copied from interface:Barrier
Add a barrier to the step. This typically happens when multiple parallel barriers need to become one barrier at a single step.- Specified by:
addBarrier
in interfaceBarrier<S>
- Parameters:
barrier
- the barrier to merge in
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done
public void done()
Description copied from interface:Barrier
A way to hard set that the barrier is complete. This is necessary when parallel barriers don't all have barriers and need hard resetting. The default implementation does nothing.
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getMemoryComputeKey
public MemoryComputeKey<Boolean> getMemoryComputeKey()
Description copied from interface:MemoryComputing
TheMemoryComputeKey
that will be used by this step.- Specified by:
getMemoryComputeKey
in interfaceMemoryComputing<S>
- Returns:
- the MemoryComputeKey to use
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