Class TailGlobalStep<S>
- java.lang.Object
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- org.apache.tinkerpop.gremlin.process.traversal.step.util.AbstractStep<S,S>
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- org.apache.tinkerpop.gremlin.process.traversal.step.filter.TailGlobalStep<S>
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- All Implemented Interfaces:
Serializable
,Cloneable
,Iterator<Traverser.Admin<S>>
,Step<S,S>
,Barrier<TraverserSet<S>>
,Bypassing
,MemoryComputing<TraverserSet<S>>
public final class TailGlobalStep<S> extends AbstractStep<S,S> implements Bypassing, Barrier<TraverserSet<S>>
- Author:
- Matt Frantz (http://github.com/mhfrantz)
- 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 TailGlobalStep(Traversal.Admin traversal, long limit)
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Method Summary
All Methods Instance Methods Concrete Methods Modifier and Type Method Description void
addBarrier(TraverserSet<S> barrier)
Add a barrier to the step.TailGlobalStep<S>
clone()
Cloning is used to duplicate steps for the purpose of traversal optimization and OLTP replication.MemoryComputeKey<TraverserSet<S>>
getMemoryComputeKey()
TheMemoryComputeKey
that will be used by this step.Set<TraverserRequirement>
getRequirements()
Provide the necessaryTraverserRequirement
that must be met by the traverser in order for the step to function properly.int
hashCode()
boolean
hasNextBarrier()
Whether or not the step has an accessible barrier.TraverserSet<S>
nextBarrier()
Get the next barrier within this step.void
processAllStarts()
Process all left traversers by do not yield the resultant output.Traverser.Admin<S>
processNextStart()
void
reset()
Reset the state of the step such that it has no incoming starts.void
setBypass(boolean bypass)
String
toString()
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Methods inherited from class org.apache.tinkerpop.gremlin.process.traversal.step.util.AbstractStep
addLabel, addStart, addStarts, equals, getId, getLabels, getNextStep, getPreviousStep, getStarts, getTraversal, hasNext, hasStarts, isTraverserStepIdAndLabelsSetByChild, next, prepareTraversalForNextStep, removeLabel, setId, setNextStep, setPreviousStep, setTraversal
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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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Constructor Detail
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TailGlobalStep
public TailGlobalStep(Traversal.Admin traversal, long limit)
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Method Detail
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processNextStart
public Traverser.Admin<S> processNextStart()
- Specified by:
processNextStart
in classAbstractStep<S,S>
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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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toString
public String toString()
- Overrides:
toString
in classAbstractStep<S,S>
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clone
public TailGlobalStep<S> 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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hashCode
public int hashCode()
- Overrides:
hashCode
in classAbstractStep<S,S>
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getRequirements
public Set<TraverserRequirement> getRequirements()
Description copied from interface:Step
Provide the necessaryTraverserRequirement
that must be met by the traverser in order for the step to function properly. The provided default implements returns an empty set.- Specified by:
getRequirements
in interfaceStep<S,S>
- Returns:
- the set of requirements
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getMemoryComputeKey
public MemoryComputeKey<TraverserSet<S>> 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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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 TraverserSet<S> 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(TraverserSet<S> 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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