Java Code Examples for org.apache.tinkerpop.gremlin.process.traversal.Step#getPreviousStep()
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org.apache.tinkerpop.gremlin.process.traversal.Step#getPreviousStep() .
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Example 1
Source File: SubgraphStrategy.java From tinkerpop with Apache License 2.0 | 6 votes |
private static final char processesPropertyType(Step step) { while (!(step instanceof EmptyStep)) { if (step instanceof FilterStep || step instanceof SideEffectStep) step = step.getPreviousStep(); else if (step instanceof GraphStep && ((GraphStep) step).returnsVertex()) return 'v'; else if (step instanceof EdgeVertexStep) return 'v'; else if (step instanceof VertexStep) return ((VertexStep) step).returnsVertex() ? 'v' : 'p'; else if (step instanceof PropertyMapStep || step instanceof PropertiesStep) return 'p'; else return 'x'; } return 'x'; }
Example 2
Source File: JanusGraphVertexStep.java From grakn with GNU Affero General Public License v3.0 | 5 votes |
/** * Many parent traversals drip feed their start vertices in one at a time. To best exploit * the multiQuery we need to load all possible starts in one go so this method will attempt * to find a JanusGraphMultiQueryStep with the starts of the parent, and if found cache it. */ private void setParentMultiQueryStep() { Step firstStep = traversal.getStartStep(); while (firstStep instanceof StartStep || firstStep instanceof SideEffectStep) { // Want the next step if this is a side effect firstStep = firstStep.getNextStep(); } if (this.equals(firstStep)) { Step<?, ?> parentStep = traversal.getParent().asStep(); if (JanusGraphTraversalUtil.isMultiQueryCompatibleStep(parentStep)) { Step<?, ?> parentPreviousStep = parentStep.getPreviousStep(); if (parentStep instanceof RepeatStep) { RepeatStep repeatStep = (RepeatStep) parentStep; List<RepeatEndStep> repeatEndSteps = TraversalHelper.getStepsOfClass(RepeatEndStep.class, repeatStep.getRepeatTraversal()); if (repeatEndSteps.size() == 1) { parentPreviousStep = repeatEndSteps.get(0).getPreviousStep(); } } if (parentPreviousStep instanceof ProfileStep) { parentPreviousStep = parentPreviousStep.getPreviousStep(); } if (parentPreviousStep instanceof JanusGraphMultiQueryStep) { parentMultiQueryStep = (JanusGraphMultiQueryStep) parentPreviousStep; } } } }
Example 3
Source File: CountStrategy.java From tinkerpop with Apache License 2.0 | 5 votes |
private boolean doStrategy(final Step step) { if (!(step instanceof CountGlobalStep) || !(step.getNextStep() instanceof IsStep) || step.getPreviousStep() instanceof RangeGlobalStep) // if a RangeStep was provided, assume that the user knows what he's doing return false; final Step parent = step.getTraversal().getParent().asStep(); return (parent instanceof FilterStep || parent.getLabels().isEmpty()) && // if the parent is labeled, then the count matters !(parent.getNextStep() instanceof MatchStep.MatchEndStep && // if this is in a pattern match, then don't do it. ((MatchStep.MatchEndStep) parent.getNextStep()).getMatchKey().isPresent()); }
Example 4
Source File: StandardVerificationStrategy.java From tinkerpop with Apache License 2.0 | 5 votes |
@Override public void apply(final Traversal.Admin<?, ?> traversal) { if (!traversal.getStrategies().getStrategy(ComputerFinalizationStrategy.class).isPresent() && !traversal.getStrategies().getStrategy(ComputerVerificationStrategy.class).isPresent()) { if (!TraversalHelper.getStepsOfAssignableClass(VertexComputing.class, traversal).isEmpty()) throw new VerificationException("VertexComputing steps must be executed with a GraphComputer: " + TraversalHelper.getStepsOfAssignableClass(VertexComputing.class, traversal), traversal); } for (final Step<?, ?> step : traversal.getSteps()) { for (String label : new HashSet<>(step.getLabels())) { if (Graph.Hidden.isHidden(label)) step.removeLabel(label); } if (step instanceof ReducingBarrierStep && step.getTraversal().getParent() instanceof RepeatStep && step.getTraversal().getParent().getGlobalChildren().get(0).getSteps().contains(step)) throw new VerificationException("The parent of a reducing barrier can not be repeat()-step: " + step, traversal); } // The ProfileSideEffectStep must be one of the following // (1) the last step // (2) 2nd last step when accompanied by the cap step or none step (i.e. iterate() to nothing) // (3) 3rd to last when the traversal ends with a RequirementsStep. final Step<?, ?> endStep = traversal.asAdmin().getEndStep(); if (TraversalHelper.hasStepOfClass(ProfileSideEffectStep.class, traversal) && !(endStep instanceof ProfileSideEffectStep || (endStep instanceof SideEffectCapStep && endStep.getPreviousStep() instanceof ProfileSideEffectStep) || (endStep instanceof NoneStep && endStep.getPreviousStep() instanceof SideEffectCapStep && endStep.getPreviousStep().getPreviousStep() instanceof ProfileSideEffectStep) || (endStep instanceof RequirementsStep && endStep.getPreviousStep() instanceof SideEffectCapStep && endStep.getPreviousStep().getPreviousStep() instanceof ProfileSideEffectStep) || (endStep instanceof RequirementsStep && endStep.getPreviousStep() instanceof NoneStep && endStep.getPreviousStep().getPreviousStep() instanceof SideEffectCapStep && endStep.getPreviousStep().getPreviousStep().getPreviousStep() instanceof ProfileSideEffectStep))) { throw new VerificationException("When specified, the profile()-Step must be the last step or followed only by the cap()-step.", traversal); } if (TraversalHelper.getStepsOfClass(ProfileSideEffectStep.class, traversal).size() > 1) { throw new VerificationException("The profile()-Step cannot be specified multiple times.", traversal); } }
Example 5
Source File: VertexProgramStep.java From tinkerpop with Apache License 2.0 | 5 votes |
protected boolean previousTraversalVertexProgram() { Step<?, ?> currentStep = this; while (!(currentStep instanceof EmptyStep)) { if (currentStep instanceof TraversalVertexProgramStep) return true; currentStep = currentStep.getPreviousStep(); } return false; }
Example 6
Source File: MessagePassingReductionStrategy.java From tinkerpop with Apache License 2.0 | 5 votes |
public static final boolean endsWithElement(Step<?, ?> currentStep) { while (!(currentStep instanceof EmptyStep)) { if (currentStep instanceof VertexStep) // only inE, in, and out send messages return (((VertexStep) currentStep).returnsVertex() || !((VertexStep) currentStep).getDirection().equals(Direction.OUT)); else if (currentStep instanceof EdgeVertexStep) // TODO: add GraphStep but only if its mid-traversal V()/E() return true; else if (currentStep instanceof TraversalFlatMapStep || currentStep instanceof TraversalMapStep || currentStep instanceof LocalStep) return endsWithElement(((TraversalParent) currentStep).getLocalChildren().get(0).getEndStep()); else if (!(currentStep instanceof FilterStep || currentStep instanceof SideEffectStep || currentStep instanceof IdentityStep || currentStep instanceof Barrier)) return false; currentStep = currentStep.getPreviousStep(); } return false; }
Example 7
Source File: VertexProgramStrategy.java From tinkerpop with Apache License 2.0 | 5 votes |
private static Step<?, ?> getLastLegalOLAPStep(Step<?, ?> currentStep) { while (currentStep instanceof VertexComputing) currentStep = currentStep.getNextStep(); while (!(currentStep instanceof EmptyStep)) { if (currentStep instanceof VertexComputing) return currentStep.getPreviousStep(); currentStep = currentStep.getNextStep(); } return EmptyStep.instance(); }
Example 8
Source File: HugeCountStepStrategy.java From hugegraph with Apache License 2.0 | 4 votes |
@Override @SuppressWarnings({ "rawtypes", "unchecked" }) public void apply(Traversal.Admin<?, ?> traversal) { TraversalUtil.convAllHasSteps(traversal); // Extract CountGlobalStep List<CountGlobalStep> steps = TraversalHelper.getStepsOfClass( CountGlobalStep.class, traversal); if (steps.isEmpty()) { return; } // Find HugeGraphStep before count() CountGlobalStep<?> originStep = steps.get(0); List<Step<?, ?>> originSteps = new ArrayList<>(); HugeGraphStep<?, ? extends Element> graphStep = null; Step<?, ?> step = originStep; do { if (!(step instanceof CountGlobalStep || step instanceof GraphStep || step instanceof IdentityStep || step instanceof NoOpBarrierStep || step instanceof CollectingBarrierStep) || (step instanceof TraversalParent && TraversalHelper.anyStepRecursively(s -> { return s instanceof SideEffectStep || s instanceof AggregateStep; }, (TraversalParent) step))) { return; } originSteps.add(step); if (step instanceof HugeGraphStep) { graphStep = (HugeGraphStep<?, ? extends Element>) step; break; } step = step.getPreviousStep(); } while (step != null); if (graphStep == null) { return; } // Replace with HugeCountStep graphStep.queryInfo().aggregate(AggregateFunc.COUNT, null); HugeCountStep<?> countStep = new HugeCountStep<>(traversal, graphStep); for (Step<?, ?> origin : originSteps) { traversal.removeStep(origin); } traversal.addStep(0, countStep); }
Example 9
Source File: GraphTraversal.java From tinkerpop with Apache License 2.0 | 4 votes |
/** * Sets a {@link Property} value and related meta properties if supplied, if supported by the {@link Graph} * and if the {@link Element} is a {@link VertexProperty}. This method is the long-hand version of * {@link #property(Object, Object, Object...)} with the difference that the {@link VertexProperty.Cardinality} * can be supplied. * <p/> * Generally speaking, this method will append an {@link AddPropertyStep} to the {@link Traversal} but when * possible, this method will attempt to fold key/value pairs into an {@link AddVertexStep}, {@link AddEdgeStep} or * {@link AddVertexStartStep}. This potential optimization can only happen if cardinality is not supplied * and when meta-properties are not included. * * @param cardinality the specified cardinality of the property where {@code null} will allow the {@link Graph} * to use its default settings * @param key the key for the property * @param value the value for the property * @param keyValues any meta properties to be assigned to this property * @return the traversal with the last step modified to add a property * @see <a href="http://tinkerpop.apache.org/docs/${project.version}/reference/#addproperty-step" target="_blank">AddProperty Step</a> * @since 3.0.0-incubating */ public default GraphTraversal<S, E> property(final VertexProperty.Cardinality cardinality, final Object key, final Object value, final Object... keyValues) { if (null == cardinality) this.asAdmin().getBytecode().addStep(Symbols.property, key, value, keyValues); else this.asAdmin().getBytecode().addStep(Symbols.property, cardinality, key, value, keyValues); // if it can be detected that this call to property() is related to an addV/E() then we can attempt to fold // the properties into that step to gain an optimization for those graphs that support such capabilities. Step endStep = this.asAdmin().getEndStep(); // always try to fold the property() into the initial "AddElementStep" as the performance will be better // and as it so happens with T the value must be set by way of that approach otherwise you get an error. // it should be safe to execute this loop this way as we'll either hit an "AddElementStep" or an "EmptyStep". // if empty, it will just use the regular AddPropertyStep being tacked on to the end of the traversal as usual while (endStep instanceof AddPropertyStep) { endStep = endStep.getPreviousStep(); } // edge properties can always be folded as there is no cardinality/metaproperties. for a vertex mutation, // it's possible to fold the property() into the Mutating step if there are no metaproperties (i.e. keyValues) // and if (1) the key is an instance of T OR OR (3) the key is a string and the cardinality is not specifiied. // Note that checking for single cardinality of the argument doesn't work well because once folded we lose // the cardinality argument associated to the key/value pair and then it relies on the graph. that // means that if you do: // // g.addV().property(single, 'k',1).property(single,'k',2) // // you could end up with whatever the cardinality is for the key which might seem "wrong" if you were explicit // about the specification of "single". it also isn't possible to check the Graph Features for cardinality // as folding seems to have different behavior based on different graphs - we clearly don't have that aspect // of things tested/enforced well. // // of additional note is the folding that occurs if the key is a Traversal. the key here is technically // unknown until traversal execution as the anonymous traversal result isn't evaluated during traversal // construction but during iteration. not folding to AddVertexStep creates different (breaking) traversal // semantics than we've had in previous versions so right/wrong could be argued, but since it's a breaking // change we'll just arbitrarily account for it to maintain the former behavior. if ((endStep instanceof AddEdgeStep || endStep instanceof AddEdgeStartStep) || ((endStep instanceof AddVertexStep || endStep instanceof AddVertexStartStep) && keyValues.length == 0 && (key instanceof T || (key instanceof String && null == cardinality) || key instanceof Traversal))) { ((Mutating) endStep).configure(key, value); } else { final AddPropertyStep<Element> addPropertyStep = new AddPropertyStep<>(this.asAdmin(), cardinality, key, value); this.asAdmin().addStep(addPropertyStep); addPropertyStep.configure(keyValues); } return this; }