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• WorksetIterationPlanNode.java

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eu.stratosphere.compiler.plan.WorksetIterationPlanNode Maven / Gradle / Ivy

/***********************************************************************************************************************
 * Copyright (C) 2010-2013 by the Stratosphere project (http://stratosphere.eu)
 *
 * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with
 * the License. You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on
 * an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the
 * specific language governing permissions and limitations under the License.
 **********************************************************************************************************************/

package eu.stratosphere.compiler.plan;

import static eu.stratosphere.compiler.plan.PlanNode.SourceAndDamReport.FOUND_SOURCE;
import static eu.stratosphere.compiler.plan.PlanNode.SourceAndDamReport.FOUND_SOURCE_AND_DAM;

import java.util.HashMap;
import java.util.Map;

import eu.stratosphere.api.common.operators.util.FieldList;
import eu.stratosphere.api.common.typeutils.TypeComparatorFactory;
import eu.stratosphere.api.common.typeutils.TypeSerializerFactory;
import eu.stratosphere.compiler.CompilerException;
import eu.stratosphere.compiler.costs.Costs;
import eu.stratosphere.compiler.dag.OptimizerNode;
import eu.stratosphere.compiler.dag.TwoInputNode;
import eu.stratosphere.compiler.dag.WorksetIterationNode;
import eu.stratosphere.pact.runtime.task.DriverStrategy;
import eu.stratosphere.util.Visitor;

/**
 * 
 */
public class WorksetIterationPlanNode extends DualInputPlanNode implements IterationPlanNode {

	private final SolutionSetPlanNode solutionSetPlanNode;
	
	private final WorksetPlanNode worksetPlanNode;
	
	private final PlanNode solutionSetDeltaPlanNode;
	
	private final PlanNode nextWorkSetPlanNode;
	
	private TypeSerializerFactory worksetSerializer;
	
	private TypeSerializerFactory solutionSetSerializer;
	
	private TypeComparatorFactory solutionSetComparator;
	
	private boolean immediateSolutionSetUpdate;
	
	public Object postPassHelper;
	
	private TypeSerializerFactory serializerForIterationChannel;
	
	// --------------------------------------------------------------------------------------------

	public WorksetIterationPlanNode(WorksetIterationNode template, String nodeName, Channel initialSolutionSet, Channel initialWorkset,
			SolutionSetPlanNode solutionSetPlanNode, WorksetPlanNode worksetPlanNode,
			PlanNode nextWorkSetPlanNode, PlanNode solutionSetDeltaPlanNode)
	{
		super(template, nodeName, initialSolutionSet, initialWorkset, DriverStrategy.NONE);
		this.solutionSetPlanNode = solutionSetPlanNode;
		this.worksetPlanNode = worksetPlanNode;
		this.solutionSetDeltaPlanNode = solutionSetDeltaPlanNode;
		this.nextWorkSetPlanNode = nextWorkSetPlanNode;

		mergeBranchPlanMaps();

	}

	// --------------------------------------------------------------------------------------------
	
	public WorksetIterationNode getIterationNode() {
		if (this.template instanceof WorksetIterationNode) {
			return (WorksetIterationNode) this.template;
		} else {
			throw new RuntimeException();
		}
	}
	
	public SolutionSetPlanNode getSolutionSetPlanNode() {
		return this.solutionSetPlanNode;
	}
	
	public WorksetPlanNode getWorksetPlanNode() {
		return this.worksetPlanNode;
	}
	
	public PlanNode getSolutionSetDeltaPlanNode() {
		return this.solutionSetDeltaPlanNode;
	}
	
	public PlanNode getNextWorkSetPlanNode() {
		return this.nextWorkSetPlanNode;
	}
	
	public Channel getInitialSolutionSetInput() {
		return getInput1();
	}
	
	public Channel getInitialWorksetInput() {
		return getInput2();
	}
	
	public void setImmediateSolutionSetUpdate(boolean immediateUpdate) {
		this.immediateSolutionSetUpdate = immediateUpdate;
	}
	
	public boolean isImmediateSolutionSetUpdate() {
		return this.immediateSolutionSetUpdate;
	}
	
	public FieldList getSolutionSetKeyFields() {
		return getIterationNode().getSolutionSetKeyFields();
	}
	
	// --------------------------------------------------------------------------------------------
	
	public TypeSerializerFactory getWorksetSerializer() {
		return worksetSerializer;
	}
	
	public void setWorksetSerializer(TypeSerializerFactory worksetSerializer) {
		this.worksetSerializer = worksetSerializer;
	}
	
	public TypeSerializerFactory getSolutionSetSerializer() {
		return solutionSetSerializer;
	}
	
	public void setSolutionSetSerializer(TypeSerializerFactory solutionSetSerializer) {
		this.solutionSetSerializer = solutionSetSerializer;
	}
	
	public TypeComparatorFactory getSolutionSetComparator() {
		return solutionSetComparator;
	}
	
	public void setSolutionSetComparator(TypeComparatorFactory solutionSetComparator) {
		this.solutionSetComparator = solutionSetComparator;
	}

	// --------------------------------------------------------------------------------------------
	
	public void setCosts(Costs nodeCosts) {
		// add the costs from the step function
		nodeCosts.addCosts(this.solutionSetDeltaPlanNode.getCumulativeCostsShare());
		nodeCosts.addCosts(this.nextWorkSetPlanNode.getCumulativeCostsShare());
		
		// we have to subtract that which is double. sanity check that there are branches
		TwoInputNode auxJoiner = getIterationNode().getSingleRootOfStepFunction();
		if (auxJoiner.getJoinedBranchers() == null || auxJoiner.getJoinedBranchers().isEmpty()) {
			throw new CompilerException("Error: No branch in step function between Solution Set Delta and Next Workset.");
		}

		super.setCosts(nodeCosts);
	}
	
	public int getMemoryConsumerWeight() {
		// solution set index and workset back channel
		return 2;
	}
	
	@Override
	public SourceAndDamReport hasDamOnPathDownTo(PlanNode source) {
		SourceAndDamReport fromOutside = super.hasDamOnPathDownTo(source);

		if (fromOutside == FOUND_SOURCE_AND_DAM) {
			return FOUND_SOURCE_AND_DAM;
		}
		else if (fromOutside == FOUND_SOURCE) {
			// we always have a dam in the solution set index
			return FOUND_SOURCE_AND_DAM;
		} else {
			SourceAndDamReport fromNextWorkset = nextWorkSetPlanNode.hasDamOnPathDownTo(source);

			if(fromNextWorkset == FOUND_SOURCE_AND_DAM){
				return FOUND_SOURCE_AND_DAM;
			}else if(fromNextWorkset == FOUND_SOURCE){
				return FOUND_SOURCE_AND_DAM;
			}else{
				SourceAndDamReport fromSolutionSetDelta = solutionSetDeltaPlanNode.hasDamOnPathDownTo(source);

				return fromSolutionSetDelta;
			}
		}
	}

	@Override
	public void acceptForStepFunction(Visitor visitor) {
		this.solutionSetDeltaPlanNode.accept(visitor);
		this.nextWorkSetPlanNode.accept(visitor);
	}

	/**
	 * Merging can only take place after the solutionSetDelta and nextWorkset PlanNode has been set,
	 * because they can contain also some of the branching nodes.
	 */
	@Override
	protected void mergeBranchPlanMaps(Map branchPlan1, Map branchPlan2){

	}

	protected void mergeBranchPlanMaps() {
		Map branchPlan1 = input1.getSource().branchPlan;
		Map branchPlan2 = input2.getSource().branchPlan;

		// merge the branchPlan maps according the the template's uncloseBranchesStack
		if (this.template.hasUnclosedBranches()) {
			if (this.branchPlan == null) {
				this.branchPlan = new HashMap(8);
			}

			for (OptimizerNode.UnclosedBranchDescriptor uc : this.template.getOpenBranches()) {
				OptimizerNode brancher = uc.getBranchingNode();
				PlanNode selectedCandidate = null;

				if (branchPlan1 != null) {
					// predecessor 1 has branching children, see if it got the branch we are looking for
					selectedCandidate = branchPlan1.get(brancher);
				}

				if (selectedCandidate == null && branchPlan2 != null) {
					// predecessor 2 has branching children, see if it got the branch we are looking for
					selectedCandidate = branchPlan2.get(brancher);
				}

				if(selectedCandidate == null && getSolutionSetDeltaPlanNode() != null && getSolutionSetDeltaPlanNode()
						.branchPlan != null){
					selectedCandidate = getSolutionSetDeltaPlanNode().branchPlan.get(brancher);
				}

				if(selectedCandidate == null && getNextWorkSetPlanNode() != null && getNextWorkSetPlanNode()
						.branchPlan != null){
					selectedCandidate = getNextWorkSetPlanNode().branchPlan.get(brancher);
				}

				if (selectedCandidate == null) {
					throw new CompilerException(
							"Candidates for a node with open branches are missing information about the selected candidate ");
				}

				this.branchPlan.put(brancher, selectedCandidate);
			}
		}
	}
	
	// --------------------------------------------------------------------------------------------
	
	public TypeSerializerFactory getSerializerForIterationChannel() {
		return serializerForIterationChannel;
	}
	
	public void setSerializerForIterationChannel(TypeSerializerFactory serializerForIterationChannel) {
		this.serializerForIterationChannel = serializerForIterationChannel;
	}
}