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OptaPlanner solves planning problems.
This lightweight, embeddable planning engine implements powerful and scalable algorithms
to optimize business resource scheduling and planning.
This module contains the examples which demonstrate how to use it in a normal Java application.
/*
* Copyright 2010 Red Hat, Inc. and/or its affiliates.
*
* 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 org.optaplanner.examples.projectjobscheduling.domain;
import java.util.List;
import com.thoughtworks.xstream.annotations.XStreamAlias;
import org.optaplanner.core.api.domain.entity.PlanningEntity;
import org.optaplanner.core.api.domain.valuerange.CountableValueRange;
import org.optaplanner.core.api.domain.valuerange.ValueRangeFactory;
import org.optaplanner.core.api.domain.valuerange.ValueRangeProvider;
import org.optaplanner.core.api.domain.variable.CustomShadowVariable;
import org.optaplanner.core.api.domain.variable.PlanningVariable;
import org.optaplanner.core.api.domain.variable.PlanningVariableReference;
import org.optaplanner.examples.common.domain.AbstractPersistable;
import org.optaplanner.examples.projectjobscheduling.domain.solver.DelayStrengthComparator;
import org.optaplanner.examples.projectjobscheduling.domain.solver.ExecutionModeStrengthWeightFactory;
import org.optaplanner.examples.projectjobscheduling.domain.solver.NotSourceOrSinkAllocationFilter;
import org.optaplanner.examples.projectjobscheduling.domain.solver.PredecessorsDoneDateUpdatingVariableListener;
@PlanningEntity(movableEntitySelectionFilter = NotSourceOrSinkAllocationFilter.class)
@XStreamAlias("PjsAllocation")
public class Allocation extends AbstractPersistable {
private Job job;
private Allocation sourceAllocation;
private Allocation sinkAllocation;
private List predecessorAllocationList;
private List successorAllocationList;
// Planning variables: changes during planning, between score calculations.
private ExecutionMode executionMode;
private Integer delay; // In days
// Shadow variables
private Integer predecessorsDoneDate;
public Job getJob() {
return job;
}
public void setJob(Job job) {
this.job = job;
}
public Allocation getSourceAllocation() {
return sourceAllocation;
}
public void setSourceAllocation(Allocation sourceAllocation) {
this.sourceAllocation = sourceAllocation;
}
public Allocation getSinkAllocation() {
return sinkAllocation;
}
public void setSinkAllocation(Allocation sinkAllocation) {
this.sinkAllocation = sinkAllocation;
}
public List getPredecessorAllocationList() {
return predecessorAllocationList;
}
public void setPredecessorAllocationList(List predecessorAllocationList) {
this.predecessorAllocationList = predecessorAllocationList;
}
public List getSuccessorAllocationList() {
return successorAllocationList;
}
public void setSuccessorAllocationList(List successorAllocationList) {
this.successorAllocationList = successorAllocationList;
}
@PlanningVariable(valueRangeProviderRefs = {"executionModeRange"},
strengthWeightFactoryClass = ExecutionModeStrengthWeightFactory.class)
public ExecutionMode getExecutionMode() {
return executionMode;
}
public void setExecutionMode(ExecutionMode executionMode) {
this.executionMode = executionMode;
}
@PlanningVariable(valueRangeProviderRefs = {"delayRange"},
strengthComparatorClass = DelayStrengthComparator.class)
public Integer getDelay() {
return delay;
}
public void setDelay(Integer delay) {
this.delay = delay;
}
@CustomShadowVariable(variableListenerClass = PredecessorsDoneDateUpdatingVariableListener.class,
sources = {@PlanningVariableReference(variableName = "executionMode"),
@PlanningVariableReference(variableName = "delay")})
public Integer getPredecessorsDoneDate() {
return predecessorsDoneDate;
}
public void setPredecessorsDoneDate(Integer predecessorsDoneDate) {
this.predecessorsDoneDate = predecessorsDoneDate;
}
// ************************************************************************
// Complex methods
// ************************************************************************
public Integer getStartDate() {
if (predecessorsDoneDate == null) {
return null;
}
return predecessorsDoneDate + (delay == null ? 0 : delay);
}
public Integer getEndDate() {
if (predecessorsDoneDate == null) {
return null;
}
return predecessorsDoneDate + (delay == null ? 0 : delay)
+ (executionMode == null ? 0 : executionMode.getDuration());
}
public Project getProject() {
return job.getProject();
}
public int getProjectCriticalPathEndDate() {
return job.getProject().getCriticalPathEndDate();
}
public JobType getJobType() {
return job.getJobType();
}
public String getLabel() {
return "Job " + job.getId();
}
// ************************************************************************
// Ranges
// ************************************************************************
@ValueRangeProvider(id = "executionModeRange")
public List getExecutionModeRange() {
return job.getExecutionModeList();
}
@ValueRangeProvider(id = "delayRange")
public CountableValueRange getDelayRange() {
return ValueRangeFactory.createIntValueRange(0, 500);
}
}