有向无环图最短路径
根据算法基础这本书的思路,先进行拓扑排序,在逐一进行松弛操作。
package com.jeff.demon;
import org.junit.Test;
import java.util.*;
import java.util.stream.Collectors;
public class ShortestLineAppTest {
//有向无环图求最短路径
@Test
public void test0(){
RouteNode a=new RouteNode("a");
RouteNode b=new RouteNode("b");
RouteNode c=new RouteNode("c");
RouteNode d=new RouteNode("d");
RouteNode e=new RouteNode("e");
RouteNode a0=new RouteNode("a0");
a.routeNodeWeightList.add(new RouteNodeWeight(b,1));
b.routeNodeWeightList.add(new RouteNodeWeight(c,2));
b.routeNodeWeightList.add(new RouteNodeWeight(d,3));
c.routeNodeWeightList.add(new RouteNodeWeight(e,4));
d.routeNodeWeightList.add(new RouteNodeWeight(e,5));
a0.routeNodeWeightList.add(new RouteNodeWeight(d,6));
startRouteNode(Arrays.asList(
a,b,c,d,e,a0
));
}
void startRouteNode(List<RouteNode> routeNodeList){
InOutDegree inOutDegree=new InOutDegree(routeNodeList);
inOutDegree.calcIndegree();
Map<RouteNode,Integer> shortestPath=routeNodeList.stream().collect(Collectors.toMap(e->e,e->-1));
routeNodeList.stream().collect(Collectors.toMap(e->e,e->0));
for (RouteNode routeNode : inOutDegree.topologicSort()) {
relax(routeNode,shortestPath);
}
System.out.println(shortestPath);
}
//松弛操作
void relax(RouteNode routeNode,Map<RouteNode,Integer> shortestPath){
if(shortestPath.get(routeNode)==-1){
shortestPath.put(routeNode,0);
}
int preShorest=shortestPath.get(routeNode);
routeNode.routeNodeWeightList.forEach(e->{
if(shortestPath.get(e.routeNode)==-1){
shortestPath.put(e.routeNode,preShorest+e.weight);
}else{
int next=shortestPath.get(e.routeNode);
if(preShorest+e.weight<next){
shortestPath.put(e.routeNode,preShorest+e.weight);
}
}
});
}
static class InOutDegree{
Map<RouteNode,Integer> indegreeMap=new HashMap<>();//节点入度数
Map<RouteNode,Integer> outdegreeMap=new HashMap<>();//节点出度数
List<RouteNode> sourceList;
InOutDegree(List<RouteNode> routeNodeList) {
sourceList=routeNodeList;
}
//设置入度
void calcIndegree(){
indegreeMap=sourceList.stream().collect(Collectors.toMap(e->e,e->0));
for (RouteNode routeNode : sourceList) {
routeNode.routeNodeWeightList.forEach(e->{
indegreeMap.computeIfPresent(e.routeNode,(k,oldValue)->oldValue+1);
}
);
}
}
List<RouteNode> topologicSort(){
List<RouteNode> topologicSortList=new LinkedList<>();
topologicSort0(topologicSortList);
return topologicSortList;
}
//提取入度为0的,并相应地对相关节点入度-1
void topologicSort0(List<RouteNode> topologicSortList){
while(!indegreeMap.isEmpty()){
List<RouteNode> routeNodeList=indegreeMap.entrySet().stream().filter(e->e.getValue()==0).map(Map.Entry::getKey)
.collect(Collectors.toList());
routeNodeList.forEach(e->{
indegreeMap.remove(e);
for (RouteNodeWeight routeNodeWeight : e.routeNodeWeightList) {
RouteNode routeNode0=routeNodeWeight.routeNode;
indegreeMap.compute(routeNode0,(k,o)->o-1);
}
}
);
topologicSortList.addAll(routeNodeList);
}
}
//设置出度
void addOutdegree(){
for (RouteNode routeNode : sourceList) {
outdegreeMap.put(routeNode,routeNode.routeNodeWeightList.size());
}
}
}
static class RouteNode{
String nodeName;//本节点名称
List<RouteNodeWeight> routeNodeWeightList=new LinkedList<>();//可达节点和对应权重
public RouteNode(String name){
this.nodeName=name;
}
@Override
public String toString(){
return this.nodeName;
}
}
static class RouteNodeWeight{
RouteNode routeNode;
int weight;
public RouteNodeWeight(RouteNode routeNode,int weight){
this.routeNode=routeNode;
this.weight=weight;
}
}
}
