Submission #653757

#TimeUsernameProblemLanguageResultExecution timeMemory
653757coderInTrainingCommuter Pass (JOI18_commuter_pass)Java
Compilation error
0 ms0 KiB
import java.util.*; public class Main { public static void main (String[]args) { Scanner scan = new Scanner (System.in); int nodeNumber = scan.nextInt(); int edgeNumber = scan.nextInt(); int startNode = scan.nextInt() - 1; int endNode = scan.nextInt() - 1; int bookStoreOne = scan.nextInt() - 1; int bookStoreTwo = scan.nextInt() - 1; Hashtable <Integer, ArrayList<Pair>> weightedGraph = new Hashtable <Integer, ArrayList<Pair>>(); for (int i = 0; i < nodeNumber; i++) { weightedGraph.put(i, new ArrayList<Pair>()); } for (int i = 0; i < edgeNumber; i++) { int firstNode = scan.nextInt() - 1; int secondNode = scan.nextInt() - 1; long edgeCost = scan.nextLong(); ArrayList<Pair> temp = weightedGraph.get(firstNode); temp.add(new Pair(secondNode, edgeCost)); weightedGraph.put(firstNode, temp); ArrayList<Pair> tempTwo = weightedGraph.get(secondNode); tempTwo.add(new Pair(firstNode, edgeCost)); weightedGraph.put(secondNode, tempTwo); } long [] storeOneDistances = dijkstra(bookStoreOne, weightedGraph); long [] storeTwoDistances = dijkstra(bookStoreTwo, weightedGraph); long [] startDistances = dijkstra(startNode, weightedGraph); long initialValue = storeOneDistances[bookStoreTwo]; /* * */ long [][][] dp = new long [nodeNumber][2][2]; for (int i = 0; i < nodeNumber; i++) { for (int j = 0; j < 2; j++) { Arrays.fill(dp[i][j], Long.MAX_VALUE); } } dp[startNode][0][0] = 0; PriorityQueue <pqQuad> pq = new PriorityQueue <pqQuad>(); pq.add(new pqQuad(startNode, 0, 0, 0)); while (pq.isEmpty() == false) { pqQuad curQuad = pq.poll(); int curNode = curQuad.node; int firstStage = curQuad.firstStage; int secondStage = curQuad.secondStage; long distance = curQuad.distanceFromStart; if (distance != dp[curNode][firstStage][secondStage]) { continue; } ArrayList<Pair> neighbors = weightedGraph.get(curNode); for (int i = 0; i < neighbors.size(); i++) { int neighborNode = neighbors.get(i).secondNode; long edgeCost = neighbors.get(i).edgeCost; // Connect to the start node if (dp[curNode][1][secondStage] > dp[curNode][firstStage][secondStage] + storeOneDistances[curNode]) { dp[curNode][1][secondStage] = dp[curNode][firstStage][secondStage] + storeOneDistances[curNode]; pq.add(new pqQuad(curNode, 1, secondStage, dp[curNode][1][secondStage])); } // Connect to the end node if (dp[curNode][firstStage][1] > dp[curNode][firstStage][secondStage] + storeTwoDistances[curNode]) { dp[curNode][firstStage][1] = dp[curNode][firstStage][secondStage] + storeTwoDistances[curNode]; pq.add(new pqQuad(curNode, firstStage, 1, dp[curNode][firstStage][1])); } // Move to the neighbor node if (dp[neighborNode][firstStage][secondStage] > dp[curNode][firstStage][secondStage] && startDistances[curNode] + edgeCost == startDistances[neighborNode]) { dp[neighborNode][firstStage][secondStage] = dp[curNode][firstStage][secondStage]; pq.add(new pqQuad(neighborNode, firstStage, secondStage, dp[neighborNode][firstStage][secondStage])); } } } System.out.println(Math.min(storeOneDistances[bookStoreTwo], dp[endNode][1][1])); } private static class pqQuad implements Comparable<pqQuad> { int node; int firstStage; int secondStage; long distanceFromStart; public pqQuad (int node, int firstStage, int secondStage, long distanceFromStart) { this.node = node; this.firstStage = firstStage; this.secondStage = secondStage; this.distanceFromStart = distanceFromStart; } public int compareTo (pqQuad p) { if (distanceFromStart < p.distanceFromStart) { return (-1); } return (1); } } public static long[] dijkstra (int startNode, Hashtable <Integer, ArrayList<Pair>> weightedGraph) { int nodeNumber = weightedGraph.size(); long [] distances = new long [nodeNumber]; Arrays.fill(distances, Long.MAX_VALUE); distances[startNode] = 0; PriorityQueue <pqPair> pq = new PriorityQueue <pqPair>(); pq.add(new pqPair(startNode, 0)); while (pq.isEmpty() == false) { pqPair curPair = pq.poll(); int curNode = curPair.node; ArrayList<Pair> temp = weightedGraph.get(curNode); for (int i = 0; i < temp.size(); i++) { int neighborNode = temp.get(i).secondNode; long edgeCost = temp.get(i).edgeCost; if (distances[neighborNode] > distances[curNode] + edgeCost) { distances[neighborNode] = distances[curNode] + edgeCost; pq.add(new pqPair(neighborNode, distances[neighborNode])); } } } return (distances); } private static class pqPair implements Comparable<pqPair> { int node; long distanceFromStart; public pqPair (int node, long distanceFromStart) { this.node = node; this.distanceFromStart = distanceFromStart; } public int compareTo (pqPair p) { if (distanceFromStart < p.distanceFromStart) { return (-1); } return (1); } } private static class Pair { int secondNode; long edgeCost; public Pair (int secondNode, long edgeCost) { this.secondNode = secondNode; this.edgeCost = edgeCost; } } }

Compilation message (stderr)

commuter_pass.java:3: error: class Main is public, should be declared in a file named Main.java
public class Main {
       ^
1 error