单用Dijstra算法比较难维护。用Dijstra+DFS能简化不少。
看到有小伙伴例7有问题,可以看下是不是Dijstra的算法在计算路径的时候出问题没。我的就是下标u和i弄混了。查了好久。。。。。
#include <iostream>#include <vector>#include <string>#include <climits>#include <stack>using namespace std;struct Node { int length; int Num;};struct Grap { int bIkeNum; vector <Node> link;};void Dijkstra(Grap * g, int * dis ,vector<int> * PRe ,int N,bool * isvisit ) { dis[0] = 0; for (int i = 0; i < N; i++) { int u = -1, Min = INT_MAX; for (int j = 0; j < N; j++) { //找Dis最小值 if (!isvisit[j] && dis[j] < Min) { u = j; Min = dis[j]; } } if (u == -1) return; isvisit[u] = true; for (int j = 0; j < g[u].link.size(); j++) { int v = g[u].link[j].Num; if (!isvisit[v]) { if (dis[u] + g[u].link[j].length < dis[v]) {//u是中间结点 pre[v].clear(); pre[v].push_back(u); dis[v] = dis[u] + g[u].link[j].length; } else if (dis[u] + g[i].link[j].length == dis[v]) { pre[v].push_back(u); } } } }}void DFS(vector <int> * pre, vector <int> & patch, vector <int> & tempatch, Grap * g, int & BikeNeed, int & BikeReturn, int v, int Cmax) { //cout << " v = " << v << endl; int perfect = Cmax / 2; if (v == 0) { tempatch.push_back(v); int bn = 0, br = 0; //计算大小 //cout << "size: " << tempatch.size() << endl; for (int i = tempatch.size() - 1; i >= 0; i--) { int b = g[tempatch[i]].bIkeNum; if (b > perfect) {//大于perfect需要带走 br += b - perfect; } else if (b < perfect){ //补齐 br -= (perfect - b); // cout << "br : " << br << endl; if (br < 0) {//不够补齐 要从中心调 bn += (-br); br = 0; } } } //判断 if (bn < BikeNeed) { BikeNeed = bn; BikeReturn = br; patch = tempatch; } else if (bn == BikeNeed && br < BikeReturn) { BikeNeed = bn; BikeReturn = br; patch = tempatch; } tempatch.pop_back(); return; } tempatch.push_back(v); for (int i = 0; i < pre[v].size(); i++) { DFS(pre, patch, tempatch, g, BikeNeed, BikeReturn, pre[v][i], Cmax); } tempatch.pop_back();}int main() { int Cmax, N, SP, M; //Cmax最大容量,N站总数,SP问题站编号,M道路总数 cin >> Cmax >> N >> SP >> M; Grap * g = new Grap[N + 1]; stack <int> s; for (int i = 1; i <= N; i++) { cin >> g[i].bIkeNum; } g[0].bIkeNum = Cmax / 2; Node tempNode; int tempHead, tempTail; for (int i = 0; i < M; i++) { cin >> tempHead >> tempTail >> tempNode.length; tempNode.Num = tempTail; g[tempHead].link.push_back(tempNode); //cout << tempHead << " " << tempNode.Num << " " << tempNode.length << endl; tempNode.Num = tempHead; g[tempTail].link.push_back(tempNode); //cout << tempTail << " " << tempNode.Num << " " << tempNode.length << endl; }// int MinLegnth = INT_MAX; bool * isVisit = new bool[N + 1]; int * dis = new int[N + 1]; vector <int> * pre = new vector<int>[N + 1]; for (int i = 0; i <= N; i++) { dis[i] = INT_MAX; isVisit[i] = false; } Dijkstra(g, dis, pre, N + 1, isVisit); int BikeNeed = INT_MAX, BikeReturn = INT_MAX; vector <int> patch, tempatch; DFS(pre, patch, tempatch, g, BikeNeed, BikeReturn, SP, Cmax); cout << BikeNeed << " "; for (int i = patch.size() - 1; i > 0; i--) { cout << patch[i] << "->"; } cout << patch[0] << " "; cout << BikeReturn << endl; system("pause"); return 0;}
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