大数据量处理dijkstra

#include <iostream> #include <fstream> #include <hash_map> #include <string> #include <stdlib.h> #include <queue> using namespace std; using namespace stdext; struct DisNode{ int node; double cost; DisNode *next; }; struct OriNode{ int node; int edgeNum; DisNode *first; }; double INFINIT = 99999999; int NODE_NUM; int main() { cout<<"test begin"<<endl; const char* AListFile = "AdjacencyList.txt"; const char* LCostFile = "LinkCost.txt"; const int MIN = 800000000; NODE_NUM = 0; hash_map<int,double> LCostHash; hash_map<int,OriNode*> NodeHash; ifstream if_AList; ifstream if_LCost; if_AList.open(AListFile); if_LCost.open(LCostFile); if(if_AList.is_open()&&if_LCost.is_open()) { cout<<"file is opened"<<endl;   int Lid = 0; double cost = 0.000; char line[30]; //save cost while(!if_LCost.eof()) { if_LCost.getline(line,30); char* str = strstr(line,","); // cout<<str<<endl; int size = str - line; char LidC[10]; strncpy(LidC,line,size); LidC[size] = '/0'; char*CostC = str +1; Lid = atoi(LidC); cost = atof(CostC); cout<<Lid<<"  "<<cost<<endl; LCostHash[Lid] = cost; } //save cost cout<<"hashtable is saved"<<endl; //save node info   while(!if_AList.eof()) { NODE_NUM ++; int node; int edgeNum; OriNode* orinode = (OriNode *)malloc(sizeof(OriNode)); if_AList>>node; if_AList>>edgeNum; orinode->node = node; orinode->edgeNum = edgeNum; DisNode *disnodeTemp = (DisNode *)malloc(sizeof(DisNode)) ; int dis_node; if_AList>>dis_node; disnodeTemp->node = dis_node; int cid; if_AList>>cid; disnodeTemp->cost = LCostHash[cid]; orinode->first = disnodeTemp; cout <<orinode->node<<"  "<<orinode->edgeNum<<"  "; for (int j = 1; j < orinode->edgeNum; j++) { DisNode *disnode = (DisNode *)malloc(sizeof(DisNode)); if_AList>>disnode->node; cout <<disnode->node<<"  "; int cid; if_AList>>cid; disnode->cost = LCostHash[cid]; disnodeTemp->next = disnode; disnodeTemp = disnode; } NodeHash[orinode->node] = orinode; cout<<endl; } //save node info //测试保存结果 cout<<LCostHash[2]<<endl; cout<<((OriNode*)NodeHash[3])->node<<endl; //测试保存结果 if_AList.close(); if_LCost.close(); } //dijkstra int oriID; int desID; cout<<"Please enter the original node id: "; cin>>oriID; cout<<endl; cout<<"Please enter the destination node id: "; cin>>desID; cout<<endl; cout<<"wait..."<<endl; queue<int> QNode; hash_map<int,double> QCostHash; for (int n = 0; n < 1000; n++) { QCostHash[n] = INFINIT; } QCostHash[oriID] = 0; QNode.push(oriID); while(!QNode.empty()) { int uNode = QNode.front(); QNode.pop(); if(uNode == desID) { break; } OriNode * uOriNode = (OriNode*)NodeHash[uNode]; DisNode* uDisNode = uOriNode->first; for (int m = 0; m < uOriNode->edgeNum; m++) { int alt = QCostHash[uNode] + uDisNode->cost; if(alt < QCostHash[uDisNode->node]) { QCostHash[uDisNode->node] = alt; } QNode.push(uDisNode->node); uDisNode = uDisNode->next; } } cout<<"The result is :"<<QCostHash[desID]<<endl;   //dijkstra int test; cin>>test; return 0; }
posted @ 2012-07-16 17:22  adodo1  Views(217)  Comments(0Edit  收藏  举报