//处理批量添加边的函数,边都属于一个图
//加边的同时,如果成功,要添加边的属性索引,边的属性索引是针对整个图的,而不是子图
void handler_add_edges(Replier &rep){
string graph_name=rep.get_graph_name();
list<Edge_u> &edges=rep.get_edges();
list<Edge_u>::iterator it=edges.begin();
Subgraph *sub;
uint32_t num=0;
while(it!=edges.end()){
sub=graph_set->get_subgraph(graph_name,(*it).s_id);//得到该图该顶点所在的子图,子图不存在,则会创建一个
Edge e(*it);
int res=sub->add_edge((*it).s_id,e);
if(res==0||res==1||res==-1) {
if(res==0){
//添加边属性的索引
Graph *graph=graph_set->get_graph(graph_name);
Key k((*it).blog_id);
Value v((*it).s_id,(*it).d_id);
//graph->add_edge_index(k,v);
graph_set->get_graph(graph_name)->edge_num_increment();
num++;//添加成功,记录一笔
}
edges.erase(it);
it=edges.begin();
}
else{
it++;
if(it==edges.end()){
it=edges.begin();
}
}
}
ostringstream stream_num;
stream_num<<num;
string string_num=stream_num.str();
rep.ans(STATUS_OK,string_num.c_str(),string_num.size()+1);
}
//处理批量添加边的函数,边都属于一个图
void handler_add_vertexes(Replier &rep){
string graph_name=rep.get_graph_name();
list<Vertex_u> &vertexes=rep.get_vertexes();
list<Vertex_u>::iterator it=vertexes.begin();
Subgraph *sub;
uint32_t num=0;
while(it!=vertexes.end()){
sub=graph_set->get_subgraph(graph_name,(*it).id);//得到该图该顶点所在的子图,子图不存在,则会创建一个
Vertex v(*it);
int res=sub->add_vertex(v);
if(res==0||res==1){
if(res==0){
graph_set->get_graph(graph_name)->vertex_num_increment();
num++;//添加成功,记录一笔
}
vertexes.erase(it);
it=vertexes.begin();
}
else{
it++;
if(it==vertexes.end()){
it=vertexes.begin();
}
}
}
ostringstream stream_num;
stream_num<<num;
string string_num=stream_num.str();
rep.ans(STATUS_OK,string_num.c_str(),string_num.size()+1);
}
//处理添加边的函数,如果边的源顶点不存在,则返回错误的状态,如果成功插入,则返回ok状态
//加边的同时,如果成功,要添加边的属性索引,边的属性索引是针对整个图的,而不是子图
void handler_add_edge(Replier &rep){
proto_edge_u *req_arg=(proto_edge_u*)rep.get_arg();//获取参数
Subgraph *sub=graph_set->get_subgraph(req_arg->graph_name,req_arg->edge.s_id);//得到该图该顶点所在的子图,子图不存在,则会创建一个
Edge e(req_arg->edge);
int res;
while(true){
res=sub->add_edge(req_arg->edge.s_id,e);
if(res==1){
rep.ans(STATUS_V_NOT_EXIST,"vertex not exist",strlen("vertex not exist")+1);
break;
}
if(res==0) break;
if(res==-1){
rep.ans(STATUS_E_EXIST,"edge has exist",strlen("edge has exist")+1);
break;
}
}
if(res==0){
//添加边属性的索引
Graph *graph=graph_set->get_graph(req_arg->graph_name);
Key k(req_arg->edge.blog_id);
Value v(req_arg->edge.s_id,req_arg->edge.d_id);
//graph->add_edge_index(k,v);
graph_set->get_graph(req_arg->graph_name)->edge_num_increment();
rep.ans(STATUS_OK,"ok",strlen("ok")+1);
}
}
//处理批量read边的函数,边都属于一个图
void handler_read_two_edges(Replier &rep){
string graph_name=rep.get_graph_name();
list<Two_vertex> &vertexes=rep.get_two_vertexes();
list<Two_vertex>::iterator it=vertexes.begin();
Subgraph *sub;
uint32_t num=0;
list<Edge_u> edges;
while(it!=vertexes.end()){
int res;
sub=graph_set->get_subgraph(graph_name,(*it).s_id);//得到该图该顶点所在的子图,子图不存在,则会创建一个
//sub->read_edges((*it).s_id,(*it).d_id,edges);
res=sub->read_all_edges((*it).s_id,edges);
if(res==1||res==0){
vertexes.erase(it);
it=vertexes.begin();
}
if(res==2){
it++;
if(it==vertexes.end()){
it=vertexes.begin();
}
}
}
rep.ans(STATUS_OK,edges);
}
//处理查找该子图的某个图的边数目的函数
void handler_get_edge_num(Replier &rep){
proto_graph *req_arg=(proto_graph*)rep.get_arg();
Graph *graph=graph_set->get_graph(req_arg->graph_name);
uint32_t num=graph->edge_num;
ostringstream stream_num;
stream_num<<num;
string string_num=stream_num.str();
rep.ans(STATUS_OK,string_num.c_str(),string_num.size()+1);
}
//处理查找该节点所有子图的所有顶点
void handler_read_all_vertex(Replier &rep){
proto_graph *req_arg=(proto_graph*)rep.get_arg();
Graph *graph=graph_set->get_graph(req_arg->graph_name);
list<Vertex_u> vertexes;
//遍历所有子图
unordered_map<uint32_t,Subgraph*>::iterator it;
for(it=graph->sgs.begin();it!=graph->sgs.end();it++){
it->second->read_all_vertex(vertexes);
}
rep.ans(STATUS_OK,vertexes);
}
//处理根据属性查找边的函数
void handler_read_edge_index(Replier &rep){
proto_blog_id *req_arg=(proto_blog_id*)rep.get_arg();
list<Edge_u> edges;//存储返回的结果
Key k(req_arg->blog_id);
Graph *graph=graph_set->get_graph(req_arg->graph_name);
list<Value> vs;
unordered_map<int,unordered_map<int,int>*> repeated;//这个map用来查重,重复的两个顶点就不用再找边了
unordered_map<int,unordered_map<int,int>*>::iterator it_out;
unordered_map<int,int>::iterator it_in;
list<Value>::iterator it;
graph->get_edge_index(k,vs);
for(it=vs.begin();it!=vs.end();it++){
v_type s_id=(*it).s_id;
v_type d_id=(*it).d_id;
//查看
it_out=repeated.find(s_id);
int flag;//0代表没有重复,1代表重复
if(it_out==repeated.end()){
unordered_map<int,int>*tmp=new unordered_map<int,int>();
(*tmp)[d_id]=1;
repeated[s_id]=tmp;
flag=0;
}else{
unordered_map<int,int>*tmp=it_out->second;
if(tmp->find(d_id)==tmp->end()){
flag=0;
(*tmp)[d_id]=1;
}else{
flag=1;
}
}
if(flag==0){
//顶点没有重复的时候就去查找边
Subgraph *sub=graph_set->get_subgraph(req_arg->graph_name,s_id);
int res;
while(true){
res=sub->read_edges(s_id,d_id,req_arg->blog_id,edges);
if(res==1||res==0){
break;
}
}
}
}
//释放内存
for(it_out=repeated.begin();it_out!=repeated.end();it_out++)
delete it_out->second;
rep.ans(STATUS_OK,edges);
}
//读取顶点的所有边,如果边的源顶点不存在,则返回错误的状态,如果成功插入,则返回ok状态
void handler_read_edges(Replier &rep){
proto_graph_vertex *req_arg=(proto_graph_vertex*)rep.get_arg();
Subgraph *sub=graph_set->get_subgraph(req_arg->graph_name,req_arg->vertex_id);//得到该图该顶点所在的子图,子图不存在,则会创建一个
list<Edge_u> edges;
int res;
while(true){
res=sub->read_all_edges(req_arg->vertex_id,edges);
if(res==1){
rep.ans(STATUS_V_NOT_EXIST,"vertex not exist",strlen("vertex not exist")+1);
break;
}
if(res==0) break;
}
if(res==0){
rep.ans(STATUS_OK,edges);
}
}
//处理添加顶点的函数,只要客户端把顶点的请求发过来了,说明该顶点就属于该slave节点了,这是一个异步的过程
void handler_add_vertex(Replier &rep){
proto_graph_vertex_u *req_arg=(proto_graph_vertex_u*)rep.get_arg();//获取参数
Subgraph *sub=graph_set->get_subgraph(req_arg->graph_name,req_arg->vertex.id);//得到该图该顶点所在的子图,子图不存在,则会创建一个
Vertex v(req_arg->vertex);
int res;
while(true){
res=sub->add_vertex(v);
if(res==1){
rep.ans(STATUS_V_EXIST,"vertex exist",strlen("vertex exist")+1);
break;
}
if(res==0) break;
}
if(res==0){
graph_set->get_graph(req_arg->graph_name)->vertex_num_increment();
rep.ans(STATUS_OK,"ok",strlen("ok")+1);
}
}
//读取顶点,如果顶点不存在,则返回错误的状态,如果存在,则返回ok状态和顶点的信息
void handler_read_vertex(Replier &rep){
proto_graph_vertex *req_arg=(proto_graph_vertex*)rep.get_arg();
Subgraph *sub=graph_set->get_subgraph(req_arg->graph_name,req_arg->vertex_id);//得到该图该顶点所在的子图,子图不存在,则会创建一个
Vertex_u v;
uint32_t num;
while(true){
int res=sub->read_vertex(req_arg->vertex_id,v,&num);
if(res==1){
rep.ans(STATUS_V_NOT_EXIST,"vertex not exist",strlen("vertex not exist")+1);
break;
}
if(res==0){
proto_vertex_num mes;
mes.vertex=v;
mes.num=num;
rep.ans(STATUS_OK,&mes,sizeof(proto_vertex_num));
break;
}
}
}
void handler_create_graph(Replier& rep){
proto_create_graph *rep_arg=(proto_create_graph)rep.get_arg();
}
