I have n*n matrix and I want to find the element from the matrix that has the minimum cost, the cost of a node meaning cost = Manhattandistance(startingnode,node) + costof(node) where starting node is a node in which perspective I am searching!

I did it just with 4 for loops and it works but I want to optimize it and I did something like a bfs: I used a queue and added first the starting node, after that in a while loop I pop ed the node from the queue and added to the queue all the elements around that node with the Manhatttan 1. I do this while the distance of the node that I just popped from the queue + the minimum price from the whole matrix (which I know from the start) is less than the minimum price that I have just found ( I compare the price of the node I just popped with min) if it's bigger I stop searching because the minimum node I found is the lowest possible value. The problem is this algorithm is to slow possibly because I use a std::queue? and it works in more time than the 4 for loops version. (I also used a flags matrix to see if the element I am inspecting when I add to the queue has been already added). The most time consuming block of code is the part I expand the node don't know why I just inspect if the element is valid I mean it's coordinates are less than n and bigger than 0 if ok I add the element to the queue!

I want to know how can I improve this or if it's another way to do it! Hope I was explicit enough.

this is the part of code that takes to long:

```
if((p1.dist + 1 + Pmin) < pretmincomp || (p1.dist + 1 + Pmin) < pretres){
std::vector<PAIR> vec;
PAIR pa;
int p1a=p1.a,p1b = p1.b,p1d = p1.dist;
if(isok(p1a+1,p1b,n)){
pa.a = p1a + 1;
pa.b = p1b;
pa.dist = p1d + 1;
vec.push_back(pa);
}
if(isok(p1a-1,p1b,n)){
pa.a = p1a - 1;
pa.b = p1b;
pa.dist = p1d + 1;
vec.push_back(pa);
}
if(isok(p1a,p1b+1,n)){
pa.a = p1a;
pa.b = p1b + 1;
pa.dist = p1d + 1;
vec.push_back(pa);
}
if(isok(p1a,p1b -1 ,n)){
pa.a = p1.a;
pa.b = p1.b - 1;
pa.dist = p1d + 1;
vec.push_back(pa);
}
for(std::vector<PAIR>::iterator it = vec.begin();
it!=vec.end(); it++){
if(flags[(*it).a][(*it).b] !=1){
devazut.push(*it);
flags[(*it).a][(*it).b] = 1;
}
}
```