You can reduce the amount of nested ifs by using `continue`

. Generally speaking, the following two code blocks are equivalent:

```
while(conditionA){
if(conditionB){
doStuff();
}
}
while(conditionA){
if (!conditionB){continue;}
doStuff();
}
```

We can use this principle to reduce the amount of nested ifs in your code.

```
void AStarImpl::FindAdjacent(Node* pNode)
{
for (int i = -1; i <= 1; i++)
{
for (int j = -1; j <= 1; j++)
{
if (pNode->mX == Map::GetInstance()->mMap[pNode->mX + i][pNode->mY + j].mX && pNode->mY == Map::GetInstance()->mMap[pNode->mX + i][pNode->mY + j].mY){continue;}
if (pNode->mX + i > 14 || pNode->mY + j > 14){continue;}
if (pNode->mX + i < 0 || pNode->mY + j < 0){continue;}
if (Map::GetInstance()->mMap[pNode->mX + i][pNode->mY + j].mTypeID == NODE_TYPE_SOLID){continue;}
if (find(mOpenList.begin(), mOpenList.end(), &Map::GetInstance()->mMap[pNode->mX + i][pNode->mY + j]) != mOpenList.end()){continue;}
Map::GetInstance()->mMap[pNode->mX+i][pNode->mY+j].mParent = &Map::GetInstance()->mMap[pNode->mX][pNode->mY];
mOpenList.push_back(&Map::GetInstance()->mMap[pNode->mX+i][pNode->mY+j]);
}
}
mClosedList.push_back(&Map::GetInstance()->mMap[pNode->mX][pNode->mY]);
}
```

If I understand your first `if`

condition correctly, you're just trying to assert that pNode is not its own neighbor. In which case you can change the code to:

```
void AStarImpl::FindAdjacent(Node* pNode)
{
for (int i = -1; i <= 1; i++)
{
for (int j = -1; j <= 1; j++)
{
if (i == 0 && j == 0){continue;}
if (pNode->mX + i > 14 || pNode->mY + j > 14){continue;}
if (pNode->mX + i < 0 || pNode->mY + j < 0){continue;}
if (Map::GetInstance()->mMap[pNode->mX + i][pNode->mY + j].mTypeID == NODE_TYPE_SOLID){continue;}
if (find(mOpenList.begin(), mOpenList.end(), &Map::GetInstance()->mMap[pNode->mX + i][pNode->mY + j]) != mOpenList.end()){continue;}
Map::GetInstance()->mMap[pNode->mX+i][pNode->mY+j].mParent = &Map::GetInstance()->mMap[pNode->mX][pNode->mY];
mOpenList.push_back(&Map::GetInstance()->mMap[pNode->mX+i][pNode->mY+j]);
}
}
mClosedList.push_back(&Map::GetInstance()->mMap[pNode->mX][pNode->mY]);
}
```

Ideally, your FindAdjacent method should not have to modify the open or closed sets at all. instead, make it return all neighbors, regardless of whether they are open or closed. If you want to add these neighbors to the opened or closed set, or check that they are a member of those sets, that should be done in the method that actually implements the aStar algorithm.

```
Vector<Node> AStarImpl:FindAdjacent(Node* pNode)
{
Vector<Node> neighbors;
for (int i = -1; i <= 1; i++)
{
for (int j = -1; j <= 1; j++)
{
if (i == 0 && j == 0){continue;}
if (pNode->mX + i > 14 || pNode->mY + j > 14){continue;}
if (pNode->mX + i < 0 || pNode->mY + j < 0){continue;}
if (Map::GetInstance()->mMap[pNode->mX + i][pNode->mY + j].mTypeID == NODE_TYPE_SOLID){continue;}
neighbors.push_back(Map::GetInstance()->mMap[pNode->mX+i][pNode->mY+j]);
}
}
return neighbors;
}
```

You perform some of the same operations multiple times. You can make your intentions more clear by storing the results of those operations in variables. Doing this won't make your code any shorter, but it might make it more readable.

```
Vector<Node> AStarImpl:FindAdjacent(Node* pNode)
{
Vector<Node> neighbors;
for (int i = -1; i <= 1; i++)
{
for (int j = -1; j <= 1; j++)
{
if (i == 0 && j == 0){continue;}
int x = pNode->mX + i;
int y = pNode->mY + j;
if (x > 14 || y > 14){continue;}
if (x < 0 || y < 0){continue;}
Node candidate = Map::GetInstance()->mMap[x][y];
if (candidate.mTypeID == NODE_TYPE_SOLID){continue;}
neighbors.push_back(candidate);
}
}
return neighbors;
}
```

`Map::GetInstance()->mMap[pNode->mX + i][pNode->mY + j]`

in a local`Node`

instance in the loop! It would be very handy if you could provide a simple, self-contained and compilable example of your code exhibiting a failure mode. – Rook Jun 28 '12 at 15:13`.parent`

member at all. – Kevin Jun 28 '12 at 15:30