I have been working on a project that will, in short, generate a 2D matrix of numbers, with "empty" spaces are represented by 0's. Each number is connected by a list of nodes. The nodes contain the number value, the number's X and Y position, and a list of all spaces adjacent to it (its "neighbors"), with the exception of spaces diagonally adjacent to the point, due to the algorithm only allowing movements of up, down, left, and right. The issue that I am having is that, as the title would suggest, I am experiencing some stack overflow issues. I will post my code below, if anyone could help, I would be most appreciative.

```
CoordList* Puzzle::GeneratePath(CoordList* Path, int GoalX, int GoalY)
{
int CurrX;
int CurrY;
CurrX = Path->NeighborX;
CurrY = Path->NeighborY;
if(CurrX == GoalX && CurrY == GoalY)
{
return(Path);
}
else
{
int NewX;
int NewY;
double NewDistance;
int OldX;
int OldY;
double OldDistance;
CoordList* PointNeighbors = NULL;
CoordList* BestChoice = NULL;
for(int i = 0; i < NumDirections; i++)
{
CoordList* NewNeighbor = new CoordList;
NewX = CurrX + DirectsX[i];
NewY = CurrY + DirectsY[i];
if(IsPossible(NewX, NewY))
{
NewNeighbor->NeighborX = NewX;
NewNeighbor->NeighborY = NewY;
if(PointNeighbors == NULL)
{
NewNeighbor->next = NULL;
PointNeighbors = NewNeighbor;
}
else
{
NewNeighbor->next = PointNeighbors;
PointNeighbors = NewNeighbor;
}
}
//delete NewNeighbor;
}
while(PointNeighbors != NULL)
{
if(BestChoice == NULL)
{
CoordList* AChoice = new CoordList;
AChoice->next = NULL;
NewX = PointNeighbors->NeighborX;
NewY = PointNeighbors->NeighborY;
AChoice->NeighborX = NewX;
AChoice->NeighborY = NewY;
BestChoice = AChoice;
PointNeighbors = PointNeighbors->next;
//delete AChoice;
}
else
{
NewX = PointNeighbors->NeighborX;
NewY = PointNeighbors->NeighborY;
NewDistance = DetermineDistance(NewX, NewY, GoalX, GoalY);
OldX = BestChoice->NeighborX;
OldY = BestChoice->NeighborY;
OldDistance = DetermineDistance(OldX, OldY, GoalX, GoalY);
if(NewDistance < OldDistance)
{
BestChoice->NeighborX = NewX;
BestChoice->NeighborY = NewY;
}
PointNeighbors = PointNeighbors->next;
}
}
BestChoice->next = Path;
Path = BestChoice;
return(GeneratePath(Path, GoalX, GoalY));
}
}
```

I was asked to provide my determine distance function. This is just a simple implementation of the traditional Point Distance formula. Provided below.

```
double Puzzle::DetermineDistance(int OneX, int OneY, int TwoX, int TwoY)
{
int DifX;
int DifY;
double PointSum;
DifX = (TwoX - OneX);
DifY = (TwoY - OneY);
DifX = (DifX * DifX);
DifY = (DifY * DifY);
PointSum = (DifX + DifY);
return (sqrt(PointSum));
}
```

The following is the IsPossible function, which determines if an X and Y value lies within the possible grid space.

```
bool Puzzle::IsPossible(int x, int y)
{
if(x + 1 > Size - 1 || x - 1 < 0
|| y + 1 > Size - 1 || y - 1 < 0)
{
return false;
}
return true;
}
```

`DetermineDistance`

. Reply to this comment when you have. – Patashu Mar 21 '13 at 3:25