# How to iterate through a rotated grid

I would like to be able to iterate through the grid elements with a set step size. The fun part of this problem is that the grid will be rotated. I have developed an algorithm to do this and it is successful for some cases. The image below specifies the problem:

The conditions of the problem are that a grid spacing will be provided that is a factor of the grid length and width (As a side note the grid can be rectangular). The Algorithm must iterate through the grid and print out where it is. Here is some code and an example of it working:

``````int main() {
vector< vector<double> > bound;
vector<double> point;
point.push_back(0);
point.push_back(4);

bound.push_back(point);
point[0] = 6; point[1] = 10;
bound.push_back(point);
point[0] = 4; point[1] = 0;
bound.push_back(point);
point[0] = 10; point[1] = 6;
bound.push_back(point);

double d = 0.5;
double x, y;
int countx = 0, county = 0;
for (double i = bound[0][0]; i < bound[2][0]; i+=d) {
//std::cout << "I: " << i << std::endl;
for (double j = bound[0][1]; j < bound[1][1]; j+=d) {
//std::cout << "J: " << j << std::endl;
x = i+d+(double)county*d;
y = j-(double)countx*d;
++county;
std::cout << "i, j, x and y: " << i << "\t" << j << "\t" << x << "\t" << y << std::endl;
}
std::cout << "new Row--------------------\n";
++countx;
county = 0;
}
}
``````

The code above works and prints correctly the grid elements, ie:

``````x and y: 4, 0.5
x and y: 4.5, 1
etc.
``````

However when trying a rectangle with bounds:

``````[(0.5, 6), (3, 8.5), (5.5, 1), (8, 3.5)]
``````

and a step size (d) of 1

It iterates to outside the rectangle bounds. I can see why this is happening, the iterator condition in the for loop will not contain it because of the extra +d.

My question is, is there a better way to approach this problem and how would i go about it?

Does anyone know if this has been implemented before and has some source code?

Cheers for the help.

Ben

-
Are all the points on the grid at integer values or do you need to use `double` values here? Have you considered modelling this as a x-y grid of integer values that is rotated and transformed. You could use a matrix to describe the transformation that the grid is in and then do your calculations pushing the 2d vector through the transformation matrix before printing it's value. – Will Apr 30 '12 at 7:24
Hi, thanks for the advice i am considering that. Also is this question really not worth any up votes? I thought i made it quite detailed and provided a reasonably intriguing question? – Ben Apr 30 '12 at 22:45