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I have to find all tiles that intersected by line segment but Bresenham's line algorithm doesnt fit to my requirements. I need to find all cells. I dont need to know intersection points, only the fact of intersection. Thanks for help.

I thought to find direction vector of line and step by step find cells by division on tile size. But i dont know how to select correct step size. 1 px step is bad i think.

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What do you mean by doesn't fit into my requirements? In what way does it not fit? – Ivaylo Strandjev Apr 27 '12 at 12:03
    
It will not find all cells only that fir into delta parameter. Look at wikipedia's example image. – Denis Ermolin Apr 27 '12 at 12:04
up vote 6 down vote accepted

Here is article of Amanatides and Woo "A Fast Voxel Traversal Algorithm for Ray Tracing" for 2D and 3D cases. Practical implementation.

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You might use one of the many line equations found at: http://www.cut-the-knot.org/Curriculum/Calculus/StraightLine.shtml or http://mathworld.wolfram.com/Line.html

Supposedly you have your line in your coordinate system going through two points you deduce the y=mx+n equation and just match against your tiles and see if they intersect while moving x in the unit of your coordinate system in any direction you prefer from the smallest x of your tiles till the biggest. If your coordinate system is the screen, 1 pixel should be enough.

This is the closes I can hint right know without knowing more about the exact nature of the problem you are facing.

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What means "match against your tiles"? I need algorithm for exactly this operation. – Denis Ermolin Apr 27 '12 at 12:59
    
what geometrical shape are your tiles? – fritzone Apr 27 '12 at 13:01
    
I have square grid – Denis Ermolin Apr 27 '12 at 13:29

It is easy to modify the Bresenham's algorithm such that it tracks what you need. Here's the relevant fragment of the algorithm:

plot(x,y);
error = error + deltaerr;
if (error >= 0.5)
{
    y = y + ystep;
    error = error - 1.0;
}

To keep track of all the cells we need another variable. Note tat I have not rigorously checked this.

plot(x,y);
olderror = error.
error = error + deltaerr;
if (error >= 0.5)
{
    y = y + ystep;
    error = error - 1.0;
    extra = error+olderror;

    if (extra > 0)
    {
      plot (x,y); /* not plot (x-1,y); */
    }
    else if (extra < 0)
    {
      plot (x+1,y-1); /* not plot (x+1,y); */
    }
    esle
    {
      // the line goes right through the cell corner
      // either do nothing, or do both plot (x-1,y) and plot (x+1,y)
      // depending on your definition of intersection           
    }
}
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I'll try it later i will report about results – Denis Ermolin Apr 27 '12 at 15:55
    
There's an error in plot (x-1,y) and plot (x+1,y). The coordinates are wrong. It should be plot (x,y) and plot (x+1,y-1). I have updated the code. – n.m. Apr 27 '12 at 16:07
    
Also, if steep lines are handled, plot(x,y) becomes if (steep) plot(y,x); else plot(x,y);, and other plot calls change similarly (like in the second listing in the wikipedia article). ` – n.m. Apr 27 '12 at 16:15

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