Circular sliding window over 2 dimensional array algorithm

This question solves half of my problem because my sliding window can move outside the table, e.g. for 3x3 window, two columns of the window can be on the left end of the table and one column will be on the right end. These images show window moving to the left

I need algorithm for this sliding window, sliding window in the mentioned question doesn't move outside the table.

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Can persons who down voted my question tell me why they did this, please? –  robert_d Feb 15 '12 at 23:56
I disagree with you Henk, circular sliding window is a separate problem/question. –  robert_d Feb 16 '12 at 0:38
So Stackoverflow "helpers" removed their comments, because, I presume, now this question is precise. Can you remove your down votes too, so other persons can find this solution, please? –  robert_d Feb 16 '12 at 22:07

You can use the modulo operation (`%`) in order to confine the indexes.

``````Size arraySize = new Size(20, 15);
Size windowSize = new Size(3, 3);

double[,] array = new double[arraySize.Width, arraySize.Height];

// Set the location of the window
Point windowLocation = new Point(18, 14);

for (int x = 0; x < windowSize.Width; x++) {
for (int y = 0; y < windowSize.Height; y++) {
DoSomethingWith(array[(windowLocation.X + x) % arraySize.Width,
(windowLocation.Y + y) % arraySize.Height]);
}
}
``````
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Thanks Olivier for the solution. There is one bug in your code, modulo should be done with array size not window size. –  robert_d Feb 17 '12 at 0:10
@robert_d: Thank you for the hint, of course, you are right. Fixed it. –  Olivier Jacot-Descombes Feb 17 '12 at 14:27

I would create an adapter around your 2D object, which intercepts requested window position, consults the underlying 2D object, and returns an appropriately constructed result. This way you may use any underlying implementation (like the one you linked to) and get the desired result.

Think in terms of the following pseudo-code:

``````View getView(int leftX, int topY) {
if (leftX >= 0 and
topY >= 0 and
leftX <= underlying.width() - viewWidth and
topX <= underlying.height() - viewHeight)
{
return underlying.getView(leftX, topY);
}
// else make your own view and populate it
View view = new View()
for (int i = 0; i < viewWidth; ++i)
for (int j = 0; j < viewHeight; ++j)
view.set(i, j) = underlying.get((leftX + i) % underlying.width(), (topY + j) % underlying.height())
}
``````

If you end up using this code, make sure that negative indices modulo something gives a positive result. If not, use `viewWidth - negative_modulo` to get the right index.

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Can you be more specific please? –  robert_d Feb 15 '12 at 23:58
I can't be more specific than this without writing the complete solution for you... Basically, `underlying` is the "underlying" implementation that implements sliding window without being circular. So you use that implementation directly if you can (location of window doesn't need to be wrapped), otherwise, you make your own view and populate it "manually" with "wrapped" data. `View` implements the "window" concept. –  Irfy Feb 16 '12 at 0:00
Thanks for the code Irfy –  robert_d Feb 16 '12 at 0:25
I just threw down some simple, working Python code that demonstrates the principle. It's not C#, but Python reads very well as pseudo-code. And if you can run it, it'll work. See if it helps further. –  Irfy Feb 17 '12 at 0:53