Raffaele

this.weight += Math.abs(weigh);

Just one last thing: I updated the gist because of a bug in the Pixel.addWeightedColor method: the weight should be taken without sign!

;)

If it works don't forget to upvote and accept

Good bye!

That's ok. I wrote that to be as easy as possible to read. Feel free to make your adjustments

public Image toJavaFxImage() {
  // ... setup here
  forEachElement((m, col, row) -> {
    writer.setArgb(col, row, m.at(col, row));
  });
}

Just add a method to my own Image that returns a javafx.image by iterating through the matrix

BTW, you don't need to bridge between BufferedImage and javafx.Image

That's ok

Or otherwise dump the BufferedImage to a ByteArrayOutputStream and then create a JavaFX image by reading that byte stream

Use a SwingNode to wrap the BufferedImage

No probl

In your case it just appeared to make something useful because of the particular input you fed into it

So it's clear it won't work for images

If you run it against a 200x200 or a 100000x50 image, it computes the very same neighbours

Again, that algo is broken for images processing because doesn't take widths into account

And try different convolution matrices

Try it on a non-greyscale image

I think your output work by accident :P

it's just laid out differently in memory. For example in java int[][] means an array of references

It's just that once you have both a vector and the width (the length is implicit in Java) it exactly the same thing as a 2D array

Well, if you look at my code on github, actually simple array (vectors) are used

To process what kind of signal?

It's just that you don't have two vectors in your problem, but two matrices, so it doesn't work

I'd say the way Marco13 suggested in his answer

I updated my answer and put a fully functional program at gist.github.com/RaffaeleSgarro/90143c942847a1dd08fa

Just saw your images. How has been output2 made? I mean, you wrote vector convolution

Let me know if it doesn't work. Now I'm gonna go to the gym :) Later I can continue working on it

Try with the following gist gist.github.com/RaffaeleSgarro/90143c942847a1dd08fa

Hi

thanks :)

In fact the accepted answer seemed so strange to me....

Ok :) I should have kept the code...

It was not concise, though. I'll try to keep it short and not OO, but will be a mess of indices...

By the way, I already wrote the code for you when I was writing the answer to your other question, but I trashed it because it already got an answer

Ok :)

Obviously the resulting pixel may be well over max...

I mean, the pixelIn has a range [min, max]

Ok. Just give me some minutes. You don't need no cap on the pixel out for now, right?

how do you compute the resulting pixel?

Ok. Can you just tell me one more thing

And then you want an int[], size N x M

Ok

Ok, that's clear at this point :)

- then you have a filter, which is a square matrix 3x3 or 5x5 (or 7x7...), whose elements are int as well

- you have an image, which is a matrix N x M whose elements are int. Is it ok?

So tell me if this is right

your problem is perfectly clear to me

In the RGB representation, each color component ranges 0 - 255 (0x00- 0xFF), and grey is simply a color with the same amount of red green and blue. Anyway, it doesn't matter for now. Let's try to fix some points