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I am making a program in Visual Studio C# that can detect a color, then find the x, y coordinate of that pixel with that color. I have done research, but all I can find is you already give the coordinate, and it senses the color, that's not what I want though, I want to give the color, and it finds the coordinate. Anyone know how to do this? Thanks

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How are you going to give the color RGB or Just a color Blue ? –  Micah Armantrout May 8 '12 at 1:53
Most likely RGB, but I'm not really sure what the function for this... that's what I'm asking for. –  Pugmatt May 8 '12 at 1:57
Where would you find that information? You should obviously loop through all x's and y's, testing whether they are in the color you seek. –  Yorye Nathan May 8 '12 at 2:04

4 Answers 4

You can feed the image to a Bitmap object and then call the getPixel(x, y) method to get a pixel at a specific point. Since a Bitmap object has the dimensions of the image, you can iterate over every pixel (YIKES!), testing for a match with desired color. getPixel() returns a Color object, which you can work with. Here's something I worked up super fast. pictureBox1 is a PictureBox element on my form.

Bitmap b = new Bitmap(pictureBox1.Image);
Color c = b.GetPixel(0,0);

Remember, though, that the search for the matching pixel is worse case O(n) where n is the number of pixels in the image. For small and maybe medium-sized pictures this isn't too bad, but for huge images, you might notice your program hang.

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For performance, you might try to break up the search into multiple segments and search through the smaller segments. –  Reddog May 8 '12 at 2:04

You can do what @kevin628 said, but add a for statements, so it would search every pixel like this:

    private void GetPixels()
        Bitmap b = new Bitmap(pictureBox1.Image);

        List<Color> colorList = new List<Color>


        for (int y = 0; y < b.Height; y++)
            for (int x = 0; x < b.Width; x++)
                colorList.Add(b.GetPixel(x, y));

Then using this image, you get something like this(not the whole this as it is ~50000 lines):

Color [A=255, R=247, G=240, B=136]
Color [A=255, R=252, G=247, B=155]
Color [A=255, R=242, G=238, B=164]
Color [A=255, R=79, G=124, B=103]
Color [A=255, R=79, G=124, B=103]
Color [A=255, R=0, G=42, B=17]
Color [A=255, R=16, G=104, B=90]
Color [A=255, R=15, G=114, B=109]
Color [A=255, R=33, G=125, B=124]
Color [A=255, R=11, G=83, B=80]
Color [A=255, R=36, G=72, B=68]
Color [A=255, R=151, G=156, B=150]
Color [A=255, R=90, G=70, B=59]
Color [A=255, R=147, G=109, B=88]
Color [A=255, R=252, G=204, B=164]
Color [A=255, R=220, G=175, B=134]
Color [A=255, R=219, G=187, B=162]
Color [A=255, R=126, G=104, B=91]
Color [A=255, R=108, G=94, B=93]
Color [A=255, R=241, G=235, B=239]
Color [A=255, R=139, G=137, B=142]
Color [A=255, R=83, G=92, B=101]
Color [A=255, R=146, G=172, B=187]
Color [A=255, R=17, G=62, B=85]
Color [A=255, R=40, G=106, B=138]
Color [A=255, R=33, G=116, B=146]
Color [A=255, R=5, G=96, B=117]
Color [A=255, R=0, G=79, B=84]
Color [A=255, R=6, G=94, B=80]
Color [A=255, R=27, G=114, B=98]
Color [A=255, R=40, G=130, B=131]
Color [A=255, R=19, G=116, B=125]
Color [A=255, R=21, G=128, B=134]
Color [A=255, R=5, G=119, B=120]
Color [A=255, R=8, G=120, B=121]
Color [A=255, R=11, G=107, B=105]
Color [A=255, R=46, G=113, B=106]
Color [A=255, R=21, G=70, B=49]
Color [A=255, R=45, G=123, B=99]

Then to test for a color, just do something like:

for (int i = 0; i < colorList.Count; i++)
    Color c = Color.Black;

    if (c == colorList[i])
        //do something
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1) Load up your texture as array of bytes. For example, if your texture is 2x2 size, it should look something like: 000111222333 Where: 000 - RGB at (0,0) 111 - RGB at (1,0) 222 - RGB at (0,1) 333 - RGB at (1,1) 000 or 111 means it has 3 bytes, where each byte is red,or green, or blue. Once you done that, you can loop through all x and y, and check if color at current position matches your searched color.

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You could use the method you've already found for this. Check every pixel at every coordinate to find a color that is equal to the color that was input by the user. Start at 0, 0. Then increment the X value until it is at the end of the row of pixels. Each time the X value is at the end of the row, increment the Y value and reset X to 0. Once you get a color value that is equal to the color value that was input by the user, the last used X and Y coordinates before finding a match are what is given back to the user.

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