45

I want to be able to take an image and find out what is its average color, meaning if the image is half black and half white, I would get something in-between... some shade of gray. It could be the most frequent single color or median. Any average will do.

How can I do this in Android?

6
  • 7
    Sounds pretty straightforward... what have you tried?
    – user684934
    Commented Sep 13, 2012 at 14:22
  • 1
    loop on all the colors - and store the average... not too bad
    – Randy
    Commented Sep 13, 2012 at 14:22
  • Unless you're into taking the NDK or RenderScript route, out of which latter made this task rather easy and fast, Bitmap.getPixel and Bitmap.getPixels are your friends.
    – harism
    Commented Sep 13, 2012 at 14:22
  • @bdares I don't know where to start. do i need some image processing library or can I do it in android platform straight away?
    – 124697
    Commented Sep 13, 2012 at 14:25
  • @randy : only problem with it is to use a smart average method, as on big image sum(pixels value) may exceed MAX_INT
    – njzk2
    Commented Sep 13, 2012 at 14:44

8 Answers 8

54
Bitmap bitmap = someFunctionReturningABitmap();
long redBucket = 0;
long greenBucket = 0;
long blueBucket = 0;
long pixelCount = 0;

for (int y = 0; y < bitmap.getHeight(); y++)
{
    for (int x = 0; x < bitmap.getWidth(); x++)
    {
        Color c = bitmap.getPixel(x, y);

        pixelCount++;
        redBucket += Color.red(c);
        greenBucket += Color.green(c);
        blueBucket += Color.blue(c);
        // does alpha matter?
    }
}

Color averageColor = Color.rgb(redBucket / pixelCount,
                                greenBucket / pixelCount,
                                blueBucket / pixelCount);
7
  • 6
    Getting each pixel individually with getPixel inside your loop is wasteful and slow. You should get all of the pixels with a single call to getPixels before the for loops.
    – slayton
    Commented Sep 13, 2012 at 14:54
  • 2
    Slow? probably, yes. Wasteful? Maybe, depends on the size of the bitmap and how much memory is available (I believe getPixels() creates a copy of the bitmap data).
    – Dan O
    Commented Sep 13, 2012 at 14:59
  • 3
    Color c = bitmap.getPixel() should be int c = bitmap.getPixel() because getPixel() returns an int, not a Color
    – Stardust
    Commented Jun 21, 2017 at 17:55
  • @Stardust is correct. This function will not return a Color object, but an int. Otherwise this works pretty well. To improve the speed on larger images try scaling the bitmap down. CIF (352x240) works pretty well for me. Commented Jul 5, 2017 at 14:08
  • Color.rgb(redBucket / pixelCount, greenBucket / pixelCount, blueBucket / pixelCount); call requires api 26 Commented Nov 21, 2019 at 18:32
15

I think you will have to do that yourself.

Just create an int array with all the colors:

Bitmap bmp = BitmapFactory.decodeResource(getResources(), R.drawable.icon);  
bmp = bmp.copy(Bitmap.Config.ARGB_8888, true);    
int intArray[] = new int[bmp.getWidth()*bmp.getHeight()];  
bmp.getPixels(intArray, 0, bmp.getWidth(), 0, 0, bmp.getWidth(), bmp.getHeight());

Then you can get the color with intArray[0], the value could be 0xFFFF0000 for red (last 6 numbers are the RGB color value).

Here is another easy solution:

  • Get you full-size image in a bitmap.

  • Create a scaled bitmap of 1*1px.

  • Get this bitmap color.

3
  • 3
    The second solution get the most common color not the average. Commented Apr 15, 2015 at 14:04
  • I was just thinking about second scaling method because other are not working fast!!
    – Arjun
    Commented May 20, 2017 at 17:18
  • 1
    I have found that the second solution of 1x1 px gives 100% accurate results. Even more accurate than the Palette library.
    – Usman
    Commented Sep 1, 2017 at 11:41
12

Building off Dan O's solution, here's a method that automatically takes into account the alpha channel and makes the optimization/ tradeoff of getPixels vs getPixel.

The cost is memory but the benefit is performance, invocation of a virtual method in a loop that could possibly be run several million times [i.e. an 8MP image has 3,456x2,304 = 7,962,624 pixels]). I've even taken things one step further by removing the looped android.graphics.Color method calls.

public static int getDominantColor(Bitmap bitmap) {
   if (null == bitmap) return Color.TRANSPARENT;

   int redBucket = 0;
   int greenBucket = 0;
   int blueBucket = 0;
   int alphaBucket = 0;

   boolean hasAlpha = bitmap.hasAlpha();
   int pixelCount = bitmap.getWidth() * bitmap.getHeight();
   int[] pixels = new int[pixelCount];
   bitmap.getPixels(pixels, 0, bitmap.getWidth(), 0, 0, bitmap.getWidth(), bitmap.getHeight());

   for (int y = 0, h = bitmap.getHeight(); y < h; y++)
   {
       for (int x = 0, w = bitmap.getWidth(); x < w; x++)
       {
           int color = pixels[x + y * w]; // x + y * width
           redBucket += (color >> 16) & 0xFF; // Color.red
           greenBucket += (color >> 8) & 0xFF; // Color.greed
           blueBucket += (color & 0xFF); // Color.blue
           if (hasAlpha) alphaBucket += (color >>> 24); // Color.alpha
       }
   }

   return Color.argb(
           (hasAlpha) ? (alphaBucket / pixelCount) : 255,
           redBucket / pixelCount,
           greenBucket / pixelCount,
           blueBucket / pixelCount);
}
2
  • 2
    funny that you calculate the number of pixels in an 8 megapixel image wich has as the name states 8 million pixels. But thanks for the solution.
    – Gumbo
    Commented Aug 15, 2014 at 18:07
  • 4
    8 megapixel is not precise, 7,962,624 pixels is precise.
    – mvmn
    Commented Oct 5, 2016 at 11:28
11

You can use Palete class from AndroidX, or from the the v7-support library.

It provides additional methods to extract colours from a Bitmap, such as getting:

  • Most Dominant color
  • Vibrant colors
  • Muted color
  • much more
1
2

Use the Bitmap.getPixels() method to get the color values. Then to calculate the average you have to decide what you mean by that. In a grayscale image it is simple, but with colors there are no such thing as an average. You can separate into components (for example RGBA), and take the average of each component. An alternative is to search for the most commonly used color, and there are several other options I'm sure. Play with it :)

2

There is also a library that can do this for you.

http://www.michaelevans.org/blog/2013/12/12/colorart-a-library-to-do-itunes-11-style-color-matching-for-android/

2

Expanding on the second idea from Stephane Mathis' answer, you can resize the image to 1x1 and get the color of that image:

Bitmap originalBitmap = /*your original image*/;
Bitmap scaledBitmap = Bitmap.createScaledBitmap(originalBitmap, 1, 1, false);    //Resize the bitmap to 1x1
@ColorInt int averageColor = scaledBitmap.getPixel(0, 0);    //Get the color of the only pixel of the 1x1 bitmap

If your original image is not a Bitmap object, you can convert it to a Bitmap using one of the methods described here.

0

Here is a way to get the dominant (NOT average) colors of an image using Material color utilities library which is currently available for Java/Kotlin, C++, Dart, TypeScript.

The colors may not necessarily be the most recurring colors; the library extracts dominant colors appropriate for Material 3 design system and appropriate to be used on light or dark themes in apps.

The library is primarily used on apps for Android 12 and above and also on the Material Design website itself but I tested it for myself and got good results.

To use the library, copy-paste the code on the Material color utilities repository for your desired language to your project and then you can extract dominant colors and color schemes.

Here is an example for Java and Kotlin:

Java:

var MAX_DESIRED_COLOR_COUNT = 128;
var file = new File("my-image.jpg");
var image = ImageIO.read(file);
var pixels = image.getRGB(0, 0, image.getWidth(), image.getHeight(), null, 0, image.getWidth());
var colorFrequency = QuantizerCelebi.quantize(pixels, MAX_DESIRED_COLOR_COUNT);
var decentColors = Score.score(colorFrequency);
var desiredColor = decentColors.get(0);
// You can take the desiredColor or any other decentColors and forget the rest of code below


// Could also use Scheme.dark(desiredColor); to get colors suitable for dark themes
var colorScheme = Scheme.light(desiredColor);
System.out.println("Decent colors: " + decentColors);
System.out.println("Primary color (light theme): " + colorScheme.getPrimary());

Kotlin:

val MAX_DESIRED_COLOR_COUNT = 128
val file = File("my-image.jpg")
val image = ImageIO.read(file)
val pixels = image.getRGB(0, 0, image.width, image.height, null, 0, image.width)
val colorFrequency = QuantizerCelebi.quantize(pixels, MAX_DESIRED_COLOR_COUNT)
val decentColors = Score.score(colorFrequency)
val desiredColor = decentColors.first()
// You can take the desiredColor or any other decentColors and forget the rest of code below


// Could also use Scheme.dark(desiredColor) to get colors suitable for dark themes
val colorScheme = Scheme.light(desiredColor)
println("Decent colors: ${decentColors.joinToString { it.toHexString() }}")
println("Primary color (light theme): ${colorScheme.primary.toHexString()}")

fun Int.toHexString() = "#%06X".format(this and 0xFFFFFF)

Learn more about Material Design color system and color roles here (like colorScheme.primary used in the above code snippets).

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