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I have a WPF BitmapImage which I loaded from a .JPG file, as follows:

this.m_image1.Source = new BitmapImage(new Uri(path));

I want to query as to what the colour is at specific points. For example, what is the RGB value at pixel (65,32)?

How do I go about this? I was taking this approach:

ImageSource ims = m_image1.Source;
BitmapImage bitmapImage = (BitmapImage)ims;
int height = bitmapImage.PixelHeight;
int width = bitmapImage.PixelWidth;
int nStride = (bitmapImage.PixelWidth * bitmapImage.Format.BitsPerPixel + 7) / 8;
byte[] pixelByteArray = new byte[bitmapImage.PixelHeight * nStride];
bitmapImage.CopyPixels(pixelByteArray, nStride, 0);

Though I will confess there's a bit of monkey-see, monkey do going on with this code. Anyway, is there a straightforward way to process this array of bytes to convert to RGB values?

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For what purpose nStride ? And why you adding 7 and dividing by 8 in nStride calculation ? – Jviaches May 7 '12 at 20:16
@Jviaches Add 7 and divide by 8 to correctly round to enough bytes (f.i. 10 bits will need 2 bytes.) – erikH May 9 '12 at 8:32

8 Answers 8

up vote 10 down vote accepted

The interpretation of the resulting byte array is dependent upon the pixel format of the source bitmap, but in the simplest case of a 32 bit, ARGB image, each pixel will be comprised of four bytes in the byte array. The first pixel would be interpreted thusly:

alpha = pixelByteArray[0];
red   = pixelByteArray[1];
green = pixelByteArray[2];
blue  = pixelByteArray[3];

To process each pixel in the image, you would probably want to create nested loops to walk the rows and the columns, incrementing an index variable by the number of bytes in each pixel.

Some bitmap types combine multiple pixels into a single byte. For instance, a monochrome image packs eight pixels into each byte. If you need to deal with images other than 24/32 bit per pixels (the simple ones), then I would suggest finding a good book that covers the underlying binary structure of bitmaps.

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Thanks, but... I feel like the .NET framework should have some interface that abstracts away all of the coding complexity. Obviously the System.Windows.Media library knows how to decode a bitmap, because it renders it to a screen. Why should I have to know all of the implementation details? Can't I utilise the rendering logic that's already implemented somehow? – Andrew Shepherd Jul 24 '09 at 13:07
I feel your pain. In windows forms, the Bitmap class has GetPixel and SetPixel methods to retrieve and set the value of individual pixels, but these methods are notoriously slow and all but useless except for very simple cases. You can use RenderTargetBitmap and other higher level objects to create and composite bitmaps, but in my opinion, image processing is best left in the domain of C++, where direct access to the bits is a better fit. Sure, you CAN do image processing in C#/.NET, but in my experience, it always feels like trying to put a square peg through a round hole. – Michael McCloskey Jul 24 '09 at 13:48
I disagree. In my opinion, C# is a better choice than C++ for 90%of image processing needs. The C# language has many advantages over C++, and its "unsafe" and "fixed" keywords give you direct access to the bits a la C++ when you need them. In most cases a C# implementation of an image processing algorithm will be very similar in speed to that of C++, but occasionally it will be significantly slower. I would only use C++ in the few cases where C# will perform poorly due to optimizations missed by the JIT compiler. – Ray Burns Nov 16 '09 at 6:42

Here is how I would manipulate pixels in C# using multidimensional arrays:

public struct PixelColor
  public byte Blue;
  public byte Green;
  public byte Red;
  public byte Alpha;

public PixelColor[,] GetPixels(BitmapSource source)
    source = new FormatConvertedBitmap(source, PixelFormats.Bgra32, null, 0);

  int width = source.PixelWidth;
  int height = source.PixelHeight;
  PixelColor[,] result = new PixelColor[width, height];

  source.CopyPixels(result, width * 4, 0);
  return result;


var pixels = GetPixels(image);
if(pixels[7, 3].Red > 4)

If you want to update pixels, very similar code works except you will create a WritableBitmap, and use this:

public void PutPixels(WritableBitmap bitmap, PixelColor[,] pixels, int x, int y)
  int width = pixels.GetLength(0);
  int height = pixels.GetLength(1);
  bitmap.WritePixels(new Int32Rect(0, 0, width, height), pixels, width*4, x, y);


var pixels = new PixelColor[4, 3];
pixel[2,2] = new PixelColor { Red=128, Blue=0, Green=255, Alpha=255 };

PutPixels(bitmap, pixels, 7, 7);

Note that this code converts bitmaps to Bgra32 if they arrive in a different format. This is generally fast, but in some cases may be a performance bottleneck, in which case this technique would be modified to match the underlying input format more closely.


Since BitmapSource.CopyPixels doesn't accept a two-dimensional array it is necessary to convert the array between one-dimensional and two-dimensional. The following extension method should do the trick:

public static class BitmapSourceHelper
  public unsafe static void CopyPixels(this BitmapSource source, PixelColor[,] pixels, int stride, int offset)
    fixed(PixelColor* buffer = &pixels[0, 0])
        new Int32Rect(0, 0, source.PixelWidth, source.PixelHeight),
        (IntPtr)(buffer + offset),
        pixels.GetLength(0) * pixels.GetLength(1) * sizeof(PixelColor),
  public static void CopyPixels(this BitmapSource source, PixelColor[,] pixels, int stride, int offset)
    var height = source.PixelHeight;
    var width = source.PixelWidth;
    var pixelBytes = new byte[height * width * 4];
    source.CopyPixels(pixelBytes, stride, 0);
    int y0 = offset / width;
    int x0 = offset - width * y0;
    for(int y=0; y<height; y++)
      for(int x=0; x<width; x++)
        pixels[x+x0, y+y0] = new PixelColor
          Blue  = pixelBytes[(y*width + x) * 4 + 0],
          Green = pixelBytes[(y*width + x) * 4 + 1],
          Red   = pixelBytes[(y*width + x) * 4 + 2],
          Alpha = pixelBytes[(y*width + x) * 4 + 3],

There are two implementations here: The first one is fast but uses unsafe code to get an IntPtr to an array (must compile with /unsafe option). The second one is slower but does not require unsafe code. I use the unsafe version in my code.

WritePixels accepts two-dimensional arrays, so no extension method is required.

share|improve this answer
When I try this I get "Input array is not a valid rank". Any ideas? – whitehawk Jul 19 '10 at 17:30
@whitehawk: see this post:… – Andrew Shepherd Aug 5 '10 at 21:54
@whitehawk: Thanks for letting me know about the error. I have updated my answer to show how to fix it. In my own code I was actually using a different CopyPixels overload that takes an IntPtr. – Ray Burns Aug 6 '10 at 18:00
The safe version doesn't work. It throws “Cannot match the type of this array to a pixel format.” According to Reflector, pixels has to be an array of byte, short, ushort, int, uint, float or double. – svick Nov 30 '10 at 13:55
Note to Microsoft devs: we shouldn't have to jump through this many hoops just to read the value of a pixel in a bitmap file in WPF... – dodgy_coder Mar 1 '12 at 7:49

I'd like to add to Ray´s answer that you can also declare PixelColor struct as a union:

public struct PixelColor
    // 32 bit BGRA 
    [FieldOffset(0)] public UInt32 ColorBGRA;
    // 8 bit components
    [FieldOffset(0)] public byte Blue;
    [FieldOffset(1)] public byte Green;
    [FieldOffset(2)] public byte Red;
    [FieldOffset(3)] public byte Alpha;

And that way you'll also have access to the UInit32 BGRA (for fast pixel access or copy), besides the individual byte components.

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I'd like to improve upon Ray's answer - not enough rep to comment. >:( This version has the best of both safe/managed, and the efficiency of the unsafe version. Also, I've done away with passing in the stride as the .Net documentation for CopyPixels says it's the stride of the bitmap, not of the buffer. It's misleading, and can be computed inside the function anyway. Since the PixelColor array must be the same stride as the bitmap (to be able to do it as a single copy call), it makes sense to just make a new array in the function as well. Easy as pie.

    public static PixelColor[,] CopyPixels(this BitmapSource source)
        if (source.Format != PixelFormats.Bgra32)
            source = new FormatConvertedBitmap(source, PixelFormats.Bgra32, null, 0);
        PixelColor[,] pixels = new PixelColor[source.PixelWidth, source.PixelHeight];
        int stride = source.PixelWidth * ((source.Format.BitsPerPixel + 7) / 8);
        GCHandle pinnedPixels = GCHandle.Alloc(pixels, GCHandleType.Pinned);
          new Int32Rect(0, 0, source.PixelWidth, source.PixelHeight),
          pixels.GetLength(0) * pixels.GetLength(1) * 4,
        return pixels;
share|improve this answer
Note: Best of managed does not mean that the code is safe. This code will not run safe (or at least I couldn't get it too). – Peter Nov 28 '11 at 23:01
For this method to work array must be [height, width] – 0xDEAD BEEF Oct 15 '14 at 18:34

If you want just one Pixel color:

using System.Windows.Media;
using System.Windows.Media.Imaging;
    public static Color GetPixelColor(BitmapSource source, int x, int y)
        Color c = Colors.White;
        if (source != null)
                CroppedBitmap cb = new CroppedBitmap(source, new Int32Rect(x, y, 1, 1));
                var pixels = new byte[4];
                cb.CopyPixels(pixels, 4, 0);
                c = Color.FromRgb(pixels[2], pixels[1], pixels[0]);
            catch (Exception) { }
        return c;
share|improve this answer
Thanks, very useful for doing this in WPF: – ToastyMallows Jun 18 '13 at 15:18

I took all examples and created a slightly better one - tested it too
(the only flaw was that magic 96 as DPI which really bugged me)

I also compared this WPF tactic versus:

  • GDI by using Graphics (system.drawing)
  • Interop by directly invoking GetPixel from GDI32.Dll

To my supprise,
This works x10 faster than GDI, and around x15 times faster then Interop.
So if you're using WPF - much better to work with this to get your pixel color.

public static class GraphicsHelpers
public static readonly float DpiX;
    public static readonly float DpiY;

    static GraphicsHelpers()
        using (var g = Graphics.FromHwnd(IntPtr.Zero))
            DpiX = g.DpiX;
            DpiY = g.DpiY;

public static Color WpfGetPixel(double x, double y, FrameworkElement AssociatedObject)
        var renderTargetBitmap = new RenderTargetBitmap(
    DpiX, DpiY, PixelFormats.Default);

        if (x <= renderTargetBitmap.PixelWidth && y <= renderTargetBitmap.PixelHeight)
            var croppedBitmap = new CroppedBitmap(
        renderTargetBitmap, new Int32Rect((int)x, (int)y, 1, 1));
            var pixels = new byte[4];
            croppedBitmap.CopyPixels(pixels, 4, 0);
            return Color.FromArgb(pixels[3], pixels[2], pixels[1], pixels[0]);
        return Colors.Transparent;
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A little remark:

If you are trying to use this code (Edit: provided by Ray Burns), but get the error about the array's rank, try to edit the extension methods as follows:

public static void CopyPixels(this BitmapSource source, PixelColor[,] pixels, int stride, int offset, bool dummy)

and then call the CopyPixels method like this:

source.CopyPixels(result, width * 4, 0, false);

The problem is, that when the extension method doesn't differ from the original, the original one is called. I guess this is because PixelColor[,] matches Array as well.

I hope this helps you if you got the same problem.

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You can get color components in a byte array. First copy the pixels in 32 bit to an array and convert that to 8-bit array with 4 times larger size

int[] pixelArray = new int[stride * source.PixelHeight];

source.CopyPixels(pixelArray, stride, 0);

// byte[] colorArray = new byte[pixelArray.Length];
// EDIT:
byte[] colorArray = new byte[pixelArray.Length * 4];

for (int i = 0; i < colorArray.Length; i += 4)
    int pixel = pixelArray[i / 4];
    colorArray[i] = (byte)(pixel >> 24); // alpha
    colorArray[i + 1] = (byte)(pixel >> 16); // red
    colorArray[i + 2] = (byte)(pixel >> 8); // green
    colorArray[i + 3] = (byte)(pixel); // blue

// colorArray is an array of length 4 times more than the actual number of pixels
// in the order of [(ALPHA, RED, GREEN, BLUE), (ALPHA, RED...]
share|improve this answer
I assume correct line must be: byte[] colorArray = new byte[pixelArray.Length * 4]; – Der_Meister May 14 '14 at 13:25

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