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I'm trying to convert a 32bpp screenshot image to an 8bpp (or 4bpp, or 1bpp) format using C#. I've already looked at several stackoverflow answers on similar subjects and most suggest variations using the following code:

public static Bitmap Convert(Bitmap oldbmp) 
    Bitmap newbmp = new Bitmap(oldbmp.Width, oldbmp.Height, PixelFormat.Format8bppIndexed);

    Graphics gr = Graphics.FromImage(newbmp);

    gr.PageUnit = GraphicsUnit.Pixel;
    gr.DrawImageUnscaled(oldbmp, 0, 0);

    return newbmp;

However, when this executes, I get a the exception: A graphics object cannot be created from an image that has an indexed pixel format. I understand that 8, 4 and 1bpp images have colour table mappings rather than the actual colour pixels themselves (as in 32 or 16bpp images) so I assume I'm missing some conversion step somewhere, but I'm fairly new to C# (coming from a C++ background) and would prefer to be able do this using native C# calls rather than resorting to PInvoking BitBlt and GetDIBits etc. Anybody able to help me solve this? Thanks.

EDIT: I should point out that I need this to be backwardly compatible to .NET framework 2.0

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up vote 10 down vote accepted

GDI+ in general has very poor support for indexed pixel formats. There is no simple way to convert an image with 65536 or 16 million colors into one that only has 2, 16 or 256. Colors have to be removed from the source image and that is a lossy conversion that can have very poor results. There are multiple algorithms available to accomplish this, none of them are perfect for every kind of image. This is a job for a graphics editor.

There is one trick I found. GDI+ has an image encoder for GIF files. That's a graphics format that has only 256 colors, the encoder must limit the number of colors. It uses a dithering algorithm that's suitable for photos. It does have a knack for generating a grid pattern, you'll be less than thrilled when it does. Use it like this:

public static Image Convert(Bitmap oldbmp) {
    using (var ms = new MemoryStream()) {
        oldbmp.Save(ms, ImageFormat.Gif);
        ms.Position = 0;
        return Image.FromStream(ms);

The returned image has a 8bpp pixel format with the Palette entries calculated by the encoder. You can cast it to Bitmap if necessary. By far the best thing to do is to simply not bother with indexed formats. They date from the stone age of computing back when memory was severely constrained. Or use a professional graphics editor.

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That's great, thanks. Incidentally, the code at also describes a way of achieving what I wanted, albeit with some degree of PInvoke. – binarybob Jun 16 '11 at 7:40
You will get a very low quality result doing this (gif trick). I think the best solution is to use EmguCV (opencv wrapper). – Pedro77 Apr 26 '12 at 14:36
" By far the best thing to do is to simply not bother with indexed formats. They date from the stone age of computing back when memory was severely constrained" That's all very well but what about when you're writing a program to process graphics for a target like hand-held consoles or smart watches where video memory is still at a premium? – nathanchere Feb 28 '14 at 4:12

Negative stride signifies the image is bottom-up (inverted). Just use the absolute of the stride if you dont care. I know that works for 24bpp images, unaware if it works for others.

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You can use System.Windows.Media.Imaging in PresentationCore Assembly take a look at here for more information

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Thanks, I should have probably pointed out that the solutions needs to be backward compatible to the .NET framework 2.0 - I've edited my question to reflect this – binarybob Jun 15 '11 at 10:49
The link no longer works. – Don Jan 21 at 15:37
@Don You can always use to search for older links.… – Nicke Manarin Apr 2 at 1:53

AForge library is doing it perfectly using Grayscale.

var bmp8bpp = Grayscale.CommonAlgorithms.BT709.Apply(bmp);

This class is the base class for image grayscaling [...] The filter accepts 24, 32, 48 and 64 bpp color images and produces 8 (if source is 24 or 32 bpp image) or 16 (if source is 48 or 64 bpp image) bpp grayscale image.

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