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I have a method that I use to get a thumbnail as a Byte[] from an image. The method receives the path to the image.

The class works pretty well, until you reach a size threshold, after which performance drops to pitiful low levels. No, I haven't nailed down the threshold...mainly because after some research, it seems like I'm using a methodology that is inefficient and not very scalable.

My scenario seems to be confirmed in this SO thread.

That question lays out exactly what I am experiencing. The reason it isn't a solution is because the answer talks of using other graphics APIs and Paint overrides, which obviously doesn't apply here. I tried the miscellaneous things, like setting graphics parameters, but that made little difference.

One example of a large image I am dealing with is 3872 x 2592 and about 3.5Mb in size. Some a lot more, and many that size or smaller.

My searching has not yielded much. In fact, it seems that I can only find advice that includes the use of System.Drawing.Graphics.DrawImage(). In one exception, it was suggested to include assemblies to attempt use of PresentationFramework. This is a WinForms app, so that seems a bit much just to grab a thumbnail image.

Another suggestion I came across had to do with extracting Exif information from the file (if I recall) and attempting to grab just that data rather than the entire image. I'm not opposed, but I have yet to find a complete enough example of how that is carried out.

I wonder about P/Invoke options. Better performance than what GDI+ is (apparently) capable of delivering. But, by all means, if there's an optimization I am missing in this code, please point it out.

Here is my current method:

public static Byte[] GetImageThumbnailAsBytes(String FilePath)
    if (File.Exists(FilePath))
        Byte[] ba = File.ReadAllBytes(FilePath);
        if (ba != null)
            using (MemoryStream ms = new MemoryStream(ba, false))
                Int32 thWidth = _MaxThumbWidth;
                Int32 thHeight = _MaxThumbHeight;
                Image i = Image.FromStream(ms, true, false);
                ImageFormat imf = i.RawFormat;
                Int32 w = i.Width;
                Int32 h = i.Height;
                Int32 th = thWidth;
                Int32 tw = thWidth;
                if (h > w)
                    Double ratio = (Double)w / (Double)h;
                    th = thHeight < h ? thHeight : h;
                    tw = thWidth < w ? (Int32)(ratio * thWidth) : w;
                    Double ratio = (Double)h / (Double)w;
                    th = thHeight < h ? (Int32)(ratio * thHeight) : h;
                    tw = thWidth < w ? thWidth : w;
                Bitmap target = new Bitmap(tw, th);
                Graphics g = Graphics.FromImage(target);
                g.SmoothingMode = SmoothingMode.HighQuality;
                g.CompositingQuality = CompositingQuality.HighQuality;
                g.InterpolationMode = InterpolationMode.Bilinear; //NearestNeighbor
                g.CompositingMode = CompositingMode.SourceCopy;
                Rectangle rect = new Rectangle(0, 0, tw, th);
                g.DrawImage(i, rect, 0, 0, w, h, GraphicsUnit.Pixel);
                using (MemoryStream ms2 = new MemoryStream())
                    target.Save(ms2, imf);
                    return ms2.ToArray();
    return new Byte[] { };

P.S. I got here in the first place by using the Visual Studio 2012 profiler, which told me that DrawImage() is responsible for 97.7% of the CPU load while loading images (I did a pause/start to isolate the loading code).

share|improve this question
Can you not use Image.GetThumbnailImage? – FlyingStreudel Jul 1 '13 at 18:50
@FlyingStreudel That was the predecessor to this method, and a far worse performer. In both quality and speed. – DonBoitnott Jul 1 '13 at 18:51
gdi+ is slow than others . give a try to gdi – qwr Jul 1 '13 at 18:54
If you're willing to give up some quality for performance, I'd suggest you write your own downscaling algorithm. I've myself had to do that when dealing with massive images in machine vision applications (>80 MPx). In my case I simply took every 16th pixel in both directions to get a thumbnail, or rather something suitable to display onscreen. It is a bit trickier if you need a specific size though. – Chris Jul 1 '13 at 18:58
If you're unhappy with the built-in performance you should consider either implementing your own scaling algorithm inside an unsafe block or using DirectX to do calculations on the GPU instead of the CPU. – FlyingStreudel Jul 1 '13 at 19:00

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