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I wrote function:

    public static byte[, ,] Bitmap2Byte(Bitmap image)
    {
        int h = image.Height;
        int w = image.Width;

        byte[, ,] result= new byte[w, h, 3];

        for (int i = 0; i < w; i++)
        {
            for (int j = 0; j < h; j++)
            {
                Color c= image.GetPixel(i, j);
                result[i, j, 0] = c.R;
                result[i, j, 1] = c.G;
                result[i, j, 2] = c.B;
            }
        }

        return result;
    }

But it takes almost 6 seconds to convert 1800x1800 image. Can I do this faster?

EDIT:
OK, I found this: http://msdn.microsoft.com/en-us/library/system.drawing.imaging.bitmapdata.aspx
There is nice example. Only question I have is about Marshal.Copy. Can I make it copy data directly into byte[,,] ?

EDIT 2: OK, sometimes I got strange values of pixels and they do not seem to follow r0 g0 b0 r1 g1 b1 rule. Why? Never mind. Figured it out.

EDIT 3: Made it. 0,13s vs 5,35s :)

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3  
Try swapping the loops: you're currently iterating over the columns of the image, but bitmaps are stored in rows. Swapping the loops allow for better cache behavior, which should improve performance somewhat (although it's probably not by much). –  Michael Madsen Jan 12 '11 at 21:43
    
You are correct. 5,65s before. 5,35s after. –  Miko Kronn Jan 12 '11 at 21:51
    
@Miko: you might want to run that test again a few times. There really shouldn't be any difference between the two. –  MusiGenesis Jan 12 '11 at 22:00
1  
@MusiGenesis: While I can't eliminate the possibility that the difference shouldn't be detectable in this case, or perhaps usually in C#, I can assure you that the theory behind it is sound. It's related to the way the CPU cache works: it always stores blocks of X bytes, even when requesting less, so by iterating through the data in the order it's actually stored, the cache can be used more often. Sure, it's a micro-optimization, but it's one that doesn't hurt readability, and if you're looking for ways to make your code run faster, every bit helps. –  Michael Madsen Jan 12 '11 at 22:11
    
@Miko: this is my fault for telling you to Google this, but don't use Marshal.Copy for this. See this answer instead: stackoverflow.com/questions/740555/… –  MusiGenesis Jan 12 '11 at 23:59
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3 Answers 3

up vote 17 down vote accepted

You can speed this up considerably by using a BitmapData object which is returned from Bitmap.LockBits. Google "C# Bitmap LockBits" for a bunch of examples.

GetPixel is painfully, painfully slow, making it (ironically) completely unsuitable for the manipulation of individual pixels.

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1  
Yes, GetPixel is probably the slowest way to access a bitmap. –  Gabe Jan 12 '11 at 21:46
7  
@Gabe: I disagree. The slowest way is to hand-write each pixel value on a piece of paper that you then mail to developers living in Siberia. –  MusiGenesis Jan 12 '11 at 21:47
    
LockBits will give you an array of pixels which is [row 0][row 1][row 2]...[row nRows-1], where [row] is column length of pixels. Just remember the formula index = (j * rowLength) + i which gives you the offset of the pixel in the array of pixels. This also explains Michael's comment. –  DominicMcDonnell Jan 12 '11 at 21:53
    
+1 yup, any non-trivial image manipulation in GDI+ pretty much requires raw memory access. –  Ed S. Jan 12 '11 at 21:57
    
@MusiGenesis: Handing it to them personally would be much slower, than mailing it :) –  dzendras Jan 12 '11 at 21:57
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I've been wondering this for a while.

In .NET 4.0 Microsoft introduced the Parallel library. Basically what this does is there is a Parallel.For method that will automatically spawn off numerous threads to help with the work. For instance if you originally had a For(int i =0;i<3;i++){ code...}, A parallel.For loop would probably create 3 threads and each thread would have a different value for i running through the inner code. So the best thing i can suggest is a Parallel.For loop with a

Color c
 lock(obraz) 
{
  c =  obraz.GetPixel(..)
}
...

when getting the pixel.

If you need any more explanation on parallelism I can't really assist you before you take some time to study it as it is a huge area of study.

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Can you explain? I don't know anything about parallel loops. –  Miko Kronn Jan 12 '11 at 21:42
2  
@Miko: I wouldn't go there. Because of how Bitmaps work under the hood in .Net, parallelizing this process will probably make it even slower. –  MusiGenesis Jan 12 '11 at 21:49
    
@MusiGenesis, actually I've done this in similar areas of image processing and the speed up was huge. –  dko Jan 12 '11 at 21:50
    
Getting a pointer to raw memory will be faster, so why complicate things? –  Ed S. Jan 12 '11 at 21:56
2  
@dko: parallelization would be a huge benefit for anything other than a .Net Bitmap and its GetPixel/SetPixel methods. The best solution would probably be to generate a BitmapData object from the Bitmap, and then manipulate the BitmapData in a parallel fashion. However, most of the performance improvement would come from just not using GetPixel in the first place. –  MusiGenesis Jan 12 '11 at 21:56
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I just tried parallel For.
It doesn't work without SyncLock on the bitmap.
It says the object is in use.
So it pretty much just works, in serial lol... what a mess.

    For xx As Integer = 0 To 319
        pq.ForAll(Sub(yy)
                      Dim Depth = getDepthValue(Image, xx, yy) / 2047
                      Dim NewColor = Depth * 128
                      Dim Pixel = Color.FromArgb(NewColor, NewColor, NewColor)
                      SyncLock Bmp2
                          Bmp2.SetPixel(xx, yy, Pixel)
                      End SyncLock
                  End Sub)
    Next

In case you're wondering, this is converting kinect's depth map -> bitmap.
Kinect's depth range is from 11bit(0-2047) and represents distance not color.

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