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I discovered this evening that some helper code I wrote is the culprit of a rather nasty SIGSERV crash on 64-bit machines due to the casting of a 64-bit pointer down to 32-bits.

class FastPixelEditor {
    Bitmap m_bitmap;
    Rectangle m_source;
    BitmapData m_bitmapData;
    int m_nativePixelPointer;
    public FastPixelEditor(Bitmap bitmap, Rectangle source) {
        m_bitmap = bitmap;
        m_source = source;
        m_bitmapData = m_bitmap.LockBits(source, 
            ImageLockMode.ReadWrite, PixelFormat.Format32bppArgb);
        m_nativePixelPointer = m_bitmapData.Scan0.ToInt32();
    }
    public void SetPixel(int x, int y, Color color) {
        int idx = (y - m_source.Top) * m_source.Width + 
            (x - m_source.Left); 
        idx *= 4;
        Marshal.WriteInt32((IntPtr)(m_nativePixelPointer + idx), 
            color.ToArgb());
    }
    public Color GetPixel(int x, int y) {
        int idx = (y - m_source.Top) * m_source.Width + 
            (x - m_source.Left);
        idx *= 4;
        return Color.FromArgb(Marshal.ReadInt32((IntPtr)(
            m_nativePixelPointer + idx)));
    }
    public void Unlock() { m_bitmap.UnlockBits(m_bitmapData); }
}

The crash occurs on this line in the GetPixel function:

Marshal.ReadInt32((IntPtr)(m_nativePixelPointer + idx))

Being helper code, I doubt it's prudent to force anyone using this code to set the /unsafe compilation flag on their project, but using IntPtr.ToInt64() seems really hackish (though it probably works).

IntPtr.Add seems to be exactly what I'm after, but this code must target .NET 2.0, and IntPtr.Add was added in .NET 4.0.

Am I forced to decide between /unsafe or IntPtr.ToInt64() or is there another option?

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3  
Not an answer to your question, but you should be using the stride value in your Y multiply, not the width. –  Will Dean Dec 22 '13 at 22:53
    
Using Marshal.WriteInt32 doesn't make your code safer than using unsafe pointers, but it makes it less readable and slower. You shouldn't be afraid to flip the /unsafe switch in this kind of situation. –  Trillian Dec 22 '13 at 22:54

2 Answers 2

up vote 2 down vote accepted

Just noticed that Marshall.ReadInt32 and Marshall.WriteInt32 actually have overloads that permit an offset to be specified:

Marshall.ReadInt32(IntPtr ptr, int ofs)

And they are available in .NET 2.0.

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IntPtr.Add is defined as below:

return ptr + offset;

The operator+ overload for IntPtr is defined as below:

return new IntPtr(pointer.ToInt64() + (long)offset);

So.. its essentially doing what you've suggested.. its just wrapping it in a nicer function call. You could do the same.

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When you say defined is that to say that that is how the .NET Framework implemented it? Or that Mono and other CLRs must implement it that way to be conformant? –  Mr. Smith Dec 22 '13 at 23:03
    
That is how it is defined in mscorlib.dll in the .NET Framework. –  Simon Whitehead Dec 22 '13 at 23:05
    
Using a decompiler? That (long) cast isn't actually there. –  Hans Passant Dec 22 '13 at 23:35
    
@HansPassant I can see a conv.i8 opcode in the IL.. –  Simon Whitehead Dec 22 '13 at 23:43

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