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Without pointing me to MSDN, could someone give a concise, clear explanation of the purpose of each of these and when to use them. (IntPtr, SafeHandle and HandleRef)

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What's wrong with MSDN? –  Mitch Wheat Feb 8 '09 at 23:38
Nothing. Just looking for a brief summary of each to ensure I'm using them correctly. If I read MSDN and other folks' descriptions I get a better feel for if what I'm doing is correct. –  user62572 Feb 8 '09 at 23:41

3 Answers 3

up vote 37 down vote accepted

IntPtr is just a simple integer-based struct that can hold a pointer (ie., 32 bit size on 32-bit systems, 64-bit size on 64-bit systems).

SafeHandle is a class that is intended to hold Win32 object handles - it has a finalizer that makes sure that the handle is closed when the object is GC'ed. SafeHandle is an abstract class because different Win32 handles have different ways they need to be closed. Prior to the introduction of SafeHandle, IntPtr was used to hold Win32 handles, but ensuring that they were properly closed and prevented from being GC'ed was the responsibility of the programmer.

HandleRef is a way to make sure that an unmanaged handle is not GC'ed when you're in the middle of a P/Invoke call. Without something like HandleRef, if your managed code doesn't do anything with the handle after the P/Invoke call, if the GC were run during the P/Invoke call it would not realize that the handle was still in use and might GC it. I imagine (but I'm not sure and haven't looked) that SafeHandle might use HandleRef as part of its management of the encapsulated handle.

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Minor correction. Use HandleRef when you don't want a managed object GC'ed during PInvoke. e.g class HWnd { public IntPtr Handle; } HWnd a = new HWnd(); B.SendMessage(a.Handle, ...); <-- a could be GC'ed in PInvoke B.SendMessage(new HandleRef(a, a.Handle)) <-- now a cannot be GC'ed in PInvoke –  Ifeanyi Echeruo Apr 7 '09 at 4:09
Another addition: SafeHandle includes reference counting to prevent handle recycling attacks. –  Stephen Cleary Dec 2 '10 at 14:48
HWnd a = new HWnd();
B.SendMessage(a.Handle, ...);

Assuming this is the only reference to "a" in the program, this is equivalent to:

HWnd a = new HWnd();
IntPtr h = a.Handle;
// a is no longer needed and thus can be GC'ed
B.SendMessage(h, ...);

The problem is that when "a" is disposed, it will close the handle. If this happens before or during the call to SendMessage, the handle will be invalid.

HandleRef prevents "a" from being garbage collected before the program is done with h.

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IntPtr is just a standard 32bit pointer to a memory location of some type of object. It's used frequently by external calls to the native Win32 DLLs.

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Firstly, the size depends on the platform. Secondly, it's just an integer sized the same as the platform bit-ness; it has no special "pointer" meaning inherently attached to it. Memory pointers can be conveniently exposed as IntPtr though because of its variable size, as are WinAPI handles (which are also 32 or 64 bit wide depending on platform). –  romkyns Apr 10 '10 at 10:34
/Shrug, I disagree with the DV's because my answer is still completely factual and I even specifically said Win32 DLLs. –  Chris Marisic Apr 10 '10 at 22:39
Honey badger don't care about your downvotes. –  Chris Marisic Jan 21 at 1:13
@ChrisMarisic Contrary to what its name suggests, there's nothing particularly pointerish about IntPtr except the size. Win32 handles (font handles, window handles, etc) aren't pointers, neither is much of the data in window messages' WPARAM and LPARAM or window styles. In C# you have to explicitly cast an IntPtr to a pointer; C# does not want you to implicitly assume any IntPtr is a pointer. Also if you want your p/invoke signatures to work for AnyCPU or x64 builds, you do have to use IntPtr instead of int because of the size difference. –  jnm2 Aug 27 at 12:42

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