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I have a class with a field of Dictionary<object, IntPtr>.

I allocate the memory dynamically, when user calls some method of my class:

IntPtr somePointer = Marshal.AllocHGlobal(/*some desired size*/);

Then I'm going to use that memory in another thread. Actually, after doing some job that thread frees allocated memory thru Marshal.FreeHGlobal and removes the appropriate key from collection. But there is some probability for this thread to crash, so I'm thinking about proper finalization.

How I can finalize that entire collection (in case when some thread has crashed and my memory still remains allocated)?

My inclination is to change IntPtr to SafeHandle. Will this help?

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The best solution is to not allocate unmanaged memory in the first place. It's only there for some p/Invoke scenarios, and p/Invoke isn't mentioned in your problem description. Since you're both allocating and freeing the memory, it seems unlikely that you actually need to do this. –  Stephen Cleary Jul 18 '10 at 1:20
    
My new thread just passing that allocated slot of memory to exported from kernel32.dll function. When this function finishes I'm going to deallocate that slot. –  xenn_33 Jul 18 '10 at 9:13

3 Answers 3

up vote 1 down vote accepted

Writing a wrapper for the IntPtr could certainly work. But it is unnecessary if the memory should stay valid as long as the item is stored in the dictionary. If that's the case, it is much easier on the client code if you create your own directory, one that automatically frees the memory when an item is removed from the dictionary. No need for the client to call Dispose() for each item, that's always an advantage.

To do this, derive your own class from IDictionary<object, IntPtr> and IDisposable. You can simply delegate most of the method calls to a private dictionary. You'll want a custom Add() to allocate the memory, Delete to release it. And implement Dispose() and the finalizer to clean up. The code is kinda ugly though:

class MyDictionary : IDictionary<object, IntPtr>, IDisposable {
    private Dictionary<object, IntPtr> impl = new Dictionary<object, IntPtr>();

    public void Add(object key) {
        IntPtr mem = Marshal.AllocCoTaskMem(666);  // Something smarter here...
        impl.Add(key, mem);
    }
    public bool Remove(object key) {
        if (!impl.ContainsKey(key)) return false;
        Marshal.FreeCoTaskMem(impl[key]);
        return impl.Remove(key);
    }
    protected void Dispose(bool disposing) {
        foreach (IntPtr mem in impl.Values) Marshal.FreeCoTaskMem(mem);
        if (disposing) impl.Clear();
    }
    public void Dispose() { 
        Dispose(true); 
    }
    ~MyDictionary() { 
        Dispose(false); 
    }

    // Boilerplate
    public void Add(object key, IntPtr value) { throw new NotImplementedException(); }
    public void Add(KeyValuePair<object, IntPtr> item) { throw new NotImplementedException(); }
    public bool Remove(KeyValuePair<object, IntPtr> item) { throw new NotImplementedException(); }
    public bool ContainsKey(object key) { return impl.ContainsKey(key); }
    public ICollection<object> Keys { get { return impl.Keys; }}
    public bool TryGetValue(object key, out IntPtr value) { return impl.TryGetValue(key, out value); }
    public ICollection<IntPtr> Values { get {return impl.Values; }}
    public IntPtr this[object key] { get { return impl[key]; } set { impl[key] = value; } }
    public void Clear() { impl.Clear(); }
    public bool Contains(KeyValuePair<object, IntPtr> item) { return impl.Contains(item); }
    public void CopyTo(KeyValuePair<object, IntPtr>[] array, int arrayIndex) { (impl as ICollection<KeyValuePair<object, IntPtr>>).CopyTo(array, arrayIndex); }
    public int Count { get { return impl.Count; }}
    public bool IsReadOnly { get { return (impl as ICollection<KeyValuePair<object, IntPtr>>).IsReadOnly; } }
    public IEnumerator<KeyValuePair<object, IntPtr>> GetEnumerator() { return impl.GetEnumerator(); }
    System.Collections.IEnumerator System.Collections.IEnumerable.GetEnumerator() { return (impl as System.Collections.IEnumerable).GetEnumerator(); }
}

AllocCoTaskMem is the better allocator btw, it doesn't have the legacy baggage.

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Thanks for the answer. Does it really safe to access impl.Values in finalizer? I'm a bit hesitating about that... –  xenn_33 Jul 17 '10 at 20:40
1  
Accessing members that have a finalizer is unsafe. Dictionary<> doesn't have one. –  Hans Passant Jul 17 '10 at 20:42
    
In such case I could simply go over all dictionary keys in a finalizer of my class and relase the rest allocated memory. But I really haven't heard anywhere that accessing such managed stuff like Dictionary is safe in finalizers. Hence asking –  xenn_33 Jul 17 '10 at 20:47
    
BTW I haven't found any info regarding why AllocCoTaskMem should have been used. AFAIK Win32 stuff which I'm calling doesn't use COM heap –  xenn_33 Jul 17 '10 at 21:35
2  
Hans is making a fair point somewhat rudely - but if you're worried about all this finalizer stuff, I'd recommend Jeff Richter's C#/CLR book. –  Will Dean Jul 17 '10 at 23:04

I think you'll find SafeHandle just calls CloseHandle when cleaning-up, which I don't think is the same thing as FreeHGlobal.

You'd probably be better adding the full Dispose/Finalizer pattern to your class which contains the collection, and have it walk through the dictionary and cleanup.

Or write a wrapper with a finalizer for the HGlobal.

Update: This might be useful - http://social.msdn.microsoft.com/forums/en-US/csharpgeneral/thread/f74b7c3c-12c4-466b-9754-82e9dea8b83e

share|improve this answer
    
Thanks for the response. >>You'd probably be better adding the full Dispose/Finalizer pattern to your class which contains the collection, and have it walk through the dictionary and cleanup. My inclination is that we cannot access managed resource (Dictionary) in finalizer (at least it is an extremely bad practice). Am I wrong? –  xenn_33 Jul 17 '10 at 19:32
    
Will, the link is really great, thanks a lot :) –  xenn_33 Jul 17 '10 at 19:49
    
You're new here, but it's the done-thing to vote-up stuff you like! Glad you liked it anyway. I don't think there's a problem enumerating a dictionary in a finalizer because the dictionary itself is not going to have been finalized itself, but anyway, a safe wrapper on the handle itself avoids the question and feels cleaner. –  Will Dean Jul 17 '10 at 20:05
1  
I cannot vote-up since my reputation is 6 (must be at least 15). sorry –  xenn_33 Jul 17 '10 at 20:09

One option would be to put your thread code in a try/finally block and have the finally block free the memory, that way if the thread crashes (I assume you mean throws an exception?) the finally block will ensure the memory is freed.

A custom SafeHandle will help if you free the memory in the Dispose method, but for this to work you will need to have removed the item from the dictionary before the thread crashes, so that there is no longer a reference to the SafeHandle via the dictionary. Otherwise the memory is only released once the dictionary is released which depends on your lifetime management of the dictionary it self.

Alternatively you might consider looking at a more exotic solution using a WeakReference, though if you can I would suggest the SafeHandle in conjunction with try/finally.

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That's a good point, but: my class is performing the allocation of memory in main thread (the thread where user calls exposed method). Mentioned try-catch should be in another thread. There is some probability (actually really low) that a new thread will never start. That's why I'm thinking about finalization. –  xenn_33 Jul 17 '10 at 19:29
    
@xenn_33, if the thread never starts then it might be better to have a background thread thread the walks the dictionary and releases any "orphaned" allocations, so if you allocated memory for a thread and the thread never picked it up after a certain amount of time, or something similar. Are you allocating the memory then passing it to the new thread? If so, why not have the new thread request the memory that way you know the thread started and the finally block in the thread can take reponsibility for freeing the memory it asked for. –  Chris Taylor Jul 17 '10 at 19:35
    
Yup, you're right about the proper place for allocation. But I was worrying regarding finalizers only for the case when my new spawned thread will be crashed due to OutOfMemory, ThreadAbort and other exceptions. –  xenn_33 Jul 17 '10 at 19:39
    
@xenn_33, fot ThreadAbortException the runtime will execute all finally blocks, so you should be fine on that one. In the case of OutOfMemoryExceptions, I guess at that point you would probably want to save what you can an exit the application in which case the process will be cleaned up anyway. –  Chris Taylor Jul 17 '10 at 19:50

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