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My compact framework application creates a smooth-scrolling list by rendering all the items to a large bitmap surface, then copying that bitmap to an offset position on the screen so that only the appropriate items show. Older versions only rendered the items that should appear on screen at the time, but this approach was too slow for a smooth scrolling interface.

It occasionally generates an OutOfMemoryException when initially creating the large bitmap. If the user performs a soft-reset of the device and runs the application again, it is able to perform the creation without issue.

It doesn't look like this bitmap is being generated in program memory, since the application uses approximately the same amount of program memory as it did before the new smooth-scrolling methods.

Is there some way I can prevent this exception? Is there any way I can free up the memory I need (wherever it is) before the exception is thrown?

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4 Answers 4

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I'd suggest going back to the old mechanism of rendering only part of the data, as the size of the fully-rendered data is obviously an issue. To help prevent rendering problems I would probably pre-render a few rows above and below the current view so they can be "scrolled" in with limited impact.

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His real problem is the 96x96 images, which either have to be on disk (which means slow) or in video RAM (which means OOME). –  MusiGenesis Nov 18 '08 at 15:23
    
Although the pre-rendering is a good idea. –  MusiGenesis Nov 18 '08 at 15:24
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I've ended up doing something like this. I test the machine to determine how many items I can safely fit into memory, then render that many to a "window" bitmap that I can use as a fast-scrolling buffer. That window contains some before the current list and some after. Not as good, but still fast. –  Jake Stevenson Nov 26 '08 at 16:07
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Thanks for taking the time to come back and let us know what you did and how it worked out. –  ctacke Nov 26 '08 at 18:05

And just as soon as I posted I thought of something you can do to fix your problem with the new version. The problem you have is one of CF trying to find one block of contiguous memory available for the huge bitmap, and this is occasionally a problem.

Instead of creating one big bitmap, you can instead create a collection of smaller bitmaps, one for each item, and render each item onto its own little bitmap. During display, you then just copy over the bitmaps you need. CF will have a much easier time creating a bunch of little bitmaps than one big one, and you shouldn't have any memory problems unless this is a truly enormous bunch of items.

I should avoid expressions like "there is no fix".

One other important point: make sure you call Dispose() on each bitmap when you're finished with it.

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Isn't part of garbage collection memory compaction? And would there be even more memory overhead from having 100 seperate bitmap objects over one single one? It's still better than any other ideas I've got, so I may try it out over the next couple of days. I do appreciate your feedback. –  Jake Stevenson Nov 18 '08 at 3:52
    
GC isn't guaranteed to collect at any particular time, so you might sometimes have enough memory to create a bitmap but the GC hasn't collected it yet - OutOfMemoryException. –  MusiGenesis Nov 18 '08 at 4:13
    
Per-object memory overhead in .NET is pretty trivial compared to the drawing surface needs, even in CF, so that's not something to worry about. I've done lots of work with bitmaps in CF, and creating a huge bitmap is ALWAYS trouble. –  MusiGenesis Nov 18 '08 at 4:18
    
One other thing to remember: an OutOfMemoryException does not necessarily mean your process is really out of memory, just that that's the type of exception that was thrown. I suspect in this case that CF sometimes just decides that a bitmap will take up too much available memory and says no. –  MusiGenesis Nov 18 '08 at 4:21

Your bitmap definitely is being created in program memory. How much memory the bitmap needs depends on how big it is, and whether or not this required size will generate the OutOfMemoryException depends on how much is available to the PDA (which makes this a randomly-occuring error).

Sorry, but this is generally an inadvisable control rendering technique (especially on the Compact Framework) for which there is no fix short of increasing the physical memory on the PDA, which isn't usually possible (and often won't fix the problem anyway, since a CF process is limited to 32MB no matter how much the device has available).

Your best bet is to go back to the old version and improve its rendering speed. There is also a simple technique available on CF for making a control double-buffered to eliminate flicker.

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Are you sure about it being created in program memory? I have GC.GetTotalMemory(false) output to debug before and after bitmap creation and get the following: Bitmap Size:320x12450 Mem before:211676 Mem after:211996 Seems awful small. –  Jake Stevenson Nov 18 '08 at 3:49
    
320x12450 = 4 million pixels. at 16bpp, that 8MB of memory required to hold that image alone. You're wondering why you're getting an OOM? –  ctacke Nov 18 '08 at 4:14
    
I realized that memory usage isn't always noted by the GC, since bitmaps may include unmanaged memory. So I used GlobalMemoryStatus() to check available physical memory instead. On a VGA device, this gave me a 640x8650 bitmap, with a loss of 1.3 megabytes of available physical memory. –  Jake Stevenson Nov 18 '08 at 4:31
    
On the PDA, there isn't anywhere the bitmap could be created other than program memory (there isn't a swap file). –  MusiGenesis Nov 18 '08 at 4:31
    
Jake, that sounds more like it. But your bitmaps are way bigger than I even thought they were. –  MusiGenesis Nov 18 '08 at 4:35

Since it appears you've run into a device limitation that is restricting the total size of Bitmap space you can create (these are apparently created in video RAM rather than general program memory), one alternative is to replace the big Bitmap object used here with a plain-old block of Windows memory, accessing it for reading and writing by PInvoking the BitBlt API function.

Initially creating the memory block is tricky, and you'd probably want to ask another SO question about that (GCHandle.Alloc can be used here to create a "pinned" object, which means .NET isn't allowed to move it around in memory, which is critical here). I know how to do it, but I'm not sure I do it correctly and I'd rather have an expert's input.

Once you've created the big block, you'd iterate through your items, render each to one small bitmap that you keep re-using (using your existing .NET code), and BitBlt it to the appropriate spot in your memory block.

After creating the entire cache, your rendering code should work just like before, with the difference that instead of copying from the big bitmap to your rendering surface, you BitBlt from your cache block. The arguments for BitBlt are essentially the same as for DrawImage (destination, source, coordinates and sizes etc.).

Since you're creating the cache out of regular memory this way instead of specialized video RAM, I don't think you'll run into the same problem. However, I would definitely get the block creation code working first and test to make sure it can create a big enough block every time.

Update: actually, the ideal approach would be to have a collection of smaller memory blocks rather than one big one (like I thought was the problem with the Bitmap approach), but you already have enough to do. I've worked with CF apps that deal with 5 and 10MB objects and it's not a huge problem anyway (although it might be a bigger problem when that chunk is pinned - I dunno). BTW, I've always been surprised by the OOMEs on BitMap creation because I knew the bitmaps were much smaller than the available memory, as did you - now I know why. Sorry I thought this was an easy solve at first.

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If (!) this approach works, you could even encapsulate it as a BigBitMap which has the same interface as BitMap, and just drop it into your existing code. –  MusiGenesis Nov 18 '08 at 15:31
    
Er, maybe not. I forgot BitMap implements Image. –  MusiGenesis Nov 18 '08 at 15:33
    
Any idea how to determine how much memory I need to allocate for the bitmap? –  Jake Stevenson Nov 18 '08 at 15:44
    
Never mind - this won't work either. I just did some basic tests trying to create about 4MB worth of stuff at once, and .NET CF just can't do it, even 10 400,000-length byte arrays. –  MusiGenesis Nov 18 '08 at 15:59
    
I had another thought, though: where do the 96x96 images come from? Are they JPEGs stored as files or embedded as resources, or are them custom-draw at caching time? –  MusiGenesis Nov 18 '08 at 16:00

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