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KICK STARTING THE GARBAGE COLLECTOR IN ACTIONSCRIPT 3 WITH AIR
During the final months of my work with eBay Desktop,my sights were set squarely on optimization,both memory and cpu. When it came time to start messing with the garbage collector,my sanity went from bad to worse. What I originally thought was going to be a straightforward way of releasing memory in AIR turned into a 2 month long testcase with some discouraging outcomes.
Memory usage in eBay Desktop was something that always lingered in the back of my mind during the entire development cycle. Because of the shifting nature of our requirements,the issue was only explored near the end,even though we knew in the beginning that memory usage had to go through valleys and peaks in a managed way while users spent time in it throughout the day. We had alerts that would open and close,we had an app that would run in the system tray,and we considered making a ‘lite’ mode that would sit on top of your desktop all day,each of which had different memory requirements. In the beginning we used a well kNown hack to test garbage collection until part way through the development of AIR and Flex 3 Adobe finally added support for calling the garbage collector directly. We knew at this point we had a viable route for managing memory since Adobe was Now making the effort to ackNowledge the need. So Now all that was required was a simple call to
flash.system.System.gc()
and we were set to go….right?
Well,not exactly. First off we learned that a call to System.gc() only does a mark OR a sweep on any given object,but not both in the same call. So in order to have the effect of releasing memory back to the OS,we needed to call it twice in a row. One call to mark any dereferenced objects and sweep away old marks,and the second to Now sweep away marks from the first call.
flash.system.System.gc(); flash.system.System.gc();
Now this seemed to be releasing memory back with pretty basic test cases,but it wasn’t working under production scenarios and we had to turn to Adobe engineers to help with the problem. What we learned was that you have to contend with 2 different kinds of pointers when working in AS3; pointers that exist in bytecode,and pointers that *may* exist in the Flash player itself that you’d never kNow about. What I started to realize was that the Flash player was never really engineered to be aggressive about memory usage. It was designed to plug memory leaks and manage memory plateaus,but not designed with an assumption that users would be interested in lowering those plateaus. It makes sense because most Flash content is viewed in the browser for a short amount of time before the plugin is destroyed and all memory is released when a user navigates away. With AIR,the rules changed since users are more conscience of discreet application memory usage and applications might not always need the same memory when launched vs after 2 hours of usage.
First up we found that the Flash player was always maintaining a reference to the last Sprite clicked,so if you destroyed an AIR window that the users had interacted with,you Couldn’t get garbage collection to work until interacting with another window,which can become a big problem if you’re running in system tray mode and there are no windows to click in. Secondly we learned that you have to push any existing enterframe handler off the call stack by creating a new one. Adobe took care of the first problem,but to handle the second one we had to change our GC call a bit.
private var gcCount:int; private function startGCCycle():void{ gcCount = 0; addEventListener(Event.ENTER_FRAME,doGC); } private function doGC(evt:Event):void{ flash.system.System.gc(); if(++gcCount > 1){ removeEventListener(Event.ENTER_FRAME,doGC); } }
Another facet we hadn’t considered was the affects of the Flex framework on garbage collection. Flex kept some of the same design philosophy as the player itself,mainly that end users were loading applications in the browser and then navigating away when done. Garbage collection was therefore considered on a micro level involving user components,but not at the framework level which Could be guaranteed to exist throughout the life of the app. Adobe made strides on patching the framework to work better in discreet Windows,but ultimately some things Couldn’t be changed. What we found was that CSS Could not be defined in any <mx:Window> component. It had to be defined in the root <mx:WindowedApplication> which would take care of declaring CSS globally for all windows. Also we were forced to clear some global variables ourselves,which caused our code to Now look like this.
private var gcCount:int; private function startGCCycle():void{ ContainerGlobals.focusedContainer = this; gcCount = 0; addEventListener(Event.ENTER_FRAME,doGC); } }
Lastly,not all features in AIR Could be unhooked with our enterFrame trick,after another couple days of testing we found components that needed to be unhooked with Timers like the HTML component. One last tweak to our garbage collection cycle and we were home free.
stem.System.gc(); }
We were Now able to successfully garbage collect any objects that have been dereferenced in Flash. We had three things we had to look out for in the app Now.
- All display objects that added listeners on to model data had to be weakly referenced or they wouldn’t be automatically dereferenced. This is because our architecture kept model data alive while individual window stages were being destroyed. I feel like I should point out that contrary to some beliefs,it is not a good idea to apply weak references by default throughout your entire app. Trust me when I say that its alot easier to debug an application with memory leaks due to strong listeners,then it is to debug an app in which users report random failures because underneath the hood weakly referenced objects are getting accidentally destroyed when the GC kicks in. You can never avoid bugs,so you should program in a way that makes them consistent to find.
- All asynchronous events needed to be explicitly shut down. This included Timers,Loaders,File and DB transactions. Setting these to be weakly referenced is not enough as all asyncronous objects in AS3 register themselves to the Flash player while they are running. It is impossible to access objects that have been dereferenced in code but continue to be referenced by the player like a running timer.
- No anonymous closures allowed.
After all this was taken care of we began to learn that garbage collecting objects in Flash didn’t translate so easily to releasing memory back to the OS. If you ever look at the memory graph in the Flex debugger and then open up the Task manger or Activity Monitor to compare memory usage,you’ll notice a huge disparity between the two.
FlexBuilder reports only 15mb of AS3 object data
AIR private memory really takes up 65mb on the system
The difference you’re seeing is Object Memory vs. Rendering Memory and the bulk of all memory used by the Flash player goes toward rendering. displaying an empty stage in Flash can take up anywhere between 10mb and 20mb depending on the width and height and then it climbs by roughly 4k for each display object attached to the stage. This can add up quickly when using the Flex framework where even a simple button uses several display objects.
What we ultimately found was that even though we Could successfully release AS3 objects,we Couldn’t reliably get the Flash player to release render data. So an app that started at 20mb would climb to 100mb,and when the entire stage was destroyed,we’d go back down to only 80mb. You can actually test this for yourself by downloading a sampleFlex 3 project and observing the effects. What I’ve learned from Adobe is that the player ends up fragmenting memory quite a bit. It probably goes back to the heart of the initial design of the Flash player I described above. All the effort was put into making a killer GUI environment that deferred memory management to whether the browser window was open or not,and as a result the memory system was not optimized for more aggressive use cases. I can only guess the problem comes from the fact that AS3 code is attached to the timeline of the player itself,and managed by the elastic racetrack. As a result both AS3 objects and render data get mixed in to the same memory page,and releasing just the render data doesn’t matter when model data is placed on the same page.
Adobe has assured me they are working on the problem but it realistically won’t make it in until after AIR 2.0,and its unclear whether those fixes will be merged into the the plugin player given that the need isn’t very high for web pages. Until then,you can not count on creating an application in AIR that releases memory back to the OS. The best approach is to reuse the smallest amount of displayobjects possible to achieve the desired workflow. Get used to adding and removing children without destroying them but instead sliding them off into a pool for later reuse,as this helps keep the memory plateau low during use.