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Below is my formula to check how much memory is remaining (not how much memory remains in the current heap, but how much more memory may be utilized before the application crashes). I'm not remotely sure this is correct, is it?

double max = Runtime.getRuntime().maxMemory(); //the maximum memory the app can use
double heapSize = Runtime.getRuntime().totalMemory(); //current heap size
double heapRemaining = Runtime.getRuntime().freeMemory(); //amount available in heap
double nativeUsage = Debug.getNativeHeapAllocatedSize(); //is this right? I only want to account for native memory that my app is being "charged" for.  Is this the proper way to account for that?

//heapSize - heapRemaining = heapUsed + nativeUsage = totalUsage
double remaining = max - (heapSize - heapRemaininng + nativeUsage); 
share|improve this question
Am I misunderstanding something? Why is getNativeHeapFreeSize() not what you wanted? – Pacerier Feb 11 '12 at 19:50
The difference between maxMemory() and heapSize() is the amount of memory that you can be pretty sure is available for a large contiguous allocation. The additional amount indicated by freeMemory() is the presently-unallocated amount within the present heap, which means that some part of that amount is probably fragmented, the amount of which would depend upon the increment used to grow the heap when required, and how much of that increment has already been used and then returned. So using your number "remaining" above may be risky if you need additional memory in a contiguous chunk. – Carl May 28 '12 at 9:12
I would add that rather than dynamically testing to see how much memory is available, testing a number of extreme use cases during development for a variety of maxMemory() values and making sure that your app can handle them could be a better approach. Because if you discover at a certain point that you're getting close to your memory limits, it may be hard to back out of whatever you are doing in a way that's not rude to the user. – Carl May 28 '12 at 9:16
Just a general observation: you're assigning longs to double variables, that's probably not a good idea. – wkarl Oct 4 '14 at 9:09
up vote 19 down vote accepted

Try the following code. that should give you the results you are after (especially the Pss field). You can read more about it here

Debug.MemoryInfo memoryInfo = new Debug.MemoryInfo();

String memMessage = String.format(
    "Memory: Pss=%.2f MB, Private=%.2f MB, Shared=%.2f MB",
    memoryInfo.getTotalPss() / 1024.0,
    memoryInfo.getTotalPrivateDirty() / 1024.0,
    memoryInfo.getTotalSharedDirty() / 1024.0);
share|improve this answer
Thank you! So, my interpretation of the article is that I can calculate currently available memory as: Runtime.getRuntime().maxMemory() - memoryInfo.getTotalPss()? Does that seem accurate and safe to you? – ab11 May 31 '11 at 14:54
Looks good to me (haven't tried it though...). on the other hand, it could be that the maxMemory is also considering the shared memory since this is the maximum that can be allocated by the VM. so I'd look for more info about it... – Muzikant Jun 7 '11 at 11:56
I marked as answered because it was helpful, but really this did not appear to be a reliable way to measure memory. What I would like, is for a method that gives the amount of native memory for which my application is being charged, which in most cases should be the amount of memory allocated for bitmaps. getTotalPss() does not seem to return this accurately, at all. This is my final solution to the issue, thought its not great:… – ab11 Jun 7 '11 at 14:17
@ab11 It seems that bitmap allocations are computed in the heap, take a look at:… – Roland Jun 23 '11 at 19:56
@Mr. Roland, I'm not sure if I read that properly, this is my interpretation: prior to 3.0, bitmap allocations are counted against the heap limit, but do not show in the davlik heap. After 3.0, the allocations are actually in the davlik heap? – ab11 Jun 23 '11 at 21:17

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