# With 256 MB RAM, what is the maximum length of double array we can create?

Code Ranch has this question:

28) If we have 256 MB RAM then what is the maximum length of double array we can create? (Ignore the jvm memory occupied and everything else)

Ans: Integer.MAX_VALUE as the length() method must return correct 'int' length.

I'm not sure if I understand the answer which they had provided. From what I know, most implementations uses 64-bit for a double which means we can fit roughly 4 194 304 doubles (minus overhead) in 256 MB RAM.

So how could the maximum length of a double array be 2147483647 in a 256 MB RAM environment ?

Surely the test code below would give us OOM right?:

``````public class test {
public static void main(String[] args) {
double[] d = new double[java.lang.Integer.MAX_VALUE - 8];
}
}
``````
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How did you arrive at `4 194 304`? I get 32 MB for that number times 64 bit. –  delnan Dec 24 '11 at 12:07
arrays don't have a `length()` method. I can only assume the questioner hasn't been careful with his choice of words. –  Peter Lawrey Dec 24 '11 at 15:06

EDIT: The answer below assumes that the question is asking about the size of array which can be allocated within the 256MB specified in the question. If that isn't the point of the question, then there is no definitive answer - because the maximum length will entirely depend on how much memory has been allocated to the JVM, how the JVM is able to use the memory etc. We may have 256MB of memory, but run a Sun JVM with -Xmx64M, so have even less than 256MB available.

So either the question is bad, or the answer is wrong - or quite possibly both.

The Code Ranch answer is definitely incorrect: 256MB is 28 * 220 bytes - i.e. 228 bytes. Each `double` value takes 8 bytes, so even leaving aside any overhead for the object and the length, the maximum number of `double` values you can store in 256MB is 223. `Integer.MAX_VALUE` is 231 - 1, which is clearly much bigger.

(It's not a matter of "most implementations" using 64 bits for `double`, by the way - it's required by the spec.)

So yes, your test code would indeed give an OOM if you only had 256MB of memory available.

Given that some of the questions on that page don't even have answers, this answer is definitely incorrect, and others are badly written, I would just ignore the page completely.

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What about swap space? –  artbristol Dec 24 '11 at 12:11
@artbristol: From the question: "Ignore the jvm memory occupied and everything else" - I took that to include other virtual memory. –  Jon Skeet Dec 24 '11 at 12:13
Swap space is seldomly located in the RAM. –  Linus Kleen Dec 24 '11 at 12:13
@LinusKleen: I'm not sure what point you're trying to make, but the way I read the question, it's asking about the maximum size of array you can allocate if all the memory available to the array is 256MB. It's definitely a poorly worded question - which is in line with the rest of the page, unfortunately. –  Jon Skeet Dec 24 '11 at 12:16
"If we have 256 MB RAM then what is..." I was referring to artbristol's question about swap space. –  Linus Kleen Dec 24 '11 at 12:17

Depends on what swap space you have, amount of memory that the OS requires, Amount of memory for the VM+program ....

So there is no definitive answer.

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It's explicitly stated that these should be ignored. –  delnan Dec 24 '11 at 12:06
WHat does swap space have to do with this? You assign a certain amount of memory to the JVM. In the context of the question it is clear that 256MB is available. –  extraneon Dec 24 '11 at 12:08
Actually this answer is right or at least more accurate than Jon Skeet's. The question does not state what JVM is used and a JVM might be able use as much memory as it can allocate from the OS (i.e. the old Microsoft VM did this). So a JVM could successfully allocate a array that is far too big to fit in physical RAM. –  x4u Dec 24 '11 at 12:17
The thing is that some processes (e.g OS) requires stuff to be always in phywsical memory. The question is spurious to ignore other things running on that computer. –  Ed Heal Dec 24 '11 at 12:21
The OS has to juggle. Perhaps the JWM gets a little more or a little less –  Ed Heal Dec 25 '11 at 0:47

You can theoretically allocate everything that you address space allows to -- it is when you try to actually use that address space that you can have problems.

So, the answer is partially correct: if you have a 64bit OS (and JVM), you address space is large enough for the whole world, however array indices are integers, a0nd the maximum value of an integer in Java is indeed `Integer.MAX_VALUE` (2^31 - 1). This is not so with a 32bit OS, though, because the available address space isn't enough that large in bytes.

But what you can actually write to is limited by the amount of RAM, so 2^(28-3) == 2^25 is the amount of doubles you can fit in memory, ignoring everything else.

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