# Java parse bytes number over 39.4 GB on a long var bug

I have an app that get ftp disk space. so space given by a number that present how many bytes.

the problem is when i got space over 39.4 GB i can just store 39.4*1024*1024*1024 in a long or double var. so if you have 50 GB it just show you 39.4. whats the solution?

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I'm sorry to say, I cannot understand you question. Can you please paste your code, its output, and what you expected its output to be? Thanks – sarnold May 11 '11 at 22:56
i explained it better. – ShirazITCo May 11 '11 at 23:02
You must be doing something wrong. In a long you probably can store sizes up to approx 2^33 or 16 billion Gigabytes – Ingo May 11 '11 at 23:03
What Ingo said, you should be able to fit the number of bytes in 39.4GB into a 64-bit integer long several hundred million times over... – thasc May 11 '11 at 23:07
You must be doing something wrong, but unless you show code that substantiates your claim, we can't tell you what it is. – Ingo May 11 '11 at 23:10

See if BigInteger class helps you with your problem

EDIT:

Actually as others already mentioned, long value will be able to hold a really big value, it can hold far more than 40gb as a number value

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`long` can store much larger values -- so there must be something specific in your code. I guessed at what your code is doing, see if this looks familiar:

``````class Out {
public static void main(String args[]) {
long l = 40L * 1024 * 1024 * 1024;
double d = 40.0 * 1024 * 1024 * 1024;
System.out.println("long l: " + l + " double d: " + d + "\n");
return;
}
}

\$ vim Out.java ; javac Out.java ; java Out
long l: 42949672960 double d: 4.294967296E10
``````

Note that I had to multiply `40L` rather than just `40` -- if all integers are given as literal integers, without specific `L` `long` annotations, then Java will interpret the entire expression as an `int`. When testing with and without the `L` (and multiplying by just `1024 * 1024 * 102`, building up to confirming my hypothesis), I found the differences entertaining:

``````\$ vim Out.java ; javac Out.java ; java Out # with only '40'
long l: -16777216 double d: 4.294967296E10

\$ vim Out.java ; javac Out.java ; java Out # with '40L'
long l: 4278190080 double d: 4.294967296E10
``````

I hope this helps explain why it is important to specify the types of literal data types in the code.

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Here is the solution for storing an amount greater than 39.4 GB:

``````final long kb = 1024L;
final long mb = 1024L*kb;
final long gb = 1024L*mb;
long solution = 42L * gb;  // > 39.4 GB in a long
``````
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`long` can record 8 Exa-bytes which is 8 * 1024 * 1024 * 1024 GB (minus one byte ;)

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