# Java Maths (Runtime Memory Percentage)

I'm sure I've made some sort of extremely stupid mistake here. I've got this code:

``````private static String generateRAM()
{
final long RAM_TOTAL = Runtime.getRuntime().totalMemory();
final long RAM_FREE = Runtime.getRuntime().freeMemory();
final long RAM_USED = RAM_TOTAL - RAM_FREE;
final long RAM_TOTAL_MB = RAM_TOTAL / 8 / 1024;
final long RAM_FREE_MB = RAM_FREE / 8 / 1024;
final long RAM_USED_MB = RAM_USED / 8 / 1024;
final double RAM_USED_PERCENTAGE = (RAM_USED / RAM_TOTAL) * 100;
return RAM_TOTAL_MB + "MB TOTAL / " + RAM_FREE_MB + "MB FREE / " + RAM_USED_MB + "MB USED (" + RAM_USED_PERCENTAGE + "%)";
}
``````

This returns:

``````15440MB TOTAL / 11809MB FREE / 3630MB USED (0.0%)
``````

The percentage is obviously incorrect. How does this happen? I am, to the best of my knowledge, doing all my maths right. If I punch the given numbers into a calculator and find the percentage myself I get 23.5, my expected result.

I'm sure I've just made a horrible mistake that I'll kick myself for, could anybody enlighten me?

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## 3 Answers

Change this line

``````final double RAM_USED_PERCENTAGE = (RAM_USED / RAM_TOTAL) * 100;
``````

To

``````final double RAM_USED_PERCENTAGE = ((RAM_USED * 1.0) / RAM_TOTAL) * 100;
``````

This is because Java is interpreting the result as a `long` / `long` division, so the result will be a `long` value i.e. 5 / 10 => 0. By applying a factor of 1.0 of any of the operands, the compiler will do a `double` / `long` operation, that will result in a `double` value.

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Thanks! Really helpful. I'll accept this answer as soon as SO lets me. :) –  Terra Jan 25 '13 at 20:33
@Alex you're welcome :). –  Luiggi Mendoza Jan 25 '13 at 20:34
``````final double RAM_USED_PERCENTAGE = (RAM_USED / RAM_TOTAL) * 100;
``````

It is because integer divison. Cast one of the types to double.

Example:

``````final double RAM_USED_PERCENTAGE = ((double)RAM_USED / RAM_TOTAL) * 100;
``````

Integer division rounds toward 0. That is, the quotient produced for operands n and d that are integers after binary numeric promotion (§5.6.2) is an integer value q whose magnitude is as large as possible while satisfying |d · q| ≤ |n|. Moreover, q is positive when |n| ≥ |d| and n and d have the same sign, but q is negative when |n| ≥ |d| and n and d have opposite signs.

There is one special case that does not satisfy this rule: if the dividend is the negative integer of largest possible magnitude for its type, and the divisor is -1, then integer overflow occurs and the result is equal to the dividend. Despite the overflow, no exception is thrown in this case. On the other hand, if the value of the divisor in an integer division is 0, then an ArithmeticException is thrown.

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You have 2 errors. `freeMemory()` and `totalMemory()` returns a number of bytes, so to convert it into MB you have to divide it twice by 1024 (kB and MB), then by 8. Plus, you have to convert RAM_USED to a double, in order to compute this as a floating point operation:

``````private static String generateRAM()
{
final long RAM_TOTAL = Runtime.getRuntime().totalMemory();
final long RAM_FREE = Runtime.getRuntime().freeMemory();
final long RAM_USED = RAM_TOTAL - RAM_FREE;
final long RAM_TOTAL_MB = RAM_TOTAL / 1024 / 1024;
final long RAM_FREE_MB = RAM_FREE  / 1024 / 1024;
final long RAM_USED_MB = (double) RAM_USED / 1024 / 1024;
final double RAM_USED_PERCENTAGE = ((double) RAM_USED / RAM_TOTAL) * 100;
return RAM_TOTAL_MB + "MB TOTAL / " + RAM_FREE_MB + "MB FREE / " + RAM_USED_MB + "MB USED (" + RAM_USED_PERCENTAGE + "%)";
}
``````

which returns:

``````10MB TOTAL / 9MB FREE / 0MB USED (2.47130735892926%)
``````
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Didn't notice that, I originally displayed it in KB. I changed the variable names and the text, but not the actual Maths. Thanks. –  Terra Jan 25 '13 at 20:41
+1 because that's true. I don't think OP's using a 16GB RAM machine: 15440MB TOTAL –  Luiggi Mendoza Jan 25 '13 at 20:41
Suprisingly no, I'm not. :P –  Terra Jan 25 '13 at 20:49
Why would you divide by 8? Bytes are not bits. –  Frank Pavageau Jan 25 '13 at 21:01
@FrankPavageau you're right, I mixed up bytes and bits :) I updated the code accordingly. –  Nebelmann Jan 25 '13 at 21:26