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# Java's Math.Pow() function returning confusing results

I am working with the Math.pow() function, and have the following code:

``````double monthlyRate = (0.7d / 12);
int loanLength = 3;

double powerTest = Math.pow(1.00583, 36);
double powerResult = Math.pow((1 + monthlyRate),(loanLength * 12));
``````

When this is run through the debugger, the values become

``````powerTest => 1.2327785029794363
powerResult => 7.698552870922063
``````

The first is the correct one. I've stepped into the Math.pow function on both of the assignment lines. For powerTest, the parameters for Math.pow are double a => 1.00583 double b => 36.0

For powerResult, they are double a => 1.0058333333333333 double b => 36.0

I know that this is an issue with the way floating point math is performed by the machine, I'm just not sure how to correct it. I tried doing the following before the calculation with poor results:

``````monthlyRate = Math.round(monthlyRate * 1000) / 1000;
``````
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What do you expect from (1+(0.7/12))^(3⋅12)? I get 7.6985528709220588862786 in a regular calculator. – Andrew White Jan 25 '11 at 16:50
On Java you should use BigDecimal to perform money operations. Check out my answer. – vz0 Jan 25 '11 at 16:57

`1 + monthlyRate` is `1.0583...`, not `1.00583`.

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Can't believe I stared at this for 30 minutes and missed that typo. Thanks for the help. – DJ Quimby Jan 25 '11 at 17:08

Your expression 0.7d/12 = 0.0583, in the powerTest expression you are using 0.00583.

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I think part of the problem is that `0.7/12 ~ 0.058333`, and `1.0583 > 1.00583`. My bet is this is the true source of your discrepancy, the floating point adjustments have little to do with it.

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Obviously a such big difference in the resut(1.23... and 7.70) is not related to the way floats are coded but more than you made a mistake somewhere 1+0.7/12 = 1.0583 is different from 1.00583 ;-).

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``````Math.round(monthlyRate * 1000) / 1000.0;
``````

You were using integer division.

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Ignore this, the actual problem is extra zero, as axtavt noted. I leave the answer, in case OP actually wanted to perform rounding. – Nikita Rybak Jan 25 '11 at 16:52
Thanks Nikita, I'll note that if I have to write a similar function in the future – DJ Quimby Jan 25 '11 at 17:09

On Java you can use BigDecimal to perform money operations resulting on accurate numbers: it is the Sun/Oracle recommended way to store money numbers.

``````// I'm using Strings for most accuracy

BigDecimal monthlyRate = new BigDecimal("0.7").divide(new BigDecimal(12));
int loanLength = 3;

BigDecimal powerTest = new BigDecimal("1.00583").pow(36);
BigDecimal powerResult = BigDecimal.ONE.add(monthlyRate).pow(loanLength * 12);
``````
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Please, explain your downvotes. The OP is performing money operations, he should be using BigDecimal. – vz0 Jan 25 '11 at 16:54
``````monthlyRate = ((double)Math.round(monthlyRate * 1000)) / 1000;
``````
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