# Rounding issue in Java

I'm trying to do a quick 2 vars equation solver using Cramer's rule but for some reason java keeps on rounding my answers so i don't get the right answer.

the basic rule for getting single answer is

``````((a11*a22)-(a12*a21))!=0)
``````

and the solution should be

``````double sol1 = (b1*a22-b2*a12) / (a11*a22-a12*a21);
double sol2 = (b2*a11-b1*a21) / (a11*a22-a12*a21);
``````

but for some reason i get -4.0 and 4.0 instead of -4.0 and 4.5 for 1,2,3,4,5,6

that's the problematic code if it helps:

``````if (((a11*a22)-(a12*a21))!=0) {
double sol1 = (b1*a22-b2*a12) / (a11*a22-a12*a21);
double sol2 = (b2*a11-b1*a21) / (a11*a22-a12*a21);
System.out.println("Single solution: ("+sol1+", "+sol2 +")");
}
``````
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your a* and b* vars are doubles, right? –  Spyros Mandekis Dec 1 '12 at 16:35
What data types are a11, a22, a12, a21, b1, b2? –  xagyg Dec 1 '12 at 16:36
I remember using crammer's rule in matrices chapter –  Sri Harsha Chilakapati Dec 1 '12 at 16:36
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## 3 Answers

Explicitly cast any of the variables as double before operation as:

``````   double sol1 = ((double)b1*a22-b2*a12) / (a11*a22-a12*a21);
double sol2 = (b2*a11-b1*a21) / ((double)a11*a22-a12*a21);
``````

or just multiply your one of the numbers by 1.0 to make them decimal as:

``````   double sol1 = (1.0*(b1*a22-b2*a12)) / (a11*a22-a12*a21);
double sol2 = (b2*a11-b1*a21) / (1.0*(a11*a22-a12*a21));
``````

This is required because currently its performing operations on `int` and resulting an `int` which is getting assigned to `double`.

Once you multiply your numerator or any of the participating variables by 1.0 or explicitly cast it to double, it becomes double and then remaining variables are auto promoted to double, which result into `double` result as desired.

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"Just multiply your number by 1.0 to make them decimal" Or, you know, just cast them. No need to throw multiplication in there. `double sol1 = ((double)(b1*a22-b2*a12)) / (a11*a22-a12*a21);`. –  T.J. Crowder Dec 1 '12 at 16:38
@T.J.Crowder Yeah I was updating the answer already. –  Yogendra Singh Dec 1 '12 at 16:40
The double casting did the trick. –  Amit Sonnenschein Dec 1 '12 at 16:45
@AmitSonnenschein Please accept the answer you like. –  Yogendra Singh Dec 1 '12 at 16:46
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Note the casts to double ...

``````if (((a11*a22)-(a12*a21))!=0) {
double sol1 = (double)(b1*a22-b2*a12) / (a11*a22-a12*a21);
double sol2 = (double)(b2*a11-b1*a21) / (a11*a22-a12*a21);
System.out.println("Single solution: ("+sol1+", "+sol2 +")");
}
``````
-
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It's probably because the operands are integers.

When you perform an operation between integers, the result is another integer (which is why it gets 'rounded'). In your case, the result is casted to double after the operation is performed (so the integer result is converted to double). What you need to do is performing the operation between doubles so the result is double. This can be done by simply changing the types of one of the variables involved in the division to double (say b1, a22, a11, b2, or a12): the other variables will be promoted to double automatically.

Example code:

``````double b1 = /* whatever */;
// ..
if (((a11*a22)-(a12*a21))!=0) {
double sol1 = (b1*a22-b2*a12) / (a11*a22-a12*a21);
double sol2 = (b2*a11-b1*a21) / (a11*a22-a12*a21);
System.out.println("Single solution: ("+sol1+", "+sol2 +")");
}
``````

Or, if you don't want that your variable's type is double, you can just cast your numerator or denominator (or both, but it won't make a difference):

``````if (((a11*a22)-(a12*a21))!=0) {
double sol1 = (double)(b1*a22-b2*a12) / (a11*a22-a12*a21);
double sol2 = (b2*a11-b1*a21) / (double)(a11*a22-a12*a21);
System.out.println("Single solution: ("+sol1+", "+sol2 +")");
}
``````

Also, if any of the variables involved in calculating the numerator (or the denominator) is double, the whole numerator gets 'converted' to double, and therefore, the result of division is double (because at least one of numerator or denominator is double). But, if you had some code like this:

``````if (((a11*a22)-(a12*a21))!=0) {
double sol1 = (double)someOtherIntVariable + (b1*a22-b2*a12) / (a11*a22-a12*a21);
//...
}
``````

It wouldn't work, because the division is performed between int variables and then added with a double variable. This would have the same issue as you have now

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