Regarding double dataype

I have a double variable test. I want to extract the all digits before decimal point and two digits after the decimal point store the output in integer variables dollar, cents. how can i do it? I dont want any rounding to happen.

example:

``````double test= 12.1234
``````

Output

``````int dollar =12;
int cents =12;

double test =1235.0
``````

output

``````int dollar=1235
int cents =0
``````
-

For currency, especially when you don't want any rounding, you should use the `BigDecimal` class. Something like:

``````BigDecimal test = new BigDecimal("12.1234");
int dollar = test.intValue();
int cents = test.scaleByPowerOfTen(2).intValue() - dollar * 100;
``````
-
Thanks a lot for the info. Does it work for negative and non decimal values? test = new BigDecimal ("-12.24") test =new BigDecimal("2"); test =new BigDecimal("-2"); Also i retrieve this double value from table through a custom API function. This custom API function retrieves the BigDecimal value from the table and does a doubleValue() returns the double value. I am unable to change this custom API function. In this case if i convert into Bigdecimal and do the calculations will it cause any issues? test=new BigDecimal(BigDecimal.valueof(doubleval)); –  Arav Mar 2 '10 at 23:22
It works with integers and negative values as well. Precision loss takes place when the API function converts BigDecimal to double (why does it do it?). I don't think there are any options to deal with it but to work around/extend/override the API. –  Konrad Garus Mar 3 '10 at 9:08
Thanks a lot. Will try your solution and let you know. –  Arav Mar 8 '10 at 5:21
I am getting the output as dollar =12 and cents=1212. I want the cents to be 12. how can i do it? –  Arav Mar 8 '10 at 23:37

You can do:

``````double test= 12.1234;
int dollar = (int) test;
int cents = (int) ((test-dollar) * 100);
``````
-
What about overflows, rounding errors and precission errors? Double is not approriate to store money. –  Thomas Jung Mar 2 '10 at 9:26
@Thomas: Agree. BigDecimal is the solution. –  codaddict Mar 2 '10 at 9:28
Thanks a lot for the info –  Arav Mar 2 '10 at 23:22
What does overflows mean? –  Arav Mar 2 '10 at 23:24
test can have negative values so it should work right? –  Arav Mar 2 '10 at 23:56

``````dollar = test;
test -= dollar;
cents = test * 100;
``````

Line 1 assigns the integer part of test (12) to the integer 'dollar.' Line 2 removes the 12 dollars from the test value. Line 3 assigns 100 times the fractional part of test to cents. Note that I don't round here. For that, you'd have to:

``````cents = (test + 0.005) * 100
``````
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Simple and good! –  vpram86 Mar 2 '10 at 9:22
Line 1 would need a integer cast, else you'll get possible loss of precision error. –  codaddict Mar 2 '10 at 9:26
Thanks a lot for the info. This works for negative values? –  Arav Mar 2 '10 at 23:59

How about something like this. Rather than printing the values, you can simply assign them as you see fit.

``````double d = 32.456;
System.out.println( (int)d );
System.out.println( d-(int)d);
``````
-
``````String[] s = Double.toString(test).split(".");
String dol = s[0];
String cent = s[1].substring(0,1);
``````
-
Thanks a lot for the info –  Arav Mar 2 '10 at 23:54
For double values greater than `10^13`, there won't be ANY significant digits after the notional decimal point.
You should not be using `double` or `float` for representing financial quantities. Use `int` or `long` (appropriately scaled and with explicit checks for overflow) or `BigDecimal`.
@arav - Overflow is when a number is too large (positive or negative) to be represented in the data type being used in the calculation. For example, if you are using a Java `int` and add 1 to the largest representable `int` value (`2^31 - 1`), then the computation will silently overflow and you will get a negative result; i.e. `-2^31` –  Stephen C Mar 2 '10 at 23:52