# How to round up the result without losing its precision in android

I am building a basic calculator functionality in android. But I am facing little problem with rounding up the numbers when the result is get displayed in the TextView.

I am doing multiplication of 123456789 * 123456789 and getting result which I am not able to accommodate in my TextView. Also the Actual result of above operation is 1.5241E16 when performed in Android's in built Calculator. Can anyone tell me that how can I achieve this result in my calculator app? Below is little snippet about what I am trying to do:

``````public static double round(double unrounded, int precision, int roundingMode)
{
BigDecimal bd = new BigDecimal(unrounded);
BigDecimal rounded = bd.setScale(precision, roundingMode);
return rounded.doubleValue();
}

num = num * Double.parseDouble(txtCalc.getText().toString());
num = round(num, 3, BigDecimal.ROUND_HALF_UP); //where 3 is the precision of number
``````

Plz Help me to achieve the result 1.5241E16 for 1...9 * 1....9

-
I'm confused, what result are you getting? The scientific notation does lose accuracy. 1.5241E16 simply means the answer is roughly 1.5241*10,000,000,000,000,000 meaning if you can decide how many decimal places you want to display, you can just divide you number by 10^X and concatenate the result. – Ali Aug 11 '11 at 6:44
Ya, the same way I also just want to round up my result to 1.5241E16. – YuDroid Aug 11 '11 at 6:49
I've added code to my answer below that gives the result you want. – Ali Aug 11 '11 at 7:01

The scientific notation does lose accuracy. 1.5241E16 simply means the answer is roughly 1.5241*10,000,000,000,000,000 meaning if you can decide how many decimal places you want to display, you can just divide you number by 10^X and concatenate the result.

So if my resulting number was 1234567890 and I wanted to display this to 3 decimal places. I would do 1234567890 / 10^9 (because there are 9 digits after the first digit) and then I would simply cancatenate everything after char 5 (1 place for the whole number, 1 place for the dot and then 3 decimal places). If you want to round the last decimal place, simply check if the number at position 6 is greater than or eqaul to 5 and just increment the last number by 1.

Here this gives the result you desire.

``````double num1 = 123456789L;
double num2 = 123456789L;
String result = num1*num2+"";
if(result.contains("E")){ //if result is in scientific notation
//take the first 6 characters only and part containing the E, drop everything else.
result = result.substring(0, 6) + result.substring(result.indexOf("E"));
}
System.out.println("Result is = " + result);
``````

The output from my Groovy shell:

Result is = 1.5241E16

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:But how to know the number of digits entered by the user? i.e. in your case it is 10^9. Any code snippet would be helpful to me as I am not so easy with Maths :). Thanks Ali – YuDroid Aug 11 '11 at 6:52
In the code above I just check for E before I do any concatenation. You would ofcourse have to put a few more checks in there for example if `result.indexOf("E") > 6` only then concatenate. Else your result is up to 4 decimal places anyways. – Ali Aug 11 '11 at 7:20
@ Ali : Thanks, It worked! Exactly what I was looking for. Will it work for all type of numbers in the range? – YuDroid Aug 11 '11 at 7:20

One solution to rounding issue

``````package com.test;

import java.math.BigDecimal;
import java.math.RoundingMode;

/**
* @VinTech Blogs
* @vintech2277.blogspot.com
*
*/
public class SumSame
{
public static void main( String[] args )
{
String[] from= {"3.2571365449","4.87608977397","5.29831575733","1.5684579238"};
BigDecimal[] fromBD = new BigDecimal[from.length];
BigDecimal[] toBD = new BigDecimal[from.length];

BigDecimal diff = new BigDecimal("0");
int high = 0;
int low = 0;

for(int i=0;i0) if(fromBD[i].compareTo(fromBD[high]) > 0){
high= i;
}else if(fromBD[i].compareTo(fromBD[low]) < 0){
low= i;
}
//set scale to 2 means 2 digits after decimal
// HALf_DOWN means 11.45 rounds to 11.4
//HALF_UP means 11.45 rounds to 11.5
toBD[i] = fromBD[i].setScale(2, RoundingMode.HALF_DOWN);
}

//We get the difference here and allocate the diffs to highest or lowest based
//on diff value type
if(diff.doubleValue() > 0.0){