# How do I calculate someone's age in Java?

I want to return an age in years as an int in a Java method. What I have now is the following where getBirthDate() returns a Date object (with the birth date ;-)):

``````public int getAge() {
long ageInMillis = new Date().getTime() - getBirthDate().getTime();

Date age = new Date(ageInMillis);

return age.getYear();
}
``````

But since getYear() is deprecated I'm wondering if there is a better way to do this? I'm not even sure this works correctly, since I have no unit tests in place (yet).

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Changed my mind about that: the other question only has an approximation of years between dates, not a truly correct age. –  cletus Jul 12 '09 at 14:48
Given that he's returning an int, can you clarify what you mean by a 'correct' age ? –  Brian Agnew Jul 12 '09 at 15:02
Date vs Calendar is a fundamental concept that can be gleaned from reading the Java documentation. I cannot understand why this would be upvoted so much. –  demongolem Jul 3 '12 at 22:14

Check out Joda, which simplifies date/time calculations (Joda is also the basis of the new standard Java date/time apis, so you'll be learning a soon-to-be-standard API).

EDIT: Java 8 has something very similar and is worth checking out.

e.g.

``````LocalDate birthdate = new LocalDate (1970, 1, 20);
LocalDate now = new LocalDate();
Years age = Years.yearsBetween(birthdate, now);
``````

which is as simple as you could want. The current Java stuff is (as you've identified) somewhat unintuitive.

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You mean `Years.yearsBetween` at the end there. –  Scott Morrison Dec 10 '10 at 23:56
Avoid DateMidnight - use LocalDate instead. –  Jon Skeet Mar 6 '12 at 7:20
@JonSkeet: why do you say that? –  Hoàng Long Mar 8 '12 at 3:32
@HoàngLong: From the JavaDocs: "This class does not represent a day, but the millisecond instant at midnight. If you need a class that represents the whole day, then an Interval or a LocalDate may be more suitable." We really do want to represent a date here. –  Jon Skeet Mar 8 '12 at 6:24
If you want to do it the way @JohnSkeet suggests, it's like this: Years age = Years.yearsBetween(new LocalDate(getBirthDate()), new LocalDate()); –  Fletch Sep 24 '12 at 15:41

Your example is NOT the way to do it.

Take a look at this.

``````Calendar dob = Calendar.getInstance();
dob.setTime(dateOfBirth);
Calendar today = Calendar.getInstance();
int age = today.get(Calendar.YEAR) - dob.get(Calendar.YEAR);
if (today.get(Calendar.MONTH) < dob.get(Calendar.MONTH)) {
age--;
} else if (today.get(Calendar.MONTH) == dob.get(Calendar.MONTH)
&& today.get(Calendar.DAY_OF_MONTH) < dob.get(Calendar.DAY_OF_MONTH)) {
age--;
}
``````

The JODA datetime library has some nice interval calculations. Try that.

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Your answer would be more helpful if it contained an example in code... –  johnstok Jul 12 '09 at 14:42
That's what the first link shows. –  duffymo Jul 12 '09 at 14:54
The DAY_OF_YEAR comparison can lead to erroneous result when dealing with leap years. –  sinuhepop Apr 18 '12 at 18:03
Fixed to work on leap years, too. –  Zds Jun 25 '12 at 14:49
Thank you very much. –  duffymo Jun 25 '12 at 14:50
``````Calendar now = Calendar.getInstance();
Calendar dob = Calendar.getInstance();
dob.setTime(...);
if (dob.after(now)) {
throw new IllegalArgumentException("Can't be born in the future");
}
int year1 = now.get(Calendar.YEAR);
int year2 = dob.get(Calendar.YEAR);
int age = year1 - year2;
int month1 = now.get(Calendar.MONTH);
int month2 = dob.get(Calendar.MONTH);
if (month2 > month1) {
age--;
} else if (month1 == month2) {
int day1 = now.get(Calendar.DAY_OF_MONTH);
int day2 = dob.get(Calendar.DAY_OF_MONTH);
if (day2 > day1) {
age--;
}
}
// age is now correct
``````
-

If you are using GWT you will be limited to using java.util.Date, here is a method that takes the date as integers, but still uses java.util.Date:

``````public int getAge(int year, int month, int day) {
Date now = new Date();
int nowMonth = now.getMonth()+1;
int nowYear = now.getYear()+1900;
int result = nowYear - year;

if (month > nowMonth) {
result--;
}
else if (month == nowMonth) {
int nowDay = now.getDate();

if (day > nowDay) {
result--;
}
}
return result;
}
``````
-
``````/**
* This Method is unit tested properly for very different cases ,
* taking care of Leap Year days difference in a year,
* and date cases month and Year boundary cases (12/31/1980, 01/01/1980 etc)
**/

public static int getAge(Date dateOfBirth) {

Calendar today = Calendar.getInstance();
Calendar birthDate = Calendar.getInstance();

int age = 0;

birthDate.setTime(dateOfBirth);
if (birthDate.after(today)) {
throw new IllegalArgumentException("Can't be born in the future");
}

age = today.get(Calendar.YEAR) - birthDate.get(Calendar.YEAR);

// If birth date is greater than todays date (after 2 days adjustment of leap year) then decrement age one year
if ( (birthDate.get(Calendar.DAY_OF_YEAR) - today.get(Calendar.DAY_OF_YEAR) > 3) ||
(birthDate.get(Calendar.MONTH) > today.get(Calendar.MONTH ))){
age--;

// If birth date and todays date are of same month and birth day of month is greater than todays day of month then decrement age
}else if ((birthDate.get(Calendar.MONTH) == today.get(Calendar.MONTH )) &&
(birthDate.get(Calendar.DAY_OF_MONTH) > today.get(Calendar.DAY_OF_MONTH ))){
age--;
}

return age;
}
``````
-

The correct answer using JodaTime is:

``````public int getAge() {
Years years = Years.yearsBetween(new LocalDate(getBirthDate()), new LocalDate());
return years.getYears();
}
``````

You could even shorten it into one line if you like. I copied the idea from BrianAgnew's answer, but I believe this is more correct as you see from the comments there (and it answers the question exactly).

-

The fields birth and effect are both date fields:

``````Calendar bir = Calendar.getInstance();
bir.setTime(birth);
int birthNm = bir.get(Calendar.DAY_OF_YEAR);
int birthYear = bir.get(Calendar.YEAR);
Calendar eff = Calendar.getInstance();
eff.setTime(effect);
``````

This basically a modification of John O's solution without using depreciated methods. I spent a fair amount of time trying to get his code to work in in my code. Maybe this will save others that time.

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can you explain this a little better? how does this calculate age? –  exabrial May 16 '13 at 22:44

With the date4j library :

``````int age = today.getYear() - birthdate.getYear();
if(today.getDayOfYear() < birthdate.getDayOfYear()){
age = age - 1;
}
``````
-

This is an improved version of the one above... considering that you want age to be an 'int'. because sometimes you don't want to fill your program with a bunch of libraries.

``````public int getAge(Date dateOfBirth) {
int age = 0;
Calendar born = Calendar.getInstance();
Calendar now = Calendar.getInstance();
if(dateOfBirth!= null) {
now.setTime(new Date());
born.setTime(dateOfBirth);
if(born.after(now)) {
throw new IllegalArgumentException("Can't be born in the future");
}
age = now.get(Calendar.YEAR) - born.get(Calendar.YEAR);
if(now.get(Calendar.DAY_OF_YEAR) < born.get(Calendar.DAY_OF_YEAR))  {
age-=1;
}
}
return age;
}
``````
-
``````public static int getAge(Date birthday)
{
GregorianCalendar today = new GregorianCalendar();
GregorianCalendar bday = new GregorianCalendar();
GregorianCalendar bdayThisYear = new GregorianCalendar();

bday.setTime(birthday);
bdayThisYear.setTime(birthday);
bdayThisYear.set(Calendar.YEAR, today.get(Calendar.YEAR));

int age = today.get(Calendar.YEAR) - bday.get(Calendar.YEAR);

if(today.getTimeInMillis() < bdayThisYear.getTimeInMillis())
age--;

return age;
}
``````
-
``````/**
* Compute from string date in the format of yyyy-MM-dd HH:mm:ss the age of a person.
* @author Yaron Ronen
* @date 04/06/2012
*/
private int computeAge(String sDate)
{
// Initial variables.
Date dbDate = null;
SimpleDateFormat dateFormat = new SimpleDateFormat("yyyy-MM-dd HH:mm:ss");

// Parse sDate.
try
{
dbDate = (Date)dateFormat.parse(sDate);
}
catch(ParseException e)
{
Log.e("MyApplication","Can not compute age from date:"+sDate,e);
return ILLEGAL_DATE; // Const = -2
}

// Compute age.
long timeDiff = System.currentTimeMillis() - dbDate.getTime();
int age = (int)(timeDiff / MILLI_SECONDS_YEAR);  // MILLI_SECONDS_YEAR = 31558464000L;

return age;
}
``````
-
Not sure whether you really tested this one or not, but for others, this method has one flaw. if the today is the same month that your birth date is and today < birthday, it still shows actual age + 1, i.e., for eg if your bday is 7 September 1986, and today is 1 September 2013, it will show you 27 instead of 26. –  srahul07 Jun 13 '13 at 12:28
This cannot be true as number of milliseconds in a year is NOT CONSTANT. Leap years have one day more, that is much more milliseconds then others. For a 40ty year old person your algorithm may report birthday 9 - 10 days earlier then it really is! There are also leap seconds. –  Espinosa Nov 11 '13 at 17:36

``````public Integer calculateAge(Date date) {
if (date == null) {
return null;
}
Calendar cal1 = Calendar.getInstance();
cal1.setTime(date);
Calendar cal2 = Calendar.getInstance();
int i = 0;
while (cal1.before(cal2)) {
i += 1;
}
return i;
}
``````
-

Elegant, seemingly correct, timestamp difference based variant of Yaron Ronen solution.

I am including a unit test to prove when and why it is not correct. It is impossible due (to possibly) different number of leap days (and seconds) in any timestamp difference. The discrepancy should be max +-1 day (and one second) for this algorithm, see test2(), whereas Yaron Ronen solution based on completely constant assumption of `timeDiff / MILLI_SECONDS_YEAR` can differ 10 days for a 40ty year old, nevertheless this variant is incorrect too.

It is tricky, because this improved variant, using formula `diffAsCalendar.get(Calendar.YEAR) - 1970`, returns correct results most of the time, as number of leap years in on average same between two dates.

``````/**
* Compute person's age based on timestamp difference between birth date and given date
* and prove it is INCORRECT approach.
*/
public class AgeUsingTimestamps {

public int getAge(Date today, Date dateOfBirth) {
long diffAsLong = today.getTime() - dateOfBirth.getTime();
Calendar diffAsCalendar = Calendar.getInstance();
diffAsCalendar.setTimeInMillis(diffAsLong);
return diffAsCalendar.get(Calendar.YEAR) - 1970; // base time where timestamp=0, precisely 1/1/1970 00:00:00
}

final static DateFormat df = new SimpleDateFormat("dd.MM.yyy HH:mm:ss");

@Test
public void test1() throws Exception {
Date dateOfBirth = df.parse("10.1.2000 00:00:00");
assertEquals(87, getAge(df.parse("08.1.2088 23:59:59"), dateOfBirth));
assertEquals(87, getAge(df.parse("09.1.2088 23:59:59"), dateOfBirth));
assertEquals(88, getAge(df.parse("10.1.2088 00:00:01"), dateOfBirth));
}

@Test
public void test2() throws Exception {
// between 2000 and 2021 was 6 leap days
// but between 1970 (base time) and 1991 there was only 5 leap days
// therefore age is switched one day earlier
// See http://www.onlineconversion.com/leapyear.htm
Date dateOfBirth = df.parse("10.1.2000 00:00:00");
assertEquals(20, getAge(df.parse("08.1.2021 23:59:59"), dateOfBirth));
assertEquals(20, getAge(df.parse("09.1.2021 23:59:59"), dateOfBirth)); // ERROR! returns incorrect age=21 here
assertEquals(21, getAge(df.parse("10.1.2021 00:00:01"), dateOfBirth));
}
}
``````
-
``````public int getAge(Date dateOfBirth)
{
Calendar now = Calendar.getInstance();
Calendar dob = Calendar.getInstance();

dob.setTime(dateOfBirth);

if (dob.after(now))
{
throw new IllegalArgumentException("Can't be born in the future");
}

int age = now.get(Calendar.YEAR) - dob.get(Calendar.YEAR);

if (now.get(Calendar.DAY_OF_YEAR) < dob.get(Calendar.DAY_OF_YEAR))
{
age--;
}

return age;
}
``````
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as @sinuhepop noticed "The DAY_OF_YEAR comparison can lead to erroneous result when dealing with leap years" –  Krzysztof Kot Apr 23 '12 at 10:03
``````public int getAge(Date birthDate) {
Calendar a = Calendar.getInstance(Locale.US);
a.setTime(date);
Calendar b = Calendar.getInstance(Locale.US);
int age = b.get(YEAR) - a.get(YEAR);
if (a.get(MONTH) > b.get(MONTH) || (a.get(MONTH) == b.get(MONTH) && a.get(DATE) > b.get(DATE))) {
age--;
}
return age;
}
``````
-
``````import java.io.*;

class AgeCalculator
{
public static void main(String args[])
{

try
{

int bDate = Integer.parseInt(date);
int bMonth = Integer.parseInt(month);
int bYear = Integer.parseInt(year);
int ccYear=Integer.parseInt(cYear);

int age;

age = ccYear-bYear;
int totalMonth=12;
int yourMonth=totalMonth-bMonth;

System.out.println(" Hi " + name + " your are " + age + " years " + yourMonth + " months old ");
}
catch(IOException err)
{
System.out.println("");
}
}
}
``````
-

`String` `dateofbirth` has the date of birth. and format is whatever (defined in the following line):

``````org.joda.time.format.DateTimeFormatter formatter =  org.joda.time.format.DateTimeFormat.forPattern("mm/dd/yyyy");
``````

Here is how to format:

``````org.joda.time.DateTime birthdateDate = formatter.parseDateTime(dateofbirth );
org.joda.time.DateMidnight birthdate = new         org.joda.time.DateMidnight(birthdateDate.getYear(), birthdateDate.getMonthOfYear(), birthdateDate.getDayOfMonth() );
org.joda.time.DateTime now = new org.joda.time.DateTime();
org.joda.time.Years age = org.joda.time.Years.yearsBetween(birthdate, now);
java.lang.String ageStr = java.lang.String.valueOf (age.getYears());
``````

Variable `ageStr` will have the years.

-
``````public class CalculateAge {

private int age;

private void setAge(int age){

this.age=age;

}
public void calculateAge(Date date){

Calendar calendar=Calendar.getInstance();

Calendar calendarnow=Calendar.getInstance();

calendarnow.getTimeZone();

calendar.setTime(date);

int getmonth= calendar.get(calendar.MONTH);

int getyears= calendar.get(calendar.YEAR);

int currentmonth= calendarnow.get(calendarnow.MONTH);

int currentyear= calendarnow.get(calendarnow.YEAR);

int age = ((currentyear*12+currentmonth)-(getyears*12+getmonth))/12;

setAge(age);
}
public int getAge(){

return this.age;

}
``````
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``````public int getAge(String birthdate, String today){
// birthdate = "1986-02-22"
// today = "2014-09-16"

// String class has a split method for splitting a string
// split(<delimiter>)
// birth[0] = 1986 as string
// birth[1] = 02 as string
// birth[2] = 22 as string
// now[0] = 2014 as string
// now[1] = 09 as string
// now[2] = 16 as string
// **birth** and **now** arrays are automatically contains 3 elements
// split method here returns 3 elements because of yyyy-MM-dd value
String birth[] = birthdate.split("-");
String now[] = today.split("-");
int age = 0;

// let us convert string values into integer values
// with the use of Integer.parseInt(<string>)
int ybirth = Integer.parseInt(birth[0]);
int mbirth = Integer.parseInt(birth[1]);
int dbirth = Integer.parseInt(birth[2]);

int ynow = Integer.parseInt(now[0]);
int mnow = Integer.parseInt(now[1]);
int dnow = Integer.parseInt(now[2]);

if(ybirth < ynow){ // has age if birth year is lesser than current year
age = ynow - ybirth; // let us get the interval of birth year and current year
if(mbirth == mnow){ // when birth month comes, it's ok to have age = ynow - ybirth if
if(dbirth > dnow) // birth day is coming. need to subtract 1 from age. not yet a bday
age--;
}else if(mbirth > mnow){ age--; } // birth month is comming. need to subtract 1 from age
}

return age;
}
``````
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Note: Date format is: yyyy-MM-dd. This is a generic code which is tested in jdk7... –  Jhonie Sep 16 at 1:38
It would help if you provided some comments or explain how exactly to use this code. Simply code dumping is usually discouraged, and the question asker may not understand your choices behind why you decided to code your method up this way. –  rayryeng Sep 16 at 1:40