# How do I calculate someone's age based on a DateTime type birthday?

Given a DateTime representing a person's birthday, how do I calculate their age in years?

• what all of the answers so far have missed is that it depends where the person was born and where they are right now.
– Yaur
Commented May 21, 2011 at 7:34
• @Yaur: Just convert the time of now + birth into GMT/UTC, age is only a relative value, hence timezones are irrelevant. For determining the user's current timezone, you can use GeoLocating. Commented Oct 3, 2011 at 10:20
• If we're taking into consideration @Yaur 's suggestion of cross-timezone calculations, should Day Light Saving Time affect the calculation in any manner?
– DDM
Commented Jul 11, 2015 at 3:42
• Note that for someone less than one year old, their age is given in days, weeks, or months. The transition time for the units may be domain-specific. Commented Nov 10, 2017 at 22:09
• As we can all see there is no definitive definition of age. Many women I've met tends to round up their living time to a complete year until twenty-something, then they start rounding down. I was born Jan 3rd, so I just subtract current year from my birth year, no matter what day it is. some people think if you were born on a leap day, you age in 1/4 ratio. What if you were born on at a leap second? does an 8 months old baby counted as 1? If I fly to west, do I get younger? If my hearts stops for a minute, should I include that in calculation? Commented Oct 15, 2020 at 16:27

An easy to understand and simple solution.

// Save today's date.
var today = DateTime.Today;

// Calculate the age.
var age = today.Year - birthdate.Year;

// Go back to the year in which the person was born in case of a leap year

However, this assumes you are looking for the western idea of the age and not using East Asian reckoning.

• This answer does not work with all locales and all ages. Several countries have skipped dates after the birth of current living people, including Russia (1918), Greece (1924) and Turkey (1926). Commented Nov 9, 2009 at 22:09
• Actually, it's still not entirely correct. This code presumes that 'bday' is the date-portion of a DateTime. It's an edge-case (I guess most people will just be passing dates and not date-times), but if you pass in a birthday as a date-and-time where the time is greater than 00:00:00 then you'll run into the bug Danvil pointed out. Setting bday = bday.Date fixes this. Commented Nov 16, 2010 at 15:37
• this is 12 years but why don't you just minus brithday - today later go for timespan and you can get it without an if. Commented Mar 17, 2021 at 6:19
• Am I missing something here? I guess that the days are missing completely. When the person has birthday on 1st of August and you run the script on 31st of July you get the same result as when you run the script on 1st of August but the person is one year older. Commented Sep 26, 2022 at 13:03
• I think the comment (mentioning leap years) is misleading. I guess the correct explanation would be: (1) if you were born in 1980 and it's 2022 then you WILL turn 42 somewhere in this year - so int age = DateTime.Today.Year - dateOfBirth.Year. (2) if your birthday hasn't arrived yet this year subtract one: if (dateOfBirth.Date.AddYears(age) > DateTime.Today) age-- Commented Dec 6, 2022 at 15:45

This is a strange way to do it, but if you format the date to yyyymmdd and subtract the date of birth from the current date then drop the last 4 digits you've got the age :)

I don't know C#, but I believe this will work in any language.

20080814 - 19800703 = 280111

Drop the last 4 digits = 28.

C# Code:

int now = int.Parse(DateTime.Now.ToString("yyyyMMdd"));
int dob = int.Parse(dateOfBirth.ToString("yyyyMMdd"));
int age = (now - dob) / 10000;

Or alternatively without all the type conversion in the form of an extension method. Error checking omitted:

public static Int32 GetAge(this DateTime dateOfBirth)
{
var today = DateTime.Today;

var a = (today.Year * 100 + today.Month) * 100 + today.Day;
var b = (dateOfBirth.Year * 100 + dateOfBirth.Month) * 100 + dateOfBirth.Day;

return (a - b) / 10000;
}
• Actually this is great for usage on MS-SQL with datetime-fields (total days since 01-011900) Commented Jul 3, 2015 at 12:01
• @numerek Please post your suggested modifications as their own answer. For what it's worth, the current year times 10000 is nowhere near an integer overflow, by two orders of magnitude. 20,150,000 vs 2,147,483,648 Commented Sep 3, 2015 at 20:23
• This answer assumes that leap day babies have their birthdays on 1st March on non-leap years. Commented Feb 13, 2018 at 9:38
• @LongChalk 20180101 - 20171231 = 8870. Drop the last 4 digits and you have (an implied) 0 for the age. How did you get 1? Commented Jun 14, 2018 at 20:36
• @RufusL Its 0, not 1. floor(8870 / 10000) == 0. You are "counting" ten thousands, and at 8870 you have zero ten thousands. Commented Jul 3, 2018 at 18:13

Here is a test snippet:

DateTime bDay = new DateTime(2000, 2, 29);
DateTime now = new DateTime(2009, 2, 28);
MessageBox.Show(string.Format("Test {0} {1} {2}",
CalculateAgeWrong1(bDay, now),      // outputs 9
CalculateAgeWrong2(bDay, now),      // outputs 9
CalculateAgeCorrect(bDay, now),     // outputs 8
CalculateAgeCorrect2(bDay, now)));  // outputs 8

Here you have the methods:

public int CalculateAgeWrong1(DateTime birthDate, DateTime now)
{
return new DateTime(now.Subtract(birthDate).Ticks).Year - 1;
}

public int CalculateAgeWrong2(DateTime birthDate, DateTime now)
{
int age = now.Year - birthDate.Year;

age--;

return age;
}

public int CalculateAgeCorrect(DateTime birthDate, DateTime now)
{
int age = now.Year - birthDate.Year;

if (now.Month < birthDate.Month || (now.Month == birthDate.Month && now.Day < birthDate.Day))
age--;

return age;
}

public int CalculateAgeCorrect2(DateTime birthDate, DateTime now)
{
int age = now.Year - birthDate.Year;

// For leap years we need this
age--;
// Don't use:
//     age--;

return age;
}
• While this code works, it asserts that a person born on a leap day attains the next year of age on March 1st on non-leap years, rather than on February 28th. In reality, either option may be correct. Wikipedia has something to say about this. So while your code is not "wrong", neither is the accepted solution. Commented Aug 17, 2014 at 5:44
• @MattJohnson I think that's actually correct. If my bday was Feb 29, then Feb 28 my bday hasn't passed, and I should still be the same age as on Feb 27. On March 1, however, we have passed my bday and I should be the next age. In the US, a business that sells alcohol will have a sign that says something like "If you were born after this day in YYYY, you can't purchase alcohol" (where YYYY changes every year). That means that someone born on Feb 29 cannot buy alcohol on Feb 28 in the year they turn 21 (most places), and lends support to the idea that they are not a year older until March 1. Commented Jul 12, 2016 at 17:18
• @jfren484 - read the Wikipedia article. It varies considerably across jurisdictions. Commented Jul 12, 2016 at 19:26
• @jfren484 Your claim has absolutely nothing to do with philosophy; but everything to do with your own personal feeling. When a person born on 29 Feb "ages" is largely unimportant unless the age forms a 'legal age boundary' (e.g. Can buy alcohol, vote, get pension, join army, get driving license). Consider US drinking age (21 years): For most people that's 7670 days. It's 7671 days if born before 29 Feb in leap year or from 1 Mar before leap year. If born on 29 Feb: 28 Feb is 7670 days and 1 Mar is 7671 days. The choice is arbitrary it can go either way. Commented Mar 4, 2017 at 10:06
• @CraigYoung You don't understand what I meant by philosophically. I used that term as a contrast to legally. If one is writing an application that needs to know the legal age of a person, then all they need to know is how the legal jurisdictions that their application is used in/for treat people born on Feb 29. If, however, we're talking about how that should be treated, then that is by definition, philosophy. And yes, the opinion I gave is my own opinion, but as I said, I think it would be easier to argue for March 1 than it would be for Feb 28. Commented Mar 4, 2017 at 18:45

The simple answer to this is to apply AddYears as shown below because this is the only native method to add years to the 29th of Feb. of leap years and obtain the correct result of the 28th of Feb. for common years.

Some feel that 1th of Mar. is the birthday of leaplings but neither .Net nor any official rule supports this, nor does common logic explain why some born in February should have 75% of their birthdays in another month.

Further, an Age method lends itself to be added as an extension to DateTime. By this you can obtain the age in the simplest possible way:

1. List item

int age = birthDate.Age();

public static class DateTimeExtensions
{
/// <summary>
/// Calculates the age in years of the current System.DateTime object today.
/// </summary>
/// <param name="birthDate">The date of birth</param>
/// <returns>Age in years today. 0 is returned for a future date of birth.</returns>
public static int Age(this DateTime birthDate)
{
return Age(birthDate, DateTime.Today);
}

/// <summary>
/// Calculates the age in years of the current System.DateTime object on a later date.
/// </summary>
/// <param name="birthDate">The date of birth</param>
/// <param name="laterDate">The date on which to calculate the age.</param>
/// <returns>Age in years on a later day. 0 is returned as minimum.</returns>
public static int Age(this DateTime birthDate, DateTime laterDate)
{
int age;
age = laterDate.Year - birthDate.Year;

if (age > 0)
{
}
else
{
age = 0;
}

return age;
}
}

Now, run this test:

class Program
{
static void Main(string[] args)
{
RunTest();
}

private static void RunTest()
{
DateTime birthDate = new DateTime(2000, 2, 28);
DateTime laterDate = new DateTime(2011, 2, 27);
string iso = "yyyy-MM-dd";

for (int i = 0; i < 3; i++)
{
for (int j = 0; j < 3; j++)
{
}
}

}
}

The critical date example is this:

Birth date: 2000-02-29 Later date: 2011-02-28 Age: 11

Output:

{
Birth date: 2000-02-28  Later date: 2011-02-27  Age: 10
Birth date: 2000-02-28  Later date: 2011-02-28  Age: 11
Birth date: 2000-02-28  Later date: 2011-03-01  Age: 11
Birth date: 2000-02-29  Later date: 2011-02-27  Age: 10
Birth date: 2000-02-29  Later date: 2011-02-28  Age: 11
Birth date: 2000-02-29  Later date: 2011-03-01  Age: 11
Birth date: 2000-03-01  Later date: 2011-02-27  Age: 10
Birth date: 2000-03-01  Later date: 2011-02-28  Age: 10
Birth date: 2000-03-01  Later date: 2011-03-01  Age: 11
}

And for the later date 2012-02-28:

{
Birth date: 2000-02-28  Later date: 2012-02-28  Age: 12
Birth date: 2000-02-28  Later date: 2012-02-29  Age: 12
Birth date: 2000-02-28  Later date: 2012-03-01  Age: 12
Birth date: 2000-02-29  Later date: 2012-02-28  Age: 11
Birth date: 2000-02-29  Later date: 2012-02-29  Age: 12
Birth date: 2000-02-29  Later date: 2012-03-01  Age: 12
Birth date: 2000-03-01  Later date: 2012-02-28  Age: 11
Birth date: 2000-03-01  Later date: 2012-02-29  Age: 11
Birth date: 2000-03-01  Later date: 2012-03-01  Age: 12
}
• A comment regarding having the 29th Feb birthday on 1st March, technically, having it on the 28th is too early (1 day early in fact). On the 1st is one day too late. But since the birthday is between, using the 1st to calculate the age in non-leap years makes more sense to me, since that person is indeed that old on March 1st (and 2nd and 3rd) every year, but not on Feb 28th. Commented Jul 24, 2018 at 16:31
• From a software design point, writing this as an extension method doesn't make much sense to me. date.Age(other)? Commented Dec 12, 2018 at 8:11
• @marsze, I think it does make a lot of sense if you have your variables named accordingly. dob.Age(toDay)
– A.G.
Commented Sep 24, 2021 at 17:13

My suggestion

int age = (int) ((DateTime.Now - bday).TotalDays/365.242199);

That seems to have the year changing on the right date. (I spot tested up to age 107.)

• I don't think Harry Patch would have appreciated your spot-testing methodology: latimes.com/news/obituaries/… Commented Aug 1, 2009 at 16:03
• Google says days in a year = 365.242199
– mpen
Commented Aug 12, 2010 at 5:28
• The average length of a year in the Gregorian Calendar is 365.2425 days. Commented Oct 6, 2010 at 2:01
• I would say, this is one of the simplest solutions and it's good enough. Who cares if I am half a day before my Xth birthday and the program says I am X years old. The program is more or less right, although not mathematically. I really like this solution. Commented Mar 9, 2011 at 12:07
• ^^ Because sometimes it's important. In my testing this fails on the persons birthday, it reports them younger than they are. Commented Mar 25, 2011 at 5:27

Another function, not by me but found on the web and refined it a bit:

public static int GetAge(DateTime birthDate)
{
DateTime n = DateTime.Now; // To avoid a race condition around midnight
int age = n.Year - birthDate.Year;

if (n.Month < birthDate.Month || (n.Month == birthDate.Month && n.Day < birthDate.Day))
age--;

return age;
}

Just two things that come into my mind: What about people from countries that do not use the Gregorian calendar? DateTime.Now is in the server-specific culture I think. I have absolutely zero knowledge about actually working with Asian calendars and I do not know if there is an easy way to convert dates between calendars, but just in case you're wondering about those Chinese guys from the year 4660 :-)

• This appears to handle different regions (date formats) the best. Commented Nov 9, 2016 at 22:06

2 Main problems to solve are:

1. Calculate Exact age - in years, months, days, etc.

2. Calculate Generally perceived age - people usually do not care how old they exactly are, they just care when their birthday in the current year is.

Solution for 1 is obvious:

DateTime birth = DateTime.Parse("1.1.2000");
DateTime today = DateTime.Today;     //we usually don't care about birth time
TimeSpan age = today - birth;        //.NET FCL should guarantee this as precise
double ageInDays = age.TotalDays;    //total number of days ... also precise
double daysInYear = 365.2425;        //statistical value for 400 years
double ageInYears = ageInDays / daysInYear;  //can be shifted ... not so precise

Solution for 2 is the one which is not so precise in determing total age, but is perceived as precise by people. People also usually use it, when they calculate their age "manually":

DateTime birth = DateTime.Parse("1.1.2000");
DateTime today = DateTime.Today;
int age = today.Year - birth.Year;    //people perceive their age in years

if (today.Month < birth.Month ||
((today.Month == birth.Month) && (today.Day < birth.Day)))
{
age--;  //birthday in current year not yet reached, we are 1 year younger ;)
//+ no birthday for 29.2. guys ... sorry, just wrong date for birth
}

Notes to 2.:

• This is my preferred solution
• We cannot use DateTime.DayOfYear or TimeSpans, as they shift number of days in leap years
• I have put there little more lines for readability

Just one more note ... I would create 2 static overloaded methods for it, one for universal usage, second for usage-friendliness:

public static int GetAge(DateTime bithDay, DateTime today)
{
//chosen solution method body
}

public static int GetAge(DateTime birthDay)
{
return GetAge(birthDay, DateTime.Now);
}

The best way that I know of because of leap years and everything is:

DateTime birthDate = new DateTime(2000,3,1);
int age = (int)Math.Floor((DateTime.Now - birthDate).TotalDays / 365.25D);
• Buggy, just because it doesn't handle leap years/days. If you run it on your birthday, it'll calculate the wrong age half of the time. Commented Sep 5, 2021 at 12:42

Here's a one-liner:

int age = new DateTime(DateTime.Now.Subtract(birthday).Ticks).Year-1;
• This is broken. Made testable: public static int CalculateAge(DateTime dateOfBirth, DateTime dateToCalculateAge) { return new DateTime(dateToCalculateAge.Subtract(dateOfBirth).Ticks).Year - 1; } ...Gives age 14 when I input 1990-06-01 and calculate the age on the day BEFORE his 14th birthday (1990-05-31). Commented Feb 5, 2011 at 21:42
• @Kjensen The one-day shift is caused by different counts of 29th FEBs in the real time range (dateOfBirth to dateToCalculateAge) and the time range created by DateTime.Substract, which always implicitly compares to DateTime.Min, i.e. the 1-JAN-0001. From 31st may 1990 to 1st JUN 2005 you have four such leap days, From 1st JAN 0001 to 1st JAN 0015 you only have three 29th FEBs. Commented Sep 5, 2021 at 11:14

This is the version we use here. It works, and it's fairly simple. It's the same idea as Jeff's but I think it's a little clearer because it separates out the logic for subtracting one, so it's a little easier to understand.

public static int GetAge(this DateTime dateOfBirth, DateTime dateAsAt)
{
return dateAsAt.Year - dateOfBirth.Year - (dateOfBirth.DayOfYear < dateAsAt.DayOfYear ? 0 : 1);
}

You could expand the ternary operator to make it even clearer, if you think that sort of thing is unclear.

Obviously this is done as an extension method on DateTime, but clearly you can grab that one line of code that does the work and put it anywhere. Here we have another overload of the Extension method that passes in DateTime.Now, just for completeness.

• I think this can be off by one day when exactly one of dateOfBirth or dateAsAt falls in a leap year. Consider the age of a person born on March 1, 2003 on February 29, 2004. To rectify this, you need to do a lexicographic comparison of (Month, DayOfMonth) pairs and use that for the conditional. Commented Dec 23, 2008 at 15:36
• it's also not going to show the right age as of your birthday. Commented Jan 29, 2009 at 21:19

This gives "more detail" to this question. Maybe this is what you're looking for

DateTime birth = new DateTime(1974, 8, 29);
DateTime today = DateTime.Now;
TimeSpan span = today - birth;
DateTime age = DateTime.MinValue + span;

// Make adjustment due to MinValue equalling 1/1/1
int years = age.Year - 1;
int months = age.Month - 1;
int days = age.Day - 1;

// Print out not only how many years old they are but give months and days as well
Console.Write("{0} years, {1} months, {2} days", years, months, days);
• This does not work all the time. Adding a Span to the DateTime.MinValue could work boes this does not account for leap years etc. If you add the Years, months and days to Age using the AddYears(), AddMonths and AddDays() function it will not always return the Datetime.Now date. Commented Oct 23, 2013 at 9:44
• timespan itself automatically takes into account leap years between 2 dates so I'm not sure what your getting on about. I have asked on microsoft forums and microsoft has confirmed it takes into account leap years between 2 dates. Commented Oct 23, 2013 at 19:29
• Consider the following TWO senarios. 1st DateTime.Now is 1/1/2001 and a child is born on 1/1/2000. 2000 is a leap year and the result will be 1years, 0 months and 1 days. In the second senarion DateTime.Now is 1/1/2002 and the child is born on 1/1/2001. In this case the result will be 1 years, 0 months and 0 days. That will happen because you are adding the timespan on a non-leap year. If DateTime.MinValue was a leap year then the results would be 1 year at the first and 0 years 11 months and 30 days. (Try it in your code). Commented Oct 24, 2013 at 10:31
• Upvote! I came up with a solution that is pretty much identical (I used DateTime.MinValue.AddTicks(span.Ticks) instead of +, but the result is the same and yours has a few characters less code). Commented Mar 17, 2015 at 20:57
• You are quite right it's not. But IF it was that would be the result. Why does it matter? It doesn't. In either case leap or not then there are examples where this does not work. That was what I wanted to show. The DIFF is correct. Span takes into account leap years. But ADDING to a base date is not. Try the examples in code and you will see I'm right. Commented Mar 18, 2015 at 18:20

I use this:

public static class DateTimeExtensions
{
public static int Age(this DateTime birthDate)
{
return Age(birthDate, DateTime.Now);
}

public static int Age(this DateTime birthDate, DateTime offsetDate)
{
int result=0;
result = offsetDate.Year - birthDate.Year;

if (offsetDate.DayOfYear < birthDate.DayOfYear)
{
result--;
}

return result;
}
}

public static int AgeInYears(DateTime birthday, DateTime today)
{
return ((today.Year - birthday.Year) * 372 + (today.Month - birthday.Month) * 31 + (today.Day - birthday.Day)) / 372;
}

This has been extensively unit-tested. It does look a bit "magic". The number 372 is the number of days there would be in a year if every month had 31 days.

The explanation of why it works (lifted from here) is:

Let's set Yn = DateTime.Now.Year, Yb = birthday.Year, Mn = DateTime.Now.Month, Mb = birthday.Month, Dn = DateTime.Now.Day, Db = birthday.Day

age = Yn - Yb + (31*(Mn - Mb) + (Dn - Db)) / 372

We know that what we need is either Yn-Yb if the date has already been reached, Yn-Yb-1 if it has not.

a) If Mn<Mb, we have -341 <= 31*(Mn-Mb) <= -31 and -30 <= Dn-Db <= 30

-371 <= 31*(Mn - Mb) + (Dn - Db) <= -1

With integer division

(31*(Mn - Mb) + (Dn - Db)) / 372 = -1

b) If Mn=Mb and Dn<Db, we have 31*(Mn - Mb) = 0 and -30 <= Dn-Db <= -1

With integer division, again

(31*(Mn - Mb) + (Dn - Db)) / 372 = -1

c) If Mn>Mb, we have 31 <= 31*(Mn-Mb) <= 341 and -30 <= Dn-Db <= 30

1 <= 31*(Mn - Mb) + (Dn - Db) <= 371

With integer division

(31*(Mn - Mb) + (Dn - Db)) / 372 = 0

d) If Mn=Mb and Dn>Db, we have 31*(Mn - Mb) = 0 and 1 <= Dn-Db <= 30

With integer division, again

(31*(Mn - Mb) + (Dn - Db)) / 372 = 0

e) If Mn=Mb and Dn=Db, we have 31*(Mn - Mb) + Dn-Db = 0

and therefore (31*(Mn - Mb) + (Dn - Db)) / 372 = 0

I have created a SQL Server User Defined Function to calculate someone's age, given their birthdate. This is useful when you need it as part of a query:

using System;
using System.Data;
using System.Data.Sql;
using System.Data.SqlClient;
using System.Data.SqlTypes;
using Microsoft.SqlServer.Server;

public partial class UserDefinedFunctions
{
public static SqlInt32 CalculateAge(string strBirthDate)
{
DateTime dtBirthDate = new DateTime();
dtBirthDate = Convert.ToDateTime(strBirthDate);
DateTime dtToday = DateTime.Now;

// get the difference in years
int years = dtToday.Year - dtBirthDate.Year;

// subtract another year if we're before the
// birth day in the current year
if (dtToday.Month < dtBirthDate.Month || (dtToday.Month == dtBirthDate.Month && dtToday.Day < dtBirthDate.Day))
years=years-1;

int intCustomerAge = years;
return intCustomerAge;
}
};

I've spent some time working on this and came up with this to calculate someone's age in years, months and days. I've tested against the Feb 29th problem and leap years and it seems to work, I'd appreciate any feedback:

public void LoopAge(DateTime myDOB, DateTime FutureDate)
{
int years = 0;
int months = 0;
int days = 0;

DateTime tmpMyDOB = new DateTime(myDOB.Year, myDOB.Month, 1);

DateTime tmpFutureDate = new DateTime(FutureDate.Year, FutureDate.Month, 1);

{
months++;

if (months > 12)
{
years++;
months = months - 12;
}
}

if (FutureDate.Day >= myDOB.Day)
{
days = days + FutureDate.Day - myDOB.Day;
}
else
{
months--;

if (months < 0)
{
years--;
months = months + 12;
}

days +=
DateTime.DaysInMonth(
) + FutureDate.Day - myDOB.Day;

}

//add an extra day if the dob is a leap day
if (DateTime.IsLeapYear(myDOB.Year) && myDOB.Month == 2 && myDOB.Day == 29)
{
//but only if the future date is less than 1st March
if (FutureDate >= new DateTime(FutureDate.Year, 3, 1))
days++;
}

}

Do we need to consider people who is smaller than 1 year? as Chinese culture, we describe small babies' age as 2 months or 4 weeks.

Below is my implementation, it is not as simple as what I imagined, especially to deal with date like 2/28.

public static string HowOld(DateTime birthday, DateTime now)
{
if (now < birthday)
throw new ArgumentOutOfRangeException("birthday must be less than now.");

TimeSpan diff = now - birthday;
int diffDays = (int)diff.TotalDays;

if (diffDays > 7)//year, month and week
{
int age = now.Year - birthday.Year;

age--;

if (age > 0)
{
return age + (age > 1 ? " years" : " year");
}
else
{// month and week
DateTime d = birthday;
int diffMonth = 1;

{
diffMonth++;
}

age = diffMonth-1;

if (age == 1 && d.Day > now.Day)
age--;

if (age > 0)
{
return age + (age > 1 ? " months" : " month");
}
else
{
age = diffDays / 7;
return age + (age > 1 ? " weeks" : " week");
}
}
}
else if (diffDays > 0)
{
int age = diffDays;
return age + (age > 1 ? " days" : " day");
}
else
{
int age = diffDays;
return "just born";
}
}

This implementation has passed below test cases.

[TestMethod]
public void TestAge()
{
string age = HowOld(new DateTime(2011, 1, 1), new DateTime(2012, 11, 30));
Assert.AreEqual("1 year", age);

age = HowOld(new DateTime(2011, 11, 30), new DateTime(2012, 11, 30));
Assert.AreEqual("1 year", age);

age = HowOld(new DateTime(2001, 1, 1), new DateTime(2012, 11, 30));
Assert.AreEqual("11 years", age);

age = HowOld(new DateTime(2012, 1, 1), new DateTime(2012, 11, 30));
Assert.AreEqual("10 months", age);

age = HowOld(new DateTime(2011, 12, 1), new DateTime(2012, 11, 30));
Assert.AreEqual("11 months", age);

age = HowOld(new DateTime(2012, 10, 1), new DateTime(2012, 11, 30));
Assert.AreEqual("1 month", age);

age = HowOld(new DateTime(2008, 2, 28), new DateTime(2009, 2, 28));
Assert.AreEqual("1 year", age);

age = HowOld(new DateTime(2008, 3, 28), new DateTime(2009, 2, 28));
Assert.AreEqual("11 months", age);

age = HowOld(new DateTime(2008, 3, 28), new DateTime(2009, 3, 28));
Assert.AreEqual("1 year", age);

age = HowOld(new DateTime(2009, 1, 28), new DateTime(2009, 2, 28));
Assert.AreEqual("1 month", age);

age = HowOld(new DateTime(2009, 2, 1), new DateTime(2009, 3, 1));
Assert.AreEqual("1 month", age);

// NOTE.
// new DateTime(2008, 1, 31).AddMonths(1) == new DateTime(2009, 2, 28);
// new DateTime(2008, 1, 28).AddMonths(1) == new DateTime(2009, 2, 28);
age = HowOld(new DateTime(2009, 1, 31), new DateTime(2009, 2, 28));
Assert.AreEqual("4 weeks", age);

age = HowOld(new DateTime(2009, 2, 1), new DateTime(2009, 2, 28));
Assert.AreEqual("3 weeks", age);

age = HowOld(new DateTime(2009, 2, 1), new DateTime(2009, 3, 1));
Assert.AreEqual("1 month", age);

age = HowOld(new DateTime(2012, 11, 5), new DateTime(2012, 11, 30));
Assert.AreEqual("3 weeks", age);

age = HowOld(new DateTime(2012, 11, 1), new DateTime(2012, 11, 30));
Assert.AreEqual("4 weeks", age);

age = HowOld(new DateTime(2012, 11, 20), new DateTime(2012, 11, 30));
Assert.AreEqual("1 week", age);

age = HowOld(new DateTime(2012, 11, 25), new DateTime(2012, 11, 30));
Assert.AreEqual("5 days", age);

age = HowOld(new DateTime(2012, 11, 29), new DateTime(2012, 11, 30));
Assert.AreEqual("1 day", age);

age = HowOld(new DateTime(2012, 11, 30), new DateTime(2012, 11, 30));
Assert.AreEqual("just born", age);

age = HowOld(new DateTime(2000, 2, 29), new DateTime(2009, 2, 28));
Assert.AreEqual("8 years", age);

age = HowOld(new DateTime(2000, 2, 29), new DateTime(2009, 3, 1));
Assert.AreEqual("9 years", age);

Exception e = null;

try
{
age = HowOld(new DateTime(2012, 12, 1), new DateTime(2012, 11, 30));
}
catch (ArgumentOutOfRangeException ex)
{
e = ex;
}

Assert.IsTrue(e != null);
}

The simplest way I've ever found is this. It works correctly for the US and western europe locales. Can't speak to other locales, especially places like China. 4 extra compares, at most, following the initial computation of age.

public int AgeInYears(DateTime birthDate, DateTime referenceDate)
{
Debug.Assert(referenceDate >= birthDate,
"birth date must be on or prior to the reference date");

DateTime birth = birthDate.Date;
DateTime reference = referenceDate.Date;
int years = (reference.Year - birth.Year);

//
// an offset of -1 is applied if the birth date has
// not yet occurred in the current year.
//
if (reference.Month > birth.Month);
else if (reference.Month < birth.Month)
--years;
else // in birth month
{
if (reference.Day < birth.Day)
--years;
}

return years ;
}

I was looking over the answers to this and noticed that nobody has made reference to regulatory/legal implications of leap day births. For instance, per Wikipedia, if you're born on February 29th in various jurisdictions, you're non-leap year birthday varies:

• In the United Kingdom and Hong Kong: it's the ordinal day of the year, so the next day, March 1st is your birthday.
• In New Zealand: it's the previous day, February 28th for the purposes of driver licencing, and March 1st for other purposes.
• Taiwan: it's February 28th.

And as near as I can tell, in the US, the statutes are silent on the matter, leaving it up to the common law and to how various regulatory bodies define things in their regulations.

To that end, an improvement:

public enum LeapDayRule
{
OrdinalDay     = 1 ,
LastDayOfMonth = 2 ,
}

static int ComputeAgeInYears(DateTime birth, DateTime reference, LeapYearBirthdayRule ruleInEffect)
{
bool isLeapYearBirthday = CultureInfo.CurrentCulture.Calendar.IsLeapDay(birth.Year, birth.Month, birth.Day);
DateTime cutoff;

if (isLeapYearBirthday && !DateTime.IsLeapYear(reference.Year))
{
switch (ruleInEffect)
{
case LeapDayRule.OrdinalDay:
cutoff = new DateTime(reference.Year, 1, 1)
break;

case LeapDayRule.LastDayOfMonth:
cutoff = new DateTime(reference.Year, birth.Month, 1)
break;

default:
throw new InvalidOperationException();
}
}
else
{
cutoff = new DateTime(reference.Year, birth.Month, birth.Day);
}

int age = (reference.Year - birth.Year) + (reference >= cutoff ? 0 : -1);
return age < 0 ? 0 : age;
}

It should be noted that this code assumes:

• A western (European) reckoning of age, and
• A calendar, like the Gregorian calendar that inserts a single leap day at the end of a month.

Keeping it simple (and possibly stupid:)).

DateTime birth = new DateTime(1975, 09, 27, 01, 00, 00, 00);
TimeSpan ts = DateTime.Now - birth;
Console.WriteLine("You are approximately " + ts.TotalSeconds.ToString() + " seconds old.");
• TimeSpan was my first choice, but found that it doesn't offer a TotalYears property. You could try (ts.TotalDays / 365) - but it doesn't account for leap years etc. Commented Sep 21, 2011 at 20:14

This is not a direct answer, but more of a philosophical reasoning about the problem at hand from a quasi-scientific point of view.

I would argue that the question does not specify the unit nor culture in which to measure age, most answers seem to assume an integer annual representation. The SI-unit for time is second, ergo the correct generic answer should be (of course assuming normalized DateTime and taking no regard whatsoever to relativistic effects):

var lifeInSeconds = (DateTime.Now.Ticks - then.Ticks)/TickFactor;

In the Christian way of calculating age in years:

var then = ... // Then, in this case the birthday
var now = DateTime.UtcNow;
int age = now.Year - then.Year;

In finance there is a similar problem when calculating something often referred to as the Day Count Fraction, which roughly is a number of years for a given period. And the age issue is really a time measuring issue.

Example for the actual/actual (counting all days "correctly") convention:

DateTime start, end = .... // Whatever, assume start is before end

double startYearContribution = 1 - (double) start.DayOfYear / (double) (DateTime.IsLeapYear(start.Year) ? 366 : 365);
double endYearContribution = (double)end.DayOfYear / (double)(DateTime.IsLeapYear(end.Year) ? 366 : 365);
double middleContribution = (double) (end.Year - start.Year - 1);

double DCF = startYearContribution + endYearContribution + middleContribution;

Another quite common way to measure time generally is by "serializing" (the dude who named this date convention must seriously have been trippin'):

DateTime start, end = .... // Whatever, assume start is before end
int days = (end - start).Days;

I wonder how long we have to go before a relativistic age in seconds becomes more useful than the rough approximation of earth-around-sun-cycles during one's lifetime so far :) Or in other words, when a period must be given a location or a function representing motion for itself to be valid :)

• What is TickFactor? Commented Jun 5, 2020 at 10:22
• @Protiguous Ticks per second, used to normalise ticks to seconds. Commented Jun 5, 2020 at 14:52
TimeSpan diff = DateTime.Now - birthdayDateTime;
string age = String.Format("{0:%y} years, {0:%M} months, {0:%d}, days old", diff);

I'm not sure how exactly you'd like it returned to you, so I just made a readable string.

Here is a solution.

DateTime dateOfBirth = new DateTime(2000, 4, 18);
DateTime currentDate = DateTime.Now;

int ageInYears = 0;
int ageInMonths = 0;
int ageInDays = 0;

ageInDays = currentDate.Day - dateOfBirth.Day;
ageInMonths = currentDate.Month - dateOfBirth.Month;
ageInYears = currentDate.Year - dateOfBirth.Year;

if (ageInDays < 0)
{
ageInDays += DateTime.DaysInMonth(currentDate.Year, currentDate.Month);
ageInMonths = ageInMonths--;

if (ageInMonths < 0)
{
ageInMonths += 12;
ageInYears--;
}
}

if (ageInMonths < 0)
{
ageInMonths += 12;
ageInYears--;
}

Console.WriteLine("{0}, {1}, {2}", ageInYears, ageInMonths, ageInDays);
• With string concat, this would be possible: 47 Yrs 11 Mo 7 days Commented Jun 14, 2018 at 15:58

This is one of the most accurate answers that is able to resolve the birthday of 29th of Feb compared to any year of 28th Feb.

public int GetAge(DateTime birthDate)
{
int age = DateTime.Now.Year - birthDate.Year;

if (birthDate.DayOfYear > DateTime.Now.DayOfYear)
age--;

return age;
}

• It is today! (The next one is four years from now.) Commented Feb 29, 2020 at 1:06
• You can use DateTime.Today instead, since time does not matter for the calculation
– tif
Commented Aug 18, 2020 at 11:04

I have a customized method to calculate age, plus a bonus validation message just in case it helps:

public void GetAge(DateTime dob, DateTime now, out int years, out int months, out int days)
{
years = 0;
months = 0;
days = 0;

DateTime tmpdob = new DateTime(dob.Year, dob.Month, 1);
DateTime tmpnow = new DateTime(now.Year, now.Month, 1);

{
months++;
if (months > 12)
{
years++;
months = months - 12;
}
}

if (now.Day >= dob.Day)
days = days + now.Day - dob.Day;
else
{
months--;
if (months < 0)
{
years--;
months = months + 12;
}
}

if (DateTime.IsLeapYear(dob.Year) && dob.Month == 2 && dob.Day == 29 && now >= new DateTime(now.Year, 3, 1))
days++;

}

private string ValidateDate(DateTime dob) //This method will validate the date
{
int Years = 0; int Months = 0; int Days = 0;

GetAge(dob, DateTime.Now, out Years, out Months, out Days);

if (Years < 18)
message =  Years + " is too young. Please try again on your 18th birthday.";
else if (Years >= 65)
message = Years + " is too old. Date of Birth must not be 65 or older.";
else
return null; //Denotes validation passed
}

Method call here and pass out datetime value (MM/dd/yyyy if server set to USA locale). Replace this with anything a messagebox or any container to display:

DateTime dob = DateTime.Parse("03/10/1982");

string message = ValidateDate(dob);

lbldatemessage.Visible = !StringIsNullOrWhitespace(message);
lbldatemessage.Text = message ?? ""; //Ternary if message is null then default to empty string

Remember you can format the message any way you like.

static string CalcAge(DateTime birthDay)
{
DateTime currentDate = DateTime.Now;
int approximateAge = currentDate.Year - birthDay.Year;
int daysToNextBirthDay = (birthDay.Month * 30 + birthDay.Day) -
(currentDate.Month * 30 + currentDate.Day) ;

if (approximateAge == 0 || approximateAge == 1)
{
int month =  Math.Abs(daysToNextBirthDay / 30);
int days = Math.Abs(daysToNextBirthDay % 30);

if (month == 0)
return "Your age is: " + daysToNextBirthDay + " days";

return "Your age is: " + month + " months and " + days + " days"; ;
}

if (daysToNextBirthDay > 0)
return "Your age is: " + --approximateAge + " Years";

return "Your age is: " + approximateAge + " Years"; ;
}
private int GetAge(int _year, int _month, int _day
{
DateTime yourBirthDate= new DateTime(_year, _month, _day);

DateTime todaysDateTime = DateTime.Today;
int noOfYears = todaysDateTime.Year - yourBirthDate.Year;

if (DateTime.Now.Month < yourBirthDate.Month ||
(DateTime.Now.Month == yourBirthDate.Month && DateTime.Now.Day < yourBirthDate.Day))
{
noOfYears--;
}

return  noOfYears;
}

This classic question is deserving of a Noda Time solution.

static int GetAge(LocalDate dateOfBirth)
{
Instant now = SystemClock.Instance.Now;

// The target time zone is important.
// It should align with the *current physical location* of the person
// you are talking about.  When the whereabouts of that person are unknown,
// then you use the time zone of the person who is *asking* for the age.
// The time zone of birth is irrelevant!

DateTimeZone zone = DateTimeZoneProviders.Tzdb["America/New_York"];

LocalDate today = now.InZone(zone).Date;

Period period = Period.Between(dateOfBirth, today, PeriodUnits.Years);

return (int) period.Years;
}

Usage:

LocalDate dateOfBirth = new LocalDate(1976, 8, 27);
int age = GetAge(dateOfBirth);

You might also be interested in the following improvements:

• Passing in the clock as an IClock, instead of using SystemClock.Instance, would improve testability.

• The target time zone will likely change, so you'd want a DateTimeZone parameter as well.

See also my blog post on this subject: Handling Birthdays, and Other Anniversaries

SQL version:

declare @dd smalldatetime = '1980-04-01'
declare @age int = YEAR(GETDATE())-YEAR(@dd)
if (@dd> DATEADD(YYYY, -@age, GETDATE())) set @age = @age -1

print @age

The following approach (extract from Time Period Library for .NET class DateDiff) considers the calendar of the culture info:

// ----------------------------------------------------------------------
private static int YearDiff( DateTime date1, DateTime date2 )
{
return YearDiff( date1, date2, DateTimeFormatInfo.CurrentInfo.Calendar );
} // YearDiff

// ----------------------------------------------------------------------
private static int YearDiff( DateTime date1, DateTime date2, Calendar calendar )
{
if ( date1.Equals( date2 ) )
{
return 0;
}

int year1 = calendar.GetYear( date1 );
int month1 = calendar.GetMonth( date1 );
int year2 = calendar.GetYear( date2 );
int month2 = calendar.GetMonth( date2 );

// find the the day to compare
int compareDay = date2.Day;
int compareDaysPerMonth = calendar.GetDaysInMonth( year1, month1 );
if ( compareDay > compareDaysPerMonth )
{
compareDay = compareDaysPerMonth;
}

// build the compare date
DateTime compareDate = new DateTime( year1, month2, compareDay,
date2.Hour, date2.Minute, date2.Second, date2.Millisecond );
if ( date2 > date1 )
{
if ( compareDate < date1 )
{
}
}
else
{
if ( compareDate > date1 )
{
}
}
return year2 - calendar.GetYear( compareDate );
} // YearDiff

Usage:

// ----------------------------------------------------------------------
public void CalculateAgeSamples()
{
PrintAge( new DateTime( 2000, 02, 29 ), new DateTime( 2009, 02, 28 ) );
// > Birthdate=29.02.2000, Age at 28.02.2009 is 8 years
PrintAge( new DateTime( 2000, 02, 29 ), new DateTime( 2012, 02, 28 ) );
// > Birthdate=29.02.2000, Age at 28.02.2012 is 11 years
} // CalculateAgeSamples

// ----------------------------------------------------------------------
public void PrintAge( DateTime birthDate, DateTime moment )
{
Console.WriteLine( "Birthdate={0:d}, Age at {1:d} is {2} years", birthDate, moment, YearDiff( birthDate, moment ) );
} // PrintAge

This is simple and appears to be accurate for my needs. I am making an assumption for the purpose of leap years that regardless of when the person chooses to celebrate the birthday they are not technically a year older until 365 days have passed since their last birthday (i.e 28th February does not make them a year older).

DateTime now = DateTime.Today;
DateTime birthday = new DateTime(1991, 02, 03);//3rd feb

int age = now.Year - birthday.Year;

if (now.Month < birthday.Month || (now.Month == birthday.Month && now.Day < birthday.Day))//not had bday this year yet
age--;

return age;

I used ScArcher2's solution for an accurate Year calculation of a persons age but I needed to take it further and calculate their Months and Days along with the Years.

public static Dictionary<string,int> CurrentAgeInYearsMonthsDays(DateTime? ndtBirthDate, DateTime? ndtReferralDate)
{
//----------------------------------------------------------------------
// Can't determine age if we don't have a dates.
//----------------------------------------------------------------------
if (ndtBirthDate == null) return null;
if (ndtReferralDate == null) return null;

DateTime dtBirthDate = Convert.ToDateTime(ndtBirthDate);
DateTime dtReferralDate = Convert.ToDateTime(ndtReferralDate);

//----------------------------------------------------------------------
// Create our Variables
//----------------------------------------------------------------------
Dictionary<string, int> dYMD = new Dictionary<string,int>();
int iNowDate, iBirthDate, iYears, iMonths, iDays;
string sDif = "";

//----------------------------------------------------------------------
// Store off current date/time and DOB into local variables
//----------------------------------------------------------------------
iNowDate = int.Parse(dtReferralDate.ToString("yyyyMMdd"));
iBirthDate = int.Parse(dtBirthDate.ToString("yyyyMMdd"));

//----------------------------------------------------------------------
// Calculate Years
//----------------------------------------------------------------------
sDif = (iNowDate - iBirthDate).ToString();
iYears = int.Parse(sDif.Substring(0, sDif.Length - 4));

//----------------------------------------------------------------------
// Store Years in Return Value
//----------------------------------------------------------------------

//----------------------------------------------------------------------
// Calculate Months
//----------------------------------------------------------------------
if (dtBirthDate.Month > dtReferralDate.Month)
iMonths = 12 - dtBirthDate.Month + dtReferralDate.Month - 1;
else
iMonths = dtBirthDate.Month - dtReferralDate.Month;

//----------------------------------------------------------------------
// Store Months in Return Value
//----------------------------------------------------------------------

//----------------------------------------------------------------------
// Calculate Remaining Days
//----------------------------------------------------------------------
if (dtBirthDate.Day > dtReferralDate.Day)
//Logic: Figure out the days in month previous to the current month, or the admitted month.
//       Subtract the birthday from the total days which will give us how many days the person has lived since their birthdate day the previous month.
//       then take the referral date and simply add the number of days the person has lived this month.

//If referral date is january, we need to go back to the following year's December to get the days in that month.
if (dtReferralDate.Month == 1)
iDays = DateTime.DaysInMonth(dtReferralDate.Year - 1, 12) - dtBirthDate.Day + dtReferralDate.Day;
else
iDays = DateTime.DaysInMonth(dtReferralDate.Year, dtReferralDate.Month - 1) - dtBirthDate.Day + dtReferralDate.Day;
else
iDays = dtReferralDate.Day - dtBirthDate.Day;

//----------------------------------------------------------------------
// Store Days in Return Value
//----------------------------------------------------------------------