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

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

-
Do we need to account in our code for cases where the person in question have travelled large distances near the speed of light? –  JTew Mar 25 '11 at 4:04
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 May 21 '11 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. –  Quandary Oct 3 '11 at 10:20
Shouldn't we close this question with the according to the rule: `Questions asking for code must demonstrate a minimal understanding of the problem being solved. Include attempted solutions, why they didn't work, and the expected results.` –  uthark Sep 6 at 15:34
@donkaka - Please elaborate on what you are looking for with the bounty. Thanks. –  Matt Johnson Sep 16 at 15:27

For some reason Jeff's code didn't seem simple enough. To me this seems simpler and easier to understand:

``````DateTime today = DateTime.Today;
int age = today.Year - bday.Year;
``````
-
Just wanted to comment on DateTime.Now performance. If you don't need an accurate time zone value, use DateTime.UtcNow it's much faster. –  JAG Jan 22 '09 at 10:29
Given we're talking birthdays you can just use DateTime.Today given the time part has no relevance. –  TreeUK Jul 24 '09 at 18:04
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). –  Lars D Nov 9 '09 at 22:09
This is wrong! Try it with a person born 2000/02/29. If now is 2009/02/28, your code will state that the person is 9 years old. –  Danvil Apr 15 '10 at 19:13
Good catch Danvil! Changed last line to: if (bday > now.AddYears(-age)) age--; I think that fixes it. It passed my measly 3 tests :-) –  Mike Polen Apr 16 '10 at 20:13

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:

``````var now = float.Parse(DateTime.Now.ToString("yyyy.MMdd"));
var dob = float.Parse(dateOfBirth.ToString("yyyy.MMdd"));
var age = (int)(now - dob);
``````

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;
}
``````
-

I don't know how the wrong solution can be accepted. The correct C# snippet was written by Michael Stum

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),
CalculateAgeWrong2(bDay, now),
CalculateAgeCorrect(bDay, now)));
``````

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;
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;
}
``````
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And the outputs?? –  Mark Aug 12 '10 at 5:29
this is the correct answer, it needs to be voted up! –  DaRKoN_ Mar 25 '11 at 5:32
+1 for your TDD approach to the answer! –  Xcalibur May 25 '11 at 4:03
Output was -Test 9 9 8 –  MoXplod Nov 29 '11 at 20:52

I don't think any of the answers so far provide for cultures that calculate age differently. See, for example, East Asian Age Reckoning versus that in the West.

Any real answer has to include localization. The Strategy Pattern would probably be in order in this example.

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From the wikipedia article that you provided: "In China and Japan it is used for traditional fortune-telling or religion, and it is disappearing in daily life between peoples in the city." –  some Dec 28 '08 at 9:15
@some -- Koreans still use this system primarily. –  Justin L. Jun 25 '10 at 9:15
Actually this concept can be pretty important - people don't like being told their personal information incorrectly. As an example, half of my family lives in Malaysia and half in the UK. Right now my age is considered two years higher when I'm with one side of my family than with the other. –  Phil Gan Aug 5 '10 at 8:16
Not only us this system used primarily in Korea, but as a tourist discussing ages with locals, locals will politely refer to yourself an each other by their birth year. I'm not 25, I'm 87. I like this approach better. more of an 'international birthdatetime format' –  Dean Rather Nov 12 '12 at 5:56

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
}
``````

/gustav

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+1 this is the closest I've come to a perfect answer to this question. –  mbjdev Mar 16 '11 at 13:37
I was about to downvote this question because this solution handles February 29 birth dates by increasing their age by one on February 28 in non-leap years. However, asking around I discovered that people born on February 29 will celebrate their birthday February 28 if needed (this is probably culture specific though). I'm curious how for instance air plane companies that sell differently priced tickets based on age handles this. Will you have to pay the full price already on February 28 or will you still get the child discount? –  Martin Liversage Jan 11 '12 at 17:42

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)

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Where does 365.255 come from? I don't think this will work in general. –  dreeves Jan 18 '09 at 3:15
365 for the days in a year. +0.25 for leap years. +0.005 for other corrections –  James Curran Jan 20 '09 at 16:04
I don't think Harry Patch would have appreciated your spot-testing methodology: latimes.com/news/obituaries/… –  MusiGenesis Aug 1 '09 at 16:03
The average length of a year in the Gregorian Calendar is 365.2425 days. –  dan04 Oct 6 '10 at 2:01
^^ Because sometimes it's important. In my testing this fails on the persons birthday, it reports them younger than they are. –  DaRKoN_ Mar 25 '11 at 5:27

I am late to the party, but here's a one-liner:

``````int age = new DateTime(DateTime.Now.Subtract(birthday).Ticks).Year-1;
``````
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Gotta love one-liners –  Cawas Mar 19 '10 at 23:20
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). –  Kjensen Feb 5 '11 at 21:42
As Kjensen says, it's broken folks - take away your upvotes... –  Will Dean May 13 '11 at 8:20
-1 for incorrect answer. –  Griffin Mar 23 '12 at 1:04
show 1 more comment

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. –  Doug McClean Dec 23 '08 at 15:36
show 1 more comment

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);
}
``````
-

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

``````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 0 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 :-)

-

Many years ago, to provide an age calculator gimmick on my website, I wrote a function to calculate age to a fraction. This is a quick port of that function to C# (from the PHP version). I'm afraid I haven't been able to test the C# version, but hope you enjoy all the same!

(Admittedly this is a bit gimmicky for the purposes of showing user profiles on Stack Overflow, but maybe readers will find some use for it. :-))

``double AgeDiff(DateTime date1, DateTime date2) {    double years = date2.Year - date1.Year;    /*     * If date2 and date1 + round(date2 - date1) are on different sides     * of 29 February, then our partial year is considered to have 366     * days total, otherwise it's 365. Note that 59 is the day number     * of 29 Feb.     */    double fraction = 365            + (DateTime.IsLeapYear(date2.Year) && date2.DayOfYear >= 59            && (date1.DayOfYear < 59 || date1.DayOfYear > date2.DayOfYear)            ? 1 : 0);    /*     * The only really nontrivial case is if date1 is in a leap year,     * and date2 is not. So let's handle the others first.     */    if (DateTime.IsLeapYear(date2.Year) == DateTime.IsLeapYear(date1.Year))        return years + (date2.DayOfYear - date1.DayOfYear) / fraction;    /*     * If date2 is in a leap year, but date1 is not and is March or     * beyond, shift up by a day.     */    if (DateTime.IsLeapYear(date2.Year)) {        return years + (date2.DayOfYear - date1.DayOfYear                - (date1.DayOfYear >= 59 ? 1 : 0)) / fraction;    }    /*     * If date1 is not on 29 February, shift down date1 by a day if     * March or later. Proceed normally.     */    if (date1.DayOfYear != 59) {        return years + (date2.DayOfYear - date1.DayOfYear                + (date1.DayOfYear > 59 ? 1 : 0)) / fraction;    }    /*     * Okay, here date1 is on 29 February, and date2 is not on a leap     * year. What to do now? On 28 Feb in date2's year, the ``age''     * should be just shy of a whole number, and on 1 Mar should be     * just over. Perhaps the easiest way is to a point halfway     * between those two: 58.5.     */    return years + (date2.DayOfYear - 58.5) / fraction;}``
-

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++;
}

}
``````
-

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.");
``````
-
show 1 more comment

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);``

Hope this helps.

-
show 1 more comment

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);
``````
-

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;
}
}
``````
-
``````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.

-

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--;
int intCustomerAge = years;
return intCustomerAge;
}
};
``````
-

``````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 <= 3`0

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`

-

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);
``````
-
``````var now = DateTime.Now;
var age = (int)Math.Floor(now.Substract(birdth).TotalYears);
``````
-
show 1 more comment

This is simple and appears to be accurate for my needs. I am making an assumption for the purposes of leap years that regardless of when the person chooses to celebrate the birthday they are not technically a year older until a full 365 days has passed since there 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;
``````

Let us know if you spot any problems ;)

-
``````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;
}
``````
-

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
//----------------------------------------------------------------------

return dYMD;
}
``````
-

I think the TimeSpan has all that we need in it, without having to resort to 365.25 (or any other approximation). Expanding on Aug's example:

``````DateTime myBD = new DateTime(1980, 10, 10);
TimeSpan difference = DateTime.Now.Subtract(myBD);

textBox1.Text = difference.Years + " years " + difference.Months + " Months " + difference.Days + " days";
``````
-
Nope. TimeSpan as Days, but no Months or Years –  James Curran Oct 3 '08 at 20:13

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 ;

}
``````
-

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 the amount 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 ones 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 :)

-

``````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"; ;
}
``````
-

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;

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 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
``````
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