I would like the number of (potentially fractional) calendar months between two days e.g. 2 Jan 2013 - 15 Feb 2014 should be around 12.5 months.

I was surprised not to find this already answered on Google.

EDIT: I ended up writing some code - here's my answer if anybody needs the same (my Good Karma for the day :)

```
/// <summary>
/// Number of total calendar months between two dates. If day of month is different,
/// gives fractional approximation using average days per month.
/// </summary>
public static double MonthsBetween(DateTime start, DateTime finish)
{
//handle if dates switched - calculation same but there's a negative result:
double multiplier;
if(finish < start)
{
var temp = start;
start = finish;
finish = temp;
multiplier = -1;
}
else
{
multiplier = 1;
}
//1) 20 Mar 2012 - 13 Jan 2014 --> 2*12 months
//2) 15 Jan 2011 - 30 Jul 2012 --> 1*12 months
//3) 20 Jan 2010 - 25 Jan 2010 --> 0*12 months
double totalMonths = (finish.Year - start.Year)*12;
//1) 20 Mar 2012 - 13 Jan 2014 --> 2*12 + 1 - 3 = 22 months
//2) 15 Jan 2011 - 30 Jul 2012 --> 1*12 + 7 - 1 = 18 months
//3) 20 Jan 2010 - 25 Jan 2010 --> 0*12 + 0 months = 0 months
totalMonths += finish.Month - start.Month;
///Now we have "1st of the month to 1st of the month" difference. Days can only be approximated,
///since each month has a different number of days. Statistically (http://en.wikipedia.org/wiki/Month#Julian_and_Gregorian_calendars):
const double averageDaysInMonth = 30.436875;
///Remove the days we've included in the starting month (not in actual period):
totalMonths -= start.Day / averageDaysInMonth;
///Add the days in the finish month (weren't yet included, since had "1st to 1st"):
totalMonths += finish.Day / averageDaysInMonth;
//1) 20 Mar 2012 - 13 Jan 2014 --> 2*12 + 1 - 3 - 20/30 + 13/30 = 22 - 7/30 = 21.76 months
//2) 15 Jan 2011 - 30 Jul 2012 --> 1*12 + 7 - 1 - 15/30 + 30/30 = 18 + 15/30 = 18.5 months
//3) 20 Jan 2010 - 25 Jan 2010 --> 0*12 + 0 - 20/30 + 25/30 = 0 + 5/30 = 0.17 months
return totalMonths * multiplier;
}
```

Likewise, I realised just after I need something similar for years. Here's that code too, in case it helps somebody:

```
/// <summary>
/// Number of total calendar years between two dates. Gives fractional
/// approximation if months/days differ.
/// </summary>
public static double YearsBetween(DateTime start, DateTime finish)
{
//handle if dates switched - calculation same but there's a negative result:
double multiplier;
if (finish < start)
{
var temp = start;
start = finish;
finish = temp;
multiplier = -1;
}
else
{
multiplier = 1;
}
//1) 20 Mar 2012 - 13 Jan 2014 --> 2 years
//2) 15 Jan 2011 - 30 Jul 2012 --> 1 year
//3) 20 Jan 2010 - 25 Jan 2010 --> 0 years
double totalYears = finish.Year - start.Year;
///Now we have "1st of the year to 1st of the year" difference. Days/months can only be approximated,
///since each year has a different number of days. Statistically (http://en.wikipedia.org/wiki/Year):
const double averageDaysPerYear = 365.2425;
///Remove the days we've included in the starting year (not in actual period):
totalYears -= start.DayOfYear / averageDaysPerYear;
///Add the days in the finish year (weren't yet included, since had "Jan 1 to Jan 1"):
totalYears += finish.DayOfYear / averageDaysPerYear;
//1) 20 Mar 2012 - 13 Jan 2014 --> 2 - ~(2*30+20)/365 + 13/365 = 1.82 years
//2) 15 Jan 2011 - 30 Jul 2012 --> 1 - 15/365 + ~(6*30+30)/365 = 1.53 years
//3) 20 Jan 2010 - 25 Jan 2010 --> 0 - 20/365 + 25/365 = 0.01 years
return totalYears * multiplier;
}
```

likesdealing with never-ending billing disputes. A lawyer perhaps? – Hans Passant Jul 2 '11 at 11:20