# How to calculate number of leap years between two years in C#

Is there a better way to calculate number of leap years between two years. Assuming I have start date and end date.

I have my code, but I think there should be more elegant way.

calling code:

var numberOfLeapYears = NumberOfLeapYears(startDate.Year + 1, endDate.Year - 1);


function itself:

    private static int NumberOfLeapYears(int startYear, int endYear)
{
var counter = 0;

for (var year = startYear; year <= endYear; year++)
counter += DateTime.IsLeapYear(year) ? 1 : 0;

return counter;
}


So if I have startDate = "10/16/2006" and endDate = "4/18/2004" I should only have 1 leap year (2000) in result. Another words startDate's Year and endDate's year should not be calculated, only years in between.

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This seems like a reasonable implementation –  Xavier Poinas Jan 3 '11 at 19:19
I assume you meant 10/16/1996. In this case, you don't care about the 2/29/2004, which was a leap day that occurred prior to the end date of 4/18/2004? –  Anthony Pegram Jan 3 '11 at 19:19
Do you need to take into account that the leap year calculations were different before the Gregorian calendar reform? Also, do you need to take into account that some countries adopted the reformed calendar at different times? The number of leap years between two dates in England can be different than the number of leap years between two dates in the US for example. –  Eric Lippert Jan 3 '11 at 23:18
@Eric Lippert. No I don't need to take into account leap years different before Gregorian calendar reform. I don't need to take into account any countris (US only). Thanks Eric. –  Vlad Bezden Jan 4 '11 at 12:57
If you think of the number of loops, you can accelerate the process starting jumping by 4 years once you find the first one. –  Romias Dec 10 '11 at 18:23

You can count it using analytic approach. A year is a leap year if it can be divided by 4, but can't be divided by 100, except of case when it can be divided by 400. Assuming that you can count such number by following code:

        static int LeapYearsBetween(int start, int end)
{
System.Diagnostics.Debug.Assert(start < end);
return LeapYearsBefore(end) - LeapYearsBefore(start + 1);
}

static int LeapYearsBefore(int year)
{
System.Diagnostics.Debug.Assert(year > 0);
year--;
return (year / 4) - (year / 100) + (year / 400);
}


Some kind of math magic. It is much effective solution than using LINQ.

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I like this approach since there is no iteration for each year. In the begging I like more LINQ approach, but after analyzing your code I found it should not have impact on performance since LINQ approach need to go through each year and find if it is leap or not. Yours solution just pure math. I tested and it gives the same result as LINQ. Thanks again. –  Vlad Bezden Jan 3 '11 at 19:53
@Vlad Bezden, currently all the years are bellow 10000, so there is no feasible performance issue and because it will be done in memory it's not bad in all, in this cases I personally prefer clean code, if it was for database read write, yes it would be better to do it better. –  Saeed Amiri Jan 3 '11 at 19:56
Personally, I'd try to stick to O(1) algorithms over O(n) wherever possible. –  Jeff Mercado Jan 4 '11 at 10:10
FYI: Last method is the same as "(year-1) * 0.2425" if using doubles. :) –  James Wilkins Nov 17 '13 at 6:45
This is pretty fantastic! Thanks so much for sharing. –  aLearner Apr 25 '14 at 6:07

You can do it with LINQ simply as bellow:

var leepYears = Enumerable.Range(startYear, endYear - startYear + 1)
.Count(x => DateTime.IsLeapYear(x));

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I really like this code. I will mark it as answer. –  Vlad Bezden Jan 3 '11 at 19:29
@Vlad Bezden LINQ is great tool, but for this task there is much efficient solution (see my answer). When range is large LINQ solution is slow, but my algorithm is independent from range size. –  Victor Haydin Jan 3 '11 at 19:47
@mace, see my comment. –  Saeed Amiri Jan 3 '11 at 19:57
+1 I really this code - it's easy to read and the intent of code is very clear. –  Daniel James Bryars Jan 3 '11 at 19:57
@Vlad Bezden, but in most cases you have no big difference in start year and end year biggest possible is 2000 which is not big in this days. –  Saeed Amiri Jan 4 '11 at 5:32

This should perform much better for large spans of time:

public int LeapYearsBetween(int year1, int year2)
{
var y1 = new DateTime(year1, 1, 1);
var y2 = new DateTime(year2, 1, 1);
var nonLeapDays = 365 * (y2.Year - y1.Year);
var leapDays = (y2 - y1).Days - nonLeapDays;
return leapDays;
}


Note that this counts the earlier year if it is a leap year, but not the later year. You'll need to modify the function if you need different behavior.

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Another Linq :-)

int start = 1980;
int end = 2000;
var count = Enumerable.Range(start, end - start + 1)
.Aggregate(0, (a, b) => DateTime.IsLeapYear(b) ? a + 1 : a);

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Actually I like mace's solution, since it is pure calculation and no iteration, so I think mace's solution has less CPU utilization. I have more than 100K records to calculate Leap Years. –  Vlad Bezden Jan 3 '11 at 19:56

Just another code with primitives types

    public static int CountLeapYears(int startYear, int endYear)
{
int acc = 0;

while (true)
{
if ((startYear % 4 == 0 && startYear % 100 != 0) || startYear % 400 == 0)
acc++;
if (startYear + 1 == endYear) break;
startYear++;
}

return acc;
}

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Couldn't you just test the first 4 years and find the first leap year and subtract that from the total years and mod 4?

basically:

end_year - first_leap_year_found mod 4.

I wouldn't be surprised if there are a few tweaks in there to account for the fact that the entire date is specified, not just the year, but those alterations should be simple as well.

You end up only having to use the DateTime.IsLeapYear(year) statement at most 4 times, and then it's simple math after that.

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This ignores the fact that years that are evenly divisible by 100 are not leap years unless they are also evenly divisible by 400. –  chezy525 Jan 3 '11 at 19:50
ah, yes, agreed. Of course, that's another simple tweak. But the more 'simple tweaks' I claim, the less simple my proposed solution, so good point :) –  jaydel Jan 4 '11 at 13:08

On your maths (divisible by 100 are not leap years unless they are also evenly divisible by 400) this would mean 1900 was not a leap year? wrong

This means the following is correct: Couldn't you just test the first 4 years and find the first leap year and subtract that from the total years and mod 4? basically: end_year - first_leap_year_found mod 4 = 0 is a leap year

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If you call DateTime.IsLeapYear(1900) this will return false. And if you take a look at Wikipedia the year 1900 was not a leap year. So Victors calculation is correct and your assumption is false. –  Oliver Feb 26 '13 at 12:33