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In C#, how can I calculate the number of business (or weekdays) days between two dates?

Thanks!

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1  
Here is an example in C# that also extends into getting hours as well. codeproject.com/KB/datetime/CalculatingBusinessHours.aspx –  WesleyJohnson Oct 24 '09 at 5:30
1  
Take a look at infopathdev.com/forums/t/7156.aspx –  AVD Oct 24 '09 at 5:43
2  
so are you to exclude holidays? –  pxl Oct 24 '09 at 7:46
1  
possible duplicate of Add Business Days and GetBusinessDays –  Mark Pim Nov 24 '11 at 8:11

14 Answers 14

up vote 52 down vote accepted

I've had such a task before and I've got the solution. I would avoid enumerating all days in between when it's avoidable, which is the case here. I don't even mention creating a bunch of DateTime instances, as I saw in one of the answers above. This is really waste of processing power. Especially in the real world situation, when you have to examine time intervals of several months. See my code, with comments, below.

    /// <summary>
    /// Calculates number of business days, taking into account:
    ///  - weekends (Saturdays and Sundays)
    ///  - bank holidays in the middle of the week
    /// </summary>
    /// <param name="firstDay">First day in the time interval</param>
    /// <param name="lastDay">Last day in the time interval</param>
    /// <param name="bankHolidays">List of bank holidays excluding weekends</param>
    /// <returns>Number of business days during the 'span'</returns>
    public static int BusinessDaysUntil(this DateTime firstDay, DateTime lastDay, params DateTime[] bankHolidays)
    {
        firstDay = firstDay.Date;
        lastDay = lastDay.Date;
        if (firstDay > lastDay)
            throw new ArgumentException("Incorrect last day " + lastDay);

        TimeSpan span = lastDay - firstDay;
        int businessDays = span.Days + 1;
        int fullWeekCount = businessDays / 7;
        // find out if there are weekends during the time exceedng the full weeks
        if (businessDays > fullWeekCount*7)
        {
            // we are here to find out if there is a 1-day or 2-days weekend
            // in the time interval remaining after subtracting the complete weeks
            int firstDayOfWeek = (int) firstDay.DayOfWeek;
            int lastDayOfWeek = (int) lastDay.DayOfWeek;
            if (lastDayOfWeek < firstDayOfWeek)
                lastDayOfWeek += 7;
            if (firstDayOfWeek <= 6)
            {
                if (lastDayOfWeek >= 7)// Both Saturday and Sunday are in the remaining time interval
                    businessDays -= 2;
                else if (lastDayOfWeek >= 6)// Only Saturday is in the remaining time interval
                    businessDays -= 1;
            }
            else if (firstDayOfWeek <= 7 && lastDayOfWeek >= 7)// Only Sunday is in the remaining time interval
                businessDays -= 1;
        }

        // subtract the weekends during the full weeks in the interval
        businessDays -= fullWeekCount + fullWeekCount;

        // subtract the number of bank holidays during the time interval
        foreach (DateTime bankHoliday in bankHolidays)
        {
            DateTime bh = bankHoliday.Date;
            if (firstDay <= bh && bh <= lastDay)
                --businessDays;
        }

        return businessDays;
    }

Edit by Slauma, August 2011

Great answer! There is little bug though. I take the freedom to edit this answer since the answerer is absent since 2009.

The code above assumes that DayOfWeek.Sunday has the value 7 which is not the case. The value is actually 0. It leads to a wrong calculation if for example firstDay and lastDay are both the same Sunday. The method returns 1 in this case but it should be 0.

Easiest fix for this bug: Replace in the code above the lines where firstDayOfWeek and lastDayOfWeek are declared by the following:

int firstDayOfWeek = firstDay.DayOfWeek == DayOfWeek.Sunday 
    ? 7 : (int)firstDay.DayOfWeek;
int lastDayOfWeek = lastDay.DayOfWeek == DayOfWeek.Sunday
    ? 7 : (int)lastDay.DayOfWeek;

Now the result is:

  • Friday to Friday -> 1
  • Saturday to Saturday -> 0
  • Sunday to Sunday -> 0
  • Friday to Saturday -> 1
  • Friday to Sunday -> 1
  • Friday to Monday -> 2
  • Saturday to Monday -> 1
  • Sunday to Monday -> 1
  • Monday to Monday -> 1
share|improve this answer
    
+1 That's probably the easiest and most efficient way to do it (my solution coming from C++ doesn't use the support of TimeSpan, C# makes some tasks so much easier). The bankHolidays is a nice touch too! –  RedGlyph Oct 25 '09 at 10:10
2  
Also make sure that bank holidays as follows: if (firstDay <= bh && bh <= lastDay && bh.IsWorkingDay()) –  Tawani Oct 10 '11 at 21:21
1  
Thanks for the method. Although, I had to add the following to the bank holidays substraction/iteration if-statement: && !(bh.DayOfWeek == DayOfWeek.Sunday || bh.DayOfWeek == DayOfWeek.Saturday), else it would substract the same day twice, if a holiday falls in a weekend. –  KristianB May 7 '12 at 9:07
    
I changed the last loop for a Linq statement: businessDays -= bankHolidays.Select(bankHoliday => bankHoliday.Date).Count(bh => firstDay <= bh && bh <= lastDay); –  JoanComasFdz Nov 23 '12 at 8:40
    
The first day of the week can change according to user settings. –  MrFox Feb 20 '13 at 15:24

Define an Extension Method on DateTime like so:

public static class DateTimeExtensions
{
    public static bool IsWorkingDay(this DateTime date)
    {
        return date.DayOfWeek != DayOfWeek.Saturday
            && date.DayOfWeek != DayOfWeek.Sunday;
    }
}

Then, use is within a Where clause to filter a broader list of dates:

var allDates = GetDates(); // method which returns a list of dates

// filter dates by working day's  
var countOfWorkDays = allDates
     .Where(day => day.IsWorkingDay())
     .Count() ;
share|improve this answer
    
Would you not just go ahead and extend timespan as well so you can use that - since he did say he wanted to use the distance between two dates and not a list of dates? –  WesleyJohnson Oct 24 '09 at 9:20
    
The distance between the two dates is the number of day between, so the Count() is sufficient. –  Carles Company Oct 24 '09 at 10:23
1  
I'm not sure why this is a suitable answer...he doesn't have a list of individual days, he has two dates and he wants to find the number of business days between them. In order to use this solution you'd have to provide another function that produced a list of every date between the twyp. –  Adam Robinson Oct 24 '09 at 18:18
    
adam, this is a simple example with the minimum amount of code that is needed to demonstrate a concept. In my original answer, I also included a loop which popultated the allDates list which I have since abstracted away into the "GetDates" function. The IsWorkingDay test could easily be moved out of the LINQ statement and into that loop. I personally like how it is now though because it is very human readable as to what is happening. –  Qwerty Oct 24 '09 at 22:14
7  
Could be shorted by changing Where to Count, and eliminating Count –  recursive Oct 24 '09 at 23:33

Ok. I think it's time to post the right answer:

public static double GetBusinessDays(DateTime startD, DateTime endD)
{
    double calcBusinessDays =
        1 + ((endD - startD).TotalDays * 5 -
        (startD.DayOfWeek - endD.DayOfWeek) * 2) / 7;

    if ((int)endD.DayOfWeek == 6) calcBusinessDays--;
    if ((int)startD.DayOfWeek == 0) calcBusinessDays--;

    return calcBusinessDays;
}

Original Source:

http://alecpojidaev.wordpress.com/2009/10/29/work-days-calculation-with-c/

P.S. Solutions posted above making me sic for some reason.

share|improve this answer
3  
Good work, but perhaps use the DayOfWeek enums themselves rather than cast them to ints? –  Neo Jun 27 '12 at 12:56
1  
Seriously, best solution out there. Cheers Alec –  Mizmor Nov 8 '12 at 23:48
1  
GetBusinessDays('3/18/2013', '3/19/2013') == 2 ??? –  xanadont Mar 18 '13 at 14:30

I know this question is already solved, but I thought I could provide a more straightforward-looking answer that may help other visitors in the future.

Here's my take at it:

public int GetWorkingDays(Datetime from, DateTime to)
{
    var dayDifference = (int)to.Subtract(from).TotalDays;
    return Enumerable
        .Range(1, dayDifference)
        .Select(x => from.AddDays(x))
        .Count(x => x.DayOfWeek != DayOfWeek.Saturday && x.DayOfWeek != DayOfWeek.Sunday);
}

This was my original submission:

public int GetWorkingDays(DateTime from, DateTime to)
{
    var totalDays = 0;
    for (var date = from; date < to; date = date.AddDays(1))
    {
        if (date.DayOfWeek != DayOfWeek.Saturday
            && date.DayOfWeek != DayOfWeek.Sunday)
            totalDays++;
    }

    return totalDays;
}
share|improve this answer
    
"where" could be "count" to shorten it –  bygrace Jul 15 '13 at 15:21
    
@bygrace Very good point! Thanks, I had edited the answer. –  Alpha Jul 15 '13 at 21:01

I used the following code to also take in to account bank holidays:

public class WorkingDays
{
    public List<DateTime> GetHolidays()
    {
        var client = new WebClient();
        var json = client.DownloadString("https://www.gov.uk/bank-holidays.json");
        var js = new JavaScriptSerializer();
        var holidays = js.Deserialize <Dictionary<string, Holidays>>(json);
        return holidays["england-and-wales"].events.Select(d => d.date).ToList();
    }

    public int GetWorkingDays(DateTime from, DateTime to)
    {
        var totalDays = 0;
        var holidays = GetHolidays();
        for (var date = from.AddDays(1); date <= to; date = date.AddDays(1))
        {
            if (date.DayOfWeek != DayOfWeek.Saturday
                && date.DayOfWeek != DayOfWeek.Sunday
                && !holidays.Contains(date))
                totalDays++;
        }

        return totalDays;
    }
}

public class Holidays
{
    public string division { get; set; }
    public List<Event> events { get; set; }
}

public class Event
{
    public DateTime date { get; set; }
    public string notes { get; set; }
    public string title { get; set; }
}

And Unit Tests:

[TestClass]
public class WorkingDays
{
    [TestMethod]
    public void SameDayIsZero()
    {
        var service = new WorkingDays();

        var from = new DateTime(2013, 8, 12);

        Assert.AreEqual(0, service.GetWorkingDays(from, from));

    }

    [TestMethod]
    public void CalculateDaysInWorkingWeek()
    {
        var service = new WorkingDays();

        var from = new DateTime(2013, 8, 12);
        var to = new DateTime(2013, 8, 16);

        Assert.AreEqual(4, service.GetWorkingDays(from, to), "Mon - Fri = 4");

        Assert.AreEqual(1, service.GetWorkingDays(from, new DateTime(2013, 8, 13)), "Mon - Tues = 1");
    }

    [TestMethod]
    public void NotIncludeWeekends()
    {
        var service = new WorkingDays();

        var from = new DateTime(2013, 8, 9);
        var to = new DateTime(2013, 8, 16);

        Assert.AreEqual(5, service.GetWorkingDays(from, to), "Fri - Fri = 5");

        Assert.AreEqual(2, service.GetWorkingDays(from, new DateTime(2013, 8, 13)), "Fri - Tues = 2");
        Assert.AreEqual(1, service.GetWorkingDays(from, new DateTime(2013, 8, 12)), "Fri - Mon = 1");
    }

    [TestMethod]
    public void AccountForHolidays()
    {
        var service = new WorkingDays();

        var from = new DateTime(2013, 8, 23);

        Assert.AreEqual(0, service.GetWorkingDays(from, new DateTime(2013, 8, 26)), "Fri - Mon = 0");

        Assert.AreEqual(1, service.GetWorkingDays(from, new DateTime(2013, 8, 27)), "Fri - Tues = 1");
    }
}
share|improve this answer
    
+1 for gov.uk/bank-holidays.json –  dunxz Jul 8 at 10:05

Here's some code for that purpose, with swedish holidays but you can adapt what holidays to count. Note that I added a limit you might want to remove, but it was for a web-based system and I didnt want anyone to enter some huge date to hog the process

  public static int GetWorkdays(DateTime from ,DateTime to)
    {
        int limit = 9999;
        int counter = 0;
        DateTime current = from;
        int result = 0;

        if (from > to)
        {
            DateTime temp = from;
            from = to;
            to = temp;
        }

        if (from >= to)
        {
            return 0;
        }


        while (current <= to && counter < limit)
        {
            if (IsSwedishWorkday(current))
            {
                result++;
            }
            current = current.AddDays(1);
            counter++;

        }
        return result;
    }


    public static bool IsSwedishWorkday(DateTime date)
    {
        return (!IsSwedishHoliday(date) && date.DayOfWeek != DayOfWeek.Saturday && date.DayOfWeek != DayOfWeek.Sunday);
    }

    public static bool IsSwedishHoliday(DateTime date)
    {
        return (
        IsSameDay(GetEpiphanyDay(date.Year), date) ||
        IsSameDay(GetMayDay(date.Year), date) ||
        IsSameDay(GetSwedishNationalDay(date.Year), date) ||
        IsSameDay(GetChristmasDay(date.Year), date) ||
        IsSameDay(GetBoxingDay(date.Year), date) ||
        IsSameDay(GetGoodFriday(date.Year), date) ||
        IsSameDay(GetAscensionDay(date.Year), date) ||
        IsSameDay(GetAllSaintsDay(date.Year), date) ||
        IsSameDay(GetMidsummersDay(date.Year), date) ||
        IsSameDay(GetPentecostDay(date.Year), date) ||
        IsSameDay(GetEasterMonday(date.Year), date) ||
        IsSameDay(GetNewYearsDay(date.Year), date) ||
        IsSameDay(GetEasterDay(date.Year), date)
        );
    }

    // Trettondagen
    public static DateTime GetEpiphanyDay(int year)
    {
        return new DateTime(year, 1, 6);
    }

    // Första maj
    public static DateTime GetMayDay(int year)
    {
        return new DateTime(year,5,1);
    }

    // Juldagen
    public static DateTime GetSwedishNationalDay(int year)
    {
        return new DateTime(year, 6, 6);
    }


    // Juldagen
    public static DateTime GetNewYearsDay(int year)
    {
        return new DateTime(year,1,1);
    }

    // Juldagen
    public static DateTime GetChristmasDay(int year)
    {
        return new DateTime(year,12,25);
    }

    // Annandag jul
    public static DateTime GetBoxingDay(int year)
    {
        return new DateTime(year, 12, 26);
    }


    // Långfredagen
    public static DateTime GetGoodFriday(int year)
    {
        return GetEasterDay(year).AddDays(-3);
    }

    // Kristi himmelsfärdsdag
    public static DateTime GetAscensionDay(int year)
    {
        return GetEasterDay(year).AddDays(5*7+4);
    }

    // Midsommar
    public static DateTime GetAllSaintsDay(int year)
    {
        DateTime result = new DateTime(year,10,31);
        while (result.DayOfWeek != DayOfWeek.Saturday)
        {
            result = result.AddDays(1);
        }
        return result;
    }

    // Midsommar
    public static DateTime GetMidsummersDay(int year)
    {
        DateTime result = new DateTime(year, 6, 20);
        while (result.DayOfWeek != DayOfWeek.Saturday)
        {
            result = result.AddDays(1);
        }
        return result;
    }

    // Pingstdagen
    public static DateTime GetPentecostDay(int year)
    {
        return GetEasterDay(year).AddDays(7 * 7);
    }

    // Annandag påsk
    public static DateTime GetEasterMonday(int year)
    {
        return GetEasterDay(year).AddDays(1);
    }
    public static DateTime GetEasterDay(int y)
    {
        double c;
        double n;
        double k;
        double i;
        double j;
        double l;
        double m;
        double d;
        c = System.Math.Floor(y / 100.0);
        n = y - 19 * System.Math.Floor(y / 19.0);
        k = System.Math.Floor((c - 17) / 25.0);
        i = c - System.Math.Floor(c / 4) - System.Math.Floor((c - k) / 3) + 19 * n + 15;
        i = i - 30 * System.Math.Floor(i / 30);
        i = i - System.Math.Floor(i / 28) * (1 - System.Math.Floor(i / 28) * System.Math.Floor(29 / (i + 1)) * System.Math.Floor((21 - n) / 11));
        j = y + System.Math.Floor(y / 4.0) + i + 2 - c + System.Math.Floor(c / 4);
        j = j - 7 * System.Math.Floor(j / 7);
        l = i - j;
        m = 3 + System.Math.Floor((l + 40) / 44);// month
        d = l + 28 - 31 * System.Math.Floor(m / 4);// day

        double days = ((m == 3) ? d : d + 31);

        DateTime result = new DateTime(y, 3, 1).AddDays(days-1);

        return result;
    }
share|improve this answer

I think none of the above answers are actually correct. None of them solves all the special cases such as when the dates starts and ends on the middle of a weekend, when the date starts on a Friday and ends on next Monday, etc. On top of that, they all round the calculations to whole days, so if the start date is in the middle of a saturday for example, it will substract a whole day from the working days, giving wrong results...

Anyway, here is my solution that is quite efficient and simple and works for all cases. The trick is just to find the previous Monday for start and end dates, and then do a small compensation when start and end happens during the weekend:

public double WorkDays(DateTime startDate, DateTime endDate){
        double weekendDays;

        double days = endDate.Subtract(startDate).TotalDays;

        if(days<0) return 0;

        DateTime startMonday = startDate.AddDays(DayOfWeek.Monday - startDate.DayOfWeek).Date;
        DateTime endMonday = endDate.AddDays(DayOfWeek.Monday - endDate.DayOfWeek).Date;

        weekendDays = ((endMonday.Subtract(startMonday).TotalDays) / 7) * 2;

        // compute fractionary part of weekend days
        double diffStart = startDate.Subtract(startMonday).TotalDays - 5;
        double diffEnd = endDate.Subtract(endMonday).TotalDays - 5;

        // compensate weekenddays
        if(diffStart>0) weekendDays -= diffStart;
        if(diffEnd>0) weekendDays += diffEnd;

        return days - weekendDays;
    }
share|improve this answer

I'll just share my solution. It worked for me, maybe I just don't notice/know that theres a bug. I started by getting the first incomplete week if there's any. a complete week was from sunday for saturday, so if the (int)_now.DayOfWeek was not 0(Sunday), the first week was incomplete.

I just subtract 1 to first weeks count for the first week's saturday then add it to new count;

Then I get the last incomplete week, then subtract 1 for it's sunday then add to new count.

Then finally, the number of complete weeks multiply by 5(weekdays) was added to new count.

public int RemoveNonWorkingDays(int numberOfDays){

            int workingDays = 0;

            int firstWeek = 7 - (int)_now.DayOfWeek;

            if(firstWeek < 7){

                if(firstWeek > numberOfDays)
                    return numberOfDays;

                workingDays += firstWeek-1;
                numberOfDays -= firstWeek;
            }


            int lastWeek = numberOfDays % 7;

            if(lastWeek > 0){

                numberOfDays -= lastWeek;
                workingDays += lastWeek - 1;

            }

            workingDays += (numberOfDays/7)*5;

            return workingDays;
        }
share|improve this answer

This is a generic solution.

startdayvalue is day number of start date.

weekendday_1 is day numner of week end.

day number - MON - 1, TUE - 2, ... SAT - 6, SUN -7.

difference is difference between two dates..

Example : Start Date : 4 April, 2013, End Date : 14 April, 2013

Difference : 10, startdayvalue : 4, weekendday_1 : 7 (if SUNDAY is a weekend for you.)

This will give you number of holidays.

No of business day = (Difference + 1) - holiday1

    if (startdayvalue > weekendday_1)
    {

        if (difference > ((7 - startdayvalue) + weekendday_1))
        {
            holiday1 = (difference - ((7 - startdayvalue) + weekendday_1)) / 7;
            holiday1 = holiday1 + 1;
        }
        else
        {
            holiday1 = 0;
        }
    }
    else if (startdayvalue < weekendday_1)
    {

        if (difference > (weekendday_1 - startdayvalue))
        {
            holiday1 = (difference - (weekendday_1 - startdayvalue)) / 7;
            holiday1 = holiday1 + 1;
        }
        else if (difference == (weekendday_1 - startdayvalue))
        {
            holiday1 = 1;
        }
        else
        {
            holiday1 = 0;
        }
    }
    else
    {
        holiday1 = difference / 7;
        holiday1 = holiday1 + 1;
    }
share|improve this answer

I was having trouble finding a solid TSQL version of this code. Below is essentially a conversion of the C# code here with addition of the Holiday table which should be used to pre-calculate holidays.

CREATE TABLE dbo.Holiday
(
    HolidayDt       DATE NOT NULL,
    Name            NVARCHAR(50) NOT NULL,
    IsWeekday       BIT NOT NULL,
    CONSTRAINT PK_Holiday PRIMARY KEY (HolidayDt)
)
GO
CREATE INDEX IDX_Holiday ON Holiday (HolidayDt, IsWeekday)

GO

CREATE function dbo.GetBusinessDays
(
     @FirstDay  datetime,
     @LastDay   datetime
) 
RETURNS INT
 AS
BEGIN
    DECLARE @BusinessDays INT, @FullWeekCount INT 
    SELECT  @FirstDay = CONVERT(DATETIME,CONVERT(DATE,@FirstDay))
        ,   @LastDay = CONVERT(DATETIME,CONVERT(DATE,@LastDay))

    IF @FirstDay > @LastDay
        RETURN NULL;

    SELECT @BusinessDays = DATEDIFF(DAY, @FirstDay, @LastDay) + 1 
    SELECT @FullWeekCount = @BusinessDays / 7;

    -- find out if there are weekends during the time exceedng the full weeks
    IF @BusinessDays > (@FullWeekCount * 7)
    BEGIN
    -- we are here to find out if there is a 1-day or 2-days weekend
    -- in the time interval remaining after subtracting the complete weeks
        DECLARE @firstDayOfWeek INT, @lastDayOfWeek INT;
        SELECT @firstDayOfWeek = DATEPART(DW, @FirstDay), @lastDayOfWeek = DATEPART(DW, @LastDay);

        IF @lastDayOfWeek < @firstDayOfWeek
                SELECT @lastDayOfWeek = @lastDayOfWeek + 7;

        IF @firstDayOfWeek <= 6 
            BEGIN
                IF (@lastDayOfWeek >= 7) --Both Saturday and Sunday are in the remaining time interval
                    BEGIN 
                        SELECT @BusinessDays = @BusinessDays - 2
                    END
                ELSE IF @lastDayOfWeek>=6 --Only Saturday is in the remaining time interval
                    BEGIN
                        SELECT @BusinessDays = @BusinessDays - 1
                    END

            END
        ELSE IF @firstDayOfWeek <= 7 AND @lastDayOfWeek >=7 -- Only Sunday is in the remaining time interval
        BEGIN 
            SELECT @BusinessDays = @BusinessDays - 1
        END
    END

    -- subtract the weekends during the full weeks in the interval
    DECLARE @Holidays INT;
    SELECT  @Holidays = COUNT(*) 
    FROM    Holiday 
    WHERE   HolidayDt BETWEEN @FirstDay AND @LastDay 
    AND     IsWeekday = CAST(1 AS BIT)

    SELECT @BusinessDays = @BusinessDays - (@FullWeekCount + @FullWeekCount) -- - @Holidays

    RETURN @BusinessDays
END
share|improve this answer
    int BusinessDayDifference(DateTime Date1, DateTime Date2)
    {
        int Sign = 1;
        if (Date2 > Date1)
        {
            Sign = -1;
            DateTime TempDate = Date1;
            Date1 = Date2;
            Date2 = TempDate;
        }
        int BusDayDiff = (int)(Date1.Date - Date2.Date).TotalDays;
        if (Date1.DayOfWeek == DayOfWeek.Saturday)
            BusDayDiff -= 1;
        if (Date2.DayOfWeek == DayOfWeek.Sunday)
            BusDayDiff -= 1;
        int Week1 = GetWeekNum(Date1);
        int Week2 = GetWeekNum(Date2);
        int WeekDiff = Week1 - Week2;
        BusDayDiff -= WeekDiff * 2;
        foreach (DateTime Holiday in Holidays)
            if (Date1 >= Holiday && Date2 <= Holiday)
                BusDayDiff--;
        BusDayDiff *= Sign;
        return BusDayDiff;
    }

    private int GetWeekNum(DateTime Date)
    {
        return (int)(Date.AddDays(-(int)Date.DayOfWeek).Ticks / TimeSpan.TicksPerDay / 7);
    }
share|improve this answer
 public enum NonWorkingDays { SaturdaySunday = 0, FridaySaturday = 1 };
        public int getBusinessDates(DateTime dateSt, DateTime dateNd, NonWorkingDays nonWorkingDays = NonWorkingDays.SaturdaySunday)
        {
            List<DateTime> datelist = new List<DateTime>();
            while (dateSt.Date < dateNd.Date)
            {
                datelist.Add((dateSt = dateSt.AddDays(1)));
            }
            if (nonWorkingDays == NonWorkingDays.SaturdaySunday)
            {
                return datelist.Count(d => d.DayOfWeek != DayOfWeek.Saturday &&
                       d.DayOfWeek != DayOfWeek.Friday);
            }
            else
            {
                return datelist.Count(d => d.DayOfWeek != DayOfWeek.Friday &&
                       d.DayOfWeek != DayOfWeek.Saturday);
            }
        }
share|improve this answer

Here is one very simple solution for this problem. We have starting date, end date and "for loop" for encreasing the day and calculating to see if it's a workday or a weekend by converting to string DayOfWeek.

class Program
{
    static void Main(string[] args)
    {
        DateTime day = new DateTime();
        Console.Write("Inser your end date (example: 01/30/2015): ");
        DateTime endDate = DateTime.Parse(Console.ReadLine());
        int numberOfDays = 0;
        for (day = DateTime.Now.Date; day.Date < endDate.Date; day = day.Date.AddDays(1))
        {
            string dayToString = Convert.ToString(day.DayOfWeek);
            if (dayToString != "Saturday" && dayToString != "Sunday") numberOfDays++;
        }
        Console.WriteLine("Number of working days (not including local holidays) between two dates is "+numberOfDays);
    }
}
share|improve this answer

Based on the comment marked as answer and patch recommended , as well as -> This version wants to convert the Days to Business-Hours ... Considers Same day hours as well.

 /// <summary>
    /// Calculates number of business days, taking into account:
    ///  - weekends (Saturdays and Sundays)
    ///  - bank holidays in the middle of the week
    /// </summary>
    /// <param name="firstDay">First day in the time interval</param>
    /// <param name="lastDay">Last day in the time interval</param>
    /// <param name="bankHolidays">List of bank holidays excluding weekends</param>
    /// <returns>Number of business hours during the 'span'</returns>
    public static int BusinessHoursUntil(DateTime firstDay, DateTime lastDay, params DateTime[] bankHolidays)
    {
        var original_firstDay = firstDay;
        var original_lastDay = lastDay;
        firstDay = firstDay.Date;
        lastDay = lastDay.Date;
        if (firstDay > lastDay)
            return -1; //// throw new ArgumentException("Incorrect last day " + lastDay);

        TimeSpan span = lastDay - firstDay;
        int businessDays = span.Days + 1;
        int fullWeekCount = businessDays / 7;
        // find out if there are weekends during the time exceedng the full weeks
        if (businessDays > fullWeekCount * 7)
        {
            // we are here to find out if there is a 1-day or 2-days weekend
            // in the time interval remaining after subtracting the complete weeks
            int firstDayOfWeek = firstDay.DayOfWeek == DayOfWeek.Sunday ? 7 : (int)firstDay.DayOfWeek;
            int lastDayOfWeek = lastDay.DayOfWeek == DayOfWeek.Sunday ? 7 : (int)lastDay.DayOfWeek;

            if (lastDayOfWeek < firstDayOfWeek)
                lastDayOfWeek += 7;
            if (firstDayOfWeek <= 6)
            {
                if (lastDayOfWeek >= 7)// Both Saturday and Sunday are in the remaining time interval
                    businessDays -= 2;
                else if (lastDayOfWeek >= 6)// Only Saturday is in the remaining time interval
                    businessDays -= 1;
            }
            else if (firstDayOfWeek <= 7 && lastDayOfWeek >= 7)// Only Sunday is in the remaining time interval
                businessDays -= 1;
        }

        // subtract the weekends during the full weeks in the interval
        businessDays -= fullWeekCount + fullWeekCount;

        if (bankHolidays != null && bankHolidays.Any())
        {
            // subtract the number of bank holidays during the time interval
            foreach (DateTime bankHoliday in bankHolidays)
            {
                DateTime bh = bankHoliday.Date;
                if (firstDay <= bh && bh <= lastDay)
                    --businessDays;
            }
        }

        int total_business_hours = 0;
        if (firstDay.Date == lastDay.Date)
        {//If on the same day, go granular with Hours from the Orginial_*Day values
            total_business_hours = (int)(original_lastDay - original_firstDay).TotalHours;
        }
        else
        {//Convert Business-Days to TotalHours
            total_business_hours = (int)(firstDay.AddDays(businessDays).AddHours(firstDay.Hour) - firstDay).TotalHours;
        }
        return total_business_hours;
    }
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