Get next date within a quarter - c#

I need to create a function to return the next processing date for a given item. An item has a number that represents the month within a quarter that it is processed, as well as a number that represents the week within that month when it is processed. So, given a particular item's create date, I need to get the next processing date for that item, which will be the first day of it's assigned week and month within a quarter.
Note that weeks are broken out by 7 days from the start of the month, regardless of what day of the week. So the first day of the first week could start on Tuesday or any other day for the purposes of this calculation.
Example:
Let's say I have an item with a completed date of 1/8/2010. That item has a monthWithinQuarter value of 2. It has a weekWithinMonth value of 3. So for this item that resolves to the third week of February, so I would want the function to return a date of 2/15/2010.
The function should look something like this:
var nextProcessingDate = GetNextProcessingDate(
itemCompletedDate,
monthWithinQuarter,
weekWithinMonth);
This calculation has to be pretty fast as this calculation is going to be happening a lot, both in real time to display on a web site as well as in batch mode when processing items.
Thanks,
~ Justin

Okay, this should do it for you:
static DateTime GetNextProcessingDate(
DateTime itemCompletedDate,
int monthWithinQuarter,
int weekWithinMonth
) {
if (monthWithinQuarter < 1 || monthWithinQuarter > 3) {
throw new ArgumentOutOfRangeException("monthWithinQuarter");
}
if (weekWithinMonth < 1 || weekWithinMonth > 5) {
throw new ArgumentOutOfRangeException("weekWithinMonth");
}
int year = itemCompletedDate.Year;
DateTime[] startOfQuarters = new[] {
new DateTime(year, 1, 1),
new DateTime(year, 4, 1),
new DateTime(year, 7, 1),
new DateTime(year, 10, 1)
};
DateTime startOfQuarter = startOfQuarters.Where(d => d <= itemCompletedDate)
.OrderBy(d => d)
.Last();
int month = startOfQuarter.Month + monthWithinQuarter - 1;
int day = (weekWithinMonth - 1) * 7 + 1;
if (day > DateTime.DaysInMonth(year, month)) {
throw new ArgumentOutOfRangeException("weekWithinMonth");
}
DateTime candidate = new DateTime(year, month, day);
if (candidate < itemCompletedDate) {
month += 3;
if(month > 12) {
year++;
month -= 12;
}
}
return new DateTime(year, month, day);
}
As far as efficiency, the place where I see the most room for improvement is repeatedly creating the array
DateTime[] startOfQuarters = new[] {
new DateTime(year, 1, 1),
new DateTime(year, 4, 1),
new DateTime(year, 7, 1),
new DateTime(year, 10, 1)
};
So let's offload that to a method and memoize it:
static Dictionary<int, DateTime[]> cache = new Dictionary<int, DateTime[]>();
public static DateTime[] StartOfQuarters(DateTime date) {
int year = date.Year;
DateTime[] startOfQuarters;
if(!cache.TryGetValue(year, out startOfQuarters)) {
startOfQuarters = new[] {
new DateTime(year, 1, 1),
new DateTime(year, 4, 1),
new DateTime(year, 7, 1),
new DateTime(year, 10, 1)
};
cache.Add(year, startOfQuarters);
}
return startOfQuarters;
}
If you don't need the flexibility of quarters possibly starting on unusual days, you could replace
DateTime[] startOfQuarters = new[] {
new DateTime(year, 1, 1),
new DateTime(year, 4, 1),
new DateTime(year, 7, 1),
new DateTime(year, 10, 1)
};
DateTime startOfQuarter = startOfQuarters.Where(d => d <= itemCompletedDate).OrderBy(d => d).Last();
int month = startOfQuarter.Month + monthWithinQuarter - 1;
with
int month = 3 * ((itemCompletedDate.Month - 1) / 3) + monthWithinQuarter;

From what I understand, this should do the job:
public static DateTime GetNextProcessingDate(DateTime itemCreationDate, int monthWithinQuarter,
int weekWithinMonth)
{
var quarter = (itemCreationDate.Month - 1) / 4; // Assumes quarters are divided by calendar year.
var month = quarter * 4 + monthWithinQuarter; // First quarter of month plus month within quarter
var dayInMonth = (weekWithinMonth - 1) * 7 + 1; // Weeks are counted from first day, regardless of day of week (as you mention).
return new DateTime(itemCreationDate.Year, month, dayInMonth);
}
Let me know if any of it isn't clear.

Your calculation, I suppose should be reduced at
DateTime dt;
dt.AddDays(daysToAdd);
dt.AddMonths(monthsToAdd);
dt.AddHours(hoursToAdd);
dt.AddYears(yearsToAdd);

Related

Get x'th last working day (which is not a holiday) in month

How can i get for example 4th last working day (which is not a holiday) from a month ?
In August its 26.8.2015 day (Wednesday)
In September its 25.9.2015 day (Friday)
My actual code is following (i get an inspiration from here)
but i have an recursion and also it has syntax error.
static bool getLastXthWorkingDay(int x)
{
var weekends = new DayOfWeek[] { DayOfWeek.Saturday, DayOfWeek.Sunday };
int month = DateTime.Now.Month;
int year = DateTime.Now.Year;
IFormatProvider culture = new System.Globalization.CultureInfo("cs-CZ", true);
var holidays = new DateTime[] {
Convert.ToDateTime(String.Format("1.1.{0}",year),culture),
Convert.ToDateTime(String.Format("6.4.{0}",year),culture),
Convert.ToDateTime(String.Format("1.5.{0}",year),culture),
Convert.ToDateTime(String.Format("8.5.{0}",year),culture),
Convert.ToDateTime(String.Format("5.7.{0}",year),culture),
Convert.ToDateTime(String.Format("6.7.{0}",year),culture),
Convert.ToDateTime(String.Format("28.9.{0}",year),culture),
Convert.ToDateTime(String.Format("28.10.{0}",year),culture),
Convert.ToDateTime(String.Format("17.11.{0}",year),culture),
Convert.ToDateTime(String.Format("24.12.{0}",year),culture),
Convert.ToDateTime(String.Format("25.12.{0}",year),culture),
Convert.ToDateTime(String.Format("26.12.{0}",year),culture)
};
//Fetch the amount of days in your given month.
int daysInMonth = DateTime.DaysInMonth(year, month);
//Here we create an enumerable from 1 to daysInMonth,
//and ask whether the DateTime object we create belongs to a weekend day,
//if it doesn't, add it to our IEnumerable<int> collection of days.
IEnumerable<int> businessDaysInMonth = Enumerable.Range(1, daysInMonth)
.Where(d => !weekends.Contains(new DateTime(year, month, d).DayOfWeek));
var lastXthWorkingDay = businessDaysInMonth.Skip(Math.Max(0, businessDaysInMonth.Count() - x));
// This code has syntax error ") expected" but i dont see where ?
//if holidays.Contains(Convert.ToDateTime(String.Format("{0},{1},{2}", lastXthWorkingDay, month, year),culture))
//{
// getLastXthWorkingDay(x-1);
//}
//else { return true; }
}
any idea ?
Ok i think i got it. Thank you all
static int GetLastXthWorkingDay(int year, int month, int x)
{
var weekends = new DayOfWeek[] { DayOfWeek.Saturday, DayOfWeek.Sunday };
var holidays = new DateTime[] {
new DateTime(year, 4, 6),
new DateTime(year, 5, 1),
new DateTime(year, 5, 8),
new DateTime(year, 7, 5),
new DateTime(year, 7, 6),
new DateTime(year, 9, 28),
new DateTime(year, 10, 28),
new DateTime(year, 11, 17),
new DateTime(year, 12, 24),
new DateTime(year, 12, 25),
new DateTime(year, 12, 26),
};
//Fetch the amount of days in your given month.
int daysInMonth = DateTime.DaysInMonth(year, month);
//Here we create an enumerable from 1 to daysInMonth,
//and ask whether the DateTime object we create belongs to a weekend day,
//if it doesn't, add it to our IEnumerable<int> collection of days.
IEnumerable<int> businessDaysInMonth = Enumerable.Range(1, daysInMonth)
.Where(d => !weekends.Contains(new DateTime(year, month, d).DayOfWeek));
var lastXthWorkingDay = businessDaysInMonth.Skip(Math.Max(0, businessDaysInMonth.Count() - x));
foreach (var day in lastXthWorkingDay)
{
if ( holidays.Contains(new DateTime(year, month, day)) )
{
return GetLastXthWorkingDay(year, month, x + 1);
//return day-1;
}
else { return day; }
}
return 0;
}

Datediff without Weekends [duplicate]

In C#, how can I calculate the number of business (or weekdays) days between two dates?
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
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 (endD.DayOfWeek == DayOfWeek.Saturday) calcBusinessDays--;
if (startD.DayOfWeek == DayOfWeek.Sunday) calcBusinessDays--;
return calcBusinessDays;
}
Original Source:
http://alecpojidaev.wordpress.com/2009/10/29/work-days-calculation-with-c/
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;
}
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() ;
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");
}
}
I searched a lot for a, easy to digest, algorithm to calculate the working days between 2 dates, and also to exclude the national holidays, and finally I decide to go with this approach:
public static int NumberOfWorkingDaysBetween2Dates(DateTime start,DateTime due,IEnumerable<DateTime> holidays)
{
var dic = new Dictionary<DateTime, DayOfWeek>();
var totalDays = (due - start).Days;
for (int i = 0; i < totalDays + 1; i++)
{
if (!holidays.Any(x => x == start.AddDays(i)))
dic.Add(start.AddDays(i), start.AddDays(i).DayOfWeek);
}
return dic.Where(x => x.Value != DayOfWeek.Saturday && x.Value != DayOfWeek.Sunday).Count();
}
Basically I wanted to go with each date and evaluate my conditions:
Is not Saturday
Is not Sunday
Is not national holiday
but also I wanted to avoid iterating dates.
By running and measuring the time need it to evaluate 1 full year, I go the following result:
static void Main(string[] args)
{
var start = new DateTime(2017, 1, 1);
var due = new DateTime(2017, 12, 31);
var sw = Stopwatch.StartNew();
var days = NumberOfWorkingDaysBetween2Dates(start, due,NationalHolidays());
sw.Stop();
Console.WriteLine($"Total working days = {days} --- time: {sw.Elapsed}");
Console.ReadLine();
// result is:
// Total working days = 249-- - time: 00:00:00.0269087
}
Edit: a new method more simple:
public static int ToBusinessWorkingDays(this DateTime start, DateTime due, DateTime[] holidays)
{
return Enumerable.Range(0, (due - start).Days)
.Select(a => start.AddDays(a))
.Where(a => a.DayOfWeek != DayOfWeek.Sunday)
.Where(a => a.DayOfWeek != DayOfWeek.Saturday)
.Count(a => !holidays.Any(x => x == a));
}
This solution avoids iteration, works for both +ve and -ve weekday differences and includes a unit test suite to regression against the slower method of counting weekdays. I've also include a concise method to add weekdays also works in the same non-iterative way.
Unit tests cover a few thousand date combinations in order to exhaustively test all start/end weekday combinations with both small and large date ranges.
Important: We make the assumption that we are counting days by excluding the start date and including the end date. This is important when counting weekdays as the specific start/end days that you include/exclude affect the result. This also ensures that the difference between two equal days is always zero and that we only include full working days as typically you want the answer to be correct for any time on the current start date (often today) and include the full end date (e.g. a due date).
NOTE: This code needs an additional adjustment for holidays but in keeping with the above assumption, this code must exclude holidays on the start date.
Add weekdays:
private static readonly int[,] _addOffset =
{
// 0 1 2 3 4
{0, 1, 2, 3, 4}, // Su 0
{0, 1, 2, 3, 4}, // M 1
{0, 1, 2, 3, 6}, // Tu 2
{0, 1, 4, 5, 6}, // W 3
{0, 1, 4, 5, 6}, // Th 4
{0, 3, 4, 5, 6}, // F 5
{0, 2, 3, 4, 5}, // Sa 6
};
public static DateTime AddWeekdays(this DateTime date, int weekdays)
{
int extraDays = weekdays % 5;
int addDays = weekdays >= 0
? (weekdays / 5) * 7 + _addOffset[(int)date.DayOfWeek, extraDays]
: (weekdays / 5) * 7 - _addOffset[6 - (int)date.DayOfWeek, -extraDays];
return date.AddDays(addDays);
}
Compute weekday difference:
static readonly int[,] _diffOffset =
{
// Su M Tu W Th F Sa
{0, 1, 2, 3, 4, 5, 5}, // Su
{4, 0, 1, 2, 3, 4, 4}, // M
{3, 4, 0, 1, 2, 3, 3}, // Tu
{2, 3, 4, 0, 1, 2, 2}, // W
{1, 2, 3, 4, 0, 1, 1}, // Th
{0, 1, 2, 3, 4, 0, 0}, // F
{0, 1, 2, 3, 4, 5, 0}, // Sa
};
public static int GetWeekdaysDiff(this DateTime dtStart, DateTime dtEnd)
{
int daysDiff = (int)(dtEnd - dtStart).TotalDays;
return daysDiff >= 0
? 5 * (daysDiff / 7) + _diffOffset[(int) dtStart.DayOfWeek, (int) dtEnd.DayOfWeek]
: 5 * (daysDiff / 7) - _diffOffset[6 - (int) dtStart.DayOfWeek, 6 - (int) dtEnd.DayOfWeek];
}
I found that most other solutions on stack overflow were either slow (iterative) or overly complex and many were just plain incorrect. Moral of the story is ... Don't trust it unless you've exhaustively tested it!!
Unit tests based on NUnit Combinatorial testing and ShouldBe NUnit extension.
[TestFixture]
public class DateTimeExtensionsTests
{
/// <summary>
/// Exclude start date, Include end date
/// </summary>
/// <param name="dtStart"></param>
/// <param name="dtEnd"></param>
/// <returns></returns>
private IEnumerable<DateTime> GetDateRange(DateTime dtStart, DateTime dtEnd)
{
Console.WriteLine(#"dtStart={0:yy-MMM-dd ddd}, dtEnd={1:yy-MMM-dd ddd}", dtStart, dtEnd);
TimeSpan diff = dtEnd - dtStart;
Console.WriteLine(diff);
if (dtStart <= dtEnd)
{
for (DateTime dt = dtStart.AddDays(1); dt <= dtEnd; dt = dt.AddDays(1))
{
Console.WriteLine(#"dt={0:yy-MMM-dd ddd}", dt);
yield return dt;
}
}
else
{
for (DateTime dt = dtStart.AddDays(-1); dt >= dtEnd; dt = dt.AddDays(-1))
{
Console.WriteLine(#"dt={0:yy-MMM-dd ddd}", dt);
yield return dt;
}
}
}
[Test, Combinatorial]
public void TestGetWeekdaysDiff(
[Values(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 20, 30)]
int startDay,
[Values(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 20, 30)]
int endDay,
[Values(7)]
int startMonth,
[Values(7)]
int endMonth)
{
// Arrange
DateTime dtStart = new DateTime(2016, startMonth, startDay);
DateTime dtEnd = new DateTime(2016, endMonth, endDay);
int nDays = GetDateRange(dtStart, dtEnd)
.Count(dt => dt.DayOfWeek != DayOfWeek.Saturday && dt.DayOfWeek != DayOfWeek.Sunday);
if (dtEnd < dtStart) nDays = -nDays;
Console.WriteLine(#"countBusDays={0}", nDays);
// Act / Assert
dtStart.GetWeekdaysDiff(dtEnd).ShouldBe(nDays);
}
[Test, Combinatorial]
public void TestAddWeekdays(
[Values(1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 20, 30)]
int startDay,
[Values(0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 20, 30)]
int weekdays)
{
DateTime dtStart = new DateTime(2016, 7, startDay);
DateTime dtEnd1 = dtStart.AddWeekdays(weekdays); // ADD
dtStart.GetWeekdaysDiff(dtEnd1).ShouldBe(weekdays);
DateTime dtEnd2 = dtStart.AddWeekdays(-weekdays); // SUBTRACT
dtStart.GetWeekdaysDiff(dtEnd2).ShouldBe(-weekdays);
}
}
Well this has been beaten to death. :) However I'm still going to provide another answer because I needed something a bit different. This solution is different in that it returns a Business TimeSpan between the start and end, and you can set the business hours of the day, and add holidays. So you can use it to calculate if it happens within a day, across days, over weekends, and even holidays. And you can get just the business days or not by just getting what you need from the returned TimeSpan object. And the way it uses lists of days, you can see how very easy it would be to add the list of non-work days if it's not the typical Sat and Sun.
And I tested for a year, and it seems super fast.
I just hope the pasting of the code is accurate. But I know it works.
public static TimeSpan GetBusinessTimespanBetween(
DateTime start, DateTime end,
TimeSpan workdayStartTime, TimeSpan workdayEndTime,
List<DateTime> holidays = null)
{
if (end < start)
throw new ArgumentException("start datetime must be before end datetime.");
// Just create an empty list for easier coding.
if (holidays == null) holidays = new List<DateTime>();
if (holidays.Where(x => x.TimeOfDay.Ticks > 0).Any())
throw new ArgumentException("holidays can not have a TimeOfDay, only the Date.");
var nonWorkDays = new List<DayOfWeek>() { DayOfWeek.Saturday, DayOfWeek.Sunday };
var startTime = start.TimeOfDay;
// If the start time is before the starting hours, set it to the starting hour.
if (startTime < workdayStartTime) startTime = workdayStartTime;
var timeBeforeEndOfWorkDay = workdayEndTime - startTime;
// If it's after the end of the day, then this time lapse doesn't count.
if (timeBeforeEndOfWorkDay.TotalSeconds < 0) timeBeforeEndOfWorkDay = new TimeSpan();
// If start is during a non work day, it doesn't count.
if (nonWorkDays.Contains(start.DayOfWeek)) timeBeforeEndOfWorkDay = new TimeSpan();
else if (holidays.Contains(start.Date)) timeBeforeEndOfWorkDay = new TimeSpan();
var endTime = end.TimeOfDay;
// If the end time is after the ending hours, set it to the ending hour.
if (endTime > workdayEndTime) endTime = workdayEndTime;
var timeAfterStartOfWorkDay = endTime - workdayStartTime;
// If it's before the start of the day, then this time lapse doesn't count.
if (timeAfterStartOfWorkDay.TotalSeconds < 0) timeAfterStartOfWorkDay = new TimeSpan();
// If end is during a non work day, it doesn't count.
if (nonWorkDays.Contains(end.DayOfWeek)) timeAfterStartOfWorkDay = new TimeSpan();
else if (holidays.Contains(end.Date)) timeAfterStartOfWorkDay = new TimeSpan();
// Easy scenario if the times are during the day day.
if (start.Date.CompareTo(end.Date) == 0)
{
if (nonWorkDays.Contains(start.DayOfWeek)) return new TimeSpan();
else if (holidays.Contains(start.Date)) return new TimeSpan();
return endTime - startTime;
}
else
{
var timeBetween = end - start;
var daysBetween = (int)Math.Floor(timeBetween.TotalDays);
var dailyWorkSeconds = (int)Math.Floor((workdayEndTime - workdayStartTime).TotalSeconds);
var businessDaysBetween = 0;
// Now the fun begins with calculating the actual Business days.
if (daysBetween > 0)
{
var nextStartDay = start.AddDays(1).Date;
var dayBeforeEnd = end.AddDays(-1).Date;
for (DateTime d = nextStartDay; d <= dayBeforeEnd; d = d.AddDays(1))
{
if (nonWorkDays.Contains(d.DayOfWeek)) continue;
else if (holidays.Contains(d.Date)) continue;
businessDaysBetween++;
}
}
var dailyWorkSecondsToAdd = dailyWorkSeconds * businessDaysBetween;
var output = timeBeforeEndOfWorkDay + timeAfterStartOfWorkDay;
output = output + new TimeSpan(0, 0, dailyWorkSecondsToAdd);
return output;
}
}
And here is test code: Note that you just have to put this function in a class called DateHelper for the test code to work.
[TestMethod]
public void TestGetBusinessTimespanBetween()
{
var workdayStart = new TimeSpan(8, 0, 0);
var workdayEnd = new TimeSpan(17, 0, 0);
var holidays = new List<DateTime>()
{
new DateTime(2018, 1, 15), // a Monday
new DateTime(2018, 2, 15) // a Thursday
};
var testdata = new[]
{
new
{
expectedMinutes = 0,
start = new DateTime(2016, 10, 19, 9, 50, 0),
end = new DateTime(2016, 10, 19, 9, 50, 0)
},
new
{
expectedMinutes = 10,
start = new DateTime(2016, 10, 19, 9, 50, 0),
end = new DateTime(2016, 10, 19, 10, 0, 0)
},
new
{
expectedMinutes = 5,
start = new DateTime(2016, 10, 19, 7, 50, 0),
end = new DateTime(2016, 10, 19, 8, 5, 0)
},
new
{
expectedMinutes = 5,
start = new DateTime(2016, 10, 19, 16, 55, 0),
end = new DateTime(2016, 10, 19, 17, 5, 0)
},
new
{
expectedMinutes = 15,
start = new DateTime(2016, 10, 19, 16, 50, 0),
end = new DateTime(2016, 10, 20, 8, 5, 0)
},
new
{
expectedMinutes = 10,
start = new DateTime(2016, 10, 19, 16, 50, 0),
end = new DateTime(2016, 10, 20, 7, 55, 0)
},
new
{
expectedMinutes = 5,
start = new DateTime(2016, 10, 19, 17, 10, 0),
end = new DateTime(2016, 10, 20, 8, 5, 0)
},
new
{
expectedMinutes = 0,
start = new DateTime(2016, 10, 19, 17, 10, 0),
end = new DateTime(2016, 10, 20, 7, 5, 0)
},
new
{
expectedMinutes = 545,
start = new DateTime(2016, 10, 19, 12, 10, 0),
end = new DateTime(2016, 10, 20, 12, 15, 0)
},
// Spanning multiple weekdays
new
{
expectedMinutes = 835,
start = new DateTime(2016, 10, 19, 12, 10, 0),
end = new DateTime(2016, 10, 21, 8, 5, 0)
},
// Spanning multiple weekdays
new
{
expectedMinutes = 1375,
start = new DateTime(2016, 10, 18, 12, 10, 0),
end = new DateTime(2016, 10, 21, 8, 5, 0)
},
// Spanning from a Thursday to a Tuesday, 5 mins short of complete day.
new
{
expectedMinutes = 1615,
start = new DateTime(2016, 10, 20, 12, 10, 0),
end = new DateTime(2016, 10, 25, 12, 5, 0)
},
// Spanning from a Thursday to a Tuesday, 5 mins beyond complete day.
new
{
expectedMinutes = 1625,
start = new DateTime(2016, 10, 20, 12, 10, 0),
end = new DateTime(2016, 10, 25, 12, 15, 0)
},
// Spanning from a Friday to a Monday, 5 mins beyond complete day.
new
{
expectedMinutes = 545,
start = new DateTime(2016, 10, 21, 12, 10, 0),
end = new DateTime(2016, 10, 24, 12, 15, 0)
},
// Spanning from a Friday to a Monday, 5 mins short complete day.
new
{
expectedMinutes = 535,
start = new DateTime(2016, 10, 21, 12, 10, 0),
end = new DateTime(2016, 10, 24, 12, 5, 0)
},
// Spanning from a Saturday to a Monday, 5 mins short complete day.
new
{
expectedMinutes = 245,
start = new DateTime(2016, 10, 22, 12, 10, 0),
end = new DateTime(2016, 10, 24, 12, 5, 0)
},
// Spanning from a Saturday to a Sunday, 5 mins beyond complete day.
new
{
expectedMinutes = 0,
start = new DateTime(2016, 10, 22, 12, 10, 0),
end = new DateTime(2016, 10, 23, 12, 15, 0)
},
// Times within the same Saturday.
new
{
expectedMinutes = 0,
start = new DateTime(2016, 10, 22, 12, 10, 0),
end = new DateTime(2016, 10, 23, 12, 15, 0)
},
// Spanning from a Saturday to the Sunday next week.
new
{
expectedMinutes = 2700,
start = new DateTime(2016, 10, 22, 12, 10, 0),
end = new DateTime(2016, 10, 30, 12, 15, 0)
},
// Spanning a year.
new
{
expectedMinutes = 143355,
start = new DateTime(2016, 10, 22, 12, 10, 0),
end = new DateTime(2017, 10, 30, 12, 15, 0)
},
// Spanning a year with 2 holidays.
new
{
expectedMinutes = 142815,
start = new DateTime(2017, 10, 22, 12, 10, 0),
end = new DateTime(2018, 10, 30, 12, 15, 0)
},
};
foreach (var item in testdata)
{
Assert.AreEqual(item.expectedMinutes,
DateHelper.GetBusinessTimespanBetween(
item.start, item.end,
workdayStart, workdayEnd,
holidays)
.TotalMinutes);
}
}
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;
}
Works and without loops
This method doesn't use any loops and is actually quite simple. It expands the date range to full weeks since we know that each week has 5 business days. It then uses a lookup table to find the number of business days to subtract from the start and end to get the right result. I've expanded out the calculation to help show what's going on, but the whole thing could be condensed into a single line if needed.
Anyway, this works for me and so I thought I'd post it here in case it might help others. Happy coding.
Calculation
t : Total number of days between dates (1 if min = max)
a + b : Extra days needed to expand total to full weeks
k : 1.4 is number of weekdays per week, i.e., (t / 7) * 5
c : Number of weekdays to subtract from the total
m : A lookup table used to find the value of "c" for each day of the week
Culture
Code assumes a Monday to Friday work week. For other cultures, such as Sunday to Thursday, you'll need to offset the dates prior to calculation.
Method
public int Weekdays(DateTime min, DateTime max)
{
if (min.Date > max.Date) throw new Exception("Invalid date span");
var t = (max.AddDays(1).Date - min.Date).TotalDays;
var a = (int) min.DayOfWeek;
var b = 6 - (int) max.DayOfWeek;
var k = 1.4;
var m = new int[]{0, 0, 1, 2, 3, 4, 5};
var c = m[a] + m[b];
return (int)((t + a + b) / k) - c;
}
Here's a quick sample code. It's a class method, so will only work inside of your class. If you want it to be static, change the signature to private static (or public static).
private IEnumerable<DateTime> GetWorkingDays(DateTime sd, DateTime ed)
{
for (var d = sd; d <= ed; d = d.AddDays(1))
if (d.DayOfWeek != DayOfWeek.Saturday && d.DayOfWeek != DayOfWeek.Sunday)
yield return d;
}
This method creates a loop variable d, initializes it to the start day, sd, then increments by one day each iteration (d = d.AddDays(1)).
It returns the desired values using yield, which creates an iterator. The cool thing about iterators is that they don't hold all of the values of the IEnumerable in memory, only calling each one sequentially. This means that you can call this method from the dawn of time to now without having to worry about running out of memory.
This method returns the number of business days between two dates:
Here I use the DayOfWeek enum for checking weekends.
private static int BusinessDaysLeft(DateTime first, DateTime last)
{
var count = 0;
while (first.Date != last.Date)
{
if(first.DayOfWeek != DayOfWeek.Saturday && first.DayOfWeek != DayOfWeek.Sunday)
count++;
first = first.AddDays(1);
}
return count;
}
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;
}
using System;
namespace ConsoleApplication1
{
class Program
{
static void Main(string[] args)
{
DateTime start = new DateTime(2014, 1, 1);
DateTime stop = new DateTime(2014, 12, 31);
int totalWorkingDays = GetNumberOfWorkingDays(start, stop);
Console.WriteLine("There are {0} working days.", totalWorkingDays);
}
private static int GetNumberOfWorkingDays(DateTime start, DateTime stop)
{
TimeSpan interval = stop - start;
int totalWeek = interval.Days / 7;
int totalWorkingDays = 5 * totalWeek;
int remainingDays = interval.Days % 7;
for (int i = 0; i <= remainingDays; i++)
{
DayOfWeek test = (DayOfWeek)(((int)start.DayOfWeek + i) % 7);
if (test >= DayOfWeek.Monday && test <= DayOfWeek.Friday)
totalWorkingDays++;
}
return totalWorkingDays;
}
}
}
Here is the function which we can use to calculate business days between two date. I'm not using holiday list as it can vary accross country/region.
If we want to use it anyway we can take third argument as list of holiday and before incrementing count we should check that list does not contains d
public static int GetBussinessDaysBetweenTwoDates(DateTime StartDate, DateTime EndDate)
{
if (StartDate > EndDate)
return -1;
int bd = 0;
for (DateTime d = StartDate; d < EndDate; d = d.AddDays(1))
{
if (d.DayOfWeek != DayOfWeek.Saturday && d.DayOfWeek != DayOfWeek.Sunday)
bd++;
}
return bd;
}
By using marinjw library,
And solution provided by Alec Pojidaev i created below, this will skip public (you need to specify country) holidays:
Please Note that if you use actual DateTime and have hours present then you have to add .Date and best to reformat FromDate and ToDate as FromDate = FromDate.Date and ToDate = ToDate.Date
public static int GetProcessingTime(this DateTime? FromDate, DateTime? ToDate)
{
if (FromDate == null) return 0;
if (ToDate == null) return 0;
List<DateTime> Holidays = new List<DateTime>();
int startyear = FromDate.Value.Year;
int endyear = ToDate.Value.Year;
//loop years to extract all holidays
for(int i = startyear; i <= endyear; i++)
{
IList<DateTime> Temp = new PolandPublicHoliday().PublicHolidays(i);
Holidays.AddRange(Temp.ToList());
}
//exclude holidays outside of range
Holidays = Holidays.Where(x => x >= FromDate && x <= ToDate).ToList();
//exclude holidays that are set to be on sunday/saturday
Holidays = Holidays.Where(x => x.DayOfWeek != DayOfWeek.Sunday && x.DayOfWeek != DayOfWeek.Saturday).ToList();
//calculate date difference without sundays and saturdays Value need to be added as I am using nullable DateTime
double calcBusinessDays = 1 + ((FromDate.Value - ToDate.Value).TotalDays * 5 - (FromDate.Value.DayOfWeek - ToDate.Value.DayOfWeek) * 2) / 7;
if (FromDate.Value.DayOfWeek == DayOfWeek.Saturday) calcBusinessDays--;
if (ToDate.Value.DayOfWeek == DayOfWeek.Sunday) calcBusinessDays--;
//remove left holidays
if (Holidays!=null)
calcBusinessDays -= Holidays.Count;
return (int)calcBusinessDays;
}
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;
}
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
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);
}
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);
}
}
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;
}
I just improved #Alexander and #Slauma answer to support a business week as a parameter, for cases where saturday is a business day, or even cases where there is just a couple of days of the week that are considered business days:
/// <summary>
/// Calculate the number of business days between two dates, considering:
/// - Days of the week that are not considered business days.
/// - Holidays between these two dates.
/// </summary>
/// <param name="fDay">First day of the desired 'span'.</param>
/// <param name="lDay">Last day of the desired 'span'.</param>
/// <param name="BusinessDaysOfWeek">Days of the week that are considered to be business days, if NULL considers monday, tuesday, wednesday, thursday and friday as business days of the week.</param>
/// <param name="Holidays">Holidays, if NULL, considers no holiday.</param>
/// <returns>Number of business days during the 'span'</returns>
public static int BusinessDaysUntil(this DateTime fDay, DateTime lDay, DayOfWeek[] BusinessDaysOfWeek = null, DateTime[] Holidays = null)
{
if (BusinessDaysOfWeek == null)
BusinessDaysOfWeek = new DayOfWeek[] { DayOfWeek.Monday, DayOfWeek.Tuesday, DayOfWeek.Wednesday, DayOfWeek.Thursday, DayOfWeek.Friday };
if (Holidays == null)
Holidays = new DateTime[] { };
fDay = fDay.Date;
lDay = lDay.Date;
if (fDay > lDay)
throw new ArgumentException("Incorrect last day " + lDay);
int bDays = (lDay - fDay).Days + 1;
int fullWeekCount = bDays / 7;
int fullWeekCountMult = 7 - WeekDays.Length;
// Find out if there are weekends during the time exceedng the full weeks
if (bDays > (fullWeekCount * 7))
{
int fDayOfWeek = (int)fDay.DayOfWeek;
int lDayOfWeek = (int)lDay.DayOfWeek;
if (fDayOfWeek > lDayOfWeek)
lDayOfWeek += 7;
// If they are the same, we already covered it right before the Holiday subtraction
if (lDayOfWeek != fDayOfWeek)
{
// Here we need to see if any of the days between are considered business days
for (int i = fDayOfWeek; i <= lDayOfWeek; i++)
if (!WeekDays.Contains((DayOfWeek)(i > 6 ? i - 7 : i)))
bDays -= 1;
}
}
// Subtract the days that are not in WeekDays[] during the full weeks in the interval
bDays -= (fullWeekCount * fullWeekCountMult);
// Subtract the number of bank holidays during the time interval
bDays = bDays - Holidays.Select(x => x.Date).Count(x => fDay <= x && x <= lDay);
return bDays;
}
I believe this could be a simpler way:
public int BusinessDaysUntil(DateTime start, DateTime end, params DateTime[] bankHolidays)
{
int tld = (int)((end - start).TotalDays) + 1; //including end day
int not_buss_day = 2 * (tld / 7); //Saturday and Sunday
int rest = tld % 7; //rest.
if (rest > 0)
{
int tmp = (int)start.DayOfWeek - 1 + rest;
if (tmp == 6 || start.DayOfWeek == DayOfWeek.Sunday) not_buss_day++; else if (tmp > 6) not_buss_day += 2;
}
foreach (DateTime bankHoliday in bankHolidays)
{
DateTime bh = bankHoliday.Date;
if (!(bh.DayOfWeek == DayOfWeek.Saturday || bh.DayOfWeek == DayOfWeek.Sunday) && (start <= bh && bh <= end))
{
not_buss_day++;
}
}
return tld - not_buss_day;
}
Here's yet another idea - this method allows to specify any working week and holidays.
The idea here is that we find the core of the date range from the first first working day of the week to the last weekend day of the week. This enables us to calculate the whole weeks easily (without iterating over all of the dates). All we need to do then is to add the working days that fall before the start and end of this core range.
public static int CalculateWorkingDays(
DateTime startDate,
DateTime endDate,
IList<DateTime> holidays,
DayOfWeek firstDayOfWeek,
DayOfWeek lastDayOfWeek)
{
// Make sure the defined working days run contiguously
if (lastDayOfWeek < firstDayOfWeek)
{
throw new Exception("Last day of week cannot fall before first day of week!");
}
// Create a list of the days of the week that make-up the weekend by working back
// from the firstDayOfWeek and forward from lastDayOfWeek to get the start and end
// the weekend
var weekendStart = lastDayOfWeek == DayOfWeek.Saturday ? DayOfWeek.Sunday : lastDayOfWeek + 1;
var weekendEnd = firstDayOfWeek == DayOfWeek.Sunday ? DayOfWeek.Saturday : firstDayOfWeek - 1;
var weekendDays = new List<DayOfWeek>();
var w = weekendStart;
do {
weekendDays.Add(w);
if (w == weekendEnd) break;
w = (w == DayOfWeek.Saturday) ? DayOfWeek.Sunday : w + 1;
} while (true);
// Force simple dates - no time
startDate = startDate.Date;
endDate = endDate.Date;
// Ensure a progessive date range
if (endDate < startDate)
{
var t = startDate;
startDate = endDate;
endDate = t;
}
// setup some working variables and constants
const int daysInWeek = 7; // yeah - really!
var actualStartDate = startDate; // this will end up on startOfWeek boundary
var actualEndDate = endDate; // this will end up on weekendEnd boundary
int workingDaysInWeek = daysInWeek - weekendDays.Count;
int workingDays = 0; // the result we are trying to find
int leadingDays = 0; // the number of working days leading up to the firstDayOfWeek boundary
int trailingDays = 0; // the number of working days counting back to the weekendEnd boundary
// Calculate leading working days
// if we aren't on the firstDayOfWeek we need to step forward to the nearest
if (startDate.DayOfWeek != firstDayOfWeek)
{
var d = startDate;
do {
if (d.DayOfWeek == firstDayOfWeek || d >= endDate)
{
actualStartDate = d;
break;
}
if (!weekendDays.Contains(d.DayOfWeek))
{
leadingDays++;
}
d = d.AddDays(1);
} while(true);
}
// Calculate trailing working days
// if we aren't on the weekendEnd we step back to the nearest
if (endDate >= actualStartDate && endDate.DayOfWeek != weekendEnd)
{
var d = endDate;
do {
if (d.DayOfWeek == weekendEnd || d < actualStartDate)
{
actualEndDate = d;
break;
}
if (!weekendDays.Contains(d.DayOfWeek))
{
trailingDays++;
}
d = d.AddDays(-1);
} while(true);
}
// Calculate the inclusive number of days between the actualStartDate and the actualEndDate
var coreDays = (actualEndDate - actualStartDate).Days + 1;
var noWeeks = coreDays / daysInWeek;
// add together leading, core and trailing days
workingDays += noWeeks * workingDaysInWeek;
workingDays += leadingDays;
workingDays += trailingDays;
// Finally remove any holidays that fall within the range.
if (holidays != null)
{
workingDays -= holidays.Count(h => h >= startDate && (h <= endDate));
}
return workingDays;
}
Since I can't comment. There is one more issue with the accepted solution where bank holidays are subtracted even when they are situated in the weekend. Seeing how other input is checked, it is only fitting that this is as well.
The foreach should therefore be:
// subtract the number of bank holidays during the time interval
foreach (DateTime bankHoliday in bankHolidays)
{
DateTime bh = bankHoliday.Date;
// Do not subtract bank holidays when they fall in the weekend to avoid double subtraction
if (bh.DayOfWeek == DayOfWeek.Saturday || bh.DayOfWeek == DayOfWeek.Sunday)
continue;
if (firstDay <= bh && bh <= lastDay)
--businessDays;
}
Here is an approach if you are using MVC.
I have also calculated national holidays or any festive days to be excluded by fetching it from holidayscalendar which you will need to make one.
foreach (DateTime day in EachDay(model))
{
bool key = false;
foreach (LeaveModel ln in holidaycalendar)
{
if (day.Date == ln.Date && day.DayOfWeek != DayOfWeek.Saturday && day.DayOfWeek != DayOfWeek.Sunday)
{
key = true; break;
}
}
if (day.DayOfWeek == DayOfWeek.Saturday || day.DayOfWeek == DayOfWeek.Sunday)
{
key = true;
}
if (key != true)
{
leavecount++;
}
}
Leavemodel is a list here
Here is an helper function I wrote for that task. it also returns the count of weekends via the out parameter. if you wish you can customize the "weekend" days in run time for countries that use different weekend days or to include holidays trough the weekendDays[] optional parameter :
public static int GetNetworkDays(DateTime startDate, DateTime endDate,out int totalWeekenDays, DayOfWeek[] weekendDays = null)
{
if (startDate >= endDate)
{
throw new Exception("start date can not be greater then or equel to end date");
}
DayOfWeek[] weekends = new DayOfWeek[] { DayOfWeek.Sunday, DayOfWeek.Saturday };
if (weekendDays != null)
{
weekends = weekendDays;
}
var totaldays = (endDate - startDate).TotalDays + 1; // add one to include the first day to
var counter = 0;
var workdaysCounter = 0;
var weekendsCounter = 0;
for (int i = 0; i < totaldays; i++)
{
if (weekends.Contains(startDate.AddDays(counter).DayOfWeek))
{
weekendsCounter++;
}
else
{
workdaysCounter++;
}
counter++;
}
totalWeekenDays = weekendsCounter;
return workdaysCounter;
}
I came up with the following solution
var dateStart = new DateTime(2019,01,10);
var dateEnd = new DateTime(2019,01,31);
var timeBetween = (dateEnd - dateStart).TotalDays + 1;
int numberOf7DayWeeks = (int)(timeBetween / 7);
int numberOfWeekendDays = numberOf7DayWeeks * 2;
int workingDays =(int)( timeBetween - numberOfWeekendDays);
if(dateStart.DayOfWeek == DayOfWeek.Saturday || dateEnd.DayOfWeek == DayOfWeek.Sunday){
workingDays -=2;
}
if(dateStart.DayOfWeek == DayOfWeek.Sunday || dateEnd.DayOfWeek == DayOfWeek.Saturday){
workingDays -=1;
}
You just have to iterate through each day in the time range and subtract a day from the counter if its a Saturday or a Sunday.
private float SubtractWeekend(DateTime start, DateTime end) {
float totaldays = (end.Date - start.Date).Days;
var iterationVal = totalDays;
for (int i = 0; i <= iterationVal; i++) {
int dayVal = (int)start.Date.AddDays(i).DayOfWeek;
if(dayVal == 6 || dayVal == 0) {
// saturday or sunday
totalDays--;
}
}
return totalDays;
}
public static int CalculateBusinessDaysInRange(this DateTime startDate, DateTime endDate, params DateTime[] holidayDates)
{
endDate = endDate.Date;
if(startDate > endDate)
throw new ArgumentException("The end date can not be before the start date!", nameof(endDate));
int accumulator = 0;
DateTime itterator = startDate.Date;
do
{
if(itterator.DayOfWeek != DayOfWeek.Saturday && itterator.DayOfWeek != DayOfWeek.Sunday && !holidayDates.Any(hol => hol.Date == itterator))
{ accumulator++; }
}
while((itterator = itterator.AddDays(1)).Date <= endDate);
return accumulator
}
I'm only posting this because despite all of the excellent answers that have been given, none of the math made sense to me. This is definitely a KISS method that should work and be fairly maintainable. Granted if you are calculating ranges that are greater than 2-3 months this will not be the most effective way. We simply determine if it is a Saturday or Sunday or the date is a given holiday date. If it's not we add a business day. If it is then everything is fine.
I'm sure this could be even more so simplified with LINQ, but this way is much easier to understand.

Calculate the start date of a Financial Quarter a date is in

Assume Financial Quarters always start on the 1st of a month and they are always 3 calendar months long.
Different organisations start their Financial Year (FY) in different months - some may be 1st April , some may be 1st July or could be just 1st Jan (which will match normal Calendar Quarters).
Given a date and a month that the FY starts on how can you determine the start of the quarter that the date falls in.
E.g.
DateTime getStartOfFinancialQtr(DateTime date, int monthFinancialYearStartsOn)
15th Jan when FY starts Jan would = 1st Jan
getStartOfFinancialQtr(new DateTime(2013,1,15), 1) == new DateTime(2013,1,1)
15th August when FY starts April would be 1st July
getStartOfFinancialQtr(new DateTime(2013,8,15), 4) == new DateTime(2013,7,1)
BUT 15th Jan 2013 when FY starts February would be 1st November 2012
getStartOfFinancialQtr(new DateTime(2013,1,15), 2) == new DateTime(2012,11,1)
The following solution is the most simple implementation I could think of and works without any - unnecessary - loops:
DateTime getStartOfFinancialQtr(DateTime date, int monthFinancialYearStartsOn)
{
var actualMonth = date.Month;
var financialYear = date.Year;
var difference = actualMonth - monthFinancialYearStartsOn;
if(difference < 0)
{
--financialYear;
difference += 12;
}
var quarter = difference / 3;
return new DateTime(financialYear, monthFinancialYearStartsOn, 1).AddMonths(quarter * 3);
}
Isn't it as simple as this? Am I missing something to this? A quarter is defined as a period of three months, so you just have to find where the given date is, and then compute where the quarter begins based off that given month of the date.
public DateTime GetStartOfFinancialQtr(DateTime dtGiven, int startMonth) {
DateTime dtQuarter = new DateTime(dtGiven.Year, startMonth, 1);
// Start Q is less than the given date
if(startMonth > dtGiven.Month) {
while(dtQuarter > dtGiven) {
dtQuarter = dtQuarter.AddMonths(-3);
}
}
// Start Q is larger than the given date
else {
while(dtQuarter.Month + 3 <= dtGiven.Month) {
dtQuarter = dtQuarter.AddMonths(3);
}
}
return dtQuarter;
}
Below is the testing I ran:
Console.WriteLine(GetStartOfFinancialQtr(new DateTime(2013, 1, 15), 1).ToString());
Console.WriteLine(GetStartOfFinancialQtr(new DateTime(2013, 8, 15), 4).ToString());
Console.WriteLine(GetStartOfFinancialQtr(new DateTime(2013, 1, 15), 2).ToString());
Console output:
01/01/2013 000000
07/01/2013 000000
11/01/2012 000000
You can use the Year class of the Time Period Library for .NET:
// ----------------------------------------------------------------------
public void FiscalYearRange()
{
// calendar
TimeCalendar fiscalYearCalendar = new TimeCalendar(
new TimeCalendarConfig
{
YearBaseMonth = YearMonth.April,
YearType = YearType.FiscalYear
} );
// time range
TimeRange timeRange = new TimeRange( new DateTime( 2007, 10, 1 ), new DateTime( 2012, 2, 25 ) );
Console.WriteLine( "Time range: " + timeRange );
Console.WriteLine();
// fiscal quarter
Console.WriteLine( "Start Quarter: " + new Quarter( timeRange.Start, fiscalYearCalendar ) );
Console.WriteLine( "End Quarter: " + new Quarter( timeRange.End, fiscalYearCalendar ) );
Console.WriteLine();
// fiscal year
Year year = new Year( timeRange.Start, fiscalYearCalendar );
while ( year.Start < timeRange.End )
{
Console.WriteLine( "Fiscal Year: " + year );
year = year.GetNextYear();
}
} // FiscalYearRange
As mentioned, you can easily obtain the answer from Nearest Completed quarter. Here's how you make the modification:
public static class DateTimeExtensions {
public static DateTime NearestQuarterEnd(
this DateTime date,
int firstMonthOfFiscalYear
) {
IEnumerable<DateTime> candidates =
QuartersInYear(date.Year, firstMonthOfFiscalYear)
.Concat(QuartersInYear(date.Year - 1, firstMonthOfFiscalYear));
return candidates.SkipWhile(d => d > date).First();
}
static Dictionary<Tuple<int, int>, List<DateTime>> dict =
new Dictionary<Tuple<int, int>, List<DateTime>>();
static IEnumerable<DateTime> QuartersInYear(
int year,
int firstMonthOfFiscalYear
) {
Contract.Requires(firstMonthOfFiscalYear >= 1
&& firstMonthOfFiscalYear <= 12);
var key = Tuple.Create(year, firstMonthOfFiscalYear);
if(dict.ContainsKey(key)) {
return dict[key];
}
else {
var value =
Enumerable
.Range(0, 4)
.Select(k => firstMonthOfFiscalYear + 3 * k)
.Select(m => m <= 12 ? m : m % 12)
.Select(m => new DateTime(year, m, 1))
.OrderByDescending(d => d)
.ToList();
dict.Add(key, value);
return value;
}
}
}
Usage:
Console.WriteLine(new DateTime(2013, 1, 15).NearestQuarterEnd(1));
Console.WriteLine(new DateTime(2013, 8, 15).NearestQuarterEnd(4));
Console.WriteLine(new DateTime(2013, 1, 15).NearestQuarterEnd(2));
Output:
1/1/2013 12:00:00 AM
7/1/2013 12:00:00 AM
11/1/2012 12:00:00 AM
This passes all three of your test cases.

Generating weekly dates

I am sure this has been done before so i am looking for an efficient solution instead of own custom solution.
Given 2 dates, I am trying to generate the accurate weekly date (for creating weekly orders).
EDIT: I need to use .NET standard library to do this.
Example below,
Given 28/02/2012 and 6/03/2012.
so, the weekly dates generated are
- Week From(Start Monday): Week To(End Sunday):
- 27/02/2012 - 04/03/2012
- 05/03/2012 - 11/03/2012
Another example (1 month)
Given 01/02/2012 and 29/02/2012
so, the weekly dates generated are
- Week From(Start Monday): Week To(End Sunday):
- 30/01/2012 - 05/02/2012
- 06/02/2012 - 12/02/2012
- 13/02/2012 - 19/02/2012
- 20/02/2012 - 26/02/2012
- 27/02/2012 - 04/03/2012
I am doing this in c#. Has this been done before? Mind sharing the solutions?
Cheers
Here's a solution using Noda Time. Admittedly it requires a <= operator which I'm just implementing right now - but that shouldn't take long :)
using System;
using NodaTime;
class Test
{
static void Main()
{
ShowDates(new LocalDate(2012, 2, 28), new LocalDate(2012, 3, 6));
ShowDates(new LocalDate(2012, 2, 1), new LocalDate(2012, 2, 29));
}
static void ShowDates(LocalDate start, LocalDate end)
{
// Previous is always strict - increment start so that
// it *can* be the first day, then find the previous
// Monday
var current = start.PlusDays(1).Previous(IsoDayOfWeek.Monday);
while (current <= end)
{
Console.WriteLine("{0} - {1}", current,
current.Next(IsoDayOfWeek.Sunday));
current = current.PlusWeeks(1);
}
}
}
Obviously it's possible to do this in normal DateTime as well, but there's no real representation of "just a date" which makes the code less clear - and you'd need to implement Previous yourself.
EDIT: For example, in this case you might use:
using System;
class Test
{
static void Main()
{
ShowDates(new DateTime(2012, 2, 28), new DateTime(2012, 3, 6));
ShowDates(new DateTime(2012, 2, 1), new DateTime(2012, 2, 29));
}
static void ShowDates(DateTime start, DateTime end)
{
// In DateTime, 0=Sunday
var daysToSubtract = ((int) start.DayOfWeek + 6) % 7;
var current = start.AddDays(-daysToSubtract);
while (current <= end)
{
Console.WriteLine("{0} - {1}", current, current.AddDays(6));
current = current.AddDays(7);
}
}
}
Assuming you don't have to figure out that the start date is a monday:
var slots = new List<Tuple<DateTime, DateTime>>();
DateTime start = new DateTime(2012, 2, 28);
DateTime end = new DateTime(2012, 3, 6);
for (DateTime i = start; i < end; i = i.AddDays(7))
{
slots.Add(new Tuple<DateTime, DateTime>(i, i.AddDays(6)));
}
foreach (var slot in slots)
{
Console.WriteLine("{0}\t{1}", slot.Item1.ToString("dd/MM/yyyy"), slot.Item2.ToString("dd/MM/yyyy"));
}
Edit: Assuming you have to figure out what monday and what sunday covers the date range, you can move one day backwards till you hit a monday, and a day forward till you hit a sunday.
class Program
{
static void Main(string[] args)
{
var slots = new List<Tuple<DateTime, DateTime>>();
DateTime start = FirstMonday(new DateTime(2012, 2, 28));
DateTime end = FirstSunday(new DateTime(2012, 3, 6));
for (DateTime i = start; i < end; i = i.AddDays(7))
{
slots.Add(new Tuple<DateTime, DateTime>(i, i.AddDays(6)));
}
foreach (var slot in slots)
{
Console.WriteLine("{0}\t{1}", slot.Item1.ToString("dd/MM/yyyy"), slot.Item2.ToString("dd/MM/yyyy"));
}
Console.ReadLine();
}
static DateTime FirstMonday(DateTime date)
{
while (date.DayOfWeek != DayOfWeek.Monday) date = date.AddDays(-1);
return date;
}
static DateTime FirstSunday(DateTime date)
{
while (date.DayOfWeek != DayOfWeek.Sunday) date = date.AddDays(1);
return date;
}
}
This solution allows you to customize your start and end DayOfWeek:
Solution:
public Dictionary<DateTime, DateTime> GetWeeklyDateTimes(DateTime from, DateTime to, DayOfWeek startDay, DayOfWeek endDay)
{
int startEndSpan = 7 - endDay - startDay;
// Subtract days until it falls on our desired start day
from = from.AddDays(startDay - from.DayOfWeek);
// Add days until it falls on our desired end day
to = to.AddDays(to.DayOfWeek - endDay + 2);
Dictionary<DateTime, DateTime> dateTimes = new Dictionary<DateTime, DateTime>();
while (to.Subtract(from).Days > startEndSpan)
{
dateTimes.Add(from, from.AddDays(startEndSpan));
from = from.AddDays(startEndSpan + 1);
}
return dateTimes;
}
Example Usage:
// DateTime(2012, 2, 1) corresponds to Year 2012, Month February, Day 1
Dictionary<DateTime, DateTime> dateTimes = GetWeeklyDateTimes(new DateTime(2012, 2, 1), new DateTime(2012, 2, 29), DayOfWeek.Monday, DayOfWeek.Sunday);
foreach (KeyValuePair<DateTime, DateTime> entry in dateTimes)
{
Trace.WriteLine(entry.Key.ToString() + " " + entry.Value.ToString());
}

How to check if a DateTime range is within another 3 month DateTime range

Hi I have a Start Date and End Date per record in a db.
I need to check to see where the time period falls in a 2 year period broken into two lots of quarters then display what quarters each record falls into.
Quarter 1 includes June 09, Jul 09, Aug 09
Quarter 2 includes Sept 09, Oct 09, Nov 09
Quarter 3 includes Dec 09, Jan 10, Feb 10
Quarter 4 includes Mar 10, Apr 10, May 10
Quaretr 5 includes Jun 10, Jul 10...
e.g. 01/10/09 - 01/06/10 would fall into quarters 2, 3, 4 & 5
I am very new to .NET so any examples would be much appreciated.
This should work for you also.
class Range
{
public DateTime Begin { get; private set; }
public DateTime End { get; private set; }
public Range(DateTime begin, DateTime end)
{
Begin = begin;
End = end;
}
public bool Contains(Range range)
{
return range.Begin >= Begin && range.End <= End;
}
}
and then to use it
List<Range> ranges = new List<Range>();
ranges.Add(new Range(DateTime.Now, DateTime.Now.AddMonths(3)));
ranges.Add(new Range(DateTime.Now.AddMonths(3), DateTime.Now.AddMonths(6)));
Range test = new Range(DateTime.Now.AddMonths(1), DateTime.Now.AddMonths(2));
var hits = ranges.Where(range => range.Contains(test));
MessageBox.Show(hits.Count().ToString());
You would call IntervalInQuarters as follows:
IntervalInQuarters(new DateTime(2007, 10, 10), new DateTime(2009, 10, 11));
The function returns a list of quarter start dates. Note that the range of quarters searched is defined within the function itself. Please edit as appropriate for your situation. They key point is to make sure the interval/quarter intersection logic is right.
private List<DateTime> IntervalInQuarters(DateTime myStartDate, DateTime myEndDate)
{
DateTime quarterStart = new DateTime(2006, 06, 01);
DateTime nextQuarterStart = new DateTime(2006, 09, 01);
DateTime finalDate = new DateTime(2011, 01, 01);
List<DateTime> foundQuarters = new List<DateTime>();
while (quarterStart < finalDate)
{
// quarter intersects interval if:
// its start/end date is within our interval
// our start/end date is within quarter interval
DateTime quarterEnd = nextQuarterStart.AddDays(-1);
if (DateInInterval(myStartDate, quarterStart, quarterEnd) ||
DateInInterval(myEndDate, quarterStart, quarterEnd) ||
DateInInterval(quarterStart, myStartDate, myEndDate) ||
DateInInterval(quarterEnd, myStartDate, myEndDate))
{
foundQuarters.Add(quarterStart);
}
quarterStart = nextQuarterStart;
nextQuarterStart = nextQuarterStart.AddMonths(3);
}
return foundQuarters;
}
private bool DateInInterval(DateTime myDate, DateTime intStart, DateTime intEnd)
{
return ((intStart <= myDate) && (myDate <= intEnd));
}
private void Form1_Load(object sender, EventArgs e)
{
DateTime[,] ranges = new DateTime[3,2];
//Range 1 - Jan to March
ranges[0, 0] = new DateTime(2010, 1, 1);
ranges[0, 1] = new DateTime(2010, 3, 1);
//Range 2 - April to July
ranges[1, 0] = new DateTime(2010, 4, 1);
ranges[1, 1] = new DateTime(2010, 7, 1);
//Range 3 - March to June
ranges[2, 0] = new DateTime(2010, 3, 1);
ranges[2, 1] = new DateTime(2010, 6, 1);
DateTime checkDate = new DateTime(2010, 4, 1);
string validRanges = string.Empty;
for (int i = 0; i < ranges.GetLength(0); i++)
{
if (DateWithin(ranges[i,0], ranges[i,1], checkDate))
{
validRanges += i.ToString() + " ";
}
}
MessageBox.Show(validRanges);
}
private bool DateWithin(DateTime dateStart, DateTime dateEnd, DateTime checkDate)
{
if (checkDate.CompareTo(dateStart) < 0 || checkDate.CompareTo(dateEnd) > 0)
{
return false;
}
return true;
}
You may have to take a look at: http://msdn.microsoft.com/en-us/library/03ybds8y(v=VS.100).aspx
This may start you up
FindQuarter(DateTime startDate, DateTime endDate) // 01-10-09, 01-06-10
{
startDateQuarter = GetQuarter(startDate.Month); // 2
endDateQuarter = GetQuarter(endDate.Month); // 1
endDateQuarter += (endDate.Year - startDate.Year) * 4; // 5
// fill up startDateQuarter to endDateQuarter into a list
// and return it // 2,3,4,5
}
GetQuarter(int month) // 6
{
int quarter;
// check the month value and accordingly assign one of the basic quarters
// using if-else construct ie, if(month>=6 && month<=8){ quarter = 1 };
return quarter; // 1
}
Instead of GetQuarter() method, you can also use a dictionary to store your month to quarter mappings
Dictionary<int, int> quarter = new Dictionary<int, int>();
quarter.Add(1,1); //of the format Add(month,quarter)
quarter.Add(2,1);
...
Now instead of GetQuarter(someDate.Month); you can use quarter[someDate.Month];
If you want to compare two dates you should find out the first day of the quarter corresponds every of this dates, then you can compare this two dates:
using System;
namespace DataTime {
class Program {
static int GetQuarter (DateTime dt) {
int Month = dt.Month; // from 1 to 12
return Month / 3 + 1;
}
static DateTime GetQuarterFirstDay (DateTime dt) {
int monthsOfTheFirstDayOfQuarter = (GetQuarter (dt) - 1) * 3 + 1;
return new DateTime(dt.Year, monthsOfTheFirstDayOfQuarter, 1);
// it can be changed to
// return new DateTime(dt.Year, (dt.Month/3)*3 + 1, 1);
}
static void Main (string[] args) {
DateTime dt1 = new DateTime (2009, 6, 9),
dt2 = new DateTime (2009, 7, 9),
dt3 = new DateTime (2009, 8, 9),
dt4 = new DateTime (2009, 8, 9);
Console.WriteLine ("dt1={0}", dt1.AddMonths (1));
Console.WriteLine ("dt2={0}", dt2.AddMonths (1));
Console.WriteLine ("dt3={0}", dt3.AddMonths (1));
DateTime startDate = DateTime.Now,
endDate1 = startDate.AddMonths(24).AddDays(1),
endDate2 = startDate.AddMonths(24).AddDays(-1),
endDate3 = startDate.AddMonths(28);
Console.WriteLine ("Now we have={0}", startDate);
Console.WriteLine ("endDate1={0}", endDate1);
Console.WriteLine ("endDate2={0}", endDate2);
Console.WriteLine ("endDate3={0}", endDate3);
Console.WriteLine ("GetQuarterFirstDay(startDate)={0}", GetQuarterFirstDay (startDate));
Console.WriteLine ("GetQuarterFirstDay(endDate1)={0}", GetQuarterFirstDay (endDate1));
Console.WriteLine ("GetQuarterFirstDay(endDate2)={0}", GetQuarterFirstDay (endDate2));
Console.WriteLine ("GetQuarterFirstDay(endDate3)={0}", GetQuarterFirstDay (endDate3));
if (DateTime.Compare (GetQuarterFirstDay (endDate2), GetQuarterFirstDay (startDate).AddMonths (24)) > 0)
Console.WriteLine ("> 2 Yeas");
else
Console.WriteLine ("<= 2 Yeas");
if (DateTime.Compare (GetQuarterFirstDay (endDate3), GetQuarterFirstDay (startDate).AddMonths (24)) > 0)
Console.WriteLine ("> 2 Yeas");
else
Console.WriteLine ("<= 2 Yeas");
}
}
}
produce
dt1=09.07.2009 00:00:00
dt2=09.08.2009 00:00:00
dt3=09.09.2009 00:00:00
Now we have=22.04.2010 11:21:45
endDate1=23.04.2012 11:21:45
endDate2=21.04.2012 11:21:45
endDate3=22.08.2012 11:21:45
GetQuarterFirstDay(startDate)=01.04.2010 00:00:00
GetQuarterFirstDay(endDate1)=01.04.2012 00:00:00
GetQuarterFirstDay(endDate2)=01.04.2012 00:00:00
GetQuarterFirstDay(endDate3)=01.07.2012 00:00:00
<= 2 Yeas
> 2 Yeas
EDITED: I fixed an error from the first version. Now it should works correct.

Categories

Resources