# 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)
``````
-
Haven't you tried anything? If not, why? If you did try anything, please post your code and explain your problems in detail. This is trivial, you basically just have to code the same steps you used manually to determine the expected values of the samples you posted. –  Daniel Hilgarth Jul 16 '13 at 17:18
This is still a possible duplicate of Nearest completed quarter You can easily modify the `QuartersInYear` method to handle your definition of quarter. –  Jason Jul 16 '13 at 17:21
Erm - do you want my browser history of searches, scan of paper I've got in front of me? I've not really been on stack overflow in a few months, when did it become a bearpit? :/ –  Ryan Jul 16 '13 at 17:21
@Jason - I don't think so. Try it with the last example in the question above. –  Ryan Jul 16 '13 at 17:22
@Ryan: It still works. I can't stress this enough. Change the definition of `QuartersInYear` to `return new List<DateTime>() { new DateTime(year, 2, 1), new DateTime(year, 5, 1), new DateTime(year, 8, 1), new DateTime(year, 11, 1), };` in the case that the Fiscal Year starts in February. Then `DateTime d = new DateTime(2013, 1, 15); Console.WriteLine(d.NearestQuarterEnd());` will print `11/1/2012 12:00:00 AM` to the console. –  Jason Jul 16 '13 at 17:28

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);
}
``````
-

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
``````
-
That's a great library –  Gordon Carpenter-Thompson Feb 5 at 14:44
@Gordon: Thanks a lot! –  Jani Feb 9 at 17:57

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) {
}
}
// Start Q is larger than the given date
else {
while(dtQuarter.Month + 3 <= dtGiven.Month) {
}
}

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
``````
-
Very close, thanks - Doesn't work with 1st July if FY starts April (4) - missing <= on second while loop. –  Ryan Jul 16 '13 at 18:25
Edited to fix.. –  Ryan Jul 16 '13 at 18:47

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();
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.

-
+ 1 as its neat and works but I've chosen not to mark as answer as I think its overkill for this - both in terms of potential performance but more importantly cognitive load. Its too damn clever for me to understand without going into a darkened room. Maybe I am just lazy and dumb as @Daniel points out –  Ryan Jul 16 '13 at 18:29
Performance is a non-issue. Stop believing the myths that LINQ isn't performant, if that's what is going on. –  Jason Jul 16 '13 at 18:36
Additionally, you'll eventually come to find that declarative code is usually easier to understand than procedural code. Tell the computer what you want to do, instead of how you want to do it. The whole reason for proceeding down a path like this is that it separates the "nearest quarter finding" mechanism from the "what are the quarter start dates for a given year" mechanism exactly so that you can easily handle odd quarter start dates. The procedural method is not fun to maintain when you run into quarters that are sometimes on the 28th, sometimes on the 30th, sometimes on the 31st, etc. –  Jason Jul 16 '13 at 18:37
But the declarative code is much easier to maintain if you ever have to expand to handle "unusual" quarter start dates. Again, that's the whole point to separating the two mechanisms. –  Jason Jul 16 '13 at 18:38
yes if this were for unusual quarters I would grant you that but doesn't this strike you as over engineering? (and I know you're going to throw premature optimization back at me ;) In simple LoC terms its < 10 v 30 odd. Anyway I'll take the checkmark off all answers and let the community decide. –  Ryan Jul 16 '13 at 19:00