My own answer is three-fold. First, I came up with a wrapper to `Calendar.GetWeekOfYear`

that returns the "year" of the week, since this year may not be the same as the year of the `DateTime`

object.

```
public static void GetWeek(DateTime dt, CultureInfo ci, out int week, out int year)
{
year = dt.Year;
week = ci.Calendar.GetWeekOfYear(dt, ci.DateTimeFormat.CalendarWeekRule, ci.DateTimeFormat.FirstDayOfWeek);
int prevweek = ci.Calendar.GetWeekOfYear(dt.AddDays(-7.0), ci.DateTimeFormat.CalendarWeekRule, ci.DateTimeFormat.FirstDayOfWeek);
if (prevweek + 1 == week) {
// year of prevweek should be correct
year = dt.AddDays(-7.0).Year;
} else {
// stay here
year = dt.Year;
}
}
```

Next, here is the meat of the answer. This inverts the `year`

and `weekOfYear`

back into a `DateTime`

object. Note that I used the middle of the year, because this seems to avoid the problems with the singularities of the new year (where 52 or 53 may or not wrap around to 1). I also synchronize the date by finding a date that is indeed the first day of the week, avoiding problems with negative offsets comparing two DayOfWeek values.

```
public static DateTime FirstDateOfWeek(int year, int weekOfYear, CultureInfo ci)
{
DateTime jul1 = new DateTime(year, 7, 1);
while (jul1.DayOfWeek != ci.DateTimeFormat.FirstDayOfWeek)
{
jul1 = jul1.AddDays(1.0);
}
int refWeek = ci.Calendar.GetWeekOfYear(jul1, ci.DateTimeFormat.CalendarWeekRule, ci.DateTimeFormat.FirstDayOfWeek);
int weekOffset = weekOfYear - refWeek;
return jul1.AddDays(7 * weekOffset );
}
```

And finally to all those who doubt it, here is my unit test that cycles through lots of dates and cultures to make sure it works on all of them.

```
public static void TestDates()
{
foreach (CultureInfo ci in CultureInfo.GetCultures(CultureTypes.AllCultures).Where((x)=>!x.IsNeutralCulture && x.Calendar.AlgorithmType == CalendarAlgorithmType.SolarCalendar))
{
for (int year = 2010; year < 2040; year++)
{
// first try a bunch of hours in this year
// convert from date -> week -> date
for (int hour = 0; hour < 356 * 24; hour+= 6)
{
DateTime dt = new DateTime(year, 1, 1).AddHours(hour);
int ww;
int wyear;
Gener8.SerialNumber.GetWeek(dt, ci, out ww, out wyear);
if (wyear != year)
{
//Console.WriteLine("{0} warning: {1} {2} {3}", ci.Name, dt, year, wyear);
}
DateTime dt1 = Gener8.SerialNumber.FirstDateOfWeek(wyear, ww, ci);
DateTime dt2 = Gener8.SerialNumber.FirstDateOfWeek(wyear, ww, ci).AddDays(7.0);
if (dt < dt1 || dt > dt2)
{
Console.WriteLine("{3} Bad date {0} not between {1} and {2}", dt, dt1, dt2, ci.Name);
}
}
// next try a bunch of weeks in this year
// convert from week -> date -> week
for (int week = 1; week < 54; week++)
{
DateTime dt0 = FirstDateOfWeek(year, week, ci);
int ww0;
int wyear0;
GetWeek(dt0, ci, out ww0, out wyear0);
DateTime dt1 = dt0.AddDays(6.9);
int ww1;
int wyear1;
GetWeek(dt1, ci, out ww1, out wyear1);
if ((dt0.Year == year && ww0 != week) ||
(dt1.Year == year && ww1 != week))
{
Console.WriteLine("{4} Bad date {0} ww0={1} ww1={2}, week={3}", dt0, ww0, ww1, week, ci.Name);
}
}
}
}
}
```