# Calculate Gregorian date from week number in C/C++

I'm using the Gregorian calendar the and I want to implement IS0 8601 weeks, but I've stumbled onto a issue calculating the date of any week number. For example the ISO dates `2010-W01-1` should return January 4, 2010 and `2009-W01-1` should return December 29, 2008.

``````// Get the date for a given year, week and weekday(1-7)
time_t *GetDateFromWeekNumber(int year, int week, int dayOfWeek)
{
// Algorithm here
}
``````

Edit: I havent found any algorithm that works online, tried a lot but I'm kind of stuck now.

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What have you tried for your algorithm? –  tinman Mar 28 '13 at 20:33
I havent found any algorithm that works online. –  Inge Henriksen Mar 28 '13 at 20:33
You might like the article about Julian dates on Wikipedia. –  pmg Mar 28 '13 at 20:35
There's code in the answer to How do I calculate the week number given a date?. It's not in C, but it is fairly readily comprehensible and would not take much effort to convert. Also, [`strftime()`] (pubs.opengroup.org/onlinepubs/9699919799/functions/…) supports the formatting (`%W`, `%U`, `%V`, etc). –  Jonathan Leffler Mar 28 '13 at 20:36
@pmg I'm not sure how that would help me as I use the Gregorian calendar. Do you mean I should find an algorithm that does this using Julian dates and then convert the result to Gregorian? –  Inge Henriksen Mar 28 '13 at 20:37

I took a second look at my C/C++ algorithms and finally got I the week number to date conversion to work with the Gregorian calendar (see `GetDayAndMonthFromWeekInYear()` below). Since I have not found this kind of conversion online (except for Howard Hinnant's code) I've decided to share it with you. The code passes all unit tests that are based on examples found in the Wikipedia article http://en.wikipedia.org/wiki/ISO_week_date#Examples .

``````/** ISO number of days in a year */
#define ISO_DAYS_A_YEAR 365

/** ISO number of days in a leap year */
#define ISO_DAYS_A_LEAP_YEAR 366

/** Number of ISO days a week */
#define ISO_DAYS_A_WEEK 7

/** Number of ISO days a week */
#define ISO_MONTHS_A_YEAR 12

/** ISO number of days in February */
#define ISO_DAYS_IN_FEBRUARY 28

/** ISO number of days in February in a leap year */
#define ISO_LEAP_YEAR_DAYS_IN_FEBRUARY 29

/** First month number in a ISO year */
#define ISO_FIRST_MONTH_IN_YEAR 1

/*!
\brief Get the year, month, and day in month from a week in year
\details An ISO week-numbering year has 52 or 53 full weeks (364 or 371 days)
\param year [in, out] Gregorian year
\param weekInYear [in] Gregorian week in a year
\param month [out] Gregorian month
\param dayInMonth [out] Gregorian day in month
\returns \c True if success or \c False if error
*/
bool GetDayAndMonthFromWeekInYear(int *year, int weekInYear, int *month,
int *dayInMonth)
{
int daysInMonth;
int weeksInYear;
*month = ISO_FIRST_MONTH_IN_YEAR;
bool hasChanged;

do
{
hasChanged = false;

weeksInYear = GetNumberOfWeeksInYear(*year);
if (weekInYear > weeksInYear)
{
weekInYear -= weeksInYear;
(*year)++;
hasChanged = true;
}

} while(hasChanged);

int dayInYear = (weekInYear - 1)  * ISO_DAYS_A_WEEK + 1;

// Since the first day of week 1 in a year in the Gregorian calendar is not usually January 1st we need to handle the offset
static int t[] = {0, 0, -1, -2, -3, 3, 2, 1};
int jan1DayOfWeek = GetDayOfTheWeek(*year, 1, 1);
dayInYear += t[jan1DayOfWeek];

if (dayInYear <= 0)
{
// dayInYear is in the previous year
(*year)--;
dayInYear += GetDaysInYear(*year);
}
else
{
int daysInYear = GetDaysInYear(*year);
if (dayInYear > daysInYear)
{
// dayInYear is in the next year
(*year)++;
dayInYear -= daysInYear;
}
}

if (!GetDayAndMonthFromDayInYear(*year, dayInYear, month, dayInMonth))
return false;

return true;
}

enum EGregorianMonth
{
EGregorianMonth_January = 1,
EGregorianMonth_February = 2,
EGregorianMonth_March = 3,
EGregorianMonth_April = 4,
EGregorianMonth_May = 5,
EGregorianMonth_June = 6,
EGregorianMonth_July = 7,
EGregorianMonth_August = 8,
EGregorianMonth_September = 9,
EGregorianMonth_October = 10,
EGregorianMonth_November = 11,
EGregorianMonth_December = 12
};

/*!
\brief Check if leap year
\par Algorithm
Checks if the year is divisible by 400 or by 4
\code
if year is divisible by 400 then
is_leap_year
else if year is divisible by 100 then
not_leap_year
else if year is divisible by 4 then
is_leap_year
else
not_leap_year
\endcode
\returns \c True if a leap year or \c False if not a leap year
\see http://en.wikipedia.org/wiki/Leap_year#Algorithm
*/
bool IsALeapYear(int year)
{
return (!(year % 4) && (year % 100)) || !(year % 400);
}

/*!
\brief Get number of days in a year in a Gregorian calendar
*/
int GetDaysInYear(int year)
{
return IsALeapYear(year) ? ISO_DAYS_A_LEAP_YEAR : ISO_DAYS_A_YEAR;
}

/*!
\brief Get number of days in a month according to the Gregorian calendar
*/
int GetDaysInMonth(int year, int month)
{
int daysInMonth;

switch (month)
{
case EGregorianMonth_February:
daysInMonth = IsALeapYear(year) ? ISO_LEAP_YEAR_DAYS_IN_FEBRUARY : ISO_DAYS_IN_FEBRUARY;
break;
case EGregorianMonth_April:
case EGregorianMonth_June:
case EGregorianMonth_September:
case EGregorianMonth_November:
daysInMonth = 30;
break;
default:
daysInMonth = 31;
break;
}

return daysInMonth;
}

/*!
\brief Gets the month and day in month from a day in year
\param year [in] Gregorian year
\param dayInYear [in] Gregorian day on year (1-365 or 1-366 i leap year)
\param month [out] Gregorian month
\param dayInMonth [out] Gregorian day in month
\returns \c True if success or \c False if error
*/
bool GetDayAndMonthFromDayInYear(int year, int dayInYear, int *month,
int *dayInMonth)
{
int daysInMonth;
*month = ISO_FIRST_MONTH_IN_YEAR;

for (int i = ISO_FIRST_MONTH_IN_YEAR; i <= ISO_MONTHS_A_YEAR ; i++)
{
daysInMonth = GetDaysInMonth(year, i);

if (dayInYear <= daysInMonth) break;

(*month)++;
dayInYear -= daysInMonth;
}

*dayInMonth = (int)dayInYear;

return true;
}

/*!
\brief Get the number of weeks in a year
\par Algorithm
There are 52 weeks in most years however, years that begin on a Thursday and leap years that begin on a Wednesday have 53 weeks.
*/
int GetNumberOfWeeksInYear(int year)
{
int jan1DayOfWeek = GetDayOfTheWeek(year, 1, 1);
return jan1DayOfWeek == 4 || (jan1DayOfWeek == 3 && IsALeapYear(year)) ? 53 : 52;
}

/*!
\brief Get the day of week in a Gregorian calendar
\par Algorithm
Uses the Claus Tøndering algorithm
\see http://en.wikipedia.org/wiki/Calculating_the_day_of_the_week#T.C3.B8ndering.27s_algorithm
*/
int GetDayOfTheWeek(int year, int month, int day)
{
static int t[] = {0, 3, 2, 5, 0, 3, 5, 1, 4, 6, 2, 4};
year -= month < 3;
return (year + year/4 - year/100 + year/400 + t[month-1] + day) % 7;
}
``````
-

Maybe you should look at the boost::date_time::gregorian. Using it you can write a function like that:

``````#include <boost/date_time/gregorian/gregorian.hpp>

// Get the date for a given year, week and weekday(0-6)
time_t *GetDateFromWeekNumber(int year, int week, int dayOfWeek)
{
using namespace boost::gregorian;
date d(year, Jan, 1);
int curWeekDay = d.day_of_week();
d += date_duration((week - 1) * 7) + date_duration(dayOfWeek - curWeekDay);
tm tmp = to_tm(d);
time_t * ret = new time_t(mktime(&tmp));
return ret;
}
``````

Unfortunately their format of date is different from yours - they numerate days of week starting from Sunday, i.e. `Sunday = 0, Monday = 1, ..., Saturday = 6`. If it doesn't satisfy your needs, you can use this slightly changed function:

``````#include <boost/date_time/gregorian/gregorian.hpp>

// Get the date for a given year, week and weekday(1-7)
time_t *GetDateFromWeekNumber(int year, int week, int dayOfWeek)
{
using namespace boost::gregorian;
date d(year, Jan, 1);
if(dayOfWeek == 7) {
dayOfWeek = 0;
week++;
}
int curWeekDay = d.day_of_week();
d += date_duration((week - 1) * 7) + date_duration(dayOfWeek - curWeekDay);
tm tmp = to_tm(d);
time_t * ret = new time_t(mktime(&tmp));
return ret;
}
``````

EDIT:

After thinking a little I found a way to implement the same function without using boost. Here is the code:

WARNING: the code below is broken, do not use it!

``````// Get the date for a given year, week and weekday(1-7)
time_t *GetDateFromWeekNumber(int year, int week, int dayOfWeek)
{
const time_t SEC_PER_DAY = 60*60*24;
if(week_day == 7) {
week_day = 0;
week++;
}
struct tm timeinfo;
memset(&timeinfo, 0, sizeof(tm));
timeinfo.tm_year = year - 1900;
timeinfo.tm_mon = 0;
timeinfo.tm_mday = 1;
time_t * ret = new time_t(mktime(&timeinfo));  // set all the other fields
int cur_week_day = timeinfo.tm_wday;
*ret += sec_per_day * ((week_day - cur_week_day) + (week - 1) * 7);
return ret;
}
``````

EDIT2:

Yep, code in EDIT is completely broken because I didn't take enough time to understand how week numbers are assigned.

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Thanks, but we are not using Boost. –  Inge Henriksen Mar 29 '13 at 14:47
When it comes to your non-Boost example then it returns the 18th of December 2005 when year is 2005, week is 52 and weekday is 1, when the correct answer should have been 26th of December 2005 , see epochconverter.com/date-and-time/… . I have fixed my own algorithm now (see my answer) but I thought you would like to know that your code is broken. –  Inge Henriksen Mar 29 '13 at 15:19

By F#

``````open System
open System.Globalization

//wday: 1-7, 1:Monday
let DateFromWeekOfYear y w wday =
let dt = new DateTime(y, 1, 4) //first week include 1/4
let dow = if dt.DayOfWeek = DayOfWeek.Sunday then 7 else int dt.DayOfWeek //to 1-7
let dtf = dt.AddDays(float(wday - dow))