C# Formatting Age - Regarding Days, Weeks , Months - Years - c#

I am working on some medical software and I am required to output all ages in a very specific manner, based on the following rules:
If under 6 Weeks old : ###D (Number of Days)
If under 6 Months old : ###W (Number of Weeks)
If under 2 Years old : ###M (Number of Months)
If above 2 Years old : ###Y (Number of Years)
Using C# I am trying to find a simple method of doing this just using a Person's Date of Birth, any help would be greatly appreciated.

I was working on something similar yesterday, but something like this should suit your needs: (assuming 7 day weeks, 31 day months, 365 day years etc.)
Revised Method : (Fixed as per Bob's suggestions)
public static string ConvertAge(DateTime dob)
{
DateTime today = DateTime.Today;
string fmt = "{0:0##}{1}";
//Greater than 2 Years old - Ouput Years
if (dob <= today.AddYears(-2))
return string.Format(fmt, (dob.DayOfYear <= today.DayOfYear) ?
(today.Year - dob.Year) : (today.Year - dob.Year)-1, "Y");
//Less than 2 Years - Output Months
if (dob < today.AddMonths(-2))
return string.Format(fmt, (dob.DayOfYear <= today.DayOfYear) ?
(today.Year - dob.Year) * 12 + (today.Month - dob.Month) :
((today.Year - dob.Year) * 12 + (today.Month - dob.Month))-1 , "M");
//Less than 2 Months - Output Weeks
if (dob < today.AddDays(-2 * 7))
return string.Format(fmt, (today - dob).Days / 7, "W");
//Less than 2 Weeks - Output Days
return string.Format(fmt, (today - dob).Days, "D");
}
Previous Method :
public string ConvertAge(DateTime dateOfBirth)
{
int daysOld = (DateTime.Now - dateOfBirth).Days;
//Age < 6 Weeks
if (daysOld < (6 * 7))
return String.Format("{0:0##}{1}", daysOld, 'D');
//Age < 6 Months
else if (daysOld < (6 * 31))
return String.Format("{0:0##}{1}", daysOld/7, 'W');
//Age < 2 Years
else if (daysOld < (2 * 365))
return String.Format("{0:0##}{1}", daysOld / 31, 'M');
//Age >= 2 Years
else
return String.Format("{0:0##}{1}", daysOld / 365, 'Y');
}
Hope this helps!

A DateTime type can be subtracted from other DateTimes, resulting in a TimeSpan representing the gap. Try this:
var timeAlive = DateTime.Today - dateOfBirth.Date;
Then, look at the Days, Months and Years (divide Days by 7 for Weeks) of timeAlive, and format accordingly.

The following makes no assumptions about days/months or year.
On the downside, it is not Y3K compatible.
public static string GetAge (DateTime dob) {
DateTime today = DateTime.Now;
string fmt = "{0:0##}{1}";
if (dob < today.AddYears(-2)) return string.Format(fmt, today.Year - dob.Year, "Y");
if (dob < today.AddMonths(-6))return string.Format(fmt, (today.Year - dob.Year)*12 + (today.Month - dob.Month), "M");
if (dob < today.AddDays(-6 * 7)) return string.Format(fmt, (today - dob).Days/7, "W");
return string.Format(fmt, (today - dob).Days, "D");
}

You can get an object representing the user's current age with a simple subtraction:
TimeSpan age = DateTime.Now - dateOfBirth;
And then it's just a matter of doing a bunch of if clauses
if (age.TotalDays < 6 * 7) // 6 weeks
// ...
else if (age.TotalDays < 6 * 30) // 6 months
// ...
// et cetera
You should be able to figure out how to do your formatting.

Related

Get hours between two dates [duplicate]

This question already has answers here:
Determine the difference between two DateTimes, only counting opening hours
(6 answers)
Closed 6 years ago.
I have a C# method like this:
public int GetWorkLogHours(DateTime? startDate, DateTime? endDate, string startTime, string endTime)
{
}
I have a table of Holiday in which all the holidays are saved. What this method supposed to do is to calculate the number of hours between the startDate and startTime to endDate and endTime.It needs to exclude weekends and also skip the holiday between the two dates.
For Example :
We work monday to friday 9:00 AM to 17:00 PM (8 hours). If the
startDate(1-3-2016) and startTime(9:00) and endDate(10-3-2016) and
endTime(13:00). In my Holiday table (8-3-2016) is holiday then it
should return 52 hours
I hope this will solve your problem.
string start = "2016-01-07 09:00:00.000";
string end = "2016-01-07 17:00:00.000";
DateTime firstDay = Convert.ToDateTime(start);
DateTime lastDay = Convert.ToDateTime(end);
if (firstDay > lastDay)
{
}
else
{
TimeSpan span = lastDay - firstDay;
int businessDays = span.Days + 1;
int fullWeekCount = businessDays / 7;
if (businessDays > fullWeekCount * 7)
{
int firstDayOfWeek = (int)firstDay.DayOfWeek;
int lastDayOfWeek = (int)lastDay.DayOfWeek;
if (lastDayOfWeek < firstDayOfWeek)
lastDayOfWeek += 7;
if (firstDayOfWeek <= 6)
{
if (lastDayOfWeek >= 7)
businessDays -= 2;
else if (lastDayOfWeek >= 6)
businessDays -= 1;
}
else if (firstDayOfWeek <= 7 && lastDayOfWeek >= 7)
businessDays -= 1;
}
businessDays -= fullWeekCount + fullWeekCount;
}
double hours = 8 * businessDays;
also if you have an array of holidays like, DateTime[] bankHolidays then you can exclude the holidays also.
// 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;
}

add particular days from given date for one year

I have a start date like "2015-03-10". I want to add 1.25 days per month for the current year from this start date. For example, I have start date "2015-03-10" then for this year the number of days will be 12.50. (1.25 days for each month from March month).
Given date : 2015-11-10 need to add days up to March 31st,2016 : 1.25 * 5 (as from November month, here 5 )(For every month add 1.25 days) Number of days for this year : 6.25
(year start calculated from April and year end considered as March.)
How can i do this in c# can any one help me to do this
Thanks in advance
This example ignores the days of the months, as per your post:
DateTime start;
DateTime end;
// assuming end > start
double value = 1.25 * (end.Month - start.Month + 12 * (end.Year - start.Year) + 1);
EDIT: I can help you to understand this line of code splitting in some steps:
DateTime start = DateTime.Now;
DateTime end = new DateTime(start.Year, 3, 31);
if (start.Month > 3)
end = end.AddYear(1);
double years = end.Year - start.Year;
double months = end.Month - start.Month + 1;
months += (years * 12);
double value = 1.25 * months;
I got it by following :
DateTime endDate = new DateTime(DateTime.Today.Year + 1, 4, 1).AddDays(-1);
if (Convert.ToDateTime(empHiredDate).Month > 4)
{
finMonth = Convert.ToDateTime(empHiredDate).Month - 4;
finMonth = 12 - finMonth;
avail =Convert.ToString(finMonth * 1.25);
}
else if (Convert.ToDateTime(empHiredDate).Month < 3)
{
finMonth = Convert.ToDateTime(empHiredDate).Month + 8;
finMonth = 12 - finMonth;
avail = Convert.ToString(finMonth * 1.25);
}
else if (Convert.ToDateTime(empHiredDate).Month == 4)
{
avail = Convert.ToString(12 * 1.25);
}
else if (Convert.ToDateTime(empHiredDate).Month == 3)
{
avail = Convert.ToString(1 * 1.25);
}

Convert 1000 months in 83 years and 4 months

I try to make something and its work, but when I try to make a date under 1 month its crash. Can someone help me? The code is like this:
int page = int.Parse(Console.ReadLine());
int campingDays = int.Parse(Console.ReadLine());
int pagesPerDay = int.Parse(Console.ReadLine());
int months = page / ((30 - campingDays) * pagesPerDay);
int years = months / 12;
int remainingMonths = months % 12;
Console.WriteLine("{0} years {1} months", years, remainingMonths);
That's how i solve the "0 years 1 months" problem. There you go!
int readedPages = (30 - campingDays) * regularDays;
if ((campingDays == 30) || (regularDays == 0))
{
Console.WriteLine("never");
}
else
{
double readDuration = Math.Ceiling(bookPages / (double)readedPages);
double years = (int)(readDuration / 12);
double remainingMonths =(readDuration % 12);
Console.WriteLine("{0} years {1} months", years, remainingMonths);
}
Michal Ciechan is correct. (Just read your answer closely)
suggestion:
int _campingDaysAdj = 30 - campingDays;
if(_campingDaysAdj > 0 && pagesPerDay > 0)
{
int months = page / ((30 - campingDays) * pagesPerDay);
int years = months / 12;
int remainingMonths = months % 12;
Console.WriteLine("{0} years {1} months", years, remainingMonths);
}
else
{
//throw an exception or an error message etc.
}
You would get divide by zero error whenever
campingDays is 30 because of (30 - campingDays)
pagesPerDay is - 0
The problematic line:
int months = page / ((30 - campingDays) * pagesPerDay);
You may want 2 if statements to handle those cases.

how to get the 5 digits number concatenated with financial year [duplicate]

This question already has answers here:
Add zero-padding to a string
(6 answers)
Closed 9 years ago.
A textbox should contain 5 digits and financial year,for ex:00001/financial year.
If 1 is entered in first textbox it should concatenate with 4 zero's slash financial year
based on system date and display in second textbox.when 123 is entered it should
display with 00123/financial year.In this way the number of digits in the second
textbox should be 5 and length of textbox should not exceed 15 characters.
financial year(13-14) is in this format.
int CurrentYear = DateTime.Today.Year;
int PreviousYear = DateTime.Today.Year - 1;
int NextYear = DateTime.Today.Year + 1;
string PreYear = PreviousYear.ToString();
string NexYear = NextYear.ToString();
string CurYear = CurrentYear.ToString();
string FinYear = null;
if (DateTime.Today.Month > 3)
FinYear = CurYear + "-" + NexYear;
else
FinYear = PreYear + "-" + CurYear;
string strfst = FinYear.Substring(2, 2);
string strlst = NexYear.Substring(2, 2);
string strfnyr = strfst +"-"+ strlst;
In this manner i got financial year.with this financial year i need to concatenate the 5 digit number.
The PadLeft function is what you are looking for. textBox1.Text.PadLeft(5, '0')
May be just use appropriate formatting. If you want to represent
financial year as "08-09", "09-10", "11-12" etc:
// Financial year computing
int year = DateTime.Now.Month > 3 ? DateTime.Now.Year + 1: DateTime.Now.Year;
// Converting financial year (as a period) into string
String strfnyr = String.Format("{0:00}-{1:00}", (year - 1) % 100, year % 100);
You can even output all the edit box data in one go:
int prefix = 1; // <- 5 digit prefix mentioned in the question
int year = DateTime.Now.Month > 3 ? DateTime.Now.Year + 1: DateTime.Now.Year;
String result = String.Format("{0:00000}/{1:00}-{2:00}", prefix, (year - 1) % 100, year % 100);

Convert DateTime to Julian Date in C# (ToOADate Safe?)

I need to convert from a standard Gregorian date to a Julian day number.
I've seen nothing documented in C# to do this directly, but I have found many posts (while Googling) suggesting the use of ToOADate.
The documentation on ToOADate does not suggest this as a valid conversion method for Julian dates.
Can anyone clarify if this function will perform conversion accurately, or perhaps a more appropriate method to convert DateTime to a Julian formatted string.
This provides me with the expected number when validated against Wikipedia's Julian Day page
public static long ConvertToJulian(DateTime Date)
{
int Month = Date.Month;
int Day = Date.Day;
int Year = Date.Year;
if (Month < 3)
{
Month = Month + 12;
Year = Year - 1;
}
long JulianDay = Day + (153 * Month - 457) / 5 + 365 * Year + (Year / 4) - (Year / 100) + (Year / 400) + 1721119;
return JulianDay;
}
However, this is without an understanding of the magic numbers being used.
Thanks
References:
DateTime.ToOADate Method
OADate is similar to Julian Dates, but uses a different starting point (December 30, 1899 vs. January 1, 4713 BC), and a different 'new day' point. Julian Dates consider noon to be the beginning of a new day, OADates use the modern definition, midnight.
The Julian Date of midnight, December 30, 1899 is 2415018.5. This method should give you the proper values:
public static double ToJulianDate(this DateTime date)
{
return date.ToOADate() + 2415018.5;
}
As for the algorithm:
if (Month < 3) ...: To make the magic numbers work our right, they're putting February at the 'end' of the year.
(153 * Month - 457) / 5: Wow, that's some serious magic numbers.
Normally, the number of days in each month is 31 28 31 30 31 30 31 31 30 31 30 31, but after that adjustment in the if statement, it becomes 31 30 31 30 31 31 30 31 30 31 31 28. Or, subtract 30 and you end up with 1 0 1 0 1 1 0 1 0 1 1 -2. They're creating that pattern of 1s and 0s by doing that division in integer space.
Re-written to floating point, it would be (int)(30.6 * Month - 91.4). 30.6 is the average number of days per month, excluding February (30.63 repeating, to be exact). 91.4 is almost the number of days in 3 average non-February months. (30.6 * 3 is 91.8).
So, let's remove the 30, and just focus on that 0.6 days. If we multiply it by the number of months, and then truncate to an integer, we'll get a pattern of 0s and 1s.
0.6 * 0 = 0.0 -> 0
0.6 * 1 = 0.6 -> 0 (difference of 0)
0.6 * 2 = 1.2 -> 1 (difference of 1)
0.6 * 3 = 1.8 -> 1 (difference of 0)
0.6 * 4 = 2.4 -> 2 (difference of 1)
0.6 * 5 = 3.0 -> 3 (difference of 1)
0.6 * 6 = 3.6 -> 3 (difference of 0)
0.6 * 7 = 4.2 -> 4 (difference of 1)
0.6 * 8 = 4.8 -> 4 (difference of 0)
See that pattern of differences in the right? That's the same pattern in the list above, the number of days in each month minus 30. The subtraction of 91.8 would compensate for the number of days in the first three months, that were moved to the 'end' of the year, and adjusting it by 0.4 moves the successive differences of 1 (0.6 * 4 and 0.6 * 5 in the above table) to align with the adjacent months that are 31 days.
Since February is now at the 'end' of the year, we don't need to deal with its length. It could be 45 days long (46 on a leap year), and the only thing that would have to change is the constant for the number of days in a year, 365.
Note that this relies on the pattern of 30 and 31 month days. If we had two months in a row that were 30 days, this would not be possible.
365 * Year: Days per year
(Year / 4) - (Year / 100) + (Year / 400): Plus one leap day every 4 years, minus one every 100, plus one every 400.
+ 1721119: This is the Julian Date of March 2nd, 1 BC. Since we moved the 'start' of the calendar from January to March, we use this as our offset, rather than January 1st. Since there is no year zero, 1 BC gets the integer value 0. As for why March 2nd instead of March 1st, I'm guessing that's because that whole month calculation was still a little off at the end. If the original writer had used - 462 instead of - 457 (- 92.4 instead of - 91.4 in floating point math), then the offset would have been to March 1st.
While the method
public static double ToJulianDate(this DateTime date) { return date.ToOADate() + 2415018.5; }
works for modern dates, it has significant shortcomings.
The Julian date is defined for negative dates - i.e, BCE (before common era) dates and is common in astronomical calculations. You cannot construct a DateTime object with the year less than 0, and so the Julian Date cannot be computed for BCE dates using the above method.
The Gregorian calendar reform of 1582 put an 11 day hole in the calendar between October 4th and the 15th. Those dates are not defined in either the Julian calendar or the Gregorian calendar, but DateTime accepts them as arguments. Furthermore, using the above method does not return the correct value for any Julian date. Experiments with using the System.Globalization.JulianCalendar.ToDateTime(), or passing the JulianCalendar era into the DateTime constructor still produce incorrect results for all dates prior to October 5, 1582.
The following routines, adapted from Jean Meeus' "Astronomical Algorithms", returns correct results for all dates starting from noon on January 1st, -4712, time zero on the Julian calendar. They also throw an ArgumentOutOfRangeException if an invalid date is passed.
public class JulianDate
{
public static bool isJulianDate(int year, int month, int day)
{
// All dates prior to 1582 are in the Julian calendar
if (year < 1582)
return true;
// All dates after 1582 are in the Gregorian calendar
else if (year > 1582)
return false;
else
{
// If 1582, check before October 4 (Julian) or after October 15 (Gregorian)
if (month < 10)
return true;
else if (month > 10)
return false;
else
{
if (day < 5)
return true;
else if (day > 14)
return false;
else
// Any date in the range 10/5/1582 to 10/14/1582 is invalid
throw new ArgumentOutOfRangeException(
"This date is not valid as it does not exist in either the Julian or the Gregorian calendars.");
}
}
}
static private double DateToJD(int year, int month, int day, int hour, int minute, int second, int millisecond)
{
// Determine correct calendar based on date
bool JulianCalendar = isJulianDate(year, month, day);
int M = month > 2 ? month : month + 12;
int Y = month > 2 ? year : year - 1;
double D = day + hour/24.0 + minute/1440.0 + (second + millisecond / 1000.0)/86400.0;
int B = JulianCalendar ? 0 : 2 - Y/100 + Y/100/4;
return (int) (365.25*(Y + 4716)) + (int) (30.6001*(M + 1)) + D + B - 1524.5;
}
static public double JD(int year, int month, int day, int hour, int minute, int second, int millisecond)
{
return DateToJD(year, month, day, hour, minute, second, millisecond);
}
static public double JD(DateTime date)
{
return DateToJD(date.Year, date.Month, date.Day, date.Hour, date.Minute, date.Second, date.Millisecond);
}
}
If someone need to convert from Julian date to DateTime , see below :
public static DateTime FromJulianDate(double julianDate)
{
return DateTime.FromOADate(julianDate - 2415018.5);
}
The explanation by David Yaw is spot on, but calculation of the cumulative number of days of the year for the months prior to the given month is anti-intuitive. If you prefer an array of integers to make the algorithm more clear then this will do:
/*
* convert magic numbers created by:
* (153*month - 457)/5)
* into an explicit array of integers
*/
int[] CumulativeDays = new int[]
{
-92 // Month = 0 (Should not be accessed by algorithm)
, -61 // Month = 1 (Should not be accessed by algorithm)
, -31 // Month = 2 (Should not be accessed by algorithm)
, 0 // Month = 3 (March)
, 31 // Month = 4 (April)
, 61 // Month = 5 (May)
, 92 // Month = 6 (June)
, 122 // Month = 7 (July)
, 153 // Month = 8 (August)
, 184 // Month = 9 (September)
, 214 // Month = 10 (October)
, 245 // Month = 11 (November)
, 275 // Month = 12 (December)
, 306 // Month = 13 (January, next year)
, 337 // Month = 14 (February, next year)
};
and the first thre lines of the calculation then become:
int julianDay = day
+ CumulativeDays[month]
+ 365*year
+ (year/4)
The expression
(153*month - 457)/5)
though produces the exact same sequence same integers as the array above for values in the range: 3 to 14; inclusive and does so with no storage requirements. The lack of storage requirements is only virtue in calculating the cumulative number of days in such and obfuscated way.
My code for modified Julian Date uses the same algorithm but a different magic number on the end so that the resulting value matches the Modified Julian Date shown on Wikipedia. I have been using this same algorithm for at least 10 years as the key for daily time series (originally in Java).
public static int IntegerDate(DateTime date)
{
int Month = date.Month;
int Day = date.Day;
int Year = date.Year;
if (Month < 3)
{
Month = Month + 12;
Year = Year - 1;
}
//modified Julian Date
return Day + (153 * Month - 457) / 5 + 365 * Year + (Year / 4) - (Year / 100) + (Year / 400) - 678882;
}
The reverse calculation has more magic numbers for your amusement:
public static DateTime FromDateInteger(int mjd)
{
long a = mjd + 2468570;
long b = (long)((4 * a) / 146097);
a = a - ((long)((146097 * b + 3) / 4));
long c = (long)((4000 * (a + 1) / 1461001));
a = a - (long)((1461 * c) / 4) + 31;
long d = (long)((80 * a) / 2447);
int Day = (int)(a - (long)((2447 * d) / 80));
a = (long)(d / 11);
int Month = (int)(d + 2 - 12 * a);
int Year = (int)(100 * (b - 49) + c + a);
return new DateTime(Year, Month, Day);
}
The below method gives you the julian days starting from 1995/1/1, 00:00:00
/// <summary>
/// "GetJulianDays" will return a Julian Days starting from date 1 Jan 1995
/// </summary>
/// <param name="YYYYMMddHHmmss"></param>
/// <returns>Julian Day for given date</returns>
public string GetJulianDays(DateTime YYYYMMddHHmmss)
{
string DateTimeInJulianFormat = string.Empty;
DateTime julianStartDate = new DateTime(1995, 1, 1, 00, 00, 00); //YYYY,MM,dd,HH,mm,ss
DateTime DateTimeNow = YYYYMMddHHmmss;
double difference = (DateTimeNow - julianStartDate).TotalDays;
int totalDays = int.Parse(difference.ToString());
DateTimeInJulianFormat = string.Format("{0:X}", totalDays);
return DateTimeInJulianFormat;
}
I use some calculations in microcontrollers but require years only between 2000 and 2255.
Here is my code:
typedef struct {
unsigned int8 seconds; // 0 to 59
unsigned int8 minutes; // 0 to 59
unsigned int8 hours; // 0 to 23 (24-hour time)
unsigned int8 day; // 1 to 31
unsigned int8 weekday; // 0 = Sunday, 1 = Monday, etc.
unsigned int8 month; // 1 to 12
unsigned int8 year; // (2)000 to (2)255
unsigned int32 julian; // Julian date
} date_time_t;
// Convert from DD-MM-YY HH:MM:SS to JulianTime
void JulianTime(date_time_t * dt)
{
unsigned int8 m, y;
y = dt->year;
m = dt->month;
if (m > 2) m -= 3;
else {
m += 9;
y --;
}
dt->julian = ((1461 * y) / 4) + ((153 * m + 2) / 5) + dt->day;
dt->weekday = ( dt->julian + 2 ) % 7;
dt->julian = (dt->julian * 24) + (dt->hours );
dt->julian = (dt->julian * 60) + (dt->minutes );
dt->julian = (dt->julian * 60) + (dt->seconds );
}
// Reverse from JulianTime to DD-MM-YY HH:MM:SS
void GregorianTime(date_time_t *dt)
{
unsigned int32 j = dt->julian;
dt->seconds = j % 60;
j /= 60;
dt->minutes = j % 60;
j /= 60;
dt->hours = j % 24;
j /= 24;
dt->weekday = ( j + 2 ) % 7; // Get day of week
dt->year = (4 * j) / 1461;
j = j - ((1461 * dt->year) / 4);
dt->month = (5 * j - 3) / 153;
dt->day = j - (((dt->month * 153) + 3) / 5);
if ( dt->month < 10 )
{
dt->month += 3;
}
else
{
dt->month -= 9;
dt->year ++;
}
}
Hope this helps :D
The wikipedia page you linked contain the code for conversion from either the Julian or the Gregorian calendars. E.g. you can choose to convert a date prior to the Gregorian calendar era, which is called 'the proleptic Gregorian calendar'.
Depending on the chosen 'conversion' calendar the output will vary. This is because the calendars themselves are different constructs and deals with alignments/corrections of various sorts in different ways.
public enum ConversionCalendar
{
GregorianCalendar,
JulianCalendar,
}
public static int ConvertDatePartsToJdn(int year, int month, int day, ConversionCalendar conversionCalendar)
{
switch (conversionCalendar)
{
case ConversionCalendar.GregorianCalendar:
return ((1461 * (year + 4800 + (month - 14) / 12)) / 4 + (367 * (month - 2 - 12 * ((month - 14) / 12))) / 12 - (3 * ((year + 4900 + (month - 14) / 12) / 100)) / 4 + day - 32075);
case ConversionCalendar.JulianCalendar:
return (367 * year - (7 * (year + 5001 + (month - 9) / 7)) / 4 + (275 * month) / 9 + day + 1729777);
default:
throw new System.ArgumentOutOfRangeException(nameof(calendar));
}
}
One can also convert back from JDN to date components:
public static void ConvertJdnToDateParts(int julianDayNumber, ConversionCalendar conversionCalendar, out int year, out int month, out int day)
{
var f = julianDayNumber + 1401;
if (conversionCalendar == ConversionCalendar.GregorianCalendar)
f += (4 * julianDayNumber + 274277) / 146097 * 3 / 4 + -38;
var eq = System.Math.DivRem(4 * f + 3, 1461, out var er);
var hq = System.Math.DivRem(5 * (er / 4) + 2, 153, out var hr);
day = hr / 5 + 1;
month = ((hq + 2) % 12) + 1;
year = eq - 4716 + (14 - month) / 12;
}
These methods were created from the code on wikipedia, so they should work, unless I fumbled something up.
Per definition on 1.1.2000 at 11:58:55,800 UTC (J2000.0)
exactly 2451545 JD (julian days) had passed since the very first day.
const long J2000UtcTicks = 630823247358000000L; // (new DateTime(2000,1,1,11,58,55,800)).Ticks
const double TicksPerDay = 24 * 60 * 60 * 1E7; // 100ns is equal to 1 tick
// to convert any
DateTime dt;
// you need to convert to timezone GMT and calc the ticks ...
double ticks = dt.ToUniversalTime().Ticks - J2000UtcTicks;
return 2451545d + ticks / TicksPerDay;
in razo pages:
code:
ViewData["jul"] = DateTime.Now.ToOADate() + 2415018.5;
view:
#ViewData["jul"]
in view only:
#{Double jday= DateTime.Now.ToOADate() + 2415018.5;}
#jday
The following function converts a date to Julian date that matches that of Tradestation Easylanguage:
public double ToJulianDate(DateTime date) { return date.ToOADate(); }

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