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As I was looking into solutions for another question, I found myself wondering whether it was possible to use .NET's Calendar class to implement a calendar that wasn't based on Earthly conventions.

For instance, Mars' day is about 2.7% longer than a day here on Earth:

A convention used by spacecraft lander projects to date has been to keep track of local solar time using a 24 hour "Mars clock" on which the hours, minutes and seconds are 2.7% longer than their standard (Earth) durations.

Is there any good way to implement a MarsCalendar such that the length of a second is different from the standard GregorianCalendar, and thus be able to use DateTime objects based on it for all the standard AddDays(), AddHours(), etc. functions? (Note: Ideally, a solution - if one exists - would be applicable to any form of planetary object for which it is possible to define both "1 day" and "1 year" of consistent lengths. Mars makes for a great example, though)

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    hmmm that would be the first time I see martians dependant on our technology :P – user2711965 Feb 21 '14 at 16:41
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    There should be a badge for "Best question of the day", and this should win it! – Sean Feb 21 '14 at 16:45
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    @DavidKhaykin - Once you get up to anything larger than a day, the 2.7% conversion breaks down. Hours/minutes/seconds are based on rotational speed, while Days/Months/Years are based on orbit speed. On the other hand, Calendar already supports setting arbitrary numbers of day per year. – Bobson Feb 21 '14 at 18:02
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    FYI, it's not a C# Calendar class. The same class can be used by VB.NET or any other .NET language. It's the .NET Calendar class. – John Saunders Feb 22 '14 at 2:09
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    This is kind of interesting. ANY earth-based calendar would simply be pointless in the context of tracking time on Mars. In Earth time, Mars rotates in 29 hrs, 39 minutes, 35 seconds. A Martian year is 1.8809 Earth years. But if Mars is your frame of reference, all of that is meaningless. Your day is just however long it takes for Mars to rotate about its axis one time. Divide that into a convenient number of slices, you get "hours." Divide those, you get minutes, divide those and you get seconds. The divisions are just mathematically handy, with no meaning beyond what we ascribe to them. – Craig Feb 23 '14 at 20:23
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There are several non-Gregorian calendar classes derived from System.Globalization.Calendar within the Globalization namespace (i.e. JapaneseCalendar). You should be able to implement your own. I'd whip up a sample, but there are 16 abstract methods in the Calendar class...

You might even be able to simply derive your class from GregorianCalendar and just override the GetMilliseconds(DateTime) method, returning the base's return value multiplied by 1.027d.

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    Interesting. Would that propagate up to larger time increments, or would I have to override each one separately? – Bobson Feb 24 '14 at 18:14
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    After a bit more research into the other calendars, I'd guess that GregorianCalendar and the other calendars use the Ticks property of each DateTime passed to it for the math behind all of its GetX methods. It gets complicated with DateTime values, because the DayOfYear, DayOfMonth, and DayOfWeek properties are clamped to earthly values. There are no calendars built-in to the System.Globalization namespace that have more than 12 months or more than 365 days (though some have less days), so I'm guessing those clamped values can't be overridden, so you might need your own DateTime structure. – Michael Hoffmann Mar 3 '14 at 3:54
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The answer is NO.

Calendar is strongly the product of a culture.
In example even here on earth there are several calendars..
for some cultures a day begins and ends on the sunrise for others it is the sunset..

What you can do is to decide on some universal constant in a controlled environment to be the initial reference point.. such as how atomic watch is made.. this can help you have the smallest measure of time.. and on that you can construct a scale of other measures, such second, hour, day and etc..
But you don't really need that.. the earth which revolves the sun is already a natural source to get the same thing and requires no constructing efforts.. it will give you the same results in satisfactory accuracy and it has around 6 milliard people QA'ing it continuously.

What is the date or time on mars? it is the same as it is on earth.

If you want to "explode" the unity of how we grasp the calendar.. by theorizing every celestial object may have its own local time... no problem - but you must acknowledge those local times will not have a common generic shared rule, they will be arbiter and related to "culture" or some other arbiter selection per object - meaning that parsing will be hell to calculate and will have to be per object.
(that does not mean I am against the idea itself)

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    @Bobson I saying it is not possible to devise such a calendar in the first place unless some arbiter decisions are made, in example if we decide that mars rotation over the sun would mean 1 year.. ok.. but what would be a month? will it be based on 1st moon of mars or second moon of mars?? so, how to implement it - is hardly the real problem - what to implement is the actual core of the problem. And if we cannot be decisive what to implement - is it really relevant to discuss which class should we inherit to implement? – G.Y Feb 23 '14 at 6:36
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    Don't forget that time is also affected by gravity and motion. There simply couldn't be a "universal" time because time doesn't even "move" at the same rate everywhere, even leaving aside local effects like the rotational period of whatever planet you happen to be standing on. Time proceeds more slowly (however incrementally) closer to the sun than it does further away, because of the gravitational impact of the sun's mass. The sun's mass bends light, and it warps time. But within an observer's frame of reference, time would seem "normal" to that observer, right? – Craig Feb 23 '14 at 20:08
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    @G.Y - I disagree. What to implement is up to whoever is doing the implementation. I'm not proposing this become included in System.Globalization in the next revision of .NET. This is simply a question of "If I want to do this, how do I?" It has uses other than other planets - Calendars for custom-designed fantasy worlds, for instance. – Bobson Feb 24 '14 at 14:22
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    @Bobson I understand what you asking, but you cannot ignore the fact that the .Net Calendar is using DateTime type as argument to many of the abstract methods.. it also assuming that a year is constructed by months and that every month has days.. those are terrestrial concepts to describe the passage of time by using terrestrial measurements such as a second or a minute and so on.. Those came from cultural concepts... – G.Y Feb 24 '14 at 17:08
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    @G.Y - Sure you can. Override the GetDaysInYear() function. If it obeys celestial mechanics, the year part is trivial, and months is just an arbitrary breakdown of a year. It's also possible to say that the entire year contains of a single month and thus months don't actually exist. – Bobson Feb 24 '14 at 17:47

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