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I have a timestamp that represents the the number of 100-nanosecond intervals that have elapsed since 12:00:00 midnight, January 1, 0001 (according to http://msdn.microsoft.com/en-us/library/system.datetime.ticks.aspx). This value is generated by a server written in C#, but I need to convert this to a date in Objective-C on iOS.

Here is an example: The timestamp 634794644225861250 is supposed to give a date of 8-2-12 (m:d:y). I tried to calculate it myself by doing: timestamp/365/24/60/60/10,000,000, but I get 2012.92. Taking 12*0.92 I get 11.04, which means my conversion comes out to be roughly November of 2012 (not correct).

Also, by dividing by 365.25 to account for leap years I end up in 2011. It seems that the solution may involve NSDateComponents somehow, but there is not a method to set the tick value.

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Well I don't know ObjectiveC, but what you should be doing is creating a date 1/1/1 and then adding the value to it. If you can't add ticks then you do a bit of math to get seconds or some such. –  Tony Hopkinson Aug 9 '12 at 16:50
Try looking up the actual values for minutes in a day and days in a year. They aren't exactly the nice round values that we all use. Also, the rules for leap years are a little more complicated: there's a leap year every four years, unless the year is divisible by 100 then there is not, but if the year is divisible by 400 then there is. There are also leap seconds to consider. I think there are also some dates in some Medieval year that don't exist due to when people switched to the Gregorian calendar. Over two thousand years, all of this can add up to make a pretty significant difference. –  mrranstrom Aug 9 '12 at 16:53

4 Answers 4

up vote 2 down vote accepted

This C# code might help you:

// The Unix epoch is 1970-01-01 00:00:00.000
DateTime   UNIX_EPOCH = new DateTime( 1970 , 1 , 1 ) ;

// The Unix epoch represented in CLR ticks.
// This is also available as UNIX_EPOCH.Ticks
const long UNIX_EPOCH_IN_CLR_TICKS = 621355968000000000 ;

// A CLR tick is 1/10000000 second (100ns).
// Available as Timespan.TicksPerSecond
const long CLR_TICKS_PER_SECOND = 10000000 ;

DateTime now       = DateTime.Now                        ; // current moment in time
long     ticks_now = now.Ticks                           ; // get its number of tics
long     ticks     = ticks_now - UNIX_EPOCH_IN_CLR_TICKS ; // compute the current moment in time as the number of ticks since the Unix epoch began.
long     time_t    = ticks / CLR_TICKS_PER_SECOND        ; // convert that to a time_t, the number of seconds since the Unix Epoch
DateTime computed  = EPOCH.AddSeconds( time_t )          ; // and convert back to a date time value

// 'computed' is the the current time with 1-second precision.

Once you have your time_t value, the number of seconds since the Unix epoch began, you should be able to get an NSDATE in Objective-C thusly:

NSDate* myNSDate = [NSDate dateWithTimeIntervalSince1970:<my_time_t_value_here> ] ;

which see: https://developer.apple.com/library/ios/#documentation/Cocoa/Reference/Foundation/Classes/NSDate_Class/Reference/Reference.html

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On iOS you cannot use dateWithString but you can still do it easily. This solution should work on both iOS and Mac. (note: I'm typing it here, not tested)

@interface NSDate (CLRTicks)



@implementation NSDate (CLRTicks)

    return [NSDate dateWithTimeIntervalSince1970: (ticks-621355968000000000L)/10000000.0]


It is basically the same solution Nicholas posted, except in a better form. You should probably make it even better by defining the constants symbolically.

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Add a category for NSDate:

@implementation NSDate (CLRTicks)

+ (NSDate *)dateWithCLRTicks:(int64_t)ticks {
    return [NSDate dateWithCLRTicks:ticks withTimeIntervalAddition:0.0];

+ (NSDate *)dateWithCLRTicks:(int64_t)ticks withTimeIntervalAddition:(NSTimeInterval)timeIntervalAddition {
    const double GMTOffset = [[NSTimeZone defaultTimeZone] secondsFromGMT];
    const int64_t CLROffset = 621355968000000000;
    double timeStamp = ((double)(ticks - CLROffset) / 10000000.0) - GMTOffset + timeIntervalAddition;

    return [NSDate dateWithTimeIntervalSince1970:timeStamp];

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Did not do all the computations, but your leap year computation is incomplete.

You get a leap year every 4 years. But you skip one every 100 years. And you do not skip it every 400, which is why 2000 was a leap year but 1900 was not.

For example:

2012 is a leap year (divisible by 4 but not 100) 2100 is not a leap year (divisible by 100 but not 400) 2400 is a leap year (divisible 400)

In cocoa you can use NSDate.

NSDate* reference = [NSDate dateWithString:@"0001-01-01 00:00:00 +0000"];
NSDate* myDate = [NSDate dateWithTimeInterval: (ticks/10000000.0)
                                    sinceDate: reference];
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Your solution seems legitimate, but on iOS cocoa is not readily available, meaning dateWithString is not available for NSDate. There is dateFromString for NSDateFormatter, but I could never get it to produce a valid NSDate. –  Dan Watkins Aug 9 '12 at 18:57
oh, I had not noticed that you were talking of iOS. But I do not see the problem. I'll post another solution even if you already accepted Nicholas one. –  Analog File Aug 9 '12 at 19:57

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