Difference between revisions of "User:Pedro Oval/UnixToDateTime"
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integer c = unix/86400; | integer c = unix/86400; | ||
integer a = (c*4 + 102032)/146097 + 15; | integer a = (c*4 + 102032)/146097 + 15; | ||
integer b = c + 2442113 + a + a/ | integer b = c + 2442113 + a + a/(integer)-4; | ||
c = (b*20 + | c = (b*20 + (integer)-2442)/7305; | ||
b += c* | b += c*(integer)-365 + c/(integer)-4; | ||
a = b*1000/30601; | a = b*1000/30601; | ||
b += a* | b += a*(integer)-30 + a*(integer)-601/1000; | ||
return (list)( | return (list)((integer)-4716 + c + (a>13)) | ||
+ -~((a + 10)%12) | + -~((a + 10)%12) | ||
+ b | + b | ||
| Line 38: | Line 38: | ||
if (unix & 0x80000000) | if (unix & 0x80000000) | ||
{ | { | ||
unix += | unix += (integer)-86400*~-c; // we're interested in unix mod 86400 from here on, | ||
// but mod doesn't work well with negatives either | // but mod doesn't work well with negatives either | ||
if (unix^86400) --c; // c needs fixup unless unix%86400 == 0 | if (unix^86400) --c; // c needs fixup unless unix%86400 == 0 | ||
| Line 44: | Line 44: | ||
integer a = (c*4 + 102032)/146097 + 15; | integer a = (c*4 + 102032)/146097 + 15; | ||
integer b = c + 2442113 + a + a/ | integer b = c + 2442113 + a + a/(integer)-4; | ||
c = (b*20 + | c = (b*20 + (integer)-2442)/7305; | ||
b += c* | b += c*(integer)-365 + c/(integer)-4; | ||
a = b*1000/30601; | a = b*1000/30601; | ||
b += a* | b += a*(integer)-30 + a*(integer)-601/1000; | ||
return (list)( | return (list)((integer)-4716 + c + (a>13)) | ||
+ -~((a + 10)%12) | + -~((a + 10)%12) | ||
+ b | + b | ||
Revision as of 14:53, 21 July 2014
Convert a Unix timestamp (e.g. as obtained by llGetUnixTime) to a UTC date and time.
Adapted and optimized from this Ruby version: http://ptspts.blogspot.com/2009/11/how-to-convert-unix-timestamp-to-civil.html
Optimized for size in Mono.
Returns a list with the format [year, month, day, hours, minutes, seconds] (UTC).
This is the shortest version, but it works with positive input only (i.e. with numbers representing dates from 1970 to 2037). <lsl> list UnixToDateTime(integer unix) {
integer c = unix/86400; integer a = (c*4 + 102032)/146097 + 15; integer b = c + 2442113 + a + a/(integer)-4; c = (b*20 + (integer)-2442)/7305; b += c*(integer)-365 + c/(integer)-4; a = b*1000/30601; b += a*(integer)-30 + a*(integer)-601/1000;
return (list)((integer)-4716 + c + (a>13))
+ -~((a + 10)%12)
+ b
+ unix/3600%24
+ unix/60%60
+ unix%60;
} </lsl> Size in Mono: 492 bytes.
This version also works with negative input: <lsl> list UnixToDateTime(integer unix) {
integer c = unix/86400;
// LSL doesn't do floor division as required here, so we have to fix up the result
if (unix & 0x80000000)
{
unix += (integer)-86400*~-c; // we're interested in unix mod 86400 from here on,
// but mod doesn't work well with negatives either
if (unix^86400) --c; // c needs fixup unless unix%86400 == 0
}
integer a = (c*4 + 102032)/146097 + 15; integer b = c + 2442113 + a + a/(integer)-4; c = (b*20 + (integer)-2442)/7305; b += c*(integer)-365 + c/(integer)-4; a = b*1000/30601; b += a*(integer)-30 + a*(integer)-601/1000;
return (list)((integer)-4716 + c + (a>13))
+ -~((a + 10)%12)
+ b
+ unix/3600%24
+ unix/60%60
+ unix%60;
} </lsl>
Size in Mono: 556 bytes.