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Similar to Convert time interval given in seconds into more human readable form, but not identical:

I already have an algorithm to convert a duration given in seconds to human-readable units, like "130 weeks, 1 day, 2 hours, 54 minutes, and 27 seconds".

However the algorithm gets messy when taking into account variable-length months and leap years. Obviously the algorithm would have to take into account from/to where the duration is starting/ending.

Does anybody have such an algorithm?

My algorithm is written in Perl, and it is returning an array of pairs, where each pair consists of a number and a unit string. The result is sorted by length of duration (longest first).

https://stackoverflow.com/a/36369554/6607497 seems to convert "both ends" of the duration to absolute calendar date, and then build the difference for each component (which would work, too, of course). The answer in https://stackoverflow.com/a/36359847/6607497 shows how to compute leap years at least.

After reading In PHP, how do I get the accurate (not approximate) total individual number of weeks, months and years between two timestamps? I think I probably don't want to take daylight saving time leaps and leap seconds into account, but if someone wants to propose a universal solution, I won't say no ;-)


Here's some code for illustration:

#!/usr/bin/perl
use warnings;
use strict;

use constant SECS_PER_MIN               => 60;          # seconds per minute
use constant SECS_PER_HOUR              => 60 * SECS_PER_MIN;   # .. per hour
use constant SECS_PER_DAY               => 24 * SECS_PER_HOUR;  # .. per day
use constant SECS_PER_WEEK              =>  7 * SECS_PER_DAY;   # .. per week

my @duration_units = (
    [SECS_PER_WEEK, 'W'],
    [SECS_PER_DAY, 'D'],
    [SECS_PER_HOUR, 'H'],
    [SECS_PER_MIN, 'M'],
    [1, 'S']
);

use POSIX qw(floor fmod);

# duration as components
sub duration_components($)
{
    my $secs = $_[0];
    my @result = ($secs >= 0 ? '+' : '-');
    my $last_unit = $duration_units[-1];

    $secs = -$secs
        if ($secs < 0);
    foreach (@duration_units) {
        my ($duration, $unit) = @$_;

        if ($secs >= $duration || $_ == $last_unit) {
            unless ($_ == $last_unit) {
                my $n = floor($secs / $duration);

                push(@result, [$n, $unit]);
                $secs = fmod($secs, $duration);
            } elsif ($secs > 0 || $#result == 0) {
                my $n = floor(1000 * $secs / $duration) / 1000;

                push(@result, [$n, $unit]);
                $secs = 0;
            }
        }
    }
    return @result;
}

my @test = duration_components(10000000);

Example output:

  DB<4> x duration_components(10000000)
0  '+'
1  ARRAY(0x1fb6060)
   0  16
   1  'W'
2  ARRAY(0x1e41840)
   0  3
   1  'D'
3  ARRAY(0x1f17d20)
   0  17
   1  'H'
4  ARRAY(0x1dbff18)
   0  46
   1  'M'
5  ARRAY(0x1dbf540)
   0  40
   1  'S'

Now if you want to break down the 16 weeks of 10 million seconds, you obviously need to know the absolute position of the duration in calendar time to get exact months, weeks and days from that.

As noted, DST (daylight saving time) changes are another challenge needing a timezone.

The length of a month, and the length of a year

Here's a sketch of a desired solution (I'm using the ISO 8601 characters):

32 days (86400*29 seconds) from July 12th 2024 (CEST) is August 13th 2024 (CEST), and the output might be [[1, 'M'], [1, 'D']] (P1M1D); when using just 30 days, then the output could be [[4, 'W'], [2, 'D']] (P4W2D), and when adding 123 seconds to that it should be [[4, 'W'], [2, 'D'], ['', 'T'], [2, 'M'], [3, 'S']] (P4W2DT2M3S).

Finally (thanks to the ISO specs) the output for 86400*31+120 (since 2024-07-12) should be P1MT2M. However the same number of seconds since 1234567890 (Sat Feb 14 00:31:30 2009 CEST) should give P1M3DT2M (if I did the maths right).

Because of February the length of a year also varies.

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  • But as indicated in the question the output using months or longer units can only be correct if the duration is "anchored" at some point in time, i.e. 30 days after February 1st is two months, while starting from January 1st its one month.
    – U. Windl
    Commented Jul 10 at 5:58
  • "30 days after February 1st is two months" : To clarify your question, it would be great if you could include one or two examples with input and the expected output Commented Jul 10 at 12:29
  • It's interesting that nobody actually seemed to care to specify what a duration of one month actually is. Agreed, while developing the solution I'll have to think about it, but for the moment I'd say if you "cross a month boundary" then it's two months.
    – U. Windl
    Commented Jul 11 at 5:59

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