# How do I find out what the date some weeks ago was?

I was trying to determine a good way to calculate a previous date based on how many weeks I would want to go back. Today is 7/19/2011, so if I wanted to go back 5 weeks what would be the best way to determine what that date would be?

-
For linky goodness: stackoverflow.com/questions/2311385/… –  Alex Jul 20 '11 at 4:05

`DateTime::Duration` is your friend there:

``````use strict;
use warnings;
use 5.010;

use DateTime;

my \$now = DateTime->now(time_zone => 'local');
my \$five_weeks = DateTime::Duration->new(weeks => 5);
my \$five_weeks_ago = \$now - \$five_weeks;

say "Five weeks ago now it was \$five_weeks_ago";
``````

Notice that it lets you specify the duration in the units of the problem.

-
`->now` is in GMT which may or may not be what you want. –  Chas. Owens Jul 20 '11 at 9:28
However, `->from_epoch` is exactly what I don't want. –  darch Jul 20 '11 at 18:35

Perl has this marvelous thing called regexes that can solve almost any problem.

``````use strict;
use warnings;

my \$date = shift || '7/19/2011';
my \$days_ago = shift || 7*5;

\$date =~ s#^([0-9]+)/([0-9]+)/([0-9]+)\z#@{[sprintf"%.2d",\$1]}/@{[sprintf"%.2d",\$2]}/\$3/\$days_ago#;
until ( \$date =~ s#^([0-9]+)/([0-9]+)/([0-9]+)/0\z#@{[\$1+0]}/@{[\$2+0]}/\$3# ) {
\$date =~ s#([0-9]+)/([0-9]+)/([0-9]+)/([0-9]+)#@{[\$2==1?sprintf"%.2d",\$1-1||12:\$1]}/@{[sprintf"%.2d",\$2-1||31]}/@{[\$1==1 && \$2==1?\$3-1:\$3]}/@{[\$4-1]}#;
\$date =~ s#([0-9]+)\z#@{[\$1+1]}# unless \$date =~ m#^(?:0[1-9]|1[012])/(?:0[1-9]|1[0-9]|2[0-8]|(?<!0[2469]/|11/)31|(?<!02/)30|(?<!02/(?=...(?:..(?:[02468][1235679]|[13579][01345789])|(?:[02468][1235679]|[13579][01345789])00)))29)/#;
}
print \$date, "\n";
``````

(Please don't do it this way.)

-
I dunno, 5 regexes and a loop, might be slow... Better to combine that into a single regex with embedded code blocks, while coding the loop into the backtracking :) –  Eric Strom Jul 19 '11 at 21:34
The last two regexes could be combined into a single substitution, but I was too lazy. –  ysth Jul 19 '11 at 21:47
I wish it to be noted that my upvote in no way should be construed as condoning this solution. –  Chas. Owens Jul 20 '11 at 13:08
a downvote! yay –  ysth Jul 22 '11 at 1:35

I like Date::Calc

``````use strict;
use warnings;

my \$offset_weeks = -5;
my \$offset_days = \$offset_weeks * 7;

# Year, Month, Day
Today( [ localtime ] ),
\$offset_days
);

printf "%2d/%2d/%4d\n", @delta_date[1,2,0];
``````

It is designed to catch common gotchas such as leap year.

-

Best or easiest? I have always found `strftime`'s date normalization to be handy for this sort of thing:

``````#!/usr/bin/perl

use strict;
use warnings;

use POSIX qw/strftime/;

my @date = localtime;

print strftime "today is %Y-%m-%d\n", @date;

\$date[3] -= 5 * 7;

print strftime "five weeks ago was %Y-%m-%d\n", @date;
``````

Which solution is best depends partly on what you want to do with the date when you are done. Here is a benchmark with implementations of various methods:

``````#!/usr/bin/perl

use strict;
use warnings;

use Benchmark;

use Date::Manip qw/UnixDate/;
use Date::Simple qw/today/;
use DateTime;
use POSIX qw/strftime/;
use Class::Date;

my %subs = (
cd => sub {
(Class::Date::now - [0, 0, 5 * 7])->strftime("%Y-%m-%d");
},
dc => sub {
sprintf "%d-%02s-%02d", Add_Delta_Days Today, -5 * 7;
},
dm => sub {
UnixDate("5 weeks ago", "%Y-%m-%d");
},
ds => sub {
(today() - 5 * 7)->strftime("%Y-%m-%d");
},
dt => sub {
my \$now = DateTime->from_epoch(epoch => time, time_zone => "local");
my \$five_weeks = DateTime::Duration->new(weeks => 5);
(\$now - \$five_weeks)->ymd('-');
},
p => sub {
my @date = localtime;
\$date[3] -= 5 * 7;
strftime "%Y-%m-%d", @date;
},
y => sub {
my (\$d, \$m, \$y) = (localtime)[3..5];
my \$date = join "/", \$m+1, \$d, \$y+1900;
my \$days_ago = 7*5;

\$date =~ s#^([0-9]+)/([0-9]+)/([0-9]+)\z#@{[sprintf"%.2d",\$1]}/@{[sprintf"%.2d",\$2]}/\$3/\$days_ago#;
until ( \$date =~ s#^([0-9]+)/([0-9]+)/([0-9]+)/0\z#@{[\$1+0]}/@{[\$2+0]}/\$3# ) {
\$date =~ s#([0-9]+)/([0-9]+)/([0-9]+)/([0-9]+)#@{[\$2==1?sprintf"%.2d",\$1-1||12:\$1]}/@{[sprintf"%.2d",\$2-1||31]}/@{[\$1==1 && \$2==1?\$3-1:\$3]}/@{[\$4-1]}#;
\$date =~ s#([0-9]+)\z#@{[\$1+1]}# unless \$date =~ m#^(?:0[1-9]|1[012])/(?:0[1-9]|1[0-9]|2[0-8]|(?<!0[2469]/|11/)31|(?<!02/)30|(?<!02/(?=...(?:..(?:[02468][1235679]|[13579][01345789])|(?:[02468][1235679]|[13579][01345789])00)))29)/#;
}
return \$date;
},
);

print "\$_: ", \$subs{\$_}(), "\n" for keys %subs;

Benchmark::cmpthese -1, \%subs;
``````

And here are the results. The `strftime` method seems to be the fastest, but it is also has the least features.

``````y: 6/14/2011
dm: 2011-06-14
p: 2011-06-14
dc: 2011-06-14
cd: 2011-06-14
dt: 2011-06-15
ds: 2011-06-14
Rate    dt    dm     y    ds    cd    dc     p
dt  1345/s    --   -5%  -28%  -77%  -82%  -96%  -98%
dm  1408/s    5%    --  -24%  -75%  -81%  -96%  -98%
y   1862/s   38%   32%    --  -68%  -75%  -95%  -97%
ds  5743/s  327%  308%  208%    --  -24%  -84%  -90%
cd  7529/s  460%  435%  304%   31%    --  -78%  -87%
dc 34909/s 2495% 2378% 1775%  508%  364%    --  -39%
p  56775/s 4121% 3931% 2949%  889%  654%   63%    --
``````

Better than a benchmark is a test of how they handle DST (this test would have caught the error in the assumption about what `DateTime->now` returns).

``````#!/usr/bin/perl

use strict;
use warnings;

use Time::Mock;
use Date::Manip qw/UnixDate/;
use Date::Simple qw/today/;
use DateTime;
use POSIX qw/strftime mktime/;
use Class::Date;

sub target {
my @date = localtime;
\$date[3] -= 5 * 7;
strftime "%Y-%m-%d", @date;
}

my %subs = (
cd => sub {
(Class::Date::now - [0, 0, 5 * 7])->strftime("%Y-%m-%d");
},
dc => sub { sprintf "%d-%02s-%02d", Add_Delta_Days Today, -5 * 7;
},
dm => sub {
UnixDate("5 weeks ago", "%Y-%m-%d");
},
ds => sub {
(today() - 5 * 7)->strftime("%Y-%m-%d");
},
dt => sub {
my \$now = DateTime->from_epoch( epoch => time, time_zone => 'local' );
my \$five_weeks = DateTime::Duration->new(weeks => 5);
(\$now - \$five_weeks)->ymd('-');
},
y => sub {
my (\$d, \$m, \$y) = (localtime)[3..5];
my \$date = join "/", \$m+1, \$d, \$y+1900;
my \$days_ago = 7*5;

\$date =~ s#^([0-9]+)/([0-9]+)/([0-9]+)\z#@{[sprintf"%.2d",\$1]}/@{[sprintf"%.2d",\$2]}/\$3/\$days_ago#;
until ( \$date =~ s#^([0-9]+)/([0-9]+)/([0-9]+)/0\z#@{[\$1+0]}/@{[\$2+0]}/\$3# ) {
\$date =~ s#([0-9]+)/([0-9]+)/([0-9]+)/([0-9]+)#@{[\$2==1?sprintf"%.2d",\$1-1||12:\$1]}/@{[sprintf"%.2d",\$2-1||31]}/@{[\$1==1 && \$2==1?\$3-1:\$3]}/@{[\$4-1]}#;
\$date =~ s#([0-9]+)\z#@{[\$1+1]}# unless \$date =~ m#^(?:0[1-9]|1[012])/(?:0[1-9]|1[0-9]|2[0-8]|(?<!0[2469]/|11/)31|(?<!02/)30|(?<!02/(?=...(?:..(?:[02468][1235679]|[13579][01345789])|(?:[02468][1235679]|[13579][01345789])00)))29)/#;
}
return join "-", map { sprintf "%02d", \$_ }
(split "/", \$date)[2,0,1];
},
);

my \$time = mktime 0, 0, 0, 13, 2, 111; #2011-03-13 00:00:00, DST in US

for my \$offset (map { \$_ * 60 * 60 } 1 .. 24) {
print strftime "%Y-%m-%d %H:%M:%S\n", (localtime \$time + \$offset);
Time::Mock->set(\$time + \$offset);
my \$target = target;

for my \$sub (sort keys %subs) {
my \$result = \$subs{\$sub}();
if (\$result ne \$target) {
print "\$sub disagrees: ",
"time \$time target \$target result \$result\n";
}
}
}
``````
-
Lol... we're going to compare date calculations based on benchmark results? :) We could cache the results too. That way the calculation won't have to be done more than once a day unless the number of weeks back changes. (It's ok, I found it interesting.) It's surprising to see how well dc did. –  DavidO Jul 19 '11 at 21:34
DC has never been a slouch. To be fair, it should also say "the dt method seems to be the slowest, but it also had the most features". (DT isn't inherently slow; a lot of what kills it, at least in cases I've looked closely at, is Params::Validate, something none of the others do.) –  ysth Jul 19 '11 at 22:11
@ysth Of course! I just grabbed a bunch from CPAN. –  Chas. Owens Jul 20 '11 at 0:06
Why does the DateTime version have a different answer? –  Justin Hawkins Jul 20 '11 at 5:11

Using Time::Piece:

``````use Time::Piece;
use Time::Seconds qw(ONE_DAY);

my \$weeks_back = 5;
my \$date_str = '7/19/2011';
my \$dt = Time::Piece->strptime(\$date_str, '%m/%d/%Y');

# Avoid DST issues
\$dt -= ONE_DAY() * ( 7 * \$weeks_back - 0.5 )
my \$past_str = \$dt->strftime('%m/%d/%Y');
print "\$past_str\n";
``````
-

Too much code for such a simple question! All you need is two simple lines:

``````my \$five_weeks_ago = time - (5*7)*24*60*60;
print scalar localtime(\$five_weeks_ago), "\n";
``````

My solution is accurate for both DST and leap years.

-
``````say POSIX::strftime(
'%m/%d/%Y'     # format string -> mm/dd/YYYY
, 0              # no seconds
, 0              # no minutes
, 0              # no hours
, 19 - ( 5 * 7 ) # current day - numweeks * 7
, 7 - 1          # month - 1
, 2011 - 1900    # YYYY year - 1900
);
``````

Yes, the day comes out to be `19 - 35 = -16`, and yes it works.

-
`strftime` normalizes for you (that is why it is slower than `sprintf` at formatting the date), so you can just subtract `5 * 7` days from the day field and it will do the right thing. –  Chas. Owens Jul 20 '11 at 0:10

If date is available as unix timestamp, it can be done with simple arithmetic:

``````use POSIX qw/strftime/;
say strftime('%Y-%m-%d', localtime(time - 5 * 7 * 86400));
``````
-
This will fail on DTS switch days, because there is less (or more) then 86400 seconds in a day. –  Ivan Nevostruev Jul 19 '11 at 19:47
easily fixed by using gmtime, not localtime –  ysth Jul 19 '11 at 20:02
@ysth More easily fixed by letting `strftime` normalize the date for you. –  Chas. Owens Jul 20 '11 at 0:11