Date::Manip::Calc(3pm)User Contributed Perl DocumentatioDate::Manip::Calc(3pm)NAMEDate::Manip::Calc - describes date calculations
SYNOPSIS
Two objects (both of which are either Date::Manip::Date or
Date::Manip::Delta objects) may be used to creates a third object based
on those two.
$delta = $date->calc($date2 [,$subtract] [,$mode]);
$date2 = $date->calc($delta [,$subtract]);
$date2 = $delta->calc($date1 [,$subtract]);
$delta3 = $delta1->calc($delta2 [,$subtract] [,$no_normalize]);
DESCRIPTION
This document describes the different types of calculations that can be
done using dates and deltas. Date calculations are much more
complicated than they initially appear, so this document is fairly
large.
The complication in date calculations is due to the fact that it is
impossible to express some parts of a delta as an exact length. Some
examples will illustrate this:
As an example, let's take two dates and determine how much time elapsed
between them:
Nov 3 2016 11:00:00
Dec 5 2016 12:00:00
Elapsed time: 770 hours
There are several ways to describe the time that elapsed. The first
way is to give the difference exactly. This is the exact delta.
An exact delta is always described in terms of hours, minutes, and
seconds.
The problem with this is that we don't think in terms of exact deltas.
We think in terms which cannot be expressed exactly.
For example, most people would look at those two dates and think:
Percieved: 1 month, 2 days, 1 hour
But the two dates:
Feb 3 2016 11:00:00
Mar 5 2016 12:00:00
Elapsed time: 745 hours
Perceived: 1 month, 2 days, 1 hour
Some fields in a delta do not have an exact length. A year is usually
365 days long, but sometimes it is 366. A month might be 28, 29, 30,
or 31 days long.
Perhaps the most unexpected difficulty is that days are not of constant
length. Most people would define a day as 24 hours, but when you take
daylight saving time into account that definition produces unexpected
results. The following calculation illustrates this:
Nov 5, 2011 02:30 EDT
+ 24 hour
Result: Nov 6, 2011 01:30 EST
This immediately causes most people to redefine a day as the amount of
time between the same wallclock time. For example, the amount of time
between noon one day and noon the next (regardless of daylight saving
time changes).
This definition doesn't work either. For example:
Mar 12, 2011 02:30 EST
+ 1 day (same time next day)
Result: Mar 13 02:30 EST
But that date does not exist! Neither does:
Result: Mar 13 02:30 EDT
An alternate calculation could be:
Nov 5, 2011 01:30 EDT
+ 1 day (same time next day)
Result: Nov 6, 01:30 EDT
Result: Nov 6, 01:30 EST
Both of those results exist. Which result did you mean? The first one
is probably correct (since it is 24 hours later), but an hour later,
you will have the same clock time again.
So, the same time next day definition doesn't work at all for some
dates (during a 'spring forward' type daylight saving time transition)
and is ambiguous for others (during a 'fall back' type daylight saving
time transition).
Calculations involving exact deltas are unambiguous in all cases.
A second class of delta is called a semi-exact delta, and these add
days (and weeks) to the delta, and treats days as a "same time next
day" at all times except the two cases where the resulting date falls
in the period where a daylight saving time transition is occuring.
Then it falls back to the 24 hour definition.
A final class of delta is an approximate delta which includes all of
the fields (years and months). This allows Date::Manip to handle
deltas in a way that is consistent with how most people perceive the
elapsed time. It should be noted that there is some uncertaintly there
as not everyone's definition of how a delta is perceived is the same,
but in general, they should be closer to what most people think of.
TYPES OF CALCULATIONS
This document describes the different types of calculations.
Calculations involve two types of Date::Manip objects: dates and
deltas. These are described in the Date::Manip::Date and
Date::Manip::Delta manuals respectively.
Two objects (two dates, two deltas, or one of each) are used. In all
cases, if a second object is not passed in, undef is returned.
There are 3 types of calculations:
Date/Date calculations
A calculation involving 2 dates is used to determine the amount of
time (the delta) between them.
$delta = $date1->calc($date2 [,$subtract] [,$mode]);
Two dates can be worked with and a delta will be produced which is
the amount of time between the two dates.
$date1 and $date2 are Date::Manip::Date objects with valid dates.
The Date::Manip::Delta object returned is the amount of time
between them. If $subtract is not passed in (or is 0), the delta
produced is:
DELTA = DATE2 - DATE1
If $subtract is non-zero, the delta produced is:
DELTA = DATE1 - DATE2
The $subtract argument has special importance when doing
approximate calculations, and this is described below.
If either date is invalid, a delta object will be returned which
has an error associated with it.
The $mode argument describes the type of delta that is produced and
is described below in "MODE".
Date/Delta calculations
Date/delta calculations can be performed using either a
Date::Manip::Date or Date::Manip::Delta object as the primary
object:
$date2 = $date1->calc($delta [,$subtract]);
$date2 = $delta->calc($date1 [,$subtract]);
A date and delta can be combined to yield a date that is the given
amount of time before or after it.
$date1 and $delta are Date::Manip::Date and Date::Manip::Delta
objects respectively. A new Date::Manip::Date object is produced.
If either $date1 or $delta are invalid, the new date object will
have an error associated with it.
Both of the calls above perform the same function and produce
exactly the same results.
If $subtract is not passed in, or is 0, the resulting date is
formed as:
DATE2 = DATE1 + DELTA
If $subtract is non-zero, the resulting date is:
DATE2 = DATE1 - DELTA
The $subtract argument has special importance when doing
approximate calculations, and this is described below in
"SUBTRACTION".
Delta/Delta calculations
Delta/delta calculations can be performed to add two amounts of
time together, or subtract them.
$delta3 = $delta1->calc($delta2 [,$subtract] [,$no_normalize]);
If $subtract is not passed in, or is 0, the resulting delta formed
is:
DELTA3 = DELTA1 + DELTA2
If $subtract is non-zero, then the resulting delta is:
DELTA3 = DELTA1 - DELTA2
$delta1 and $delta2 are valid Date::Manip::Delta objects, and a new
Date::Manip::Delta object is produced.
$no_normalize can be the string 'nonormalize' or a non-zero value
(in which case $subtract MUST be entered, even if it is 0).
MODE
Date::Manip calculations can be divided into two different categories:
business and non-business; and within those are three sub-categories:
exact, semi-exact, and approximate.
Business and non-business calculations
A business calculation is one where the length of the day is
determined by the length of the work day, and only business days
(i.e. days in which business is conducted) count. Holidays and
weekends are omitted (though there is some flexibility in defining
what exactly constitutes the work week as described in the
Date::Manip::Config manual). This is described in more detail below
in "BUSINESS MODE CONSIDERATIONS".
A non-business mode calculation is the normal type of calculation
where no days are ignored, and all days are full length.
Exact, semi-exact, and approximate calculations
An exact calculation is one in which the delta used (or produced)
is an exact delta. An exact delta is described in more detail in
the Date::Manip::Delta manual, but the short explanation is that it
is a delta which only involves fields of an exactly known length
(hours, minutes, and seconds). Business deltas also include days
in the exact part. The value of all other fields in the delta will
be zero.
A semi-exact calculation is one in which the deltas used (or
produced) is a semi-exact delta. This is also described in the
Date::Manip::Delta manual, but the short explanation is that it
includes days and weeks (for standard calculations) or weeks (for
business calculations) in addition to the exact fields. A semi-
exact day is defined as the same clock time on two successive days.
So noon to noon is 1 day (even though it may not be exactly 24
hours due to a daylight saving time transition). A week is defined
as 7 days. This is described in more detail below.
An approximate calculation is one in which the deltas used (or
produced) are approximate, and may include any of the fields.
In date-delta and delta-delta calculations, the mode of the calculation
will be determined automatically by the delta. In the case of date-date
calculations, the mode is supplied as an argument.
Mode in date-date calculations
When doing a date-date calculation, the following call is used:
$delta = $date1->calc($date2 [,$subtract] [,$mode]);
$mode defaults to "exact". The delta produced will be be either a
business or non-business delta; exact, semi-exact, or approximate,
as specified by $mode.
Currently, the possible values that $mode can have are:
exact : an exact, non-business calculation
semi : a semi-exact, non-business calculation
approx : an approximate, non-business calculation
business : an exact, business calculation
bsemi : a semi-exact, business calculation
bapprox : an approximate, business calculation
Mode in date-delta calculations
When doing calculations of a date and a delta:
$date2 = $date1->calc($delta [,$subtract]);
$date2 = $delta->calc($date1 [,$subtract]);
the mode is not passed in. It is determined exclusively by the
delta. If $delta is a business delta, A business calculation is
done. If $delta is a non-business delta, a non-business calculation
will be done.
The $delta will also be classified as exact, semi-exact, or
approximate based on which fields are non-zero.
Mode in delta-delta calculations
When doing calculations with two deltas:
$delta3 = $delta1->calc($delta2 [,$subtract]);
the mode is not passed in. It is determined by the two deltas.
If both deltas are business mode, or both are non-business mode, a
new delta will be produced of the same type.
It one of the deltas is a business mode and the other is not, the
resulting delta will have an error condition since there is no
direct correlation between the two types of deltas. Even though it
would be easy to add the two together, it would be impossible to
come up with a result that is meaningful.
If both deltas are exact, semi-exact, or approximate, the resulting
delta is the same. If one delta is approximate and one is not, then
the resulting delta is approximate. It is NOT treated as an error.
Likewise, if one is semi-exact and the other exact, a semi-exact
delta is produced.
TIMEZONE CONSIDERATIONS
date-date calculations
When doing a business calculation, both dates must be in the same
time zone or an error is produced.
For non-business calculations, when calculating the difference
between two dates in different time zones, $date2 will be converted
to the same timezone as $date1 and the returned date will be in
this timezone.
date-delta calculations
When adding a delta to a date, the resulting date will be in the
same time zone as the original date.
delta-delta calculations
No timezone information applies.
It should also be noted that daylight saving time considerations are
currently ignored when doing business calculations. In common usage,
daylight saving time changes occurs outside of the business day, so the
business day length is constant. As a result, daylight saving time is
ignored.
BUSINESS MODE CONSIDERATIONS
In order to correctly do business mode calculations, a config file
should exist which contains the section defining holidays (otherwise,
weekends will be ignored, but all other days will be counted as
business days). This is documented below, and in the
Date::Manip::Config section of the documentation. Some config
variables (namely WorkWeekBeg, WorkWeekEnd, WorkDayBeg, WorkDayEnd, and
WorkDay24Hr) defined the length of the work week and work day.
If the workday is defined as 08:00 to 18:00, a work week consisting of
Mon-Sat, and the standard (American) holidays, then from Tuesday at
12:00 to the following Monday at 14:00 is 5 days and 2 hours. If the
"end" of the day is reached in a calculation, it automatically switches
to the next day. So, Tuesday at 12:00 plus 6 hours is Wednesday at
08:00 (provided Wed is not a holiday). Also, a date that is not during
a workday automatically becomes the start of the next workday. So,
Sunday 12:00 and Monday at 03:00 both automatically becomes Monday at
08:00 (provided Monday is not a holiday).
Note that a business week is treated the same as an exact week (i.e.
from Tuesday to Tuesday, regardless of holidays). Because this means
that the relationship between days and weeks is NOT unambiguous, when a
semi-exact delta is produced from two dates, it will be in terms of
d/h/mn/s (i.e. no week field).
Anyone using business mode is going to notice a few quirks about it
which should be explained. When I designed business mode, I had in
mind what a business which promises 1 business day turnaround really
means.
If you do a business calculation (with the workday set to 9:00-17:00),
you will get the following:
Saturday at noon + 1 business day = Tuesday at 9:00
Saturday at noon - 1 business day = Friday at 9:00
What does this mean?
As an example, say I use a business that works 9-5 and they have a drop
box so I can drop things off over the weekend and they promise 1
business day turnaround. If I drop something off Friday night,
Saturday, or Sunday, it doesn't matter. They're going to get started
on it Monday morning. It'll be 1 business day to finish the job, so
the earliest I can expect it to be done is around 17:00 Monday or 9:00
Tuesday morning. Unfortunately, there is some ambiguity as to what day
17:00 really falls on, similar to the ambiguity that occurs when you
ask what day midnight falls on. Although it's not the only answer,
Date::Manip treats midnight as the beginning of a day rather than the
end of one. In the same way, 17:00 is equivalent to 9:00 the next day
and any time the date calculations encounter 17:00, it automatically
switch to 9:00 the next day. Although this introduces some quirks, I
think this is justified. I also think that it is the way most people
think of it. If I drop something off first thing Monday morning, I
would expect to pick it up first thing Tuesday if there is 1 business
day turnaround.
Equivalently, if I want a job to be finished on Saturday (despite the
fact that I cannot pick it up since the business is closed), I have to
drop it off no later than Friday at 9:00. That gives them a full
business day to finish it off. Of course, I could just as easily drop
it off at 17:00 Thursday, or any time between then and 9:00 Friday.
Again, it's a matter of treating 17:00 as ambiguous.
So Saturday + 1 business day = Tuesday at 9:00 (which means anything
from Monday 17:00 to Tuesday 9:00), but Monday at 9:01 + 1 business day
= Tuesday at 9:01 which is unambiguous.
It should be noted that when adding years, months, and weeks, the
business day is ignored. Once they've been added, the resulting date
is forced to be a business time (i.e. it moves to the start of the next
business day if it wasn't one already) before proceeding with the days,
hours, minutes, and seconds part.
EXACT, SEMI-EXACT, AND APPROXIMATE DATE/DELTA CALCULATIONS
This section contains more details about exactly how exact, semi-exact,
and approximate calculations are performed for date/delta calculations.
All calculations make use of some exact quantities, including:
1 year = 12 months
1 week = 7 days
1 hour = 60 minutes
1 minute = 60 seconds
This leaves two relationships which are not exact:
1 month = ? days
1 day = ? hours
For non-business calculations, a day is usually 24 hours long. Due to
daylight saving time transitions which might make a day be 23 or 25
hours long (or in some cases, some other length), the relation is not
exact. Whenever possible, a day is actually measured as the same time
on two days (i.e. Tuesday at noon to Wednesday at noon) even if that
period is not precisely 24 hours. For business calculations, a days
length is determined by the length of the work day and is known
exactly.
Exact calculations involve ONLY quantities of time with a known length,
so there is no ambiguity in them.
Approximate and semi-exact calculations involve variable length fields,
and so they must be treated specially.
In order to do an approximate or semi-exact calculation, the delta is
added to a date in pieces, where the fields in each piece have an exact
and known relationship.
For a non-business calculation, a calculation occurs in the following
steps:
year/month fields added
week/day fields added
hour/minute/second fields added
For a business calculation, the steps are:
year/month fields added
week field added
day field added
hour/minute/second fields added
After each step, a valid date must be present, or it will be adjusted
before proceeding to the next step. Note however that for business
calculations, the first step must produce a valid date, but not
necessarily a business date. The second step will produce a valid
business date.
A series of examples will illustrate this.
A date and non-business approximate delta
date = Mar 31 2001 at 12:00:00
delta = 1 year, 1 month, 1 day, 1 hour
First, the year/month fields are added without modifying any other
field. This would produce:
Apr 31, 2002 at 12:00
which is not valid. Any time the year/month fields produce a day
past the end of the month, the result is 'truncated' to the last
day of the month, so this produces:
Apr 30, 2002 at 12:00
Next the week/day fields are added producing:
May 1, 2002 at 12:00
and finally, the exact fields (hour/minute/second) are added to
produce:
May 1, 2002 at 13:00
A simple business calculation
Assuming a normal Monday-Friday work week from 8:00 - 17:00:
date = Wed, Nov 23, 2011 at 12:00
delta = 1 week, 1 day, 1 hour
First, the week field is added:
Wed, Nov 30, 2011 at 12:00
Then the day field is added:
Thu, Dec 1, 2011 at 12:00
Then the exact fields are added:
Thu, Dec 1, 2011 at 13:00
A business example where a holiday impacts it
In America, Jul 4 is a holiday, so Mon, Jul 4, 2011 is not a work
day.
date = Mon, Jun 27, 2011 at 12:00
delta = 1 week, 1 day, 1 hour
First, the week field is added:
Mon, Jul 4, 2011 at 12:00
Since that is not a work day, it immediately becomes:
Tue, Jul 5, 2011 at 8:00
Then the day field is added:
Wed, Jul 6, 2011 at 8:00
and finally the remaining fields:
Wed, Jul 6, 2011 at 9:00
Calculation where daylight savings time impacts it (fall example)
In the America/New_York timezone (Eastern time), on November 6,
2011, the following time change occurred:
2011-11-06 02:00 EDT => 2011-11-06 01:00 EST
Three simple calculations illustrate how this is handled:
date = 2011-11-05 02:30 EDT
delta = 1 day
Adding the day produces:
2011-11-06 02:30 EDT
which is valid, so that is the result.
Similarly:
date = 2011-11-07 02:30 EST
delta = -1 day
produces:
2011-11-06 02:30 EST
which is valid.
Finally:
date = 2011-11-05 02:30 EDT
delta = 2 days
produces:
2011-11-07 02:30 EST
The calculation will preserve the savings time where possible so
the resulting day will have the same offset from UTC. If that is
not possible, but the resulting day is valid in the other offset,
that will be used instead.
Calculation where daylight savings time impacts it (spring example)
In the America/New_York timezone (Eastern time), on March 13, the
following time change occurred:
2011-03-13 02:00 EST => 2011-03-13 03:00 EDT
In this case, a calculation may produce an invalid date.
date = 2011-03-12 02:30 EST
delta = 1 day
produces:
2011-03-13 02:30 EST
This is not valid. Neither is:
2011-03-13 02:30 EDT
In this case, the calculation will be redone converting days to
24-hour periods, so the calculation becomes:
date = 2011-03-12 02:30 EST
delta = 24 hours
which will produce a valid date:
2011-03-13 03:30 EDT
EXACT, SEMI-EXACT, AND APPROXIMATE DATE/DATE CALCULATIONS
This section contains more details about exactly how exact, semi-exact,
and approximate calculations are performed for date/date calculations.
When calculating the delta between two dates, the delta may take
different forms depending on the mode passed in. An exact calculation
will produce a delta which included only exact fields. A semi-exact
calculation may produce a semi-exact delta, and an approximate
calculation may produce an approximate delta. Note that if the two
dates are close enough together, an exact delta will be produced (even
if the mode is semi-exact or approximate), or it may produce a semi-
exact delta in approximate mode.
For example, the two dates "Mar 12 1995 12:00" and "Apr 13 1995 12:00"
would have an exact delta of "744 hours", and a semi-exact delta of "31
days". It would have an approximate delta of "1 month 1 day".
Two dates, "Mar 31 12:00" and "Apr 30 12:00" would have deltas "720
hours" (exact), "30 days" (semi-exact) or "1 month" (approximate).
Approximate mode is a more human way of looking at things (you'd say 1
month and 2 days more often then 33 days), but it is less meaningful in
terms of absolute time.
One thing to remember is that an exact delta is exactly the amount of
time that has passed, including all effects of daylight saving time.
Semi-exact and approximate deltas usually ignore the affects of
daylight saving time.
SUBTRACTION
In exact and semi-exact calculations, and in delta-delta calculations,
the the $subtract argument is easy to understand. When working with an
approximate delta however (either when adding an approximate delta to a
date, or when taking two dates to get an approximate delta), there is a
degree of uncertainty in how the calculation is done, and the $subtract
argument is used to specify exactly how the approximate delta is to be
use. An example illustrates this quite well.
If you take the date Jan 4, 2000 and subtract a delta of "1 month 1
week" from it, you end up with Nov 27, 1999 (Jan 4, 2000 minus 1 month
is Dec 4, 1999; minus 1 week is Nov 27, 1999). But Nov 27, 1999 plus a
delta of "1 month 1 week" is Jan 3, 2000 (Nov 27, 1999 plus 1 month is
Dec 27, 1999; plus 1 week is Jan 3, 2000).
In other words the approximate delta (but NOT the exact or semi-exact
delta) is different depending on whether you move from earlier date to
the later date, or vice versa. And depending on what you are
calculating, both are useful.
In order to resolve this, the $subtract argument can take on the values
0, 1, or 2, and have different meanings.
$subtract in approximate date-date calculations
In the call:
$delta = $date1->calc($date2,$subtract,"approx");
if $subtract is 0, the resulting delta can be added to $date1 to
get $date2. Obviously $delta may still be negative (if $date2 comes
before $date1).
If $subtract is 1, the resulting delta can be subtracted from
$date1 to get $date2 (the deltas from these two are identical
except for having an opposite sign).
If $subtract is 2, the resulting delta can be added to $date2 to
get $date1. In other words, the following are identical:
$delta = $date1->calc($date2,2,"approx");
$delta = $date2->calc($date1,"approx");
$subtract in approximate date-delta calculations
In the call:
$date2 = $date1->calc($delta,$subtract);
If $subtract is 0, the resulting date is determined by adding
$delta to $date1.
If $subtract is 1, the resulting date is determined by subtracting
$delta from $date1.
If $subtract is 2, the resulting date is the date which $delta can
be added to to get $date1.
For business mode calculations, $date1 will first be adjusted to be
a valid work day (if it isn't already), so this may lead to non-
intuitive results.
In some cases, it is impossible to do a calculation with $subtract
= 2. As an example, if the date is "Dec 31" and the delta is "1
month", there is no date which you can add "1 month" to to get "Dec
31". When this occurs, the date returned has an error flag.
APPROXIMATE DATE/DATE CALCULATION
There are two different ways to look at the approximate delta between
two dates.
In Date::Manip 5.xx, the approximate delta between the two dates:
Jan 10 1996 noon
Jan 7 1998 noon
was 1:11:4:0:0:0:0 (or 1 year, 11 months, 4 weeks). In calculating
this, the first date was adjusted as far as it could go towards the
second date without going past it with each unit starting with the
years and ending with the seconds.
This gave a strictly positive or negative delta, but it isn't actually
how most people would think of the delta.
As of Date::Manip 6.0, the delta is 2:0:0:-3:0:0:0 (or 2 years minus 3
days). Although this leads to mixed-sign deltas, it is actually how
more people would think about the delta. It has the additional
advantage of being easier to calculate.
For non-business mode calculations, the year/month part of the
approximate delta will move a date from the year/month of the first
date into the year/month of the second date. The remainder of the delta
will adjust the days/hours/minutes/seconds as appropriate.
For approximate business mode calculations, the year, date, and week
parts will be done approximately, and the remainder will be done
exactly.
KNOWN BUGS
None known.
BUGS AND QUESTIONS
Please refer to the Date::Manip::Problems documentation for information
on submitting bug reports or questions to the author.
SEE ALSO
Date::Manip - main module documentation
LICENSE
This script is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
AUTHOR
Sullivan Beck (sbeck@cpan.org)
perl v5.26.0 2017-10-14 Date::Manip::Calc(3pm)