How do I calculate the difference between two dates in hours?
For example:
day1=2006-04-12 12:30:00
day2=2006-04-14 11:30:00
In this case the result should be 47 hours.
The newer PHP-Versions provide some new classes called DateTime
, DateInterval
, DateTimeZone
and DatePeriod
. The cool thing about this classes is, that it considers different timezones, leap years, leap seconds, summertime, etc. And on top of that it's very easy to use. Here's what you want with the help of this objects:
// Create two new DateTime-objects...
$date1 = new DateTime('2006-04-12T12:30:00');
$date2 = new DateTime('2006-04-14T11:30:00');
// The diff-methods returns a new DateInterval-object...
$diff = $date2->diff($date1);
// Call the format method on the DateInterval-object
echo $diff->format('%a Day and %h hours');
The DateInterval-object, which is returned also provides other methods than format
. If you want the result in hours only, you could to something like this:
$date1 = new DateTime('2006-04-12T12:30:00');
$date2 = new DateTime('2006-04-14T11:30:00');
$diff = $date2->diff($date1);
$hours = $diff->h;
$hours = $hours + ($diff->days*24);
echo $hours;
And here are the links for documentation:
All these classes also offer a procedural/functional way to operate with dates. Therefore take a look at the overview: http://php.net/manual/book.datetime.php
$diff->d
equals 0 (because I am trying to calculate the hours between two dates that are exactly 2 months apart): Running var_dump($diff)
showed me another parameter: ["days"]=>int(61)
, so I ended up using $hours = $diff->days * 24;
, and it came out close to the "average" of 1440 hours given 2 30 day months, so that's looking much better than a result of 0. (Guessing my PHP version is a bit old...)
Apr 1, 2013 at 19:01
DateDiff
can't give us the total hours is beyond me. Thanks for your answer and direction. Was confused why my diff was missing a day's worth of hours. Makes sense now!
$t1 = strtotime( '2006-04-14 11:30:00' );
$t2 = strtotime( '2006-04-12 12:30:00' );
$diff = $t1 - $t2;
$hours = $diff / ( 60 * 60 );
To provide another method for DatePeriod
when using the UTC or GMT timezone.
$start = new \DateTime('2006-04-12T12:30:00');
$end = new \DateTime('2006-04-14T11:30:00');
//determine what interval should be used - can change to weeks, months, etc
$interval = new \DateInterval('PT1H');
//create periods every hour between the two dates
$periods = new \DatePeriod($start, $interval, $end);
//count the number of objects within the periods
$hours = iterator_count($periods);
echo $hours . ' hours';
//difference between Unix Epoch
$diff = $end->getTimestamp() - $start->getTimestamp();
$hours = $diff / ( 60 * 60 );
echo $hours . ' hours (60 * 60)';
//difference between days
$diff = $end->diff($start);
$hours = $diff->h + ($diff->days * 24);
echo $hours . ' hours (days * 24)';
Result
47 hours (iterator_count)
47 hours (60 * 60)
47 hours (days * 24)
Please be advised that DatePeriod
excludes an hour for DST but does not add another hour when DST ends. So its usage is subjective to your desired outcome and date range.
See the current bug report
//set timezone to UTC to disregard daylight savings
date_default_timezone_set('America/New_York');
$interval = new \DateInterval('PT1H');
//DST starts Apr. 2nd 02:00 and moves to 03:00
$start = new \DateTime('2006-04-01T12:00:00');
$end = new \DateTime('2006-04-02T12:00:00');
$periods = new \DatePeriod($start, $interval, $end);
$hours = iterator_count($periods);
echo $hours . ' hours';
//DST ends Oct. 29th 02:00 and moves to 01:00
$start = new \DateTime('2006-10-28T12:00:00');
$end = new \DateTime('2006-10-29T12:00:00');
$periods = new \DatePeriod($start, $interval, $end);
$hours = iterator_count($periods);
echo $hours . ' hours';
Result
#2006-04-01 12:00 EST to 2006-04-02 12:00 EDT
23 hours (iterator_count)
//23 hours (60 * 60)
//24 hours (days * 24)
#2006-10-28 12:00 EDT to 2006-10-29 12:00 EST
24 hours (iterator_count)
//25 hours (60 * 60)
//24 hours (days * 24)
#2006-01-01 12:00 EST to 2007-01-01 12:00 EST
8759 hours (iterator_count)
//8760 hours (60 * 60)
//8760 hours (days * 24)
//------
#2006-04-01 12:00 UTC to 2006-04-02 12:00 UTC
24 hours (iterator_count)
//24 hours (60 * 60)
//24 hours (days * 24)
#2006-10-28 12:00 UTC to 2006-10-29 12:00 UTC
24 hours (iterator_count)
//24 hours (60 * 60)
//24 hours (days * 24)
#2006-01-01 12:00 UTC to 2007-01-01 12:00 UTC
8760 hours (iterator_count)
//8760 hours (60 * 60)
//8760 hours (days * 24)
DateInterval
does not accept fractional values as in the ISO 8601 specification. So P1.2Y
is not a valid duration in PHP.
iterator_count
, it is due to DatePeriod
not being able to generate dates when the start date is in the future from the end date. See: 3v4l.org/Ypsp1 to use a negative date, you need to specify a negative interval, DateInterval::createFromDateString('-1 hour');
with a start date in the past of from the end date.
DatePeriod
, as by default it will include the start date between the specified periods unless they are less than or equal to the start date. In effect you are telling php to create a period of 1 hour between the two dates, within 1 second of time. You would need to remove the minutes and seconds from your date objects, as they are not relevant in the calculation, using DateTime::setTime(date->format('H'), 0)
. 3v4l.org/K7uss This way if you are over the range by 1 second, another date is not created.
your answer is:
round((strtotime($day2) - strtotime($day1))/(60*60))
The easiest way to get the correct number of hours between two dates (datetimes), even across daylight saving time changes, is to use the difference in Unix timestamps. Unix timestamps are seconds elapsed since 1970-01-01T00:00:00 UTC, ignoring leap seconds (this is OK because you probably don't need this precision, and because it's quite difficult to take leap seconds into account).
The most flexible way to convert a datetime string with optional timezone information into a Unix timestamp is to construct a DateTime object (optionally with a DateTimeZone as a second argument in the constructor), and then call its getTimestamp method.
$str1 = '2006-04-12 12:30:00';
$str2 = '2006-04-14 11:30:00';
$tz1 = new DateTimeZone('Pacific/Apia');
$tz2 = $tz1;
$d1 = new DateTime($str1, $tz1); // tz is optional,
$d2 = new DateTime($str2, $tz2); // and ignored if str contains tz offset
$delta_h = ($d2->getTimestamp() - $d1->getTimestamp()) / 3600;
if ($rounded_result) {
$delta_h = round ($delta_h);
} else if ($truncated_result) {
$delta_h = intval($delta_h);
}
echo "Δh: $delta_h\n";
getTimestamp()
now returns exactly the same value as format("U")
. The former is an integer, though, while the latter is a string (less efficient here).
Oct 15, 2015 at 20:52
getTimestamp()
if I could be sure.
//Calculate number of hours between pass and now
$dayinpass = "2013-06-23 05:09:12";
$today = time();
$dayinpass= strtotime($dayinpass);
echo round(abs($today-$dayinpass)/60/60);
<?
$day1 = "2014-01-26 11:30:00";
$day1 = strtotime($day1);
$day2 = "2014-01-26 12:30:00";
$day2 = strtotime($day2);
$diffHours = round(($day2 - $day1) / 3600);
echo $diffHours;
?>
$day1 = "2006-04-12 12:30:00"
$day1 = strtotime($day1);
$day2 = "2006-04-14 11:30:00"
$day2 = strtotime($day2);
$diffHours = round(($day2 - $day1) / 3600);
I guess strtotime() function accept this date format.
Unfortunately the solution provided by FaileN doesn't work as stated by Walter Tross.. days may not be 24 hours!
I like to use the PHP Objects where possible and for a bit more flexibility I have come up with the following function:
/**
* @param DateTimeInterface $a
* @param DateTimeInterface $b
* @param bool $absolute Should the interval be forced to be positive?
* @param string $cap The greatest time unit to allow
*
* @return DateInterval The difference as a time only interval
*/
function time_diff(DateTimeInterface $a, DateTimeInterface $b, $absolute=false, $cap='H'){
// Get unix timestamps, note getTimeStamp() is limited
$b_raw = intval($b->format("U"));
$a_raw = intval($a->format("U"));
// Initial Interval properties
$h = 0;
$m = 0;
$invert = 0;
// Is interval negative?
if(!$absolute && $b_raw<$a_raw){
$invert = 1;
}
// Working diff, reduced as larger time units are calculated
$working = abs($b_raw-$a_raw);
// If capped at hours, calc and remove hours, cap at minutes
if($cap == 'H') {
$h = intval($working/3600);
$working -= $h * 3600;
$cap = 'M';
}
// If capped at minutes, calc and remove minutes
if($cap == 'M') {
$m = intval($working/60);
$working -= $m * 60;
}
// Seconds remain
$s = $working;
// Build interval and invert if necessary
$interval = new DateInterval('PT'.$h.'H'.$m.'M'.$s.'S');
$interval->invert=$invert;
return $interval;
}
This like date_diff()
creates a DateTimeInterval
, but with the highest unit as hours rather than years.. it can be formatted as usual.
$interval = time_diff($date_a, $date_b);
echo $interval->format('%r%H'); // For hours (with sign)
N.B. I have used format('U')
instead of getTimestamp()
because of the comment in the manual. Also note that 64-bit is required for post-epoch and pre-negative-epoch dates!
Carbon could also be a nice way to go.
From their website:
A simple PHP API extension for DateTime. http://carbon.nesbot.com/
Example:
use Carbon\Carbon;
//...
$day1 = Carbon::createFromFormat('Y-m-d H:i:s', '2006-04-12 12:30:00');
$day2 = Carbon::createFromFormat('Y-m-d H:i:s', '2006-04-14 11:30:00');
echo $day1->diffInHours($day2); // 47
//...
Carbon extends the DateTime class to inherit methods including diff()
. It adds nice sugars like diffInHours
, diffInMintutes
, diffInSeconds
e.t.c.
This function helps you to calculate exact years and months between two given dates, $doj1
and $doj
. It returns example 4.3 means 4 years and 3 month.
<?php
function cal_exp($doj1)
{
$doj1=strtotime($doj1);
$doj=date("m/d/Y",$doj1); //till date or any given date
$now=date("m/d/Y");
//$b=strtotime($b1);
//echo $c=$b1-$a2;
//echo date("Y-m-d H:i:s",$c);
$year=date("Y");
//$chk_leap=is_leapyear($year);
//$year_diff=365.25;
$x=explode("/",$doj);
$y1=explode("/",$now);
$yy=$x[2];
$mm=$x[0];
$dd=$x[1];
$yy1=$y1[2];
$mm1=$y1[0];
$dd1=$y1[1];
$mn=0;
$mn1=0;
$ye=0;
if($mm1>$mm)
{
$mn=$mm1-$mm;
if($dd1<$dd)
{
$mn=$mn-1;
}
$ye=$yy1-$yy;
}
else if($mm1<$mm)
{
$mn=12-$mm;
//$mn=$mn;
if($mm!=1)
{
$mn1=$mm1-1;
}
$mn+=$mn1;
if($dd1>$dd)
{
$mn+=1;
}
$yy=$yy+1;
$ye=$yy1-$yy;
}
else
{
$ye=$yy1-$yy;
$ye=$ye-1;
$mn=12-1;
if($dd1>$dd)
{
$ye+=1;
$mn=0;
}
}
$to=$ye." year and ".$mn." months";
return $ye.".".$mn;
/*return daysDiff($x[2],$x[0],$x[1]);
$days=dateDiff("/",$now,$doj)/$year_diff;
$days_exp=explode(".",$days);
return $years_exp=$days; //number of years exp*/
}
?>
<php
needs to be changed to <?php
Or approve the suggested edit, which removes the bug all-together.
Jun 28, 2013 at 8:35
In addition to @fyrye's very helpful answer this is an okayish workaround for the mentioned bug (this one), that DatePeriod substracts one hour when entering summertime, but doesn't add one hour when leaving summertime (and thus Europe/Berlin's March has its correct 743 hours but October has 744 instead of 745 hours):
function getMonthHours(string $year, string $month, \DateTimeZone $timezone): int
{
// or whatever start and end \DateTimeInterface objects you like
$start = new \DateTimeImmutable($year . '-' . $month . '-01 00:00:00', $timezone);
$end = new \DateTimeImmutable((new \DateTimeImmutable($year . '-' . $month . '-01 23:59:59', $timezone))->format('Y-m-t H:i:s'), $timezone);
// count the hours just utilizing \DatePeriod, \DateInterval and iterator_count, hell yeah!
$hours = iterator_count(new \DatePeriod($start, new \DateInterval('PT1H'), $end));
// find transitions and check, if there is one that leads to a positive offset
// that isn't added by \DatePeriod
// this is the workaround for https://bugs.php.net/bug.php?id=75685
$transitions = $timezone->getTransitions((int)$start->format('U'), (int)$end->format('U'));
if (2 === count($transitions) && $transitions[0]['offset'] - $transitions[1]['offset'] > 0) {
$hours += (round(($transitions[0]['offset'] - $transitions[1]['offset'])/3600));
}
return $hours;
}
$myTimezoneWithDST = new \DateTimeZone('Europe/Berlin');
var_dump(getMonthHours('2020', '01', $myTimezoneWithDST)); // 744
var_dump(getMonthHours('2020', '03', $myTimezoneWithDST)); // 743
var_dump(getMonthHours('2020', '10', $myTimezoneWithDST)); // 745, finally!
$myTimezoneWithoutDST = new \DateTimeZone('UTC');
var_dump(getMonthHours('2020', '01', $myTimezoneWithoutDST)); // 744
var_dump(getMonthHours('2020', '03', $myTimezoneWithoutDST)); // 744
var_dump(getMonthHours('2020', '10', $myTimezoneWithoutDST)); // 744
P.S. If you check a (longer) timespan, which leads to more than those two transitions, my workaround won't touch the counted hours to reduce the potential of funny side effects. In such cases, a more complicated solution must be implemented. One could iterate over all found transitions and compare the current with the last and check if it is one with DST true->false.
$diff_min = ( strtotime( $day2 ) - strtotime( $day1 ) ) / 60 / 60;
$total_time = $diff_min;
You can try this one.
The second part of the answer from @fidi doesn't factor in months/years.
$date1 = new DateTime('2006-04-12T12:30:00');
$date2 = new DateTime('2010-04-14T11:30:00');
$diff = $date2->diff($date1);
$hours = $diff->h;
$days = intval($diff->format('%a'));
$hours = $hours + ($days*24);
echo $hours;
To pass a unix timestamp use this notation
$now = time();
$now = new DateTime("@$now");
+0:00
when using @
in the DateTime constructor. While using the DateTime::modify()
method will pass the timestamp as +0:00
and output the current timezone. Alternatively use $date = new DateTime(); $date->setTimestamp($unix_timestamp);
see: 3v4l.org/BoAWI
// Create two new DateTime-objects...
$date1 = new DateTime('2006-04-12T12:30:00');
$date2 = new DateTime('2006-04-14T11:30:00');
// The diff-method returns difference in days...
$diffInDays = $date2->diffInDays($date1);
// The diff-method returns difference in hours...
$diffInHours = $date2->diffInHours($date1);
// The diff-method returns difference in mintes...
$diffInMinutes = $date2->diffInMinutes($date1);
This is working in my project. I think, This will be helpful for you.
If Date is in past then invert will 1.
If Date is in future then invert will 0.
$defaultDate = date('Y-m-d');
$datetime1 = new DateTime('2013-03-10');
$datetime2 = new DateTime($defaultDate);
$interval = $datetime1->diff($datetime2);
$days = $interval->format('%a');
$invert = $interval->invert;
strftime()
and split the difference by 3600, but will that always work? Damn you, Daylight Savings Time!strtotime()
it WILL always work, as long as you use the default timezone OR explicitly specify the timezone offset. No reason to curse the DST.