How to find number of days between two dates using PHP?


35 Answers 35

$now = time(); // or your date as well
$your_date = strtotime("2010-01-31");
$datediff = $now - $your_date;

echo round($datediff / (60 * 60 * 24));
  • 47
    I think returning a negative number of days provides relevant information. And you should be using $your_date-$now, if you want a future date to return a positive integer.
    – Tim
    Mar 2, 2012 at 18:49
  • 25
    What about leap seconds? Not all days have exactly 24*60*60 seconds. This code might be sufficient for practical purposes but it's not exact in sone extremely rare edge cases. Aug 1, 2012 at 8:15
  • 60
    Forget leap seconds (no, actually consider those too) but this does NOT account for Daylight Saving Time changes! It can be off by an entire day over those boundaries every year. You need to use the DateTime classes.
    – Levi
    Dec 4, 2012 at 3:34
  • 7
    @billynoah Sorry, I never came back to update my comment. You have to be careful with daylight saving time zones. If you compare a date with daylight saving agains a date without it, instead of for example return 7 days it returns 6.9 days. Taking the floor returns 6 instead of 7. Jul 23, 2014 at 22:45
  • 5
    Not only does strtotime() fail in 20 years, it's unusable right now. The OP specified Dates, not Time. Dates can be quite old. Here's a simpler answer: $NumberDays = gregoriantojd($EndM,$EndD,$EndY) - gregoriantojd($StartM,$StartD,$StartY); (for an inclusive range). Unlike the Datetime Class, Gregorian to Julian is available in v4 up. Valid range is 4714 B.C. to 9999 A.D. Beware of the funky parameter order (like you need that warning for php).
    – Guy Gordon
    Dec 8, 2016 at 20:18

If you're using PHP 5.3 >, this is by far the most accurate way of calculating the absolute difference:

$earlier = new DateTime("2010-07-06");
$later = new DateTime("2010-07-09");

$abs_diff = $later->diff($earlier)->format("%a"); //3

If you need a relative (signed) number of days, use this instead:

$earlier = new DateTime("2010-07-06");
$later = new DateTime("2010-07-09");

$pos_diff = $earlier->diff($later)->format("%r%a"); //3
$neg_diff = $later->diff($earlier)->format("%r%a"); //-3

More on php's DateInterval format can be found here: https://www.php.net/manual/en/dateinterval.format.php

  • 17
    Note that because we're talking about time intervals not specific points in time, the format syntax is different from the date() and strftime() syntax. The time interval syntax can be found here: php.net/manual/en/dateinterval.format.php
    – Andrew
    Jun 4, 2013 at 7:56
  • 2
    or in my case the number of days between is $date2->diff($date1)->format("%a") - 1
    – xeo
    Feb 21, 2014 at 2:07
  • 15
    Keep in mind that if you have times in your dates, this won't work as you might expect. For example, if you have an interval of 23:30 hours... and they are on different days, the difference will be 0.
    – Layke
    May 12, 2014 at 9:47
  • 31
    If you need a relative number of days (negative when $date1 is anterior to $date2), then use $diff = $date2->diff($date1)->format("%r%a"); instead.
    – Socce
    Apr 24, 2015 at 9:06
  • 2
    This function failed 0 of its 14603 tests between 1980 and 2020.
    – LSerni
    Nov 9, 2017 at 21:42
Answer recommended by PHP Collective

From PHP Version 5.3 and up, new date/time functions have been added to get difference:

$datetime1 = new DateTime("2010-06-20");

$datetime2 = new DateTime("2011-06-22");

$difference = $datetime1->diff($datetime2);

echo 'Difference: '.$difference->y.' years, ' 
                   .$difference->m.' months, ' 
                   .$difference->d.' days';


Result as below:

Difference: 1 years, 0 months, 2 days

DateInterval Object
    [y] => 1
    [m] => 0
    [d] => 2
    [h] => 0
    [i] => 0
    [s] => 0
    [invert] => 0
    [days] => 367

Hope it helps !

  • 8
    Yes, this seems better than accepted answer, which doesn't work in some cases. Like: $from='2014-03-01'; $to='2014-03-31';
    – MBozic
    May 30, 2014 at 14:51
  • 1
    I agree, so easy to follow and works great!!! Just don't forget to use the date_default_timezone_set() function or it will give you strange results based on UTC time.
    – zeckdude
    Apr 23, 2015 at 4:50
  • 2
    This function failed 0 of 14603 tests between 1980 and 2020.
    – LSerni
    Nov 9, 2017 at 21:38
  • This is not always correct. Try: $fromDate = "2020-08-29"; $toDate = "2021-03-02"; returns 0 years, 6 months, 4 days. But it should be 6 months, 2 days
    – Sadee
    Jul 23, 2020 at 17:37
  • [days] is always an integer?
    – svelandiag
    Oct 22, 2020 at 20:51

TL;DR do not use UNIX timestamps. Do not use time(). If you do, be prepared should its 98.0825% reliability fail you. Use DateTime (or Carbon).

The correct answer is the one given by Saksham Gupta (other answers are also correct):

$date1 = new DateTime('2010-07-06');
$date2 = new DateTime('2010-07-09');
$days  = $date2->diff($date1)->format('%a');

Or procedurally as a one-liner:

 * Number of days between two dates.
 * @param date $dt1    First date
 * @param date $dt2    Second date
 * @return int
function daysBetween($dt1, $dt2) {
    return date_diff(

With a caveat: the '%a' seems to indicate the absolute number of days. If you want it as a signed integer, i.e. negative when the second date is before the first, then you need to use the '%r' prefix (i.e. format('%r%a')).

If you really must use UNIX timestamps, set the time zone to GMT to avoid most of the pitfalls detailed below.

Long answer: why dividing by 24*60*60 (aka 86400) is unsafe

Most of the answers using UNIX timestamps (and 86400 to convert that to days) make two assumptions that, put together, can lead to scenarios with wrong results and subtle bugs that may be difficult to track, and arise even days, weeks or months after a successful deployment. It's not that the solution doesn't work - it works. Today. But it might stop working tomorrow.

First mistake is not considering that when asked, "How many days passed since yesterday?", a computer might truthfully answer zero if between the present and the instant indicated by "yesterday" less than one whole day has passed.

Usually when converting a "day" to a UNIX timestamp, what is obtained is the timestamp for the midnight of that particular day.

So between the midnights of October 1st and October 15th, fifteen days have elapsed. But between 13:00 of October 1st and 14:55 of October 15th, fifteen days minus 5 minutes have elapsed, and most solutions using floor() or doing implicit integer conversion will report one day less than expected.

So, "how many days ago was Y-m-d H:i:s"? will yield the wrong answer.

The second mistake is equating one day to 86400 seconds. This is almost always true - it happens often enough to overlook the times it doesn't. But the distance in seconds between two consecutive midnights is surely not 86400 at least twice a year when daylight saving time comes into play. Comparing two dates across a DST boundary will yield the wrong answer.

So even if you use the "hack" of forcing all date timestamps to a fixed hour, say midnight (this is also done implicitly by various languages and frameworks when you only specify day-month-year and not also hour-minute-second; same happens with DATE type in databases such as MySQL), the widely used formula

 FLOOR((unix_timestamp(DATE2) - unix_timestamp(DATE1)) / 86400)


 floor((time() - strtotime($somedate)) / 86400)

will return, say, 17 when DATE1 and DATE2 are in the same DST segment of the year; but even if the hour:minute:second part is identical, the argument might be 17.042, and worse still, 16.958 when they are in different DST segments and the time zone is DST-aware. The use of floor() or any implicit truncation to integer will then convert what should have been a 17 to a 16. In other circumstances, expressions like "$days > 17" will return true for 17.042, even if this will look as if the elapsed day count is 18.

And things grow even uglier since such code is not portable across platforms, because some of them may apply leap seconds and some might not. On those platforms that do, the difference between two dates will not be 86400 but 86401, or maybe 86399. So code that worked in May and actually passed all tests will break next June when 12.99999 days are considered 12 days instead of 13. Two dates that worked in 2015 will not work in 2017 -- the same dates, and neither year is a leap year. And between 2018-03-01 and 2017-03-01, on those platforms that care, 366 days will have passed instead of 365, making 2018 a leap year (which it is not).

So if you really want to use UNIX timestamps:

  • use round() function wisely, not floor().

  • as an alternative, do not calculate differences between D1-M1-YYY1 and D2-M2-YYY2. Those dates will be really considered as D1-M1-YYY1 00:00:00 and D2-M2-YYY2 00:00:00. Rather, convert between D1-M1-YYY1 22:30:00 and D2-M2-YYY2 04:30:00. You will always get a remainder of about twenty hours. This may become twenty-one hours or nineteen, and maybe eighteen hours, fifty-nine minutes thirty-six seconds. No matter. It is a large margin which will stay there and stay positive for the foreseeable future. Now you can truncate it with floor() in safety.

The correct solution though, to avoid magic constants, rounding kludges and a maintenance debt, is to

  • use a time library (Datetime, Carbon, whatever); don't roll your own

  • write comprehensive test cases using really evil date choices - across DST boundaries, across leap years, across leap seconds, and so on, as well as commonplace dates. Ideally (calls to datetime are fast!) generate four whole years' (and one day) worth of dates by assembling them from strings, sequentially, and ensure that the difference between the first day and the day being tested increases steadily by one. This will ensure that if anything changes in the low-level routines and leap seconds fixes try to wreak havoc, at least you will know.

  • run those tests regularly together with the rest of the test suite. They're a matter of milliseconds, and may save you literally hours of head scratching.

Whatever your solution, test it!

The function funcdiff below implements one of the solutions (as it happens, the originally accepted one - it has been since unaccepted) in a real world scenario.

$tz         = 'Europe/Rome';
$yearFrom   = 1980;
$yearTo     = 2020;
$verbose    = false;

function funcdiff($date2, $date1) {
    $now        = strtotime($date2);
    $your_date  = strtotime($date1);
    $datediff   = $now - $your_date;
    return floor($datediff / (60 * 60 * 24));

$failures   = 0;
$tests      = 0;

$dom = array ( 0, 31, 28, 31, 30,
                  31, 30, 31, 31,
                  30, 31, 30, 31 );
(array_sum($dom) === 365) || die("Thirty days hath September...");
$last   = array();
for ($year = $yearFrom; $year < $yearTo; $year++) {
    $dom[2] = 28;
    // Apply leap year rules.
    if ($year % 4 === 0)   { $dom[2] = 29; }
    if ($year % 100 === 0) { $dom[2] = 28; }
    if ($year % 400 === 0) { $dom[2] = 29; }
    for ($month = 1; $month <= 12; $month ++) {
        for ($day = 1; $day <= $dom[$month]; $day++) {
            $date = sprintf("%04d-%02d-%02d", $year, $month, $day);
            if (count($last) === 7) {
                $tests ++;
                $diff = funcdiff($date, $test = array_shift($last));
                if ((double)$diff !== (double)7) {
                    $failures ++;
                    if ($verbose) {
                        print "There seem to be {$diff} days between {$date} and {$test}\n";
            $last[] = $date;

print "This function failed {$failures} of its {$tests} tests";
print " between {$yearFrom} and {$yearTo}.\n";

The result is,

This function failed 280 of its 14603 tests

Horror Story: the cost of "saving time"

It all began in late 2014. An ingenious programmer decided to save several microseconds off a calculation that took about thirty seconds at most, by plugging in the infamous "(MidnightOfDateB-MidnightOfDateA)/86400" code in several places. It was so obvious an optimization that he did not even document it, and the optimization passed the integration tests and somehow lurked in the code for several months, all unnoticed.

This happened in a program that calculates the wages for several top-selling salesmen, the least of which has a frightful lot more clout than a whole humble five-people programmer team taken together. On March 28th, 2015, the summer time zone engaged, the bug struck -- and some of those guys got shortchanged one whole day of fat commissions. To make things worse, most of them did not work on Sundays and, being near the end of the month, used that day to catch up with their invoicing. They were definitely not amused.

Infinitely worse, they lost the (already very little) faith they had in the program not being designed to surreptitiously shaft them, and pretended - and obtained - a complete, detailed code review with test cases ran and commented in layman's terms (plus a lot of red-carpet treatment in the following weeks).

What can I say: on the plus side, we got rid of a lot of technical debt, and were able to rewrite and refactor several pieces of a spaghetti mess that hearkened back to a COBOL infestation in the swinging '90s. The program undoubtedly runs better now, and there's a lot more debugging information to quickly zero in when anything looks fishy. I estimate that just this last one thing will save perhaps one or two man-days per month for the foreseeable future, so the disaster will have a silver, or even golden, lining.

On the minus side, the whole brouhaha costed the company about €200,000 up front - plus face, plus undoubtedly some bargaining power (and, hence, yet more money).

The guy responsible for the "optimization" had changed job in December 2014, well before the disaster, but still there was talk to sue him for damages. And it didn't go well with the upper echelons that it was "the last guy's fault" - it looked like a set-up for us to come up clean of the matter, and in the end, we remained in the doghouse for the rest of the year, and one of the team resigned at the end of that summer.

Ninety-nine times out of one hundred, the "86400 hack" will work flawlessly. (For example in PHP, strtotime() will ignore DST, and report that between the midnights of the last Saturday of October and that of the following Monday, exactly 2 * 24 * 60 * 60 seconds have passed, even if that is plainly not true... and two wrongs will happily make one right).

This, ladies and gentlemen, was one instance when it did not. As with air-bags and seat belts, you will perhaps never really need the complexity (and ease of use) of DateTime or Carbon. But the day when you might (or the day when you'll have to prove you thought about this) will come as a thief in the night (likely at 02:00 some Sunday in October). Be prepared.

  • 14
    When I saw these answers I have thought I'm stupid and crazy because I always use DateTime, but you made me understand that using DateTime is the right way. Thank you
    – SyncroIT
    Apr 7, 2017 at 11:23
  • Hey, everyone here, on SO, got here by searching in google days between two days in php or similar, just because life is too short to write everything yourself. Dec 28, 2018 at 22:55
  • 5
    Sometimes I wish we could favorite the answers instead of the question. Dec 19, 2019 at 7:42

Convert your dates to unix timestamps, then substract one from the another. That will give you the difference in seconds, which you divide by 86400 (amount of seconds in a day) to give you an approximate amount of days in that range.

If your dates are in format 25.1.2010, 01/25/2010 or 2010-01-25, you can use the strtotime function:

$start = strtotime('2010-01-25');
$end = strtotime('2010-02-20');

$days_between = ceil(abs($end - $start) / 86400);

Using ceil rounds the amount of days up to the next full day. Use floor instead if you want to get the amount of full days between those two dates.

If your dates are already in unix timestamp format, you can skip the converting and just do the $days_between part. For more exotic date formats, you might have to do some custom parsing to get it right.

  • 3
    @toon81 - we use Unix timestamps to avoid such messes! ;)
    – Alastair
    Sep 18, 2013 at 4:57
  • 7
    Let me elaborate: let's say that this morning at 3AM, almost all of Europe moved the clock back an hour. That means that today has an extra 3600 seconds, and that ought to be reflected in the UNIX timestamps. If it is, then that means that today will count for two days with the above way of computing the number of days. And I'm not even starting about leap seconds since neither PHP nor UNIX seem to account for those (which is IMO actually understandable). TL;DR: not all days are 86,400 seconds long.
    – toon81
    Sep 18, 2013 at 8:59
  • 2
    @toon81 There are NOT 3600 more seconds for that date. Nothing at all happens to the UNIX timestamp when going to or from DST.
    – nickdnk
    Dec 20, 2015 at 20:43
  • 2
    If nothing happens to the UNIX timestamp, then you agree with me: the difference between the UNIX timestamp at 1PM on $day and the UNIX timestamp at 1PM on $day+1 is not always 86400 seconds in timezones that observe DST. It may be 23 or 25 hours' worth of seconds instead of 24 hours.
    – toon81
    Dec 21, 2015 at 13:25
  • 2
    DON'T USE UNIX TIMESTAMP. See comments above for reasons.
    – UncaAlby
    Mar 13, 2017 at 22:39

Easy to using date_diff

echo $diff->format('%R%a days');
  • This is a good procedural way to do it using the DateTime class. It only lacks a clear use of the interval object ($diff variable in this case). Something like if ($diff->days > 30) { [doyourstuff]; }
    – El Gucs
    Sep 23, 2016 at 4:26

Object oriented style:

$datetime1 = new DateTime('2009-10-11');
$datetime2 = new DateTime('2009-10-13');
$interval = $datetime1->diff($datetime2);
echo $interval->format('%R%a days');

Procedural style:

$datetime1 = date_create('2009-10-11');
$datetime2 = date_create('2009-10-13');
$interval = date_diff($datetime1, $datetime2);
echo $interval->format('%R%a days');

Well, the selected answer is not the most correct one because it will fail outside UTC. Depending on the timezone (list) there could be time adjustments creating days "without" 24 hours, and this will make the calculation (60*60*24) fail.

Here it is an example of it:

$time1 = strtotime('2016-03-27');
$time2 = strtotime('2016-03-29');
echo floor( ($time2-$time1) /(60*60*24));
 ^-- the output will be **1**

So the correct solution will be using DateTime

$date1 = new DateTime("2016-03-27");
$date2 = new DateTime("2016-03-29");

echo $date2->diff($date1)->format("%a");
 ^-- the output will be **2**
  • Very well and simple solution. It works better than date_diff() with date_create() functions for me, because date_create() doesn't work for date string formatted as 'd.m.Y' . I don't know why.
    – Falcon
    Jan 7, 2021 at 11:29

Used this :)

$days = (strtotime($endDate) - strtotime($startDate)) / (60 * 60 * 24);
print $days;

Now it works

  • 14
    Very old comment above, but it is incorrect. StackOverflow does allow you to answer your own question (even when you ask your question). Answering the question yourself after somebody already posted the same solution is however considered rude. May 19, 2014 at 18:37
  • This function failed 560 of its 14603 tests between 1980 and 2020.
    – LSerni
    Nov 9, 2017 at 21:43

You can find dates simply by

$start  = date_create('1988-08-10');
$end    = date_create(); // Current time and date
$diff   = date_diff( $start, $end );

echo 'The difference is ';
echo  $diff->y . ' years, ';
echo  $diff->m . ' months, ';
echo  $diff->d . ' days, ';
echo  $diff->h . ' hours, ';
echo  $diff->i . ' minutes, ';
echo  $diff->s . ' seconds';
// Output: The difference is 28 years, 5 months, 19 days, 20 hours, 34 minutes, 36 seconds

echo 'The difference in days : ' . $diff->days;
// Output: The difference in days : 10398

I'm using Carbon in my composer projects for this and similar purposes.

It'd be as easy as this:

$dt = Carbon::parse('2010-01-01');
echo $dt->diffInDays(Carbon::now());

Calculate the difference between two dates:



echo $diff->format("%R%a days");

Output: +272 days

The date_diff() function returns the difference between two DateTime objects.

$start = '2013-09-08';
$end = '2013-09-15';
$diff = (strtotime($end)- strtotime($start))/24/3600; 
echo $diff;
  • This function failed 560 of its 14603 tests between 1980 and 2020.
    – LSerni
    Nov 9, 2017 at 21:40

You can try the code below:

$dt1 = strtotime("2019-12-12"); //Enter your first date
$dt2 = strtotime("12-12-2020"); //Enter your second date
echo abs(($dt1 - $dt2) / (60 * 60 * 24));
  • 2
    With older questions that have existing answers it is useful to explain what new aspect your answer brings to the question. If relevant it is also useful to acknowledge any changes that may have occurred since the question was asked. Aug 5, 2019 at 20:50

it's easy:

$dateFrom = new DateTime('2023-08-01');
$dateTo = new DateTime('2023-10-01');

echo $dateFrom->diff($dateTo)->days;
// result: 61

If you have the times in seconds (I.E. unix time stamp) , then you can simply subtract the times and divide by 86400 (seconds per day)


number of days between two dates in PHP

      function dateDiff($date1, $date2)  //days find function
            $diff = strtotime($date2) - strtotime($date1); 
            return abs(round($diff / 86400)); 
       //start day
       $date1 = "11-10-2018";        
       // end day
       $date2 = "31-10-2018";    
       // call the days find fun store to variable 
       $dateDiff = dateDiff($date1, $date2); 

       echo "Difference between two dates: ". $dateDiff . " Days "; 
  • 1
    Great it worked like charm can you tell me what is 86400 num is for ?
    – Parth Shah
    Nov 22, 2018 at 21:10
  • 86400 number is used for 1 day = 24 hours and 24 * 60 * 60 = 86400 seconds in a day Nov 23, 2018 at 10:32
  • All I needed was a solution wrapped in a function and viola, here it is :-D
    – Overcomer
    Jul 26, 2021 at 12:55
$datediff = floor(strtotime($date1)/(60*60*24)) - floor(strtotime($date2)/(60*60*24));

and, if needed:

function howManyDays($startDate,$endDate) {

    $date1  = strtotime($startDate." 0:00:00");
    $date2  = strtotime($endDate." 23:59:59");
    $res    =  (int)(($date2-$date1)/86400);        

return $res;
  • This function failed 320 of its 14603 tests between 1980 and 2020.
    – LSerni
    Nov 9, 2017 at 21:41

Easiest way to find the days difference between two dates

$date1 = strtotime("2019-05-25"); 
$date2 = strtotime("2010-06-23");

$date_difference = $date2 - $date1;

$result =  round( $date_difference / (60 * 60 * 24) );

echo $result;
  • This answer has been provided a dozen times already. As well as proven to be incorrect Aug 8, 2023 at 9:31
$diff = strtotime('2019-11-25') - strtotime('2019-11-10');
echo abs(round($diff / 86400));
  • 3
    Welcome to SO! When you reply to a post with just code, please explain it a little bit. The code you bring it is calculating on between 2019-11-10 and 2019-11-25. So it is not replying to the question. That´s why is good to explain your POV better than get downvoted. Nov 25, 2019 at 13:16

This code worked for me and tested with PHP 8 version :

function numberOfDays($startDate, $endDate) 
    //1) converting dates to timestamps
     $startSeconds = strtotime($startDate);
     $endSeconds = strtotime($endDate);
    //2) Calculating the difference in timestamps
    $diffSeconds = $startSeconds  - $endSeconds;
    //3) converting timestamps to days
    $days=round($diffSeconds / 86400);
      /*  note :
          1 day = 24 hours 
          24 * 60 * 60 = 86400 seconds
    //4) printing the number of days
    printf("Difference between two dates: ". abs($days) . " Days ");
    return abs($days);

If you want to echo all days between the start and end date, I came up with this :

$startdatum = $_POST['start']; // starting date
$einddatum = $_POST['eind']; // end date

$now = strtotime($startdatum);
$your_date = strtotime($einddatum);
$datediff = $your_date - $now;
$number = floor($datediff/(60*60*24));

for($i=0;$i <= $number; $i++)
    echo date('d-m-Y' ,strtotime("+".$i." day"))."<br>";

If you are using MySql

function daysSince($date, $date2){
$q = "SELECT DATEDIFF('$date','$date2') AS days;";
$result = execQ($q);
$row = mysql_fetch_array($result,MYSQL_BOTH);
return ($row[0]);


function execQ($q){
$result = mysql_query( $q);
if(!$result){echo ('Database error execQ' . mysql_error());echo $q;}    
return $result;



Here is my improved version which shows 1 Year(s) 2 Month(s) 25 day(s) if the 2nd parameter is passed.

class App_Sandbox_String_Util {
     * Usage: App_Sandbox_String_Util::getDateDiff();
     * @param int $your_date timestamp
     * @param bool $hr human readable. e.g. 1 year(s) 2 day(s)
     * @see http://stackoverflow.com/questions/2040560/finding-the-number-of-days-between-two-dates
     * @see http://qSandbox.com
    static public function getDateDiff($your_date, $hr = 0) {
        $now = time(); // or your date as well
        $datediff = $now - $your_date;
        $days = floor( $datediff / ( 3600 * 24 ) );

        $label = '';

        if ($hr) {
            if ($days >= 365) { // over a year
                $years = floor($days / 365);
                $label .= $years . ' Year(s)';
                $days -= 365 * $years;

            if ($days) {
                $months = floor( $days / 30 );
                $label .= ' ' . $months . ' Month(s)';
                $days -= 30 * $months;

            if ($days) {
                $label .= ' ' . $days . ' day(s)';
        } else {
            $label = $days;

        return $label;

Try using Carbon

$d1 = \Carbon\Carbon::now()->subDays(92);
$d2 = \Carbon\Carbon::now()->subDays(10);
$days_btw = $d1->diffInDays($d2);

Also you can use


to create an object of Carbon date using given timestamp string.

  • Can you please tell what's the difference between this and my answer ?
    – Arda
    Jul 29, 2015 at 14:30
  • 1
    To do a simple date difference, you suggest including a whole new package?
    – tomazahlin
    Mar 8, 2018 at 11:04
$early_start_date = date2sql($_POST['early_leave_date']);

$date = new DateTime($early_start_date);
$date->modify('+1 day');

$date_a = new DateTime($early_start_date . ' ' . $_POST['start_hr'] . ':' . $_POST['start_mm']);
$date_b = new DateTime($date->format('Y-m-d') . ' ' . $_POST['end_hr'] . ':' . $_POST['end_mm']);

$interval = date_diff($date_a, $date_b);

$time = $interval->format('%h:%i');
$parsed = date_parse($time);
$seconds = $parsed['hour'] * 3600 + $parsed['minute'] * 60;
//        display_error($seconds);

$second3 = $employee_information['shift'] * 60 * 60;

if ($second3 < $seconds)
    display_error(_('Leave time can not be greater than shift time.Please try again........'));
    return FALSE;
echo $diff->format("%R%a days");

used the above code very simple. Thanks.

function get_daydiff($end_date,$today)
    $str = floor(strtotime($end_date)/(60*60*24)) - floor(strtotime($today)/(60*60*24));
    return $str;
$d1 = "2018-12-31";
$d2 = "2018-06-06";
echo get_daydiff($d1, $d2);

Using this simple function. Declare function

function dateDiff($firstDate,$secondDate){
    $firstDate = strtotime($firstDate);
    $secondDate = strtotime($secondDate);

    $datediff = $firstDate - $secondDate;
    $output = round($datediff / (60 * 60 * 24));
    return $output;

and call this function like this where you want

    echo dateDiff("2018-01-01","2018-12-31");    

// OR

    $firstDate = "2018-01-01";
    $secondDate = "2018-01-01";
    echo dateDiff($firstDate,$secondDate);    

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