# Calculate business days

I need a method for adding "business days" in PHP. For example, Friday 12/5 + 3 business days = Wednesday 12/10.

At a minimum I need the code to understand weekends, but ideally it should account for US federal holidays as well. I'm sure I could come up with a solution by brute force if necessary, but I'm hoping there's a more elegant approach out there. Anyone?

Thanks.

This code snippet is very easy to calculate business day without week end and holidays:

``````function getWorkingDays(\$startDate,\$endDate,\$offdays,\$holidays){
\$endDate = strtotime(\$endDate);
\$startDate = strtotime(\$startDate);
\$days = (\$endDate - \$startDate) / 86400 + 1;
\$counter=0;
for (\$i = 1; \$i <= \$days; \$i++) {
\$the_first_day_of_week = date("N", \$startDate);
\$startDate+=86400;
if (!in_array(\$the_first_day_of_week, \$offdays) && !in_array(date("Y-m-
d",\$startDate), \$holidays)) {
\$counter++;
}

}
return \$counter;
}
//example to use
\$holidays=array("2017-07-03","2017-07-20");
\$offdays=array(5,6);//weekend days Monday=1 .... Sunday=7
echo getWorkingDays("2017-01-01","2017-12-31",\$offdays,\$holidays)
``````

I know I'm late to the party, but I use this old set of functions by Marcos J. Montes for figuring out holidays and business days. He took the time to add an algorithm from 1876 for Easter and he added all the major US holidays. This can easily be updated for other countries.

``````//Usage
\$days = 30;
\$next_working_date = nextWorkingDay(\$days, \$somedate);

function DateAdd(\$interval, \$number, \$date) {

\$date_time_array = getdate(\$date);
//die(print_r(\$date_time_array));

\$hours = \$date_time_array["hours"];
\$minutes = \$date_time_array["minutes"];
\$seconds = \$date_time_array["seconds"];
\$month = \$date_time_array["mon"];
\$day = \$date_time_array["mday"];
\$year = \$date_time_array["year"];

switch (\$interval) {

case "yyyy":
\$year+=\$number;
break;
case "q":
\$year+=(\$number*3);
break;
case "m":
\$month+=\$number;
break;
case "y":
case "d":
case "w":
\$day+=\$number;
break;
case "ww":
\$day+=(\$number*7);
break;
case "h":
\$hours+=\$number;
break;
case "n":
\$minutes+=\$number;
break;
case "s":
\$seconds+=\$number;
break;
}
//      echo "day:" . \$day;
\$timestamp= mktime(\$hours,\$minutes,\$seconds,\$month,\$day,\$year);
return \$timestamp;
}

// the following function get_holiday() is based on the work done by
// Marcos J. Montes
function get_holiday(\$year, \$month, \$day_of_week, \$week="") {
if ( ((\$week != "") && ((\$week > 5) || (\$week < 1))) || (\$day_of_week > 6) || (\$day_of_week < 0) ) {
// \$day_of_week must be between 0 and 6 (Sun=0, ... Sat=6); \$week must be between 1 and 5
return FALSE;
} else {
if (!\$week || (\$week == "")) {
\$lastday = date("t", mktime(0,0,0,\$month,1,\$year));
\$temp = (date("w",mktime(0,0,0,\$month,\$lastday,\$year)) - \$day_of_week) % 7;
} else {
\$temp = (\$day_of_week - date("w",mktime(0,0,0,\$month,1,\$year))) % 7;
}

if (\$temp < 0) {
\$temp += 7;
}

if (!\$week || (\$week == "")) {
\$day = \$lastday - \$temp;
} else {
\$day = (7 * \$week) - 6 + \$temp;
}
//echo \$year.", ".\$month.", ".\$day . "<br><br>";
return format_date(\$year, \$month, \$day);
}
}

function observed_day(\$year, \$month, \$day) {
// sat -> fri & sun -> mon, any exceptions?
//
// should check \$lastday for bumping forward and \$firstday for bumping back,
// although New Year's & Easter look to be the only holidays that potentially
// move to a different month, and both are accounted for.

\$dow = date("w", mktime(0, 0, 0, \$month, \$day, \$year));

if (\$dow == 0) {
\$dow = \$day + 1;
} elseif (\$dow == 6) {
if ((\$month == 1) && (\$day == 1)) {    // New Year's on a Saturday
\$year--;
\$month = 12;
\$dow = 31;
} else {
\$dow = \$day - 1;
}
} else {
\$dow = \$day;
}

return format_date(\$year, \$month, \$dow);
}

function calculate_easter(\$y) {
// In the text below, 'intval(\$var1/\$var2)' represents an integer division neglecting
// the remainder, while % is division keeping only the remainder. So 30/7=4, and 30%7=2
//
// This algorithm is from Practical Astronomy With Your Calculator, 2nd Edition by Peter
// Duffett-Smith. It was originally from Butcher's Ecclesiastical Calendar, published in
// 1876. This algorithm has also been published in the 1922 book General Astronomy by
// Spencer Jones; in The Journal of the British Astronomical Association (Vol.88, page
// 91, December 1977); and in Astronomical Algorithms (1991) by Jean Meeus.

\$a = \$y%19;
\$b = intval(\$y/100);
\$c = \$y%100;
\$d = intval(\$b/4);
\$e = \$b%4;
\$f = intval((\$b+8)/25);
\$g = intval((\$b-\$f+1)/3);
\$h = (19*\$a+\$b-\$d-\$g+15)%30;
\$i = intval(\$c/4);
\$k = \$c%4;
\$l = (32+2*\$e+2*\$i-\$h-\$k)%7;
\$m = intval((\$a+11*\$h+22*\$l)/451);
\$p = (\$h+\$l-7*\$m+114)%31;
\$EasterMonth = intval((\$h+\$l-7*\$m+114)/31);    // [3 = March, 4 = April]
\$EasterDay = \$p+1;    // (day in Easter Month)

return format_date(\$y, \$EasterMonth, \$EasterDay);
}

function nextWorkingDay(\$number_days, \$start_date = "") {
\$day_counter = 0;
\$intCounter = 0;

if (\$start_date=="") {
\$today  = mktime(0, 0, 0, date("m")  , date("d"), date("Y"));
} else {
\$start_time = strtotime(\$start_date);
\$today  = mktime(0, 0, 0, date("m", \$start_time)  , date("d", \$start_time), date("Y", \$start_time));
}

while(\$day_counter < \$number_days) {
\$working_time = DateAdd("d", 1, \$today);
\$working_date = date("Y-m-d", \$working_date);
if (!isWeekend(\$working_date) && !confirm_holiday(date("Y-m-d", strtotime(\$working_date))) ) {
\$day_counter++;
}
\$intCounter++;
\$today  = \$working_time;
if (\$intCounter > 1000) {
//just in case out of control?
break;
}
}

return \$working_date;
}
function isWeekend(\$check_date) {
return (date("N",  strtotime(\$check_date)) > 5);
}
function confirm_holiday(\$somedate="") {
if (\$somedate=="") {
\$somedate = date("Y-m-d");
}
\$year = date("Y", strtotime(\$somedate));
\$blnHoliday = false;
//newyears
if (\$somedate == observed_day(\$year, 1, 1)) {
\$blnHoliday = true;
}
if (\$somedate == format_date(\$year, 1, 1)) {
\$blnHoliday = true;
}
if (\$somedate == format_date(\$year, 12, 31)) {
\$blnHoliday = true;
}
//Martin Luther King
if (\$somedate == get_holiday(\$year, 1, 1, 3)) {
\$blnHoliday = true;
}
//President's
if (\$somedate == get_holiday(\$year, 2, 1, 3)) {
\$blnHoliday = true;
}
//easter
if (\$somedate == calculate_easter(\$year)) {
\$blnHoliday = true;
}
//Memorial
if (\$somedate == get_holiday(\$year, 5, 1)) {
\$blnHoliday = true;
}
//july4
if (\$somedate == observed_day(\$year, 7, 4)) {
\$blnHoliday = true;
}
//labor
if (\$somedate == get_holiday(\$year, 9, 1, 1)) {
\$blnHoliday = true;
}
//columbus
if (\$somedate == get_holiday(\$year, 10, 1, 2)) {
\$blnHoliday = true;
}
//thanks
if (\$somedate == get_holiday(\$year, 11, 4, 4)) {
\$blnHoliday = true;
}
//xmas
if (\$somedate == format_date(\$year, 12, 24)) {
\$blnHoliday = true;
}
if (\$somedate == format_date(\$year, 12, 25)) {
\$blnHoliday = true;
}
return \$blnHoliday;
}
``````

There is a Formula:

``````number_of_days - math_round_down(10 * (number_of_days / (business_days_in_a_week * days_in_a_week)))
``````

Tada! you calculate the numbers of business day, in a month, in a week, in a whatever you want.

math_round_down () is a hypothetical method, which implements a mathematical function that rounds down.

https://github.com/Arbitr108/useful_php Here is a class which can estimate the working days into calendar. So after estimation simply add calendar period to the date you need