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later-core.js
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if (!Array.prototype.indexOf) {
Array.prototype.indexOf = function (searchElement /*, fromIndex */ ) {
"use strict";
if (this == null) {
throw new TypeError();
}
var t = Object(this);
var len = t.length >>> 0;
if (len === 0) {
return -1;
}
var n = 0;
if (arguments.length > 1) {
n = Number(arguments[1]);
if (n != n) { // shortcut for verifying if it's NaN
n = 0;
} else if (n != 0 && n != Infinity && n != -Infinity) {
n = (n > 0 || -1) * Math.floor(Math.abs(n));
}
}
if (n >= len) {
return -1;
}
var k = n >= 0 ? n : Math.max(len - Math.abs(n), 0);
for (; k < len; k++) {
if (k in t && t[k] === searchElement) {
return k;
}
}
return -1;
}
}
if(!String.prototype.trim) {
String.prototype.trim = function () {
return this.replace(/^\s+|\s+$/g,'');
};
}/**
* Later.js 0.0.17
* (c) 2012 Bill, BunKat LLC.
* Later is freely distributable under the MIT license.
* For all details and documentation:
* http://bunkat.github.com/later
*/
(function() {
"use strict";
/**
* Calculates the next occurrence (or occcurrences) of a given schedule.
* Schedules are simply a set of constraints that must be met for a
* particular date to be valid. Schedules can be generated using Recur or
* can be created directly.
*
* Schedules have the following form:
*
* {
* schedules: [
* {
* constraintId: [valid values],
* constraintId: [valid values],
* ...
* },
* {
* constraintId: [valid values],
* constraintId: [valid values],
* ...
* }
* ...
* ],
* exceptions: [
* {
* constraintId: [valid values],
* constraintId: [valid values],
* ...
* },
* {
* constraintId: [valid values],
* constraintId: [valid values],
* ...
* },
* ...
* ]
* }
*
* See Recur.js for the available constraints and their value ranges. May
* also be useful to create a schedule using Recur and then examining the
* schedule that is produced.
*/
/**
* Initializes the Later object.
*
* @param {Int} resolution: Minimum number of seconds between occurrences
* @param {Bool} useLocalTime: True if local time zone should be used
* @api public
*/
var Later = function(resolution, useLocalTime) {
var isLocal = useLocalTime || false,
get = 'get' + (isLocal ? '' : 'UTC'),
exec = true,
// constants
SEC = 1000,
MIN = SEC * 60,
HOUR = MIN * 60,
DAY = HOUR * 24,
// aliases for common math functions
ceil = Math.ceil,
floor = Math.floor,
max = Math.max,
// data prototypes to switch between UTC and local time calculations
dateProto = Date.prototype,
getYear = dateProto[get + 'FullYear'],
getMonth = dateProto[get + 'Month'],
getDate = dateProto[get + 'Date'],
getDay = dateProto[get + 'Day'],
getHour = dateProto[get + 'Hours'],
getMin = dateProto[get + 'Minutes'],
getSec = dateProto[get + 'Seconds'];
// minimum time between valid occurrences in seconds
resolution = resolution === undefined ? 1 : resolution;
/**
* Finds the next valid value which is either the next largest valid
* value or the minimum valid value if no larger value exists. To
* simplify some calculations, the min value is then added to a specified
* offset.
*
* For example, if the current minute is 5 and the next valid
* value is 1, the offset will be set to 60 (max number of minutes) and
* nextInRange will return 61. This is the number of minutes that must
* be added to the current hour to get to the next valid minute.
*
* @param {Int/String} val: The current value
* @param {[]} values: Array of possible valid values
* @param {Int/String} minOffset: Value to add to the minimum value
*/
var nextInRange = function(val, values, minOffset) {
var cur, next = null, min = values[0], i = values.length;
while (i--) {
cur = values[i];
if (cur === val) {
return val;
}
min = cur < min ? cur : min;
next = cur > val && (!next || cur < next) ? cur : next;
}
return next || (minOffset === undefined ? min : (min + minOffset));
};
/**
* Finds the previous valid value which is either the next smallest valid
* value or the maximum valid value if no smaller value exists. To
* simplify some calculations, the min value is then substracted to a specified
* offset.
*
* For example, if the current minute is 5 and the next valid
* value is 7, the offset will be set to 60 (max number of minutes) and
* prevInRange will return -67. This is the number of minutes that must
* be added to the current hour to get to the next valid minute.
*
* @param {Int/String} val: The current value
* @param {[]} values: Array of possible valid values
* @param {Int/String} maxOffset: Value to subtract from the maximum value
*/
var prevInRange = function(val, values, maxOffset) {
var cur, prev = null, i = values.length, max = values[i-1];
while (i--) {
cur = values[i];
if (cur === val) {
return val;
}
max = cur > max ? cur : max;
prev = cur < val && (!prev || cur > prev) ? cur : prev;
}
return prev !== null ? prev : (maxOffset === undefined ? max : (max - maxOffset));
};
/**
* Builds and returns a new Date using the specified values. Date
* returned is either using Local time or UTC based on isLocal.
*
* @param {Int} yr: Four digit year
* @param {Int} mt: Month between 0 and 11, defaults to 0
* @param {Int} dt: Date between 1 and 31, defaults to 1
* @param {Int} hr: Hour between 0 and 23, defaults to 0
* @param {Int} mn: Minute between 0 and 59, defaults to 0
* @param {Int} sc: Second between 0 and 59, defaults to 0
*/
var nextDate = function(yr, mt, dt, hr, mn, sc) {
mt = mt === undefined ? 0 : mt;
dt = dt === undefined ? 1 : dt;
hr = hr === undefined ? 0 : hr;
mn = mn === undefined ? 0 : mn;
sc = sc === undefined ? 0 : sc;
return isLocal ? new Date(yr, mt, dt, hr, mn, sc) :
new Date(Date.UTC(yr, mt, dt, hr, mn, sc));
};
/**
* Builds and returns a new Date using the specified values. Date
* returned is either using Local time or UTC based on isLocal.
*
* @param {Int} yr: Four digit year
* @param {Int} mt: Month between 0 and 11, defaults to 11
* @param {Int} dt: Date between 1 and 31, defaults to last day of month
* @param {Int} hr: Hour between 0 and 23, defaults to 23
* @param {Int} mn: Minute between 0 and 59, defaults to 59
* @param {Int} sc: Second between 0 and 59, defaults to 59
*/
var prevDate = function(yr, mt, dt, hr, mn, sc) {
mt = mt === undefined ? 11 : mt;
dt = dt === undefined ? getDate.call(nextDate(yr, mt+1, 0)) : dt;
hr = hr === undefined ? 23 : hr;
mn = mn === undefined ? 59 : mn;
sc = sc === undefined ? 59 : sc;
return isLocal ? new Date(yr, mt, dt, hr, mn, sc) :
new Date(Date.UTC(yr, mt, dt, hr, mn, sc));
};
/**
* Pads a digit with a leading zero if it is less than 10.
*
* @param {Int} val: The value that needs to be padded
*/
var pad = function(val) {
return (val < 10 ? '0' : '') + val;
};
/**
* Given a valid start time, finds the next schedule that is invalid.
* Useful for finding the end of a valid time range.
*
* @param {object} schedule: Valid schedule object containing constraints
* @param {Date} start: The first possible valid occurrence
* @param {Date} end: The last possible valid occurrence
* @param {boolean} reverse: True if we are looking for previous occurrences
*/
var getNextInvalidSchedule = function(sched, start, reverse) {
var Y, M, D, d, h, m, s,
oJan1, oMonthStart, oWeekStart, oWeekStartY, oMonthEnd,
oDec31,
t, dy, wy, wm, dc,
daysInYear, daysInMonth, firstDayOfMonth,
weekStart, weeksInYear, weeksInMonth, x;
// helper functions based on which direction we are going in
var range = reverse ? prevInRange : nextInRange,
date = reverse ? prevDate : nextDate;
// calculate the earliest date that violates the schedule.
// Note: This search isn't exact, date returned may still be valid,
// but is pretty fast since most of the time the next invalid time
// will be one increment away from current time
Y = getYear.call(start);
M = getMonth.call(start);
D = getDate.call(start);
h = getHour.call(start);
m = getMin.call(start);
s = getSec.call(start);
t = pad(h) +':'+ pad(m) +':'+ pad(s);
// check time of day (24-hr)
if (sched.t && range(t, sched.t) === t) {
return reverse ? (date(Y, M, D, h, m, s-1)) : (date(Y, M, D, h, m, s+1));
}
// check second of minute (zero based)
if (sched.s && range(s, sched.s, 60) === s) {
return reverse ? (date(Y, M, D, h, m, s-1)) : (date(Y, M, D, h, m, s+1));
}
// check minute of hour (zero based)
if (sched.m && range(m, sched.m, 60) === m) {
return reverse ? (date(Y, M, D, h, m-1)) : (date(Y, M, D, h, m+1));
}
// check hour of day (zero based)
if (sched.h && range(h, sched.h, 24) === h) {
return reverse ? (date(Y, M, D, h-1)) : (date(Y, M, D, h+1));
}
// check before time (24-hr)
if (sched.tb) {
if (t < sched.tb[0]) {
x = sched.tb[0].split(':');
if (reverse) {
return(date(Y, M, D-1, x[0], x[1], x[2]-1));
}
else {
return(date(Y, M, D, x[0], x[1], x[2]));
}
}
}
// check after time (24-hr)
if (sched.ta) {
if (t >= sched.ta[0]) {
if (reverse) {
x = sched.ta[0].split(':');
return(date(Y, M, D, x[0], x[1], x[2]-1));
}
else {
return(date(Y, M, D+1));
}
}
}
// check day of week count (one based, 0 for last instance)
if (sched.dc) {
dc = floor((D - 1) / 7) + 1;
if (range(dc, sched.dc, 0) === dc) {
return reverse ? (date(Y, M, D-1)) : (date(Y, M, D+1));
}
}
// check day of week (zero based)
d = getDay.call(start);
if (sched.d && range(d+1, sched.d, 7) === d+1) {
return reverse ? (date(Y, M, D-1)) : (date(Y, M, D+1));
}
// check week of month (one based, 0 for last week of month)
if (sched.wm) {
firstDayOfMonth = getDay.call(nextDate(Y, M, 1));
wm = floor((((D + firstDayOfMonth - 1)/7))+1);
weeksInMonth = floor((((daysInMonth + firstDayOfMonth - 1)/7))+1);
if ((range(wm, sched.wm, weeksInMonth) || weeksInMonth) === wm) {
// not optimal at all...
return reverse ? (date(Y, M, D-1)) : (date(Y, M, D+1));
}
}
// check date of month (one based)
oMonthEnd = nextDate(Y, M + 1, 0);
daysInMonth = getDate.call(oMonthEnd);
if (sched.D && (range(D, sched.D, daysInMonth) || daysInMonth) === D) {
return reverse ? (date(Y, M, D-1)) : (date(Y, M, D+1));
}
// check week of year (one based, ISO week)
oJan1 = nextDate(Y, 0, 1, 12);
oDec31 = nextDate(Y + 1, 0, 0, 12);
if (sched.wy) {
oWeekStart = date(Y, M, D + 4 - (d || 7));
oWeekStartY = date(getYear.call(oWeekStart),0,1);
weeksInYear = getDay.call(oJan1) === 4 ||
getDay.call(oDec31) === 4 ? 53 : 52;
wy = ceil((((oWeekStart.getTime()-oWeekStartY.getTime())/DAY)+1)/7);
if ((range(wy, sched.wy, weeksInYear) || weeksInYear) === wy) {
return reverse ? (date(Y, M, D-1)) : (date(Y, M, D+1));
}
}
// check month (one based)
if (sched.M && range(M+1, sched.M, 12) === M+1) {
return reverse ? (date(Y, M-1)) : (date(Y, M+1));
}
// check day of year (one based)
if (sched.dy) {
dy = ceil((start.getTime() - oJan1.getTime())/DAY) + 1;
daysInYear = ceil((oDec31.getTime() - oJan1.getTime())/DAY) + 1;
if ((range(dy, sched.dy, daysInYear) || daysInYear) === dy) {
return reverse ? (date(Y, M-1)) : (date(Y, M+1));
}
}
// check year
if (sched.Y && range(Y, sched.Y, 0) === Y ) {
return reverse ? (date(Y-1)) : (date(Y+1));
}
return start;
};
/**
* Calculates the next valid occurrence of a particular schedule that
* occurs on or after the specified start time.
*
* @param {object} schedule: Valid schedule object containing constraints
* @param {Date} start: The first possible valid occurrence
* @param {Date} end: The last possible valid occurrence
* @param {boolean} reverse: True if we are looking for previous occurrences
*/
var getNextForSchedule = function(sched, start, end, reverse) {
var next, inc, x, cur,
Y, M, D, d, h, m, s,
oJan1, oMonthStart, oWeekStart, oWeekStartY, oMonthEnd,
oDec31,
t, dy, wy, wm, dc,
daysInYear, daysInMonth, firstDayOfMonth,
weekStart, weeksInYear, weeksInMonth,
maxLoopCount = 1000;
var range = reverse ? prevInRange : nextInRange,
date = reverse ? prevDate : nextDate;
// handle any after constraints
// after constraints are not applied when searching backwards
next = reverse ? start : after(start, sched);
// It's not pretty, but just keep looping through all of the
// constraints until they have all been met (or no valid
// occurrence exists). All calculations are done just in time and
// and only once to prevent extra work from being done each loop.
while (next && maxLoopCount--) {
// make sure we are still with in the boundaries
if (end &&
((!reverse && next.getTime() > end.getTime()) ||
(reverse && next.getTime() < end.getTime()))) {
return null;
}
// check year
Y = getYear.call(next);
M = getMonth.call(next);
D = getDate.call(next);
if (sched.Y && (inc = range(Y, sched.Y, 0)) !== Y ) {
next = (!reverse && inc > Y) || (reverse && inc < Y) ? date(inc) : null;
continue;
}
// check day of year (one based)
oJan1 = nextDate(Y, 0, 1, 12, 0, 0);
var cDate = nextDate(Y, M, D, 12, 0, 0);
oDec31 = nextDate(Y + 1, 0, 0);
if (sched.dy) {
dy = ceil((cDate.getTime() - oJan1.getTime())/DAY) + 1;
daysInYear = ceil((oDec31.getTime() - oJan1.getTime())/DAY) + 1;
if (((inc = range(dy, sched.dy, daysInYear)) || daysInYear) !== dy) {
next = date(Y, 0, inc);
continue;
}
}
// check month (one based)
if (sched.M && (inc = range(M+1, sched.M, 12)) !== M+1) {
next = date(Y, inc-1);
continue;
}
// check week of year (one based, ISO week)
d = getDay.call(next);
if (sched.wy) {
oWeekStart = date(Y, M, D + 4 - (d || 7), 12);
oWeekStartY = date(getYear.call(oWeekStart),0,1, 12);
weeksInYear = getDay.call(oJan1) === 4 ||
getDay.call(oDec31) === 4 ? 53 : 52;
wy = ceil((((oWeekStart.getTime()-oWeekStartY.getTime())/DAY)+1)/7);
if (((inc = range(wy, sched.wy, weeksInYear)) || weeksInYear) !== wy) {
if(inc < 0) inc += 1; // don't double count a week when reverse
next = date(
getYear.call(oWeekStart),
getMonth.call(oWeekStart),
getDate.call(oWeekStart) - 3 + (inc - wy) * 7 +
(reverse ? 6 : 0)); // head to end of week if reverse
continue;
}
}
// check date of month (one based)
oMonthEnd = nextDate(Y, M + 1, 0, 12);
daysInMonth = getDate.call(oMonthEnd);
if (sched.D && ((inc = range(D, sched.D, daysInMonth)) || daysInMonth) !== D) {
// if we are going backwards, just jump to the last day in
// the previous month to avoid errors in calculating diff to
// desired date
next = date(Y, M, inc < 0 ? 0 : inc);
continue;
}
// check week of month (one based, 0 for last week of month)
if (sched.wm) {
firstDayOfMonth = getDay.call(nextDate(Y, M, 1));
wm = floor((((D + firstDayOfMonth - 1)/7))+1);
weeksInMonth = floor((((daysInMonth + firstDayOfMonth - 1)/7))+1);
if (((inc = range(wm, sched.wm, weeksInMonth)) || weeksInMonth) !== wm) {
// jump to the Sunday of the desired week, making sure not
// to double count the last week in the month if we cross
// a month boundary, set to 1st of month for week 1
if(inc === 0) { //only happens in reverse, go to end of prev month
next = date(Y, M, inc);
}
else {
next = date(Y, M,
(inc < 0 ? inc+1 : inc-1) * 7 - (firstDayOfMonth - 1) -
(inc > weeksInMonth && getDay.call(oMonthEnd) < 6 ? 7 : 0) +
(inc === weeksInMonth + 1 ? getDay.call(oMonthEnd) + 1 : 0) +
(reverse ? 6 : 0)); // skip to end of week in reverse
}
continue;
}
}
// check day of week (zero based)
if (sched.d && (inc = range(d+1, sched.d, 7)) !== d+1) {
next = date(Y, M, D + (inc-1) - d);
continue;
}
// check day of week count (one based, 0 for last instance)
if (sched.dc) {
dc = floor((D - 1) / 7) + 1;
if ((inc = range(dc, sched.dc, 0)) !== dc) {
if (reverse) {
if (inc > 0) {
next = date(Y, M + (inc < dc ? 0 : -1), 7 + (7 * (inc-1)));
continue;
}
else if (inc === 0 && D < (daysInMonth - 6)) {
next = date(Y, M, inc);
continue;
}
}
else {
if (inc > 0) {
next = date(Y, M + (inc < dc ? 1 : 0), 1 + (7 * (inc-1)));
continue;
}
else if (inc < 1 && D < (daysInMonth - 6)) {
next = date(Y, M, daysInMonth - 6);
continue;
}
}
}
}
// check after time (24-hr)
h = getHour.call(next);
m = getMin.call(next);
s = getSec.call(next);
t = pad(h) +':'+ pad(m) +':'+ pad(s);
if (sched.ta) {
if (t < sched.ta[0]) {
if (reverse) {
next = date(Y, M, D-1);
}
else {
x = sched.ta[0].split(':');
next = date(Y, M, D, x[0], x[1], x[2]);
}
continue;
}
}
// check before time (24-hr)
if (sched.tb) {
if (t >= sched.tb[0]) {
if (reverse) {
x = sched.tb[0].split(':');
next = date(Y, M, D, x[0], x[1], x[2]-1);
}
else {
next = date(Y, M, D+1);
}
continue;
}
}
// check hour of day (zero based)
if (sched.h && (inc = range(h, sched.h, 24)) !== h) {
next = date(Y, M, D, inc);
continue;
}
// check minute of hour (zero based)
if (sched.m && (inc = range(m, sched.m, 60)) !== m) {
next = date(Y, M, D, h, inc);
continue;
}
// check second of minute (zero based)
if (sched.s && (inc = range(s, sched.s, 60)) !== s) {
next = date(Y, M, D, h, m, inc);
continue;
}
// check time of day (24-hr)
if (sched.t) {
if ((inc = range(t, sched.t)) !== t) {
x = inc.split(':');
var dayInc = !reverse ? (t > inc ? 1 : 0) : (t < inc ? -1 : 0);
next = date(Y, M, D + dayInc, x[0], x[1], x[2]);
continue;
}
}
// if we make it this far, all constraints have been met
break;
}
return maxLoopCount > 0 ? next : null;
};
/**
* Increments a date by a given amount of time. Date
* returned is either using Local time or UTC based on isLocal.
*
* @param {Int} yr: Number of years to increment by
* @param {Int} mt: Number of months to increment by
* @param {Int} dt: Number of days to increment by
* @param {Int} hr: Number of hours to increment by
* @param {Int} mn: Number of minutes to increment by
* @param {Int} sc: Number of seconds to increment by
*/
var after = function (start, sched) {
var yr = getYear.call(start) + getAfter(sched.aY),
mt = getMonth.call(start) + getAfter(sched.aM),
dt = getDate.call(start) +
max(getAfter(sched.aD), getAfter(sched.ady), getAfter(sched.ad),
getAfter(sched.awy) * 7, getAfter(sched.awm) * 7),
hr = getHour.call(start) + getAfter(sched.ah),
mn = getMin.call(start) + getAfter(sched.am),
sc = getSec.call(start) + getAfter(sched.as);
return nextDate(yr, mt, dt, hr, mn, sc);
};
/**
* Returns the value of an after constraint or 0 if not set.
*
* @param {Array} constraint: After constrant to check
*/
var getAfter = function (constraint) {
return constraint && constraint[0] ? constraint[0] : 0;
};
/**
* Returns a new date object that represents the next possible valid
* occurrence based on the resolution that has beeen configured.
*
* @param {Date} date: The Date object to be incremented
* @param {Boolean} backwards: True to tick backwards instead of forwards
*/
var tick = function (date, backwards) {
return !backwards ?
new Date(date.getTime() + (resolution * 1000)) :
new Date(date.getTime() - (resolution * 1000)) ;
};
return {
/**
* Returns true if the specified date meets all of the constraints
* defined within the specified schedule.
*
* @param {Recur} recur: Set of schedule and exception constraints
* @param {Date} date: The date to validate against
* @api public
*/
isValid: function (recur, date) {
date.setMilliseconds(0);
var next = this.getNext(recur, date);
return next ? date.getTime() === next.getTime() : false;
},
/**
* Returns the next one or more valid occurrences of a schedule.
*
* @param {Recur} recur: Set of schedule and exception constraints
* @param {Int} count: The number of occurrences to return
* @param {Date} startDate: The initial date to start looking from
* @param {Date} endDate: The last date to include
* @param {boolean} reverse: True to search for occurrences in reverse
* @api public
*/
get: function (recur, count, startDate, endDate, reverse) {
var occurrences = [], date;
while (count-- > 0 && (date =
!reverse ?
this.getNext(recur, date || startDate, endDate) :
this.getPrevious(recur, date || startDate, endDate)
)) {
occurrences.push(date);
date = tick(date, reverse);
}
return occurrences;
},
/**
* Returns the next valid occurrence of a schedule.
*
* @param {Recur} recur: Set of schedule and exception constraints
* @param {Date} startDate: The initial date to start looking from
* @param {Date} endDate: The last date to include
* @api public
*/
getNext: function (recur, startDate, endDate) {
var schedules = recur ? recur.schedules || [] : [],
exceptions = recur ? recur.exceptions || [] : [],
schedLen = schedules.length,
exceptLen = exceptions.length,
start = startDate || new Date(),
date;
while(start) {
var tDate;
if(endDate && start.getTime() > endDate.getTime()) {
date = undefined;
break;
}
if(schedLen) {
for(var i = 0; i < schedLen; i++) {
tDate = getNextForSchedule(schedules[i], start, endDate);
if (tDate && (!date || (tDate.getTime() < date.getTime()))) {
date = tDate;
}
}
}
else {
date = start;
}
start = null;
if (date && exceptLen) {
tDate = this.getNextInvalid({schedules: exceptions}, date);
if(tDate.getTime() !== date.getTime()) {
start = tDate;
date = undefined;
}
}
}
return date;
},
/**
* Returns the next invalid occurrence of a schedule. Useful for
* quickly calculating the end of a valid time period.
*
* @param {Recur} recur: Set of schedule and exception constraints
* @param {Date} startDate: The initial date to start looking frome
* @api public
*/
getNextInvalid: function (recur, startDate) {
var schedules = recur ? recur.schedules || [] : [],
exceptions = recur ? recur.exceptions || [] : [],
schedLen = schedules.length,
exceptLen = exceptions.length,
start = startDate || new Date();
while(start && this.isValid(recur, start)) {
var nextExcep, nextInvalid;
// get the next invalid schedule if there is one
for(var i = 0; i < schedLen; i++) {
var tDate = getNextInvalidSchedule(schedules[i], start);
if (tDate && (!nextInvalid || (tDate.getTime() > nextInvalid.getTime()))) {
nextInvalid = tDate;
}
}
// get the next occurrence of any of the exceptions
if(exceptLen) {
nextExcep = this.getNext({schedules: exceptions}, start);
}
// if we didn't find any next occurrences, there is no next
// invalid (this schedule is always valid until the end
// of time)
if(!nextInvalid && !nextExcep) {
start = undefined;
}
else {
start = new Date(nextInvalid && nextExcep ?
Math.min(nextInvalid.getTime(), nextExcep.getTime()) :
nextExcep || nextInvalid);
}
}
// if the date is the start date, no next invalid was found
return start;
},
/**
* Returns the previous valid occurrence of a schedule based on the
* provided endDate.
*
* @param {Recur} recur: Set of schedule and exception constraints
* @param {Date} endDate: The date to start the search from
* @param {Date} startDate: The last date to include in the search
* @api public
*/
getPrevious: function (recur, startDate, endDate) {
var schedules = recur ? recur.schedules || [] : [],
exceptions = {schedules: recur ? recur.exceptions || [] : []},
end = startDate || new Date(),
date, tDate,
i = schedules.length;
// return null if we're earlier than the specified endDate date
if (endDate && startDate.getTime() < endDate.getTime()) {
return null;
}
if (i === 0) {
date = end; // no constraints, end date is fine
}
else {
while(i--) {
tDate = getNextForSchedule(schedules[i], end, endDate, true);
if (!date || (tDate > date)) {
date = tDate;
}
}
}
if (date && exceptions.schedules.length > 0 &&
this.isValid (exceptions, date)) {
date = this.getPrevious(recur, tick(date, true), endDate);
}
return date;
},
/**
* Executes the provided callback on the provided recurrence
* schedule. Returns true if the timer was started.
*
* @param {Recur} recur: Set of schedule and exception constraints
* @param {Date} startDate: The initial date to start looking from
* @param {Func} callback: The function to execute
* @param {arg[]} arg: Argument or array of arguments to pass to the
* callback
* @api public
*/
exec: function (recur, startDate, callback, arg) {
var next = this.getNext(recur, tick(startDate));
if (next) {
next = next.getTime() - (new Date()).getTime();
// reschedule the exec if the delay is greater than 2^31-1
// otherwise setTimeout will be called immediately
if (next > 2147483647) {
exec = setTimeout(this.exec, 2147483647, recur, startDate, callback, arg);
}
else {
exec = setTimeout(this.handleExec, next, this, recur, callback, arg);
}
return true;
}
},
/**
* Immediately stops the execution of the current timer if one
* exists.
*
* @api public
*/
stopExec: function () {
if (exec) {
clearTimeout(exec);
exec = false;
}
},
/**
* Handles the execution of the timer.
*
* @param {Later} later: The context to execute within
* @param {Recur} recur: The set of constraints to use
* @param {Func} callback: The function to execute
* @param {arg[]} arg: Argument or array of arguments to pass to the
* callback
*/
handleExec: function (later, recur, callback, arg) {
callback(arg);
if (exec) {
later.exec(recur, (new Date()), callback, arg);
}
}
};
};
/**
* Allow library to be used within both the browser and node.js
*/
var root = typeof exports !== "undefined" && exports !== null ? exports : window;
root.later = Later;
}).call(this);