npm package discovery and stats viewer.

Discover Tips

  • General search

    [free text search, go nuts!]

  • Package details

    pkg:[package-name]

  • User packages

    @[username]

Sponsor

Optimize Toolset

I’ve always been into building performant and accessible sites, but lately I’ve been taking it extremely seriously. So much so that I’ve been building a tool to help me optimize and monitor the sites that I build to make sure that I’m making an attempt to offer the best experience to those who visit them. If you’re into performant, accessible and SEO friendly sites, you might like it too! You can check it out at Optimize Toolset.

About

Hi, 👋, I’m Ryan Hefner  and I built this site for me, and you! The goal of this site was to provide an easy way for me to check the stats on my npm packages, both for prioritizing issues and updates, and to give me a little kick in the pants to keep up on stuff.

As I was building it, I realized that I was actually using the tool to build the tool, and figured I might as well put this out there and hopefully others will find it to be a fast and useful way to search and browse npm packages as I have.

If you’re interested in other things I’m working on, follow me on Twitter or check out the open source projects I’ve been publishing on GitHub.

I am also working on a Twitter bot for this site to tweet the most popular, newest, random packages from npm. Please follow that account now and it will start sending out packages soon–ish.

Open Software & Tools

This site wouldn’t be possible without the immense generosity and tireless efforts from the people who make contributions to the world and share their work via open source initiatives. Thank you 🙏

© 2024 – Pkg Stats / Ryan Hefner

recurrify

v1.0.0

Published

Find time slots given a recurrence

Downloads

19

Readme

recurrify

Based on a shameless fork of later.js.

  • Added ability to get all time slots of a recurrence between a start and end time
  • Removed the parsers in favor of just dealing with recurrence definitions directly
  • Removed setTimeout and setInterval implementations
  • Removed bower and Makefile
  • Renamed schedule to recurrence and occurrence to time slot
  • Renamed package from cronicle to recurrify
  • WIP to update syntax to more modern ES6+

Installation

$ npm install recurrify

Example usage

const recurrify = require('recurrify')

const startDate = new Date('2018-10-01T13:00:00Z')
const endDate = new Date('2018-10-01T15:00:00Z')

// every 5 minutes
const sched = { 'recurrences': [{ 'm': [0, 5, 10, 15, 20, 25, 30, 35, 40, 45, 50, 55] }] }
const timeSlots = recurrify.recurrence(sched).all(startDate, endDate)
console.log(timeSlots)

Result

$ node example.js
[ 2018-10-01T13:00:00.000Z,
  2018-10-01T13:05:00.000Z,
  2018-10-01T13:10:00.000Z,
  2018-10-01T13:15:00.000Z,
  2018-10-01T13:20:00.000Z,
  2018-10-01T13:25:00.000Z,
  2018-10-01T13:30:00.000Z,
  2018-10-01T13:35:00.000Z,
  2018-10-01T13:40:00.000Z,
  2018-10-01T13:45:00.000Z,
  2018-10-01T13:50:00.000Z,
  2018-10-01T13:55:00.000Z,
  2018-10-01T14:00:00.000Z,
  2018-10-01T14:05:00.000Z,
  2018-10-01T14:10:00.000Z,
  2018-10-01T14:15:00.000Z,
  2018-10-01T14:20:00.000Z,
  2018-10-01T14:25:00.000Z,
  2018-10-01T14:30:00.000Z,
  2018-10-01T14:35:00.000Z,
  2018-10-01T14:40:00.000Z,
  2018-10-01T14:45:00.000Z,
  2018-10-01T14:50:00.000Z,
  2018-10-01T14:55:00.000Z,
  2018-10-01T15:00:00.000Z ]

Running tests

$ npm test

Recurrences

Recurrences in recurrify are json objects that define a set of time units along with the values that should be considered valid for that time unit. The combination of a time unit with their valid values is called a constraint. recurrify then takes all of the constraints that have been defined and finds dates that match all of them.

Since recurrify recurrences are json objects, they can easily be serialized and stored in caches and databases as needed. They are also completely deterministic which means a recurrence will always produce exactly the same valid time slots. Therefore, time slots never need to be stored as they can always be recalculated from the recurrence definition.

Basic recurrences

A basic recurrence is a set of time units along with their valid values. A date is only considered valid if it meets all of the constraints within a basic recurrence. A basic recurrence can include as many time units (with or without modifiers) as needed, in any order.

// a basic recurrence that is valid every day at 10:15am and 10:45am
const basic = {h: [10], m: [15,45]}

Here we can see a recurrence is made up of objects with properties that correspond to the various time units. In this case h is the hour time unit and m is the minute time unit. The values to consider valid are always stored in an array as the value of the property.

Note: Basic recurrences are only valid as part of a complete recurrence definition.

Composite recurrences

Multiple basic recurrences can be combined into a single composite recurrence by placing them into an array. A date is considered valid if any of the basic recurrences are valid (basically an OR of all of the basic recurrences). A composite recurrence can contain as many basic recurrences as needed.

// a composite recurrence that is valid every day at 10:15am and 10:45am
// and every day at 5:30pm
const composite = [
  {h: [10], m: [15,45]},
  {h: [17], m: [30]}
]

Note: Composite recurrences are only valid as part of a complete recurrence definition.

Exception recurrences

An exception recurrence is a basic or composite recurrence that defines when a recurrence should be considered invalid. A date is considered invalid if any of the basic recurrences within an exception recurrence are valid.

// an exception recurrence that makes any date in March as
// well as any Monday of any month invalid
const exception = [
  {M: [3]},
  {dw: [2]}
]

Note: Exception recurrences are only valid as part of a complete recurrence definition.

Complete definition

A complete definition is a json object that at a minimum contains a recurrences property that defines a composite recurrence with at least one basic recurrence. Optionally, the definition can also include an exceptions property that defines a composite exception recurrence.

Examples

Here's an example of a valid recurrence that fires every 10 minutes. The composite recurrence is always placed in an object under a property named recurrences. Even if you only have a basic recurrence, the recurrences property must be an array.

const recurrence = {
  recurrences: [
    {m: [0,10,20,30,40,50]}
  ]
}

Here's a valid recurrence definition that includes exceptions with modifiers. Here we see the composite exception recurrence is always placed in an object under a property named exceptions. Even if you only have a basic exception recurrence, the exceptions property must be an array.

const recurrence = {
  recurrences: [
    {h: [10], m: [15,45]},
    {h: [17], m: [30]}
  ],
  exceptions: [
    {M_a: [3]},
    {dw: [2]}
  ]
}

Performance considerations

While recurrify has been designed to efficiently calculate time slots for all types and complexities of recurrences, there are a few things to keep in mind for applications that have particularly high performance requirements.

  • Basic time units perform the best. These include years, months, days, hours, minutes, and seconds. Calculating ISO week of year is particularly expensive.
  • Recurrences without exceptions perform better than those with exceptions. Defining your recurrence without the need for exceptions will improve performance.
  • Use the time time unit instead of specifying hours and minutes separately when possible. Reducing the number of constraints will generally improve performance.
  • Using after and before modifiers to eliminate the need for specifying a lot of valid values will improve performance, especially when calculating ranges.

time units

Time units are the crux of the recurrify library and are used to define new recurrences. recurrify comes with a large assortment of time units and is also fully extensible making it easy to create custom time units.

While time units are primarily used by recurrify to define recurrences and calculate time slots, they are also useful for performing time based calculations. Calculating values such as ISO week number, moving between days of the year, or figuring out how many days are in a month are all possible using the time unit interface.

If you don't see the time unit that you need for your recurrence, recurrify is fully extensible and it is easy to write your own. See the custom time unit at the bottom of this page for an example.

Interface

All time units implement the same public interface for interacting with them:

name The name of the time unit.

range The rough number of seconds that are covered when moving from one instance of this time unit to the next instance.

val(date) The value of this time unit for the date specified.

isValid(date, value) True if the specified value is valid for the specified date, false otherwise.

extent(date) The minimum and maximum valid values for the time unit for the specified date. If the minimum value is not 0, 0 can be specified in recurrences to indicate the maximum value. This makes working with non-constant extents (like days in a month) easier.

start(date) The first second in which the value is the same as the value of the specified date. For example, the start of an hour would be the hour with 0 minutes and 0 seconds.

end(date) The last second in which the value is the same as the value of the specified date. For example, the end of an hour would be the hour with 59 minutes and 59 seconds.

next(date, value) Returns the next date where the value is the value specified. Sets the value to 1 if value specified is greater than the max allowed value.

prev(date, value`) Returns the previous date where the value is the value specified. Sets the value to the max allowed value if the value specified is greater than the max allowed value.

Second (second, s)

Seconds in a minute, from 0 to 59.

Using seconds in a recurrence:

const sched = {recurrences: [{s: [0, 15, 30, 45]}]}

Performing seconds based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.second.name;
// --> 'second'

recurrify.second.range;
// --> 1

recurrify.second.val(d);
// --> 5

recurrify.second.isValid(d, 10);
// --> false

recurrify.second.extent();
// --> [0, 59]

recurrify.second.start(d);
// --> 'Fri, 22 Mar 2013 10:02:05 GMT'

recurrify.second.end(d);
// --> 'Fri, 22 Mar 2013 10:02:05 GMT'

recurrify.second.next(d, 27);
// --> 'Fri, 22 Mar 2013 10:02:27 GMT'

recurrify.second.prev(d, 27);
// --> 'Fri, 22 Mar 2013 10:01:27 GMT'

Minute (minute, m)

Minutes in an hour, from 0 to 59.

Using minutes in a recurrence:

const sched = {recurrences: [{m: [0, 15, 30, 45]}]}

Performing minutes based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.minute.name;
// --> 'minute'

recurrify.minute.range;
// --> 60

recurrify.minute.val(d);
// --> 2

recurrify.minute.isValid(d, 2);
// --> true

recurrify.minute.extent();
// --> [0, 59]

recurrify.minute.start(d);
// --> 'Fri, 22 Mar 2013 10:02:00 GMT'

recurrify.minute.end(d);
// --> 'Fri, 22 Mar 2013 10:02:59 GMT'

recurrify.minute.next(d, 27);
// --> 'Fri, 22 Mar 2013 10:27:00 GMT'

recurrify.minute.prev(d, 27);
// --> 'Fri, 22 Mar 2013 09:27:59 GMT'

Hour (hour, h)

Hours in a day, from 0 to 23.

Using hours in a recurrence:

const sched = {recurrences: [{h: [0, 5, 12]}]}

Performing hours based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.hour.name;
// --> 'hour'

recurrify.hour.range;
// --> 3600

recurrify.hour.val(d);
// --> 10

recurrify.hour.isValid(d, 2);
// --> false

recurrify.hour.extent();
// --> [0, 23]

recurrify.hour.start(d);
// --> 'Fri, 22 Mar 2013 10:00:00 GMT'

recurrify.hour.end(d);
// --> 'Fri, 22 Mar 2013 10:59:59 GMT'

recurrify.hour.next(d, 5);
// --> 'Sat, 23 Mar 2013 05:00:00 GMT'

recurrify.hour.prev(d, 21);
// --> 'Thu, 21 Mar 2013 21:59:59 GMT'

Time (time, t)

Time of day, represented as seconds since midnight. From 0 to 86399 (60 * 60 * 24 - 1).

Using time in a recurrence:

const sched = {recurrences: [{t: [6500]}]}

Performing time based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.time.name;
// --> 'time'

recurrify.time.range;
// --> 1

recurrify.time.val(d);
// --> 36125

recurrify.time.isValid(d, 36125);
// --> true

recurrify.time.extent();
// --> [0, 86399]

recurrify.time.start(d);
// --> 'Fri, 22 Mar 2013 00:00:00 GMT'

recurrify.time.end(d);
// --> 'Fri, 22 Mar 2013 23:59:59 GMT'

recurrify.time.next(d, 60);
// --> 'Sat, 23 Mar 2013 00:01:00 GMT'

recurrify.time.prev(d, 60);
// --> 'Fri, 22 Mar 2013 00:01:00 GMT'

Day (day, D)

Days of a month, from 1 to the max days in the month. Specify 0 for the varying last day of the month, which is between 28 through 31.

Using days in a recurrence:

const sched = {recurrences: [{D: [0]}]}

Performing day based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.day.name;
// --> 'day'

recurrify.day.range;
// --> 86400

recurrify.day.val(d);
// --> 22

recurrify.day.isValid(d, 3);
// --> false

recurrify.day.extent(d);
// --> [1, 31]

recurrify.day.start(d);
// --> 'Fri, 22 Mar 2013 00:00:00 GMT'

recurrify.day.end(d);
// --> 'Fri, 22 Mar 2013 23:59:59 GMT'

recurrify.day.next(d, 11);
// --> 'Thu, 11 Apr 2013 00:00:00 GMT'

recurrify.day.prev(d, 2);
// --> 'Sat, 02 Mar 2013 23:59:59 GMT'

Day of week (dayOfWeek, dw, d)

Days of a week, from 1 to 7. Specify 0 for the last day of the week (Saturday).

Using days of week in a recurrence:

const sched = {recurrences: [{dw: [2,3,4,5,6]}]}

Performing day of week based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.dayOfWeek.name;
// --> 'day of week'

recurrify.dayOfWeek.range;
// --> 86400

recurrify.dayOfWeek.val(d);
// --> 6

recurrify.dayOfWeek.isValid(d, 3);
// --> false

recurrify.dayOfWeek.extent();
// --> [1, 7]

recurrify.dayOfWeek.start(d);
// --> 'Fri, 22 Mar 2013 00:00:00 GMT'

recurrify.dayOfWeek.end(d);
// --> 'Fri, 22 Mar 2013 23:59:59 GMT'

recurrify.dayOfWeek.next(d, 1);
// --> 'Sun, 24 Mar 2013 00:00:00 GMT'

recurrify.dayOfWeek.prev(d, 5);
// --> 'Thu, 21 Mar 2013 23:59:59 GMT'

Day of week count (dayOfWeekCount, dc)

The nth day of the week within a month, from 1 to the max weeks in a month. Specify 0 for the last day instance. Used together with the day of the week time unit to specify things like the 2nd Tuesday or last Friday of a month.

Using days of week count in a recurrence:

const sched = {recurrences: [{dc: [2]}]}

Performing day of week count based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.dayOfWeekCount.name;
// --> 'day of week count'

recurrify.dayOfWeekCount.range;
// --> 604800

recurrify.dayOfWeekCount.val(d);
// --> 4

recurrify.dayOfWeekCount.isValid(d, 4);
// --> true

recurrify.dayOfWeekCount.extent(d);
// --> [1, 5]

recurrify.dayOfWeekCount.start(d);
// --> 'Fri, 22 Mar 2013 00:00:00 GMT'

recurrify.dayOfWeekCount.end(d);
// --> 'Thu, 28 Mar 2013 23:59:59 GMT'

// zero is special cased and means the last instance of
// a day of the week in the month, instead of meaning the
// first day of the week with the highest instance count
// which would have been Mar 29 with value 5.
recurrify.dayOfWeekCount.next(d, 0);
// --> 'Mon, 25 Mar 2013 00:00:00 GMT'

recurrify.dayOfWeekCount.prev(d, 2);
// --> 'Thu, 14 Mar 2013 23:59:59 GMT'

Day of year (dayOfYear, dy)

Day of the year, from 1 to the max days in year. Specify 0 for last day of the year.

Using days of year in a recurrence:

const sched = {recurrences: [{dy: [189, 267]}]}

Performing day of year based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.dayOfYear.name;
// --> 'day of year'

recurrify.dayOfYear.range;
// --> 86400

recurrify.dayOfYear.val(d);
// --> 81

recurrify.dayOfYear.isValid(d, 4);
// --> false

recurrify.dayOfYear.extent(d);
// --> [1, 365]

recurrify.dayOfYear.start(d);
// --> 'Fri, 22 Mar 2013 00:00:00 GMT'

recurrify.dayOfYear.end(d);
// --> 'Fri, 22 Mar 2013 23:59:59 GMT'

recurrify.dayOfYear.next(d, 256);
// --> 'Fri, 13 Sep 2013 00:00:00 GMT'

recurrify.dayOfYear.prev(d, 44);
// --> 'Wed, 13 Feb 2013 23:59:59 GMT'

Week of month (weekOfMonth, wm)

Week of the month where the 1st of the month is week 1 and following weeks start on Sunday. From 1 to max weeks in the month. Specify 0 for last week of the month.

Using weeks of month in a recurrence:

const sched = {recurrences: [{wm: [1, 2]}]}

Performing week of month based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.weekOfMonth.name;
// --> 'week of month'

recurrify.weekOfMonth.range;
// --> 604800

recurrify.weekOfMonth.val(d);
// --> 4

recurrify.weekOfMonth.isValid(d, 4);
// --> true

recurrify.weekOfMonth.extent(d);
// --> [1, 6]

recurrify.weekOfMonth.start(d);
// --> 'Sun, 17 Mar 2013 00:00:00 GMT'

recurrify.weekOfMonth.end(d);
// --> 'Sat, 23 Mar 2013 23:59:59 GMT'

recurrify.weekOfMonth.next(d, 1);
// --> 'Mon, 01 Apr 2013 00:00:00 GMT'

recurrify.weekOfMonth.prev(d, 2);
// --> 'Sat, 09 Mar 2013 23:59:59 GMT'

ISO Week of year (weekOfYear, wy)

The ISO-8601 week of the year. From 1 to the max ISO week in the year. Specify 0 for last ISO week of the year.

Using weeks of year in a recurrence:

const sched = {recurrences: [{wy: [13,26,39,0]}]}

Performing week of year based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.weekOfYear.name;
// --> 'week of year'

recurrify.weekOfYear.range;
// --> 604800

recurrify.weekOfYear.val(d);
// --> 12

recurrify.weekOfYear.isValid(d, 21);
// --> false

recurrify.weekOfYear.extent(d);
// --> [1, 52]

recurrify.weekOfYear.start(d);
// --> 'Mon, 18 Mar 2013 00:00:00 GMT'

recurrify.weekOfYear.end(d);
// --> 'Sun, 24 Mar 2013 23:59:59 GMT'

recurrify.weekOfYear.next(d, 47);
// --> 'Mon, 18 Nov 2013 00:00:00 GMT'

recurrify.weekOfYear.prev(d, 52);
// --> 'Sun, 30 Dec 2012 23:59:59 GMT'

Month (month, M)

Month of the year, from 1 to 12. Specify 0 for the last month of the year.

Using months in a recurrence:

const sched = {recurrences: [{M: [3,5,7]}]}

Performing months based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.month.name;
// --> 'month'

recurrify.month.range;
// --> 2629740

recurrify.month.val(d);
// --> 3

recurrify.month.isValid(d, 3);
// --> true

recurrify.month.extent();
// --> [1, 12]

recurrify.month.start(d);
// --> 'Fri, 01 Mar 2013 00:00:00 GMT'

recurrify.month.end(d);
// --> 'Sun, 31 Mar 2013 23:59:59 GMT'

recurrify.month.next(d, 11);
// --> 'Fri, 01 Nov 2013 00:00:00 GMT'

recurrify.month.prev(d, 2);
// --> 'Thu, 28 Feb 2013 23:59:59 GMT'

Year (year, Y)

Year, from 1970 to 2099.

Using years in a recurrence:

const sched = {recurrences: [{Y: [2013, 2014, 2015]}]}

Performing years based calculations:

const d = new Date('2013-03-22T10:02:05Z');

recurrify.year.name;
// --> 'year'

recurrify.year.range;
// --> 31556900

recurrify.year.val(d);
// --> 2013

recurrify.year.isValid(d, 2013);
// --> true

recurrify.year.extent();
// --> [1970, 2099]

recurrify.year.start(d);
// --> 'Tue, 01 Jan 2013 00:00:00 GMT'

recurrify.year.end(d);
// --> 'Tue, 31 Dec 2013 23:59:59 GMT'

recurrify.year.next(d, 2014);
// --> 'Wed, 01 Jan 2014 00:00:00 GMT'

recurrify.year.prev(d, 2012);
// --> 'Mon, 31 Dec 2012 23:59:59 GMT'

Writing a custom time unit

recurrify is fully extensible and it is easy to create your own custom time units that can be used to define new recurrences. To keep things simple, we'll walk through creating a new time unit for indicating morning, afternoon, and evening. For our purposes, morning will be before noon and have a value of 0, afternoon will be before 6pm and have a value of 1, and evening will be before midnight and have a value of 2.

The first step is to create a name and id for the modifier and add it to the recurrify namespace.

recurrify.partOfDay = recurrify.pd = {
  // interface implementation goes here
};

Next, we need to implement the time unit interface. First we will just specify the name of this time unit.

name: 'part of day',

The range is approximately 6 hours. Though some of our periods are longer and some shorter, we'll use the shortest range which is afternoon at 6 hours.

range: recurrify.h.range * 6,

We then implement val to return the appropriate value based on the definition described previously.

val: function(d) {
  return recurrify.h.val(d) < 12 ? 0 :
         recurrify.h.val(d) < 6 ? 1 :
         2;
},

Then we can use our new val function to implement isValid.

isValid: function(d, val) {
  return recurrify.pd.val(d) === val;
},

The extent is always going to be the same for every day so we can just return a constant array here.

extent: function(d) { return [0, 2]; },

Next we need to implement start and end based on the current time unit. This will be the start and end of each part of the day that we've defined.

start: function(d) {
  const hour = recurrify.pd.val(d) === 0 ? 0 :
                recurrify.pd.val(d) === 1 ? 12 :
                6;

  // recurrify.date.next is a helper function for creating the date in UTC or
  // localTime as appropriate
  return recurrify.date.next(
    recurrify.Y.val(d),
    recurrify.M.val(d),
    recurrify.D.val(d),
    hour
  );
},

end: function(d) {
  const hour = recurrify.pd.val(d) === 0 ? 11 :
                recurrify.pd.val(d) === 1 ? 5 :
                23;

  // recurrify.date.prev is a helper function for creating the date in UTC or
  // localTime as appropriate, and automatically adjusts the date to be at
  // the last second of the specified time
  return recurrify.date.prev(
    recurrify.Y.val(d),
    recurrify.M.val(d),
    recurrify.D.val(d),
    hour
  );
},

Finally, we need to implement next and prev so that you can move to different parts of the day. We need to make sure to increment and decrement the day appropriately if we've already passed the specified value.

next: function(d, val) {
  const hour = val === 0 ? 0 : val === 1 ? 12 : 18;

  return recurrify.date.next(
    recurrify.Y.val(d),
    recurrify.M.val(d),
    // increment the day if we already passed the desired time unit
    recurrify.D.val(d) + (hour < recurrify.h.val(d) ? 1 : 0),
    hour
  );
},

prev: function(d, val) {
  const hour = val === 0 ? 11 : val === 1 ? 5 : 23;

  return recurrify.date.prev(
    recurrify.Y.val(d),
    recurrify.M.val(d),
    // decrement the day if we already passed the desired time unit
    recurrify.D.val(d) + (hour > recurrify.h.val(d) ? -1 : 0),
    hour
  );
}

Full implementation

Here is the code for the completed example. To use the time unit, just add this code after including recurrify into your project and before you use it in any recurrences.

recurrify.partOfDay = recurrify.pd = {

  name: 'part of day',

  range: recurrify.h.range * 6,

  val: function(d) {
    return recurrify.h.val(d) < 12 ? 0 :
           recurrify.h.val(d) < 18 ? 1 :
           2;
  },

  isValid: function(d, val) {
    return recurrify.pd.val(d) === val;
  },

  extent: function(d) { return [0, 2]; },

  start: function(d) {
    const hour = recurrify.pd.val(d) === 0 ? 0 :
                  recurrify.pd.val(d) === 1 ? 12 :
                  18;

    return recurrify.date.next(
      recurrify.Y.val(d),
      recurrify.M.val(d),
      recurrify.D.val(d),
      hour
    );
  },

  end: function(d) {
    const hour = recurrify.pd.val(d) === 0 ? 11 :
                  recurrify.pd.val(d) === 1 ? 5 :
                  23;

    return recurrify.date.prev(
      recurrify.Y.val(d),
      recurrify.M.val(d),
      recurrify.D.val(d),
      hour
    );
  },

  next: function(d, val) {
    const hour = val === 0 ? 0 : val === 1 ? 12 : 18;

    return recurrify.date.next(
      recurrify.Y.val(d),
      recurrify.M.val(d),
      // increment the day if we already passed the desired time unit
      recurrify.D.val(d) + (hour < recurrify.h.val(d) ? 1 : 0),
      hour
    );
  },

  prev: function(d, val) {
    const hour = val === 0 ? 11 : val === 1 ? 5 : 23;

    return recurrify.date.prev(
      recurrify.Y.val(d),
      recurrify.M.val(d),
      // decrement the day if we already passed the desired time unit
      recurrify.D.val(d) + (hour > recurrify.h.val(d) ? -1 : 0),
      hour
    );
  }
};

Usage

Using the custom time unit is exactly the same as using a built-in time unit.

// use our new time unit to specify every 15 mins at night
const sched = recurrify.parse.recur().every(15).minute().on(2).customPeriod('pd'),
    next = recurrify.recurrence(sched).next(1, new Date(2013, 3, 21));

console.log(next.toUTCString());
// --> Sun, 21 Apr 2013 18:00:00 GMT

Modifiers

With recurrify, not only can you write your own custom time units, you can also write custom modifiers that can change the behavior of existing time units. The modifiers sit in between the scheduling engine and the time unit allowing you to intercept and modify the results that are returned by the time unit.

Modifies are specified by attaching _(modifier-id) to the time unit id that you want to modify. The same time unit can be used with different modifiers within the same recurrence.

after: _a

Modifies the corresponding time unit such that all values after and including the specified value is considered valid. This modifier can be used with any time unit. Useful for creating more compact recurrences when a time unit has a lot of consecutive valid values.

// all hours after 5:00pm will be valid
const sched = {recurrences: [{h_a: [17]}]};

// equivalent to
const sched = {recurrences: [{h: [17,18,19,20,21,22,23]}]};

before _b

Modifies the corresponding time unit such that all values before (but not including) the specified value is considered valid. This modifier can be used with any time unit. Useful for creating more compact recurrences when a time unit has a lot of consecutive valid values.

// all hours before 5:00pm will be valid
const sched = {recurrences: [{h_b: [17]}]};

// equivalent to
const sched = {recurrences: [{h: [0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16]}]};

Writing a custom modifier

Custom modifiers are very similar to custom time units and share the same interface. To keep things simple, we'll walk through creating a modifier to change the month period to work with values 0-11 instead of 1-12.

The first step is to create a name and id for the modifier and add it to the modifier namespace. Modifiers take the time unit that is being modified along with the specified values as arguments.

recurrify.modifier.month = recurrify.modifier.m = function(period, values) {
  if(period.name !== 'month') {
    throw new Error('Month modifier only works with months!');
  }

  return {
    // interface implementation goes here
  };
};

Next, we need to implement the same interface that time units implement and modify them to work with the new set of values. First, we will just modify the name to include a reference to the modifier.

name: 'reIndexed ' + period.name,

The range is the same, so we just pass it through.

range: period.range,

We then modify the val returned by subtracting 1 since our new indices are one less than the original ones.

val: function(d) { return period.val(d) - 1; },

Next, isValid is modified by tweaking the value that is passed in so that it is in the range that the month time unit expects.

isValid: function(d, val) { return period.isValid(d, val+1); },

The extent also needs to be modified to reflect the new extent that goes from 0-11. Now that the extent starts at 0, the recurrence engine will no longer assume that a 0 value means "last". There is nothing else that we need to do to correct for that behavior.

extent: function(d) { return [0, 11]; },

The start and end dates for the month will be the same, so we can just pass those through to the time unit without modification.

start: period.start,
end: period.end,

Finally, the values passed into next and prev need to be updated to be in the range that the month time unit expects.

next: function(d, val) { return period.next(d, val+1); },
prev: function(d, val) { return period.prev(d, val+1); }

Full implementation

Here is the code for the completed example. To use the modifier, just add this code after including recurrify into your project and before you use it in any recurrences.

recurrify.modifier.month = recurrify.modifier.m = function(period, values) {
  if(period.name !== 'month') {
    throw new Error('Month modifier only works with months!');
  }

  return {
    name:     'reIndexed ' + period.name,
    range:    period.range,
    val:      function(d) { return period.val(d) - 1; },
    isValid:  function(d, val) { return period.isValid(d, val+1); },
    extent:   function(d) { return [0, 11]; },
    start:    period.start,
    end:      period.end,
    next:     function(d, val) { return period.next(d, val+1); },
    prev:     function(d, val) { return period.prev(d, val+1); }
  };
};

Usage

Using the custom modifier is exactly the same as using a built-in modifier.

// without our modifier, 2 means February
const sched1 = {recurrences: [{M: [2]}]};

recurrify.recurrence(sched1).next(1, new Date(2013, 3, 21));
// --> Sat, 01 Feb 2014 00:00:00 GMT

// use our new modifier so that 2 now means March
const sched = recurrify.parse.recur().customModifier('m', 2).month();

next = recurrify.recurrence(sched2).next(1, new Date(2013, 3, 21));
// --> Sat, 01 Mar 2014 00:00:00 GMT

Time Slots

Once a recurrence has been defined, it can be used to calculate future and past time slots of that recurrence. A time slot is a date that meets all of the constraints imposed by the recurrence.

In order to improve performance, recurrences are first compiled prior to time slots being calculated. The compiled version of the recurrence can be reused to find additional time slots as needed.

To compile a recurrence, pass the recurrence definition to recurrify.recurrence.

const sched = recurrify.recurrence(recurrence)

TIP: All recurrence definitions are timezone agnostic. When you need to calculate time slots, you can decide to perform the calculation using local time or UTC.

// set recurrify to use UTC time (the default)
recurrify.date.UTC();

// set recurrify to use local time
recurrify.date.localTime();

isValid(date)

Returns true if the date passed in is a valid time slot of the recurrence, false otherwise.

const valid = recurrify.recurrence(recurrence).isValid(date)

Examples

const sched = recurrify.recurrence(recurrify.parse.recur().on(1,2,3).minute());

sched.isValid(new Date('2013-03-22T10:02:00Z'));
// --> true

sched.isValid(new Date('2013-03-22T10:22:00Z'));
// --> false

sched.isValid(new Date('2013-03-22T10:02:05Z'));
// --> false

Calculating instances

Instances are individual dates that meet all of the constraints that are imposed by the recurrence. Instances can be calculated both forwards and backwards, in any quantity, and optionally between a start and end date. When calculating multiple instances, the minimum time between instances is based on the smallest ranged time unit.

recurrify.recurrence(recurrence).all(start, end) Calculates all time slots of recurrence starting from the start date and ending before the end date. If an end date is not specified, the maximum results returned is 1000000.

recurrify.recurrence({recurrences: [{m: [5]}]}).all(startDate, endDate)

recurrify.recurrence(recurrence*).next(*count, start, end*) Calculates the next count time slots of recurrence, optionally starting from the start date and ending before the end date.

recurrify.recurrence({recurrences: [{m: [5]}]}).next(2)

recurrify.recurrence(recurrence).prev(count, start, end) Calculates the previous count time slots of recurrence, optionally starting from the start date and ending before the end date. When using previous, the start date must be greater than the end date.

recurrify.recurrence({recurrences: [{m: [5]}]}).prev(2)

Examples

// sched for minute equal to 1,2, or 3
const sched = recurrify.recurrence(recurrify.parse.recur().on(1,2,3).minute()),
    start = new Date('2013-05-22T10:22:00Z');

// get the next instance
sched.next(1, start);
// --> Mon, 22 May 2013 11:01:00 GMT

// get the next 5 instances
sched.next(5, start);
// --> [ 'Mon, 22 May 2013 11:01:00 GMT',
      'Mon, 22 May 2013 11:02:00 GMT',
      'Mon, 22 May 2013 11:03:00 GMT',
      'Mon, 22 May 2013 12:01:00 GMT',
      'Mon, 22 May 2013 12:02:00 GMT' ]

// get the previous instance
sched.prev(1, start);
// --> Mon, 22 May 2013 10:03:00 GMT

Calculating ranges

Ranges combine consecutively valid instances into a single start and end block of time. The start time is the first valid instance of the block of time. The end time is the first invalid time after the block.

Ranges are useful when scheduling blocks of time such as a meeting or activity. The recurrence definition defines the start and end time of the activity and then ranges are used to find their time slots.

recurrify.recurrence(recurrence).nextRange(count, start, end) Calculates the next count ranges of recurrence, optionally starting from the start date and ending before the end date.

recurrify.recurrence({recurrences: [{m:[5,6,7]}]}).nextRange(2)

recurrify.recurrence(recurrence).prevRange(count, start, end) Calculates the previous count ranges of recurrence, optionally starting from the start date and ending before the end date.

recurrify.recurrence({recurrences: [{m:[5,6,7]}]}).prevRange(2)

Examples

// sched for minute equal to 1,2, or 3
const sched = recurrify.recurrence(recurrify.parse.recur().on(1,2,3).minute()),
    start = new Date('2013-05-22T10:22:00Z');

// get the next range
sched.nextRange(1, start);
// --> ['Mon, 22 May 2013 11:01:00 GMT', 'Mon, 22 May 2013 11:04:00 GMT']

// get the next 5 ranges
sched.nextRange(5, start);
// --> [
      ['Mon, 22 May 2013 11:01:00 GMT', 'Mon, 22 May 2013 11:04:00 GMT']
      ['Mon, 22 May 2013 12:01:00 GMT', 'Mon, 22 May 2013 12:04:00 GMT']
      ['Mon, 22 May 2013 13:01:00 GMT', 'Mon, 22 May 2013 13:04:00 GMT']
      ['Mon, 22 May 2013 14:01:00 GMT', 'Mon, 22 May 2013 14:04:00 GMT']
      ['Mon, 22 May 2013 15:01:00 GMT', 'Mon, 22 May 2013 15:04:00 GMT']
    ]

// get the previous range
sched.prevRange(1, start);
// --> ['Mon, 22 May 2013 10:01:00 GMT', 'Mon, 22 May 2013 10:04:00 GMT']