Skip to content

Node.js Module to create, add and subtract time-spans

License

Notifications You must be signed in to change notification settings

mickmcc/node-caltime

Repository files navigation

CalTime

caltime is a Node.js package which provides objects, methods and functions which help to generate, sort, add and subtract timespans. Operations which are supported by the package include:

  • query if timespans overlap with each other
  • calculate the overlap (intersection) of timespans
  • calculate the addition (union) of timespans
  • calculate the remainder left after subtracting timespans
  • calculate the difference between timespans
  • merge the timespans in an array which overlap
  • sort an array of timespans
  • calculate the total duration of an array of timespans
  • calculate the intersections between two arrays of timespans

A feature provided by caltime is the ability to define time-based rules using TimeRule objects. This allows timespans to be generated according to a specific period and within certain constraints. Examples of the timespans which can be generated are:

  • 2-3pm on Monday of every week in UTC timezone.
  • 14:00-16:00 on the 24th of every month in New York timezone.
  • 9-10am on the third Tuesday of every month in Delhi timezone.
  • 9am-6pm on Friday and Saturday of every week in Dubai timezone.

caltime does not attempt to provide functionality which is already provided by packages such as Moment. For this reason, caltime avoids converting dates or times to or from their string representation.

API Usage

The caltime module provides a top-level object with several member functions and objects. All of these functions and objects can be accessed by installing the caltime module.

$ cd <myproject>
$ npm install --save caltime

Currently, the caltime module provides three object constructors, five functions and the constants object.

var caltime = require('caltime');
// functional constructor to create TimeSpan objects
var timespan = caltime.timeSpan;
// function to merge TimeSpans in an array
var mergeTimeSpans = caltime.mergeTimeSpans;
// function to sort TimeSpans in an array
var sortTimeSpans = caltime.sortTimeSpans;
// functional constructor to create DateSpan objects
var datespan = caltime.dateSpan;
// function to merge DateSpans in an array
var mergeDateSpans = caltime.mergeDateSpans;
// function to sort DateSpans in an array
var sortDateSpans = caltime.sortDateSpans;
// functional constructor to create TimeRule objects
var timerule = caltime.timeRule;
// Constants object provides all of the constants defined by the module
var caltimeConstants = caltime.constants;

TimeSpan

A TimeSpan is an immutable object which defines an interval of time during a single day. The interval starts at a defined time of the day and has a defined duration. The TimeSpan is not associated with any specific date or timezone.

TimeSpan is deliberately not date specific. It does not take into account factors such as the timezone, leap seconds or Daylight Savings Time. If a date-specific timespan must be represented then it is better to use DateSpan.

The end time of a TimeSpan does not form part of the timespan i.e. In mathematical terms, the TimeSpan object represents a half-open interval of time where the end time is exclusive and the begin time is inclusive.

var caltime = require('caltime');
// call the functional constructor. do not use the new operator.
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:00am - 10:00am.
var spanA = timespanCtor(9, 0, 0, 0, 60, 0, 0);

timeSpan()

The timeSpan function is a functional constructor therefore it should not be called with the new operator. The function accepts several arguments:

  • inHours: Hour component of the start time of the TimeSpan (24 hour clock). Valid range is 0-23.
  • inMinute: Minutes component of the start time. Valid range is 0-59.
  • inSeconds: Seconds component of the start time. Valid range is 0-59.
  • inMilliseconds: Milliseconds component of the start time. Valid range is 0-999.
  • inDurationMins: Minutes component of the duration of the TimeSpan in minutes. Durations can exceed one hour and in this case this argument can exceed the value 59.
  • inDurationSecs: Seconds component of the duration. Valid range is 0-59.
  • inDurationMs: Milliseconds component of the duration. Valid range is 0-999.

getHours(), getMinutes, getSeconds() and getMilliseconds()

These methods return the various components of the start time of the TimeSpan.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:01:30:444am - 09:31:30:444am.
var spanA = timespanCtor(9, 1, 34, 444, 30, 0, 0);
spanA.getHours(); // 9 hours
spanA.getMinutes(); // 1 minute
spanA.getSeconds(); // 34 seconds
spanA.getMilliseconds(); // 444 milliseconds

getDurationMins(), getDurationSecs() and getDurationMs()

These methods return the various components of the duration of the TimeSpan. A TimeSpan which is longer than 1 hour will have a duration of greater than 60 minutes.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:00:0:000am - 09:04:05:006am.
var spanA = timespanCtor(9, 0, 0, 0, 4, 5, 6);
spanA.getDurationMins(); // 4 minutes
spanA.getDurationSecs(); // 5 seconds
spanA.getDurationMs(); // 6 milliseconds

getTotalDuration()

This method returns the total duration of the TimeSpan in milliseconds.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:00:0:000am - 09:01:01:001am.
var spanA = timespanCtor(9, 0, 0, 0, 1, 1, 1);
spanA.getTotalDuration(); // 60000+1000+1 = 61001

isEqual()

Method returns true if two TimeSpan objects have exactly the same start times and total durations.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:00:0:000am - 09:01:01:001am.
var spanA = timespanCtor(9, 0, 0, 0, 1, 1, 1);
var spanB = timespanCtor(9, 0, 0, 0, 1, 1, 1);
// create a TimeSpan object which represents 09:00:0:000am - 09:02:00:000am.
var spanC = timespanCtor(9, 2, 0, 0, 0, 0, 0);
spanA.isEqual(spanB); // true
spanA.isEqual(spanC); // false

isIntersect()

Method returns true if two TimeSpan objects intersect each other i.e. they overlap. Since the end time of a TimeSpan is exclusive, overlapping the beginning of one TimeSpan with the end time of another does not count as an intersection.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:30am - 10:00am.
var spanA = timespanCtor(9, 30, 0, 0, 30, 0, 0);
// create a TimeSpan object which represents 09:45am - 10:00am.
var spanB = timespanCtor(9, 45, 0, 0, 15, 0, 0);
// create a TimeSpan object which represents 10:00am - 10:15am.
var spanC = timespanCtor(10, 0, 0, 0, 15, 0, 0);
spanA.isIntersect(spanB); // true
spanA.isIntersect(spanC); // false

intersect()

Method calculates the intersection (overlap), if any, between two TimeSpan objects and returns a new TimeSpan object or null if there is no intersection.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:30am - 10:00am.
var spanA = timespanCtor(9, 30, 0, 0, 30, 0, 0);
// create a TimeSpan object which represents 09:45am - 10:00am.
var spanB = timespanCtor(9, 45, 0, 0, 15, 0, 0);
// create a TimeSpan object which represents 10:00am - 10:15am.
var spanC = timespanCtor(10, 0, 0, 0, 15, 0, 0);
// these two timespans do overlap
let newSpan = spanA.intersect(spanB);
newSpan.getHours(); // 9
newSpan.getMinutes(); // 45
newSpan.getDurationMins(); // 15 minutes
// these timespans do not overlap
newSpan = spanA.intersect(spanC); // null

An example of the intersection of two overlapping timespans:

Timespan Intersection

union()

Method calculates the union between two intersecting TimeSpan objects. It returns a new TimeSpan or null if there is no intersection.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:30am - 10:00am.
var spanA = timespanCtor(9, 30, 0, 0, 30, 0, 0);
// create a TimeSpan object which represents 09:45am - 10:05am.
var spanB = timespanCtor(9, 45, 0, 0, 20, 0, 0);
// create a TimeSpan object which represents 10:00am - 10:15am.
var spanC = timespanCtor(10, 0, 0, 0, 15, 0, 0);
// these two timespans do overlap
let newSpan = spanA.intersect(spanB);
newSpan.getHours(); // 9
newSpan.getMinutes(); // 30
newSpan.getDurationMins(); // 35 minutes
// these timespans do not intersect
newSpan = spanA.intersect(spanC); // null

An example of the union of two overlapping timespans:

Timespan Union

subtract()

Method calculates the remainder(s) after subtracting one TimeSpan from another. It returns an array containing one or two new TimeSpan objects which represent the remainders. The array is empty if there is an exact overlap between the timespans and there is no remainder. The method returns null if subtraction could not be performed because there wasn't sufficient overlap.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:30am - 10:00am.
var spanA = timespanCtor(9, 30, 0, 0, 30, 0, 0);
// create a TimeSpan object which represents 09:45am - 10:00am.
var spanB = timespanCtor(9, 45, 0, 0, 15, 0, 0);
// create a TimeSpan object which represents 10:00am - 10:15am.
var spanC = timespanCtor(10, 0, 0, 0, 15, 0, 0);
// these two timespans do intersect
let result = spanA.subtract(spanB);
result.length; // 1 element in array
result[0].getHours(); // 9
result[0].getMinutes(); // 30
result[0].getDurationMins(); // 15 minutes
// these timespans do not intersect
result = spanA.intersect(spanC); // null
result.length; // 0

An example of the subtraction of two overlapping timespans:

Timespan Subtraction

difference()

Method calculates the part of one TimeSpan (the primary) which does not intersect with another TimeSpan (the secondary). It returns an array containing one or two new TimeSpan objects which represent the non-overlapping intervals. The array is empty if there is a complete overlap between the timespans. The method returns the primary TimeSpan if there is no overlap.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
// create a TimeSpan object which represents 09:30am - 10:00am.
var spanA = timespanCtor(9, 30, 0, 0, 30, 0, 0);
// create a TimeSpan object which represents 09:45am - 10:30am.
var spanB = timespanCtor(9, 45, 0, 0, 45, 0, 0);
// these two timespans do intersect
let result = spanA.subtract(spanB);
result.length; // 1 element in array
result[0].getHours(); // 9
result[0].getMinutes(); // 30
result[0].getDurationMins(); // 15 minutes

An example of the difference between two partially overlapping timespans:

Timespan Difference

mergeTimeSpans()

Function is passed an Array of TimeSpan objects and sorts the objects in the array based on the start time. It then merges any of the TimeSpan objects which are overlapping. A new array is returned (merging is not in-situ) which contains the merged and non-merged TimeSpan objects.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
var mergeTimeSpans = caltime.mergeTimeSpans;
var spanList = null;
// create TimeSpan objects which overlap
const timeSpanA = timespanCtor(9, 0, 0, 0, 60, 0, 0, 0);  // 9:00-10:00
const timeSpanB = timespanCtor(9, 30, 0, 0, 60, 0, 0, 0); // 9:30-10:30
const timeSpanC = timespanCtor(10, 0, 0, 0, 60, 0, 0, 0); // 10:00-11:00
// this TimeSpan does not overlap with others
const timeSpanD = timespanCtor(11, 30, 0, 0, 60, 0, 0, 0); // 11:30-12:30
// add TimeSpans to array in ascending order
const list = [timeSpanA, timeSpanB, timeSpanC, timeSpanD];
const result = mergeTimeSpans(list);
result.length; // 2
result[0].getHours(); // 9 as merged TimeSpan is 9:00-11:00
result[0].getMinutes(); // 0
result[0].getDurationMins(); // 120
result[1].getHours(); // 11 as TimeSpan is not merged
result[1].getMinutes(); // 30
result[1].getDurationMins(); // 60

sortTimeSpans()

Function takes an Array of TimeSpan objects and returns a new Array which contains the same TimeSpan objects, sorted by their start time.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
var sortTimeSpans = caltime.sortTimeSpans;
var spanList = null;
// create TimeSpan objects
const timeSpanA = timespanCtor(9, 0, 0, 0, 60, 0, 0, 0);  // 9:00-10:00
const timeSpanB = timespanCtor(10, 0, 0, 0, 60, 0, 0, 0); // 10:00-11:00
const timeSpanC = timespanCtor(11, 0, 0, 0, 60, 0, 0, 0); // 11:00-12:00
const timeSpanD = timespanCtor(12, 0, 0, 0, 60, 0, 0, 0); // 12:00-13:00
// add TimeSpans to array in ascending order
const list = [timeSpanA, timeSpanB, timeSpanC, timeSpanD];
// sort list in descending order
const result = sortTimeSpans(list, true);
result.length; // 4
result[0].getHours(); // 12 (is timeSpanD)
result[1].getHours(); // 11 (is timeSpanC)
result[2].getHours(); // 10 (is timeSpanB)
result[3].getHours(); // 9 (is timeSpanA)
// sort list in ascending order again
const result = sortTimeSpans(list);
result.length; // 4
result[0].getHours(); // 9 (is timeSpanA)
result[1].getHours(); // 10 (is timeSpanB)
result[2].getHours(); // 11 (is timeSpanC)
result[3].getHours(); // 12 (is timeSpanD)

toString()

Method returns a string which represents the state of the TimeSpan. This method is only intended to help debugging and the format of the string can change between releases.

DateSpan

Similar to a TimeSpan, a DateSpan object specifies a start time and duration, however the DateSpan is tied to a specific date. This means that it has a specific end time as factors such as clock changes for Daylight Savings Time can be taken into account.

The end time of a DateSpan does not form part of the time interval i.e. in mathematical terms, the DateSpan object represents a half-open interval of time where the end time is exclusive and the begin time is inclusive.

dateSpan()

The dateSpan function is a functional constructor therefore it should not be called with the new operator. The function accepts several arguments:

  • inBegin: A valid Date object which indicates the start time and date.

  • inEnd: Optional argument. A valid Date object which indicates the end time and date. Pass null when it is preferred to specify the duration.

  • inDurationMins: Minutes component of the duration of the DateSpan in minutes. Durations can exceed one hour and in this case this argument can exceed the value 59. The argument is optional and should not be passed if inEnd is specified.

  • inDurationSecs: Seconds component of the duration. Valid range is 0-59. The argument is optional and should not be passed if inEnd is specified.

  • inDurationMs: Milliseconds component of the duration. Valid range is 0-999. The argument is optional and should not be passed if inEnd is specified.

    var caltime = require('caltime');
    var datespanCtor = caltime.dateSpan;
    // DateSpan object which represents 09:00:00:000am - 09:30:00:000am, 15.Nov.2017.
    var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
    var spanA = datespanCtor(beginDate, 30, 0, 0);

getBegin()

This method returns the start time of the DateSpan as a Date object.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00:00:000am - 09:30:00:000am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 30, 0, 0);
spanA.getBegin(); // Date object

getDurationMins(), getDurationSecs() and getDurationMs()

These methods return the various components of the duration of the DateSpan. A DateSpan which is longer than 1 hour will have a duration which is greater than 60 minutes.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00:00:000am - 09:30:11:222am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 30, 11, 222);
spanA.getDurationMins(); // 30 minutes
spanA.getDurationSecs(); // 11 seconds
spanA.getDurationMs(); // 222 milliseconds

getTotalDuration()

Method returns the total duration of the DateSpan in milliseconds.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00:00:000am - 09:31:02:003am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 1, 2, 3);
spanA.getTotalDuration(); // (1*60000)+(2*1000)+(3) = 62003 milliseconds

getEnd()

This method returns the end time of the DateSpan as a Date object.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00:00:000am - 09:30:00:000am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 30, 0, 0);
spanA.getEnd(); // Date object with time 09:30am

isEqual()

Method returns true if two DateSpan objects have exactly the same start times and durations.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00am - 9:45:00am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 45, 0, 0);
// create a DateSpan object with same start and duration
var spanB = datespanCtor(beginDate, 45, 0, 0);
// create a DateSpan object a different start time
var otherDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanC = datespanCtor(otherDate, 45, 0, 0);
// create a DateSpan object with same start but different duration
var spanC = datespanCtor(beginDate, 40, 0, 0);
spanA.isEqual(spanA); // true
spanA.isEqual(spanB); // true
spanA.isEqual(spanC); // false
spanA.isEqual(spanD); // false

isIntersect

Method returns true if two DateSpan objects intersect each other i.e. they overlap. Since the end time of a DateSpan is exclusive, overlapping the beginning of one DateSpan with the end time of another does not count as an intersection.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00am - 9:45:00am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 45, 0, 0);
// create a DateSpan object which represents 09:30am - 10:00am.
beginDate = new Date(2017, 10, 15, 9, 30, 0, 0);
var spanB = datespanCtor(beginDate, 30, 0, 0);
// create a DateSpan object which represents 10:00am - 10:15am.
beginDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanC = datespanCtor(beginDate, 15, 0, 0);
spanA.isIntersect(spanB); // true
spanA.isIntersect(spanC); // false

intersect()

Method calculates the intersection, if any, between two DateSpan objects and returns a new DateSpan object or null if there is no intersection.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00am - 09:45am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 45, 0, 0);
// create a DateSpan object which represents 09:30am - 10:00am.
beginDate = new Date(2017, 10, 15, 9, 30, 0, 0);
var spanB = datespanCtor(beginDate, 30, 0, 0);
// create a DateSpan object which represents 10:00am - 10:15am.
beginDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanC = datespanCtor(beginDate, 15, 0, 0);
// date-spans with intersection
var result = spanA.intersect(spanB);
result.getBegin(); // 9:30am
result.getEnd(); // 09:45am
// date-spans with no intersection
result = spanA.intersect(spanC); // null

union()

Method calculates the union between two intersecting DateSpan objects. It returns a new DateSpan or null if there is no intersection.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00am - 09:45am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 45, 0, 0);
// create a DateSpan object which represents 09:30am - 10:00am.
beginDate = new Date(2017, 10, 15, 9, 30, 0, 0);
var spanB = datespanCtor(beginDate, 30, 0, 0);
// create a DateSpan object which represents 10:00am - 10:15am.
beginDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanC = datespanCtor(beginDate, 15, 0, 0);
// date-spans with intersection
var result = spanA.intersect(spanB);
result.getBegin(); // 9:00am
result.getEnd(); // 10:00am
// date-spans with no intersection
result = spanA.intersect(spanC); // null

subtract()

This method calculates the remainder(s) after subtracting one DateSpan from another. It returns an array containing one or two new DateSpan objects which represent the remainders. The array is empty if there is an exact overlap between the date-spans and there is no remainder. The method returns null if subtraction could not be performed because there wasn't sufficient overlap.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00am - 10:00am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 60, 0, 0);
// create a DateSpan object which represents 09:30am - 09:45am.
beginDate = new Date(2017, 10, 15, 9, 30, 0, 0);
var spanB = datespanCtor(beginDate, 15, 0, 0);
// create a DateSpan object which represents 10:00am - 10:15am.
beginDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanC = datespanCtor(beginDate, 15, 0, 0);
// date-spans with intersection
var result = spanA.subtract(spanB);
result.length; // 2
result[0].getBegin(); // 9:00am
result[0].getEnd(); // 09:30am
result[1].getBegin(); // 9:45am
result[1].getEnd(); // 10:00am
// date-spans with no intersection
result = spanA.intersect(spanC); // null

difference()

Method calculates the part of one DateSpan (the primary) which does not intersect with another DateSpan (the secondary). It returns an array containing one or two new DateSpan objects which represent the non-overlapping intervals. The array is empty if there is a complete overlap between the date-spans. The method returns the primary DateSpan if there is no overlap.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
// DateSpan object which represents 09:00am - 10:00am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
let dateSpanA = datespanCtor(beginDate, null, 60);
// DateSpan object which represents 09:30am - 10:30am, 15.Nov.2017.
beginDate = new Date(2017, 10, 15, 9, 30, 0, 0);
let dateSpanB = datespanCtor(beginDate, null, 60);
// primary date-span starts before the secondary
let result = dateSpanA.difference(dateSpanB);
result.length; // 1
result[0].getBegin(); // 9:00
result[0].getEnd(); // 9:30

toString()

Method returns a string which represents the state of the DateSpan. This method is only intended to help debugging and the format of the string can change between releases.

mergeDateSpans()

Function is passed an Array of DateSpan objects and sorts the objects in the array based on the start time. It then merges any of the DateSpan objects which are overlapping. A new array is returned (merging is not in-situ) which contains the merged and non-merged DateSpan objects.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
var mergeDateSpans = caltime.mergeDateSpans;
var spanList = null;
// DateSpan object which represents 09:00am - 09:45am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 45, 0, 0);
// create a DateSpan object which represents 09:30am - 10:00am.
beginDate = new Date(2017, 10, 15, 9, 30, 0, 0);
var spanB = datespanCtor(beginDate, 30, 0, 0);
// create a DateSpan object which represents 10:00am - 10:15am.
beginDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanC = datespanCtor(beginDate, 15, 0, 0);
spanList = [ spanA, spanB, spanC ];
// merge the intersecting date-spans
var result = mergeDateSpans(spanList);
result.length; // 2
result[0].getBegin(); // 9:00am
result[0].getEnd();   // 10:00am
result[1].getBegin(); // 10:00am
result[1].getEnd();   // 10:15am

sortDateSpans()

Function takes an Array of DateSpan objects and returns a new Array which contains the same DateSpan objects, sorted by their start time.

var caltime = require('caltime');
var datespanCtor = caltime.dateSpan;
var sortDateSpans = caltime.sortDateSpans;
var spanList = null;
// DateSpan object which represents 09:00am - 09:30am, 15.Nov.2017.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 45, 0, 0);
// create a DateSpan object which represents 09:30am - 10:00am.
beginDate = new Date(2017, 10, 15, 9, 30, 0, 0);
var spanB = datespanCtor(beginDate, 30, 0, 0);
// create a DateSpan object which represents 10:00am - 10:15am.
beginDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanC = datespanCtor(beginDate, 15, 0, 0);
spanList = [ spanA, spanB, spanC ];
// sort in descending order
var result = sortDateSpans(spanList, true);
result.length; // 3
result[0].getBegin(); // 10:00am
result[1].getBegin(); // 09:30am
result[2].getBegin(); // 09:00am
// sort in ascending order
var result = sortDateSpans(spanList);
result.length; // 3
result[0].getBegin(); // 09:00am
result[1].getBegin(); // 09:30am
result[2].getBegin(); // 10:00am

measureDateSpans()

Function is passed an Array of DateSpan objects, sorts the objects based on their start time and then merges any which overlap. The function then examines each remaining 'DateSpan' object and calculates the total duration. The duration is calculated using one of many available rules. The simplest way to calculate the duration is the raw number of milliseconds i.e. DURATION_RAW_MSECS. Other options round-up the duration based on the number of natural time units which the DateSpan objects overlap with.

A natural time unit is an interval of time within the boundaries defined by a clock or calendar. For example, a natural day is the interval of time between 00:00 midnight and the following midnight. A natural minute is the interval of clock time from when the millisecond count is zero until the following occurrence of zero milliseconds.

Natural durations can be useful when you need to know how many whole units of time are used by multiple time-spans. Rounding up the raw total duration is not possible as some some time-spans may overlap with the same natural time intervals. An example of this situation could be where a resource charges per day even where they are only partially utilised on some days.

The options (constants) available to control how the duration is calculated:

  • DURATION_RAW_MSECS
  • DURATION_NATURAL_SECS
  • DURATION_NATURAL_MINS
  • DURATION_NATURAL_HOURS
  • DURATION_NATURAL_DAYS
const caltime = require('caltime');
const datespanCtor = caltime.dateSpan;
const measureDateSpans = caltime.measureDateSpans;
const spanList = [];
// DateSpan object which represents 09:00am 15.Nov.2017 - 9:00am 16.Nov.2017.
const dateA = new Date(2017, 10, 15, 9, 0, 0, 0);
const dateSpanA = tc.dateSpanCtor(dateA, null, 24*60); // 24 hours
spanList.push(dateSpanA);
// DateSpan object which represents 10:00am 16.Nov.2017 - 10:00am 17.Nov.2017.
const dateB = new Date(2017, 10, 16, 10, 0, 0, 0);
const dateSpanB = tc.dateSpanCtor(dateB, null, 24*60); // 24 hours
spanList.push(dateSpanB);
tc.measureDateSpans(spanList, tc.constants.DURATION_NATURAL_DAYS); // 3 natural days

intersectDateSpans()

Function takes two Arrays of DateSpan objects and returns a new Array which contains new DateSpan objects, each representing an intersection between a DateSpan object from each Array.

const caltime = require('caltime');
const datespanCtor = caltime.dateSpan;
const intersectDateSpans = caltime.intersectDateSpans;
let spanListA = null;
let spanListB = null;
// DateSpan object which represents 09:00am - 10:00am.
var beginDate = new Date(2017, 10, 15, 9, 0, 0, 0);
var spanA = datespanCtor(beginDate, 60, 0, 0);
// create a DateSpan object which represents 10:00am - 11:00am.
beginDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanB = datespanCtor(beginDate, 60, 0, 0);
// create a DateSpan object which represents 10:00am - 10:30am.
beginDate = new Date(2017, 10, 15, 10, 0, 0, 0);
var spanC = datespanCtor(beginDate, 15, 0, 0);
// create a DateSpan object which represents 14:00 - 15:00.
beginDate = new Date(2017, 10, 15, 14, 0, 0, 0);
var spanD = datespanCtor(beginDate, 60, 0, 0);
// populate the arrays
spanListA = [ spanA, spanB ];
spanListB = [ spanC, spanD ];
// sort in descending order
let result = intersectDateSpans(spanListA, spanListB);
result.length; // 1 overlap between spanB and spanC
result[0].getBegin(); // 10:00am
result[0].getEnd(); // 10:30am

TimeRule

The TimeRule object allows logic to be defined which can then be used to automatically generate DateSpan objects for a range of time. Several types of rules can be created. The constraint applied to the rule controls for which days or dates the DateSpan objects are created. Possible constraints are:

  • The same day(s) of the week, every week e.g. every Monday from 9-10am.
  • The same date every month e.g. 4th of every month from 1-2pm.
  • The Nth weekday of every month e.g. 3rd Tuesday of the month from 9-10pm.
  • The last weekday of every month e.g. last Friday of every month.

timeRule()

The timeRule function is a functional constructor, therefore it should not be called with the new operator. The function accepts several arguments:

  • inTimeSpan: TimeSpan object describing the start time and duration of the DateSpan objects which will be generated by the rule.
  • inConstraint: Controls how the rule generates DateSpan objects. Constants for each type of constraint are provided by the caltime module's constants object.
  • inDay: Specifies the day of the week or day of the month. How this value is interpreted depends on inConstraint.
  • inTZ: String defining the timezone used when generating the DateSpan objects. See https://www.iana.org/time-zones for valid timezone identifier strings. The timezone is required because the inTimeSpan argument is timezone agnostic.
  • inBegin: Optional argument. Defines a start time before which the rule does not apply and therefore does not generate any DateSpan objects.
  • inEnd: Optional argument. Defines an end time after which the rule does not apply and therefore does not generate any DateSpan objects.

getTimeSpan()

Method returns a TimeSpan object which defines the span of time during the day which is used when generating the DateSpan objects.

getDay()

Method returns the day (0 (Sunday) - 6 (Saturday) of the week or day of the month (1-31) which indicates which days which the rule will generate a DateSpan object.

getTZ()

Method returns a string which indicates the timezone used when generating the DateSpan objects.

getBegin()

This method returns the start time from which the rule begins generating DateSpan objects.

getEnd()

This method returns the end time up to which the rule generates DateSpan objects.

generateDateSpans()

The method generates an Array of DateSpan objects which meet all of the constraints imposed by the TimeRule.

var caltime = require('caltime');
var timespanCtor = caltime.timeSpan;
var timeruleCtor = caltime.timeRule;
var modconstants = caltime.constants;
// Rule will generate date-spans
var spanA = timespanCtor(9, 0, 0, 0, 30, 0, 0);
var rule = timeruleCtor(spanA,
                          modconstants.CONSTRAINT_DAY_OF_WEEK,
                          modconstants.WEDNESDAY,
                          'America/New_York');
// now generate DateSpan objects based on the rule constraints
var beginDate = new Date(2017, 5, 1, 12, 0, 0, 0, 0); // 12:00, 1 June 2017
var endDate = new Date(2017, 5, 20, 12, 0, 0, 0, 0); // 12:00, 20 June 2017
var result = rule.generateDateSpans(beginDate, endDate);
result.length; // 2
result[0].getBegin(); // 7 June 2017, 09:00-09:30am Eastern Daylight Time (-0400)
result[1].getBegin(); // 14 June 2017, 09:00-09:30am Eastern Daylight Time (-0400)

Constants

The module makes several constants available in the constants object. Each constant is a data member of this object. Constants are available which can be used to convert values between different units of time.

Examples of constants for time conversion:

var caltime = require('caltime');
var module_constants = caltime.constants;
module_constants.MSECS_PER_MIN; // milliseconds per minute
module_constants.MSECS_PER_HOUR; // milliseconds per hour
module_constants.MAX_MINS_PER_DAY; // maximum number of minutes in a 24 hour day

Constants are available which define the day of the week. These values are the same as those used by the Javascript Date object.

var caltime = require('caltime');
var module_constants = caltime.constants;
module_constants.SUNDAY;    // 0
module_constants.MONDAY;    // 1
module_constants.TUESDAY;   // 2
module_constants.WEDNESDAY; // 3
module_constants.THURSDAY;  // 4
module_constants.FRIDAY;    // 5
module_constants.SATURDAY;  // 6

Constants are available which define the months of the year. These values are the same as those used by the Javascript Date object.

var caltime = require('caltime');
var module_constants = caltime.constants;
module_constants.JAN; // January
module_constants.FEB; // February
module_constants.MAR; // March
module_constants.APR; // April
module_constants.MAY; // May
module_constants.JUN; // June
module_constants.JUL; // July
module_constants.AUG; // August
module_constants.SEPT; // September
module_constants.OCT; // October
module_constants.NOV; // November
module_constants.DEC; // December

Constants are also available for use with the TimeRule functional constructor.

These constants define more than one day of the week. They represent commonly used working weeks and weekends from various cultures. They can be passed as the inDay argument to the timeRule constructor.

var caltime = require('caltime');
var module_constants = caltime.constants;
module_constants.WEEKDAYS_MON_FRI; // 5 days, Monday - Friday
module_constants.WEEKDAYS_SUN_THURS; // 5 days, Sunday - Thursday
module_constants.WEEKDAYS_MON_SAT; // 6 days, Monday - Saturday
module_constants.WEEKDAYS_MON_SUN; // 7 days, Monday - Sunday
module_constants.WEEKDAYS_SUN_FRI; // 6 days, Sunday - Friday
module_constants.WEEKDAYS_SAT_WED; // 5 days, Sunday - Wednesday and Saturday
module_constants.WEEKDAYS_SAT_THURS; // 6 days, Sunday - Thursday and Saturday
module_constants.WEEKDAYS_BRUNEI; // 5 days, Monday - Thursday and Saturday
module_constants.WEEKDAYS_SAT_SUN; // 2 days, Saturday and Sunday
module_constants.WEEKDAYS_FRI_SAT; // 2 days, Friday and Saturday
module_constants.WEEKDAYS_THURS_FRI; // 2 days, Thursday and Friday
module_constants.WEEKDAYS_BRUNEI_WEEKEND; // 2 days, Friday and Sunday

These constants define the type of constraint applied by the TimeRule.

var caltime = require('caltime');
var module_constants = caltime.constants;
module_constants.CONSTRAINT_DAY_OF_WEEK; // example: every Tuesday
module_constants.CONSTRAINT_DAY_OF_MONTH; // example: 4th day of every month
module_constants.CONSTRAINT_FIRST_OF_MONTH; // example: 1st Wed. of every month
module_constants.CONSTRAINT_SECOND_OF_MONTH; // example: 2nd Thurs. of every month
module_constants.CONSTRAINT_THIRD_OF_MONTH; // example: 3rd Sat. of every month
module_constants.CONSTRAINT_FOURTH_OF_MONTH; // example: 4th Monday of every month
module_constants.CONSTRAINT_FIFTH_OF_MONTH; // example: 5th Wed. of every month
module_constants.CONSTRAINT_LAST_OF_MONTH; // example: Last Monday of every month

API Documentation

Documentation describing the last major release of caltime is available at CalTime API.

The latest version of the API documentation can be generated using jsdoc. The documentation is created in the docs/ directory.

$ cd <caltime-git-clone>
$ npm run -s doc

Support

Bug Reports and New Feature Requests should be reported at the CalTime GitHub Issues Page.

Dependencies

caltime currently depends on two modules when in production. Other modules are required to test or develop caltime. The production dependencies are:

License

caltime is copyright (c) 2017-2018 Michael McCarthy [email protected].

caltime is free software, licensed under the MIT licence. See the file LICENSE in this distribution for more information.