icinga2/doc/18-library-reference.md

36 KiB

Library Reference

Global functions

These functions are globally available in assign/ignore where expressions, functions, API filters and the Icinga 2 debug console.

You can use the Icinga 2 debug console as a sandbox to test these functions before implementing them in your scenarios.

regex

Signature:

function regex(pattern, value, mode)

Returns true if the regular expression pattern matches the value, false otherwise. The value can be of the type String or Array (which contains string elements).

The mode argument is optional and can be either MatchAll (in which case all elements for an array have to match) or MatchAny (in which case at least one element has to match). The default mode is MatchAll.

Tip: In case you are looking for regular expression tests try regex101.

Example for string values:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => host.vars.os_type = "Linux/Unix"
null
<2> => regex("^Linux", host.vars.os_type)
true
<3> => regex("^Linux$", host.vars.os_type)
false

Example for an array of string values:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => host.vars.databases = [ "db-prod1", "db-prod2", "db-dev" ]
null
<2> => regex("^db-prod\\d+", host.vars.databases, MatchAny)
true
<3> => regex("^db-prod\\d+", host.vars.databases, MatchAll)
false

match

Signature:

function match(pattern, text, mode)

Returns true if the wildcard (?*) pattern matches the value, false otherwise. The value can be of the type String or Array (which contains string elements).

The mode argument is optional and can be either MatchAll (in which case all elements for an array have to match) or MatchAny (in which case at least one element has to match). The default mode is MatchAll.

Example for string values:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var name = "db-prod-sfo-657"
null
<2> => match("*prod-sfo*", name)
true
<3> => match("*-dev-*", name)
false

Example for an array of string values:

$ icinga2 console
Icinga 2 (version: v2.7.0-28)
<1> => host.vars.application_types = [ "web-wp", "web-rt", "db-local" ]
null
<2> => match("web-*", host.vars.application_types, MatchAll)
false
<3> => match("web-*", host.vars.application_types, MatchAny)
true

cidr_match

Signature:

function cidr_match(pattern, ip, mode)

Returns true if the CIDR pattern matches the IP address, false otherwise.

IPv4 addresses are converted to IPv4-mapped IPv6 addresses before being matched against the pattern. The mode argument is optional and can be either MatchAll (in which case all elements for an array have to match) or MatchAny (in which case at least one element has to match). The default mode is MatchAll.

Example for a single IP address:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => host.address = "192.168.56.101"
null
<2> => cidr_match("192.168.56.0/24", host.address)
true
<3> => cidr_match("192.168.56.0/26", host.address)
false

Example for an array of IP addresses:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => host.vars.vhost_ips = [ "192.168.56.101", "192.168.56.102", "10.0.10.99" ]
null
<2> => cidr_match("192.168.56.0/24", host.vars.vhost_ips, MatchAll)
false
<3> => cidr_match("192.168.56.0/24", host.vars.vhost_ips, MatchAny)
true

range

Signature:

function range(end)
function range(start, end)
function range(start, end, increment)

Returns an array of numbers in the specified range. If you specify one parameter, the first element starts at 0. The following array numbers are incremented by 1 and stop before the specified end. If you specify the start and end numbers, the returned array number are incremented by 1. They start at the specified start number and stop before the end number. Optionally you can specify the incremented step between numbers as third parameter.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => range(5)
[ 0.000000, 1.000000, 2.000000, 3.000000, 4.000000 ]
<2> => range(2,4)
[ 2.000000, 3.000000 ]
<3> => range(2,10,2)
[ 2.000000, 4.000000, 6.000000, 8.000000 ]

len

Signature:

function len(value)

Returns the length of the value, i.e. the number of elements for an array or dictionary, or the length of the string in bytes.

Note: Instead of using this global function you are advised to use the type's prototype method: Array#len, Dictionary#len and String#len.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => host.groups = [ "linux-servers", "db-servers" ]
null
<2> => host.groups.len()
2.000000
<3> => host.vars.disks["/"] = {}
null
<4> => host.vars.disks["/var"] = {}
null
<5> => host.vars.disks.len()
2.000000
<6> => host.vars.os_type = "Linux/Unix"
null
<7> => host.vars.os_type.len()
10.000000

union

Signature:

function union(array, array, ...)

Returns an array containing all unique elements from the specified arrays.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var dev_notification_groups = [ "devs", "slack" ]
null
<2> => var host_notification_groups = [ "slack", "noc" ]
null
<3> => union(dev_notification_groups, host_notification_groups)
[ "devs", "noc", "slack" ]

intersection

Signature:

function intersection(array, array, ...)

Returns an array containing all unique elements which are common to all specified arrays.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var dev_notification_groups = [ "devs", "slack" ]
null
<2> => var host_notification_groups = [ "slack", "noc" ]
null
<3> => intersection(dev_notification_groups, host_notification_groups)
[ "slack" ]

keys

Signature:

function keys(dict)

Returns an array containing the dictionary's keys.

Note: Instead of using this global function you are advised to use the type's prototype method: Dictionary#keys.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => host.vars.disks["/"] = {}
null
<2> => host.vars.disks["/var"] = {}
null
<3> => host.vars.disks.keys()
[ "/", "/var" ]

string

Signature:

function string(value)

Converts the value to a string.

Note: Instead of using this global function you are advised to use the type's prototype method:

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => 5.to_string()
"5"
<2> => false.to_string()
"false"
<3> => "abc".to_string()
"abc"
<4> => [ "dev", "slack" ].to_string()
"[ \"dev\", \"slack\" ]"
<5> => { "/" = {}, "/var" = {} }.to_string()
"{\n\t\"/\" = {\n\t}\n\t\"/var\" = {\n\t}\n}"
<6> => DateTime(2016, 11, 25).to_string()
"2016-11-25 00:00:00 +0100"

number

Signature:

function number(value)

Converts the value to a number.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => number(false)
0.000000
<2> => number("78")
78.000000

bool

Signature:

function bool(value)

Converts the value to a bool.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => bool(1)
true
<2> => bool(0)
false

random

Signature:

function random()

Returns a random value between 0 and RAND_MAX (as defined in stdlib.h).

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => random()
1263171996.000000
<2> => random()
108402530.000000

log

Signature:

function log(value)

Writes a message to the log. Non-string values are converted to a JSON string.

Signature:

function log(severity, facility, value)

Writes a message to the log. severity can be one of LogDebug, LogNotice, LogInformation, LogWarning, and LogCritical.

Non-string values are converted to a JSON string.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => log(LogCritical, "Console", "First line")
critical/Console: First line
null
<2> => var groups = [ "devs", "slack" ]
null
<3> => log(LogCritical, "Console", groups)
critical/Console: ["devs","slack"]
null

typeof

Signature:

function typeof(value)

Returns the Type object for a value.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => typeof(3) == Number
true
<2> => typeof("str") == String
true
<3> => typeof(true) == Boolean
true
<4> => typeof([ 1, 2, 3]) == Array
true
<5> => typeof({ a = 2, b = 3 }) == Dictionary
true

get_time

Signature:

function get_time()

Returns the current UNIX timestamp as floating point number.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => get_time()
1480072135.633008
<2> => get_time()
1480072140.401207

parse_performance_data

Signature:

function parse_performance_data(pd)

Parses a performance data string and returns an array describing the values.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var pd = "'time'=1480074205.197363;;;"
null
<2> => parse_performance_data(pd)
{
	counter = false
	crit = null
	label = "time"
	max = null
	min = null
	type = "PerfdataValue"
	unit = ""
	value = 1480074205.197363
	warn = null
}

dirname

Signature:

function dirname(path)

Returns the directory portion of the specified path.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var path = "/etc/icinga2/scripts/xmpp-notification.pl"
null
<2> => dirname(path)
"/etc/icinga2/scripts"

basename

Signature:

function basename(path)

Returns the filename portion of the specified path.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var path = "/etc/icinga2/scripts/xmpp-notification.pl"
null
<2> => basename(path)
"xmpp-notification.pl"

path_exists

Signature:

function path_exists(path)

Returns true if the specified path exists, false otherwise.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var path = "/etc/icinga2/scripts/xmpp-notification.pl"
null
<2> => path_exists(path)
true

glob

Signature:

function glob(pathSpec, type)

Returns an array containing all paths which match the pathSpec argument.

The type argument is optional and specifies which types of paths are matched. This can be a combination of the GlobFile and GlobDirectory constants. The default value is GlobFile | GlobDirectory.

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var pathSpec = "/etc/icinga2/conf.d/*.conf"
null
<2> => glob(pathSpec)
[ "/etc/icinga2/conf.d/app.conf", "/etc/icinga2/conf.d/commands.conf", ... ]

glob_recursive

Signature:

function glob_recursive(path, pattern, type)

Recursively descends into the specified directory and returns an array containing all paths which match the pattern argument.

The type argument is optional and specifies which types of paths are matched. This can be a combination of the GlobFile and GlobDirectory constants. The default value is GlobFile | GlobDirectory.

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => var path = "/etc/icinga2/zones.d/"
null
<2> => var pattern = "*.conf"
null
<3> => glob_recursive(path, pattern)
[ "/etc/icinga2/zones.d/global-templates/templates.conf", "/etc/icinga2/zones.d/master/hosts.conf", ... ]

escape_shell_arg

Signature:

function escape_shell_arg(text)

Escapes a string for use as a single shell argument.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => escape_shell_arg("'$host.name$' '$service.name$'")
"''\\''$host.name$'\\'' '\\''$service.name$'\\'''"

escape_shell_cmd

Signature:

function escape_shell_cmd(text)

Escapes shell meta characters in a string.

Example:

$ icinga2 console
Icinga 2 (version: v2.7.0)
<1> => escape_shell_cmd("/bin/echo 'shell test' $ENV")
"/bin/echo 'shell test' \\$ENV"

escape_create_process_arg

Signature:

function escape_create_process_arg(text)

Escapes a string for use as an argument for CreateProcess(). Windows only.

sleep

Signature:

function sleep(interval)

Sleeps for the specified amount of time (in seconds).

Scoped Functions

This chapter describes functions which are only available in a specific scope.

macro

Signature:

function macro("$macro_name$")

The macro function can be used to resolve runtime macro strings into their values. The returned value depends on the attribute value which is resolved from the specified runtime macro.

This function is only available in runtime evaluated functions, e.g. for custom attributes which use the abbreviated lambda syntax.

This example sets the snmp_address custom attribute based on $address$ and $address6.

  vars.snmp_address = {{
    var addr_v4 = macro("$address$")
    var addr_v6 = macro("$address6$")

    if (addr_v4) {
    	return addr_v4
    } else {
    	return "udp6:[" + addr_v6 + "]"
    }
  }}

More reference examples are available inside the Icinga Template Library and the object accessors chapter.

Object Accessor Functions

These functions can be used to retrieve a reference to another object by name.

get_check_command

Signature:

function get_check_command(name);

Returns the CheckCommand object with the specified name, or null if no such CheckCommand object exists.

get_event_command

Signature:

function get_event_command(name);

Returns the EventCommand object with the specified name, or null if no such EventCommand object exists.

get_notification_command

Signature:

function get_notification_command(name);

Returns the NotificationCommand object with the specified name, or null if no such NotificationCommand object exists.

get_host

Signature:

function get_host(host_name);

Returns the Host object with the specified name, or null if no such Host object exists.

get_service

Signature:

function get_service(host_name, service_name);
function get_service(host, service_name);

Returns the Service object with the specified host name or object and service name pair, or null if no such Service object exists.

Example in the debug console which fetches the disk service object from the current Icinga 2 node:

$ ICINGA2_API_PASSWORD=icinga icinga2 console --connect 'https://root@localhost:5665/'
Icinga 2 (version: v2.7.0)

<1> => get_service(NodeName, "disk")
<2> => get_service(NodeName, "disk").__name
"icinga2-master1.localdomain!disk"

<3> => get_service(get_host(NodeName), "disk").__name
"icinga2-master1.localdomain!disk"

get_services

Signature:

function get_services(host_name);
function get_services(host);

Returns an array of service objects for the specified host name or object, or null if no such host object exists.

Example in the debug console which fetches all service objects from the current Icinga 2 node:

$ ICINGA2_API_PASSWORD=icinga icinga2 console --connect 'https://root@localhost:5665/'
Icinga 2 (version: v2.7.0)

<1> => get_services(NodeName).map(s => s.name)
[ "disk", "disk /", "http", "icinga", "load", "ping4", "ping6", "procs", "ssh", "users" ]

Note: map takes a lambda function as argument. In this example we only want to collect and print the name attribute with s => s.name.

This works in a similar fashion for a host object where you can extract all service states in using the map functionality:

<2> => get_services(get_host(NodeName)).map(s => s.state)
[ 2.000000, 2.000000, 2.000000, 0.000000, 0.000000, 0.000000, 2.000000, 0.000000, 0.000000, 1.000000, 0.000000, 0.000000 ]

get_user

Signature:

function get_user(name);

Returns the User object with the specified name, or null if no such User object exists.

get_host_group

Signature:

function get_host_group(name);

Returns the HostGroup object with the specified name, or null if no such HostGroup object exists.

get_service_group

Signature:

function get_service_group(name);

Returns the ServiceGroup object with the specified name, or null if no such ServiceGroup object exists.

get_user_group

Signature:

function get_user_group(name);

Returns the UserGroup object with the specified name, or null if no such UserGroup object exists.

get_time_period

Signature:

function get_time_period(name);

Returns the TimePeriod object with the specified name, or null if no such TimePeriod object exists.

get_object

Signature:

function get_object(type, name);

Returns the object with the specified type and name, or null if no such object exists. type must refer to a type object.

get_objects

Signature:

function get_objects(type);

Returns an array of objects whose type matches the specified type. type must refer to a type object.

Math object

The global Math object can be used to access a number of mathematical constants and functions.

Math.E

Euler's constant.

Math.LN2

Natural logarithm of 2.

Math.LN10

Natural logarithm of 10.

Math.LOG2E

Base 2 logarithm of E.

Math.PI

The mathematical constant Pi.

Math.SQRT1_2

Square root of 1/2.

Math.SQRT2

Square root of 2.

Math.abs

Signature:

function abs(x);

Returns the absolute value of x.

Math.acos

Signature:

function acos(x);

Returns the arccosine of x.

Math.asin

Signature:

function asin(x);

Returns the arcsine of x.

Math.atan

Signature:

function atan(x);

Returns the arctangent of x.

Math.atan2

Signature:

function atan2(y, x);

Returns the arctangent of the quotient of y and x.

Math.ceil

Signature:

function ceil(x);

Returns the smallest integer value not less than x.

Math.cos

Signature:

function cos(x);

Returns the cosine of x.

Math.exp

Signature:

function exp(x);

Returns E raised to the xth power.

Math.floor

Signature:

function floor(x);

Returns the largest integer value not greater than x.

Math.isinf

Signature:

function isinf(x);

Returns whether x is infinite.

Math.isnan

Signature:

function isnan(x);

Returns whether x is NaN (not-a-number).

Math.log

Signature:

function log(x);

Returns the natural logarithm of x.

Math.max

Signature:

function max(...);

Returns the largest argument. A variable number of arguments can be specified. If no arguments are given, -Infinity is returned.

Math.min

Signature:

function min(...);

Returns the smallest argument. A variable number of arguments can be specified. If no arguments are given, +Infinity is returned.

Math.pow

Signature:

function pow(x, y);

Returns x raised to the yth power.

Math.random

Signature:

function random();

Returns a pseudo-random number between 0 and 1.

Math.round

Signature:

function round(x);

Returns x rounded to the nearest integer value.

Math.sign

Signature:

function sign(x);

Returns -1 if x is negative, 1 if x is positive and 0 if x is 0.

Math.sin

Signature:

function sin(x);

Returns the sine of x.

Math.sqrt

Signature:

function sqrt(x);

Returns the square root of x.

Math.tan

Signature:

function tan(x);

Returns the tangent of x.

Json object

The global Json object can be used to encode and decode JSON.

Json.encode

Signature:

function encode(x);

Encodes an arbitrary value into JSON.

Json.decode

Signature:

function decode(x);

Decodes a JSON string.

Number type

Number#to_string

Signature:

function to_string();

The to_string method returns a string representation of the number.

Example:

var example = 7
example.to_string() /* Returns "7" */

Boolean type

Boolean#to_string

Signature:

function to_string();

The to_string method returns a string representation of the boolean value.

Example:

var example = true
example.to_string() /* Returns "true" */

String type

String#find

Signature:

function find(str, start);

Returns the zero-based index at which the string str was found in the string. If the string was not found, -1 is returned. start specifies the zero-based index at which find should start looking for the string (defaults to 0 when not specified).

Example:

"Hello World".find("World") /* Returns 6 */

String#contains

Signature:

function contains(str);

Returns true if the string str was found in the string. If the string was not found, false is returned. Use find for getting the index instead.

Example:

"Hello World".contains("World") /* Returns true */

String#len

Signature

function len();

Returns the length of the string in bytes. Note that depending on the encoding type of the string this is not necessarily the number of characters.

Example:

"Hello World".len() /* Returns 11 */

String#lower

Signature:

function lower();

Returns a copy of the string with all of its characters converted to lower-case.

Example:

"Hello World".lower() /* Returns "hello world" */

String#upper

Signature:

function upper();

Returns a copy of the string with all of its characters converted to upper-case.

Example:

"Hello World".upper() /* Returns "HELLO WORLD" */

String#replace

Signature:

function replace(search, replacement);

Returns a copy of the string with all occurences of the string specified in search replaced with the string specified in replacement.

String#split

Signature:

function split(delimiters);

Splits a string into individual parts and returns them as an array. The delimiters argument specifies the characters which should be used as delimiters between parts.

Example:

"x-7,y".split("-,") /* Returns [ "x", "7", "y" ] */

String#substr

Signature:

function substr(start, len);

Returns a part of a string. The start argument specifies the zero-based index at which the part begins. The optional len argument specifies the length of the part ("until the end of the string" if omitted).

Example:

"Hello World".substr(6) /* Returns "World" */

String#to_string

Signature:

function to_string();

Returns a copy of the string.

String#reverse

Signature:

function reverse();

Returns a copy of the string in reverse order.

String#trim

Signature:

function trim();

Removes trailing whitespaces and returns the string.

Object type

This is the base type for all types in the Icinga application.

Object#clone

Signature:

 function clone();

Returns a copy of the object. Note that for object elements which are reference values (e.g. objects such as arrays or dictionaries) the entire object is recursively copied.

Object#to_string

Signature:

function to_string();

Returns a string representation for the object. Unless overridden this returns a string of the format "Object of type ''" where is the name of the object's type.

Example:

[ 3, true ].to_string() /* Returns "[ 3.000000, true ]" */

Object#type

Signature:

String type;

Returns the object's type name. This attribute is read-only.

Example:

get_host("localhost").type /* Returns "Host" */

Type type

Inherits methods from the Object type.

The Type type provides information about the underlying type of an object or scalar value.

All types are registered as global variables. For example, in order to obtain a reference to the String type the global variable String can be used.

Type#base

Signature:

Type base;

Returns a reference to the type's base type. This attribute is read-only.

Example:

Dictionary.base == Object /* Returns true, because the Dictionary type inherits directly from the Object type. */

Type#name

Signature:

String name;

Returns the name of the type.

Type#prototype

Signature:

Object prototype;

Returns the prototype object for the type. When an attribute is accessed on an object that doesn't exist the prototype object is checked to see if an attribute with the requested name exists. If it does, the attribute's value is returned.

The prototype functionality is used to implement methods.

Example:

3.to_string() /* Even though '3' does not have a to_string property the Number type's prototype object does. */

Array type

Inherits methods from the Object type.

Array#add

Signature:

function add(value);

Adds a new value after the last element in the array.

Array#clear

Signature:

function clear();

Removes all elements from the array.

Array#shallow_clone

function shallow_clone();

Returns a copy of the array. Note that for elements which are reference values (e.g. objects such as arrays and dictionaries) only the references are copied.

Array#contains

Signature:

function contains(value);

Returns true if the array contains the specified value, false otherwise.

Array#len

Signature:

function len();

Returns the number of elements contained in the array.

Array#remove

Signature:

function remove(index);

Removes the element at the specified zero-based index.

Array#set

Signature:

function set(index, value);

Sets the element at the zero-based index to the specified value. The index must refer to an element which already exists in the array.

Array#get

Signature:

function get(index);

Retrieves the element at the specified zero-based index.

Array#sort

Signature:

function sort(less_cmp);

Returns a copy of the array where all items are sorted. The items are compared using the < (less-than) operator. A custom comparator function can be specified with the less_cmp argument.

Array#join

Signature:

function join(separator);

Joins all elements of the array using the specified separator.

Array#reverse

Signature:

function reverse();

Returns a new array with all elements of the current array in reverse order.

Array#map

Signature:

function map(func);

Calls func(element) for each of the elements in the array and returns a new array containing the return values of these function calls.

Array#reduce

Signature:

function reduce(func);

Reduces the elements of the array into a single value by calling the provided function func as func(a, b) repeatedly where a and b are elements of the array or results from previous function calls.

Array#filter

Signature:

function filter(func);

Returns a copy of the array containing only the elements for which func(element) is true.

Array#any

Signature:

function any(func);

Returns true if the array contains at least one element for which func(element) is true, false otherwise.

Array#all

Signature:

function all(func);

Returns true if the array contains only elements for which func(element) is true, false otherwise.

Array#unique

Signature:

function unique();

Returns a copy of the array with all duplicate elements removed. The original order of the array is not preserved.

Dictionary type

Inherits methods from the Object type.

Dictionary#shallow_clone

Signature:

function shallow_clone();

Returns a copy of the dictionary. Note that for elements which are reference values (e.g. objects such as arrays and dictionaries) only the references are copied.

Dictionary#contains

Signature:

function contains(key);

Returns true if a dictionary item with the specified key exists, false otherwise.

Dictionary#len

Signature:

function len();

Returns the number of items contained in the dictionary.

Dictionary#remove

Signature:

function remove(key);

Removes the item with the specified key. Trying to remove an item which does not exist is a no-op.

Dictionary#set

Signature:

function set(key, value);

Creates or updates an item with the specified key and value.

Dictionary#get

Signature:

function get(key);

Retrieves the value for the specified key. Returns null if they key does not exist in the dictionary.

Dictionary#keys

Signature:

function keys();

Returns a list of keys for all items that are currently in the dictionary.

Dictionary#values

Signature:

function values();

Returns a list of values for all items that are currently in the dictionary.

Function type

Inherits methods from the Object type.

Function#call

Signature:

function call(thisArg, ...);

Invokes the function using an alternative this scope. The thisArg argument specifies the this scope for the function. All other arguments are passed directly to the function.

Example:

function set_x(val) {
  this.x = val
}

dict = {}

set_x.call(dict, 7) /* Invokes set_x using `dict` as `this` */

Function#callv

Signature:

function callv(thisArg, args);

Invokes the function using an alternative this scope. The thisArg argument specifies the this scope for the function. The items in the args array are passed to the function as individual arguments.

Example:

function set_x(val) {
  this.x = val
}

var dict = {}

var args = [ 7 ]

set_x.callv(dict, args) /* Invokes set_x using `dict` as `this` */

DateTime type

Inherits methods from the Object type.

DateTime constructor

Signature:

function DateTime()
function DateTime(unixTimestamp)
function DateTime(year, month, day)
function DateTime(year, month, day, hours, minutes, seconds)

Constructs a new DateTime object. When no arguments are specified for the constructor a new DateTime object representing the current time is created.

Example:

var d1 = DateTime() /* current time */
var d2 = DateTime(2016, 5, 21) /* midnight April 21st, 2016 (local time) */

DateTime arithmetic

Subtracting two DateTime objects yields the interval between them, in seconds.

Example:

var delta = DateTime() - DateTime(2016, 5, 21) /* seconds since midnight April 21st, 2016 */

Subtracting a number from a DateTime object yields a new DateTime object that is further in the past:

Example:

var dt = DateTime() - 2 * 60 * 60 /* Current time minus 2 hours */

Adding a number to a DateTime object yields a new DateTime object that is in the future:

Example:

var dt = DateTime() + 24 * 60 60 /* Current time plus 24 hours */

DateTime#format

Signature:

function format(fmt)

Returns a string representation for the DateTime object using the specified format string. The format string may contain format conversion placeholders as specified in strftime(3).

Example:

var s = DateTime(2016, 4, 21).format("%A") /* Sets s to "Thursday". */

DateTime#to_string

Signature:

function to_string()

Returns a string representation for the DateTime object. Uses a suitable default format.

Example:

var s = DateTime(2016, 4, 21).to_string() /* Sets s to "2016-04-21 00:00:00 +0200". */