/ * !
* Font Awesome Free 6.1 . 1 by @ fontawesome - https : //fontawesome.com
* License - https : //fontawesome.com/license/free (Icons: CC BY 4.0, Fonts: SIL OFL 1.1, Code: MIT License)
* Copyright 2022 Fonticons , Inc .
* /
( function ( global , factory ) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory ( ) :
typeof define === 'function' && define . amd ? define ( factory ) :
( factory ( ) ) ;
} ( this , ( function ( ) { 'use strict' ;
function ownKeys ( object , enumerableOnly ) {
var keys = Object . keys ( object ) ;
if ( Object . getOwnPropertySymbols ) {
var symbols = Object . getOwnPropertySymbols ( object ) ;
enumerableOnly && ( symbols = symbols . filter ( function ( sym ) {
return Object . getOwnPropertyDescriptor ( object , sym ) . enumerable ;
} ) ) , keys . push . apply ( keys , symbols ) ;
}
return keys ;
}
function _objectSpread2 ( target ) {
for ( var i = 1 ; i < arguments . length ; i ++ ) {
var source = null != arguments [ i ] ? arguments [ i ] : { } ;
i % 2 ? ownKeys ( Object ( source ) , ! 0 ) . forEach ( function ( key ) {
_defineProperty ( target , key , source [ key ] ) ;
} ) : Object . getOwnPropertyDescriptors ? Object . defineProperties ( target , Object . getOwnPropertyDescriptors ( source ) ) : ownKeys ( Object ( source ) ) . forEach ( function ( key ) {
Object . defineProperty ( target , key , Object . getOwnPropertyDescriptor ( source , key ) ) ;
} ) ;
}
return target ;
}
function _typeof ( obj ) {
"@babel/helpers - typeof" ;
return _typeof = "function" == typeof Symbol && "symbol" == typeof Symbol . iterator ? function ( obj ) {
return typeof obj ;
} : function ( obj ) {
return obj && "function" == typeof Symbol && obj . constructor === Symbol && obj !== Symbol . prototype ? "symbol" : typeof obj ;
} , _typeof ( obj ) ;
}
function _defineProperty ( obj , key , value ) {
if ( key in obj ) {
Object . defineProperty ( obj , key , {
value : value ,
enumerable : true ,
configurable : true ,
writable : true
} ) ;
} else {
obj [ key ] = value ;
}
return obj ;
}
function _toConsumableArray ( arr ) {
return _arrayWithoutHoles ( arr ) || _iterableToArray ( arr ) || _unsupportedIterableToArray ( arr ) || _nonIterableSpread ( ) ;
}
function _arrayWithoutHoles ( arr ) {
if ( Array . isArray ( arr ) ) return _arrayLikeToArray ( arr ) ;
}
function _iterableToArray ( iter ) {
if ( typeof Symbol !== "undefined" && iter [ Symbol . iterator ] != null || iter [ "@@iterator" ] != null ) return Array . from ( iter ) ;
}
function _unsupportedIterableToArray ( o , minLen ) {
if ( ! o ) return ;
if ( typeof o === "string" ) return _arrayLikeToArray ( o , minLen ) ;
var n = Object . prototype . toString . call ( o ) . slice ( 8 , - 1 ) ;
if ( n === "Object" && o . constructor ) n = o . constructor . name ;
if ( n === "Map" || n === "Set" ) return Array . from ( o ) ;
if ( n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/ . test ( n ) ) return _arrayLikeToArray ( o , minLen ) ;
}
function _arrayLikeToArray ( arr , len ) {
if ( len == null || len > arr . length ) len = arr . length ;
for ( var i = 0 , arr2 = new Array ( len ) ; i < len ; i ++ ) arr2 [ i ] = arr [ i ] ;
return arr2 ;
}
function _nonIterableSpread ( ) {
throw new TypeError ( "Invalid attempt to spread non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method." ) ;
}
var _WINDOW = { } ;
var _DOCUMENT = { } ;
try {
if ( typeof window !== 'undefined' ) _WINDOW = window ;
if ( typeof document !== 'undefined' ) _DOCUMENT = document ;
} catch ( e ) { }
var _ref = _WINDOW . navigator || { } ,
_ref$userAgent = _ref . userAgent ,
userAgent = _ref$userAgent === void 0 ? '' : _ref$userAgent ;
var WINDOW = _WINDOW ;
var DOCUMENT = _DOCUMENT ;
var IS _BROWSER = ! ! WINDOW . document ;
var IS _DOM = ! ! DOCUMENT . documentElement && ! ! DOCUMENT . head && typeof DOCUMENT . addEventListener === 'function' && typeof DOCUMENT . createElement === 'function' ;
var IS _IE = ~ userAgent . indexOf ( 'MSIE' ) || ~ userAgent . indexOf ( 'Trident/' ) ;
var functions = [ ] ;
var listener = function listener ( ) {
DOCUMENT . removeEventListener ( 'DOMContentLoaded' , listener ) ;
loaded = 1 ;
functions . map ( function ( fn ) {
return fn ( ) ;
} ) ;
} ;
var loaded = false ;
if ( IS _DOM ) {
loaded = ( DOCUMENT . documentElement . doScroll ? /^loaded|^c/ : /^loaded|^i|^c/ ) . test ( DOCUMENT . readyState ) ;
if ( ! loaded ) DOCUMENT . addEventListener ( 'DOMContentLoaded' , listener ) ;
}
function domready ( fn ) {
if ( ! IS _DOM ) return ;
loaded ? setTimeout ( fn , 0 ) : functions . push ( fn ) ;
}
function report ( _ref ) {
var nodesTested = _ref . nodesTested ,
nodesFound = _ref . nodesFound ;
var timedOutTests = { } ;
for ( var key in nodesFound ) {
if ( ! ( nodesTested . conflict [ key ] || nodesTested . noConflict [ key ] ) ) {
timedOutTests [ key ] = nodesFound [ key ] ;
}
}
var conflictsCount = Object . keys ( nodesTested . conflict ) . length ;
if ( conflictsCount > 0 ) {
console . info ( "%cConflict" . concat ( conflictsCount > 1 ? 's' : '' , " found:" ) , 'color: darkred; font-size: large' ) ;
var data = { } ;
for ( var _key in nodesTested . conflict ) {
var item = nodesTested . conflict [ _key ] ;
data [ _key ] = {
'tagName' : item . tagName ,
'src/href' : item . src || item . href || 'n/a' ,
'innerText excerpt' : item . innerText && item . innerText !== '' ? item . innerText . slice ( 0 , 200 ) + '...' : '(empty)'
} ;
}
console . table ( data ) ;
}
var noConflictsCount = Object . keys ( nodesTested . noConflict ) . length ;
if ( noConflictsCount > 0 ) {
console . info ( "%cNo conflict" . concat ( noConflictsCount > 1 ? 's' : '' , " found with " ) . concat ( noConflictsCount === 1 ? 'this' : 'these' , ":" ) , 'color: green; font-size: large' ) ;
var _data = { } ;
for ( var _key2 in nodesTested . noConflict ) {
var _item = nodesTested . noConflict [ _key2 ] ;
_data [ _key2 ] = {
'tagName' : _item . tagName ,
'src/href' : _item . src || _item . href || 'n/a' ,
'innerText excerpt' : _item . innerText && _item . innerText !== '' ? _item . innerText . slice ( 0 , 200 ) + '...' : '(empty)'
} ;
}
console . table ( _data ) ;
}
var timeOutCount = Object . keys ( timedOutTests ) . length ;
if ( timeOutCount > 0 ) {
console . info ( "%cLeftovers--we timed out before collecting test results for " . concat ( timeOutCount === 1 ? 'this' : 'these' , ":" ) , 'color: blue; font-size: large' ) ;
var _data2 = { } ;
for ( var _key3 in timedOutTests ) {
var _item2 = timedOutTests [ _key3 ] ;
_data2 [ _key3 ] = {
'tagName' : _item2 . tagName ,
'src/href' : _item2 . src || _item2 . href || 'n/a' ,
'innerText excerpt' : _item2 . innerText && _item2 . innerText !== '' ? _item2 . innerText . slice ( 0 , 200 ) + '...' : '(empty)'
} ;
}
console . table ( _data2 ) ;
}
}
var commonjsGlobal = typeof window !== 'undefined' ? window : typeof global !== 'undefined' ? global : typeof self !== 'undefined' ? self : { } ;
function createCommonjsModule ( fn , module ) {
return module = { exports : { } } , fn ( module , module . exports ) , module . exports ;
}
var md5 = createCommonjsModule ( function ( module ) {
( function ( $ ) {
/ * *
* Add integers , wrapping at 2 ^ 32.
* This uses 16 - bit operations internally to work around bugs in interpreters .
*
* @ param { number } x First integer
* @ param { number } y Second integer
* @ returns { number } Sum
* /
function safeAdd ( x , y ) {
var lsw = ( x & 0xffff ) + ( y & 0xffff ) ;
var msw = ( x >> 16 ) + ( y >> 16 ) + ( lsw >> 16 ) ;
return msw << 16 | lsw & 0xffff ;
}
/ * *
* Bitwise rotate a 32 - bit number to the left .
*
* @ param { number } num 32 - bit number
* @ param { number } cnt Rotation count
* @ returns { number } Rotated number
* /
function bitRotateLeft ( num , cnt ) {
return num << cnt | num >>> 32 - cnt ;
}
/ * *
* Basic operation the algorithm uses .
*
* @ param { number } q q
* @ param { number } a a
* @ param { number } b b
* @ param { number } x x
* @ param { number } s s
* @ param { number } t t
* @ returns { number } Result
* /
function md5cmn ( q , a , b , x , s , t ) {
return safeAdd ( bitRotateLeft ( safeAdd ( safeAdd ( a , q ) , safeAdd ( x , t ) ) , s ) , b ) ;
}
/ * *
* Basic operation the algorithm uses .
*
* @ param { number } a a
* @ param { number } b b
* @ param { number } c c
* @ param { number } d d
* @ param { number } x x
* @ param { number } s s
* @ param { number } t t
* @ returns { number } Result
* /
function md5ff ( a , b , c , d , x , s , t ) {
return md5cmn ( b & c | ~ b & d , a , b , x , s , t ) ;
}
/ * *
* Basic operation the algorithm uses .
*
* @ param { number } a a
* @ param { number } b b
* @ param { number } c c
* @ param { number } d d
* @ param { number } x x
* @ param { number } s s
* @ param { number } t t
* @ returns { number } Result
* /
function md5gg ( a , b , c , d , x , s , t ) {
return md5cmn ( b & d | c & ~ d , a , b , x , s , t ) ;
}
/ * *
* Basic operation the algorithm uses .
*
* @ param { number } a a
* @ param { number } b b
* @ param { number } c c
* @ param { number } d d
* @ param { number } x x
* @ param { number } s s
* @ param { number } t t
* @ returns { number } Result
* /
function md5hh ( a , b , c , d , x , s , t ) {
return md5cmn ( b ^ c ^ d , a , b , x , s , t ) ;
}
/ * *
* Basic operation the algorithm uses .
*
* @ param { number } a a
* @ param { number } b b
* @ param { number } c c
* @ param { number } d d
* @ param { number } x x
* @ param { number } s s
* @ param { number } t t
* @ returns { number } Result
* /
function md5ii ( a , b , c , d , x , s , t ) {
return md5cmn ( c ^ ( b | ~ d ) , a , b , x , s , t ) ;
}
/ * *
* Calculate the MD5 of an array of little - endian words , and a bit length .
*
* @ param { Array } x Array of little - endian words
* @ param { number } len Bit length
* @ returns { Array < number > } MD5 Array
* /
function binlMD5 ( x , len ) {
/* append padding */
x [ len >> 5 ] |= 0x80 << len % 32 ;
x [ ( len + 64 >>> 9 << 4 ) + 14 ] = len ;
var i ;
var olda ;
var oldb ;
var oldc ;
var oldd ;
var a = 1732584193 ;
var b = - 271733879 ;
var c = - 1732584194 ;
var d = 271733878 ;
for ( i = 0 ; i < x . length ; i += 16 ) {
olda = a ;
oldb = b ;
oldc = c ;
oldd = d ;
a = md5ff ( a , b , c , d , x [ i ] , 7 , - 680876936 ) ;
d = md5ff ( d , a , b , c , x [ i + 1 ] , 12 , - 389564586 ) ;
c = md5ff ( c , d , a , b , x [ i + 2 ] , 17 , 606105819 ) ;
b = md5ff ( b , c , d , a , x [ i + 3 ] , 22 , - 1044525330 ) ;
a = md5ff ( a , b , c , d , x [ i + 4 ] , 7 , - 176418897 ) ;
d = md5ff ( d , a , b , c , x [ i + 5 ] , 12 , 1200080426 ) ;
c = md5ff ( c , d , a , b , x [ i + 6 ] , 17 , - 1473231341 ) ;
b = md5ff ( b , c , d , a , x [ i + 7 ] , 22 , - 45705983 ) ;
a = md5ff ( a , b , c , d , x [ i + 8 ] , 7 , 1770035416 ) ;
d = md5ff ( d , a , b , c , x [ i + 9 ] , 12 , - 1958414417 ) ;
c = md5ff ( c , d , a , b , x [ i + 10 ] , 17 , - 42063 ) ;
b = md5ff ( b , c , d , a , x [ i + 11 ] , 22 , - 1990404162 ) ;
a = md5ff ( a , b , c , d , x [ i + 12 ] , 7 , 1804603682 ) ;
d = md5ff ( d , a , b , c , x [ i + 13 ] , 12 , - 40341101 ) ;
c = md5ff ( c , d , a , b , x [ i + 14 ] , 17 , - 1502002290 ) ;
b = md5ff ( b , c , d , a , x [ i + 15 ] , 22 , 1236535329 ) ;
a = md5gg ( a , b , c , d , x [ i + 1 ] , 5 , - 165796510 ) ;
d = md5gg ( d , a , b , c , x [ i + 6 ] , 9 , - 1069501632 ) ;
c = md5gg ( c , d , a , b , x [ i + 11 ] , 14 , 643717713 ) ;
b = md5gg ( b , c , d , a , x [ i ] , 20 , - 373897302 ) ;
a = md5gg ( a , b , c , d , x [ i + 5 ] , 5 , - 701558691 ) ;
d = md5gg ( d , a , b , c , x [ i + 10 ] , 9 , 38016083 ) ;
c = md5gg ( c , d , a , b , x [ i + 15 ] , 14 , - 660478335 ) ;
b = md5gg ( b , c , d , a , x [ i + 4 ] , 20 , - 405537848 ) ;
a = md5gg ( a , b , c , d , x [ i + 9 ] , 5 , 568446438 ) ;
d = md5gg ( d , a , b , c , x [ i + 14 ] , 9 , - 1019803690 ) ;
c = md5gg ( c , d , a , b , x [ i + 3 ] , 14 , - 187363961 ) ;
b = md5gg ( b , c , d , a , x [ i + 8 ] , 20 , 1163531501 ) ;
a = md5gg ( a , b , c , d , x [ i + 13 ] , 5 , - 1444681467 ) ;
d = md5gg ( d , a , b , c , x [ i + 2 ] , 9 , - 51403784 ) ;
c = md5gg ( c , d , a , b , x [ i + 7 ] , 14 , 1735328473 ) ;
b = md5gg ( b , c , d , a , x [ i + 12 ] , 20 , - 1926607734 ) ;
a = md5hh ( a , b , c , d , x [ i + 5 ] , 4 , - 378558 ) ;
d = md5hh ( d , a , b , c , x [ i + 8 ] , 11 , - 2022574463 ) ;
c = md5hh ( c , d , a , b , x [ i + 11 ] , 16 , 1839030562 ) ;
b = md5hh ( b , c , d , a , x [ i + 14 ] , 23 , - 35309556 ) ;
a = md5hh ( a , b , c , d , x [ i + 1 ] , 4 , - 1530992060 ) ;
d = md5hh ( d , a , b , c , x [ i + 4 ] , 11 , 1272893353 ) ;
c = md5hh ( c , d , a , b , x [ i + 7 ] , 16 , - 155497632 ) ;
b = md5hh ( b , c , d , a , x [ i + 10 ] , 23 , - 1094730640 ) ;
a = md5hh ( a , b , c , d , x [ i + 13 ] , 4 , 681279174 ) ;
d = md5hh ( d , a , b , c , x [ i ] , 11 , - 358537222 ) ;
c = md5hh ( c , d , a , b , x [ i + 3 ] , 16 , - 722521979 ) ;
b = md5hh ( b , c , d , a , x [ i + 6 ] , 23 , 76029189 ) ;
a = md5hh ( a , b , c , d , x [ i + 9 ] , 4 , - 640364487 ) ;
d = md5hh ( d , a , b , c , x [ i + 12 ] , 11 , - 421815835 ) ;
c = md5hh ( c , d , a , b , x [ i + 15 ] , 16 , 530742520 ) ;
b = md5hh ( b , c , d , a , x [ i + 2 ] , 23 , - 995338651 ) ;
a = md5ii ( a , b , c , d , x [ i ] , 6 , - 198630844 ) ;
d = md5ii ( d , a , b , c , x [ i + 7 ] , 10 , 1126891415 ) ;
c = md5ii ( c , d , a , b , x [ i + 14 ] , 15 , - 1416354905 ) ;
b = md5ii ( b , c , d , a , x [ i + 5 ] , 21 , - 57434055 ) ;
a = md5ii ( a , b , c , d , x [ i + 12 ] , 6 , 1700485571 ) ;
d = md5ii ( d , a , b , c , x [ i + 3 ] , 10 , - 1894986606 ) ;
c = md5ii ( c , d , a , b , x [ i + 10 ] , 15 , - 1051523 ) ;
b = md5ii ( b , c , d , a , x [ i + 1 ] , 21 , - 2054922799 ) ;
a = md5ii ( a , b , c , d , x [ i + 8 ] , 6 , 1873313359 ) ;
d = md5ii ( d , a , b , c , x [ i + 15 ] , 10 , - 30611744 ) ;
c = md5ii ( c , d , a , b , x [ i + 6 ] , 15 , - 1560198380 ) ;
b = md5ii ( b , c , d , a , x [ i + 13 ] , 21 , 1309151649 ) ;
a = md5ii ( a , b , c , d , x [ i + 4 ] , 6 , - 145523070 ) ;
d = md5ii ( d , a , b , c , x [ i + 11 ] , 10 , - 1120210379 ) ;
c = md5ii ( c , d , a , b , x [ i + 2 ] , 15 , 718787259 ) ;
b = md5ii ( b , c , d , a , x [ i + 9 ] , 21 , - 343485551 ) ;
a = safeAdd ( a , olda ) ;
b = safeAdd ( b , oldb ) ;
c = safeAdd ( c , oldc ) ;
d = safeAdd ( d , oldd ) ;
}
return [ a , b , c , d ] ;
}
/ * *
* Convert an array of little - endian words to a string
*
* @ param { Array < number > } input MD5 Array
* @ returns { string } MD5 string
* /
function binl2rstr ( input ) {
var i ;
var output = '' ;
var length32 = input . length * 32 ;
for ( i = 0 ; i < length32 ; i += 8 ) {
output += String . fromCharCode ( input [ i >> 5 ] >>> i % 32 & 0xff ) ;
}
return output ;
}
/ * *
* Convert a raw string to an array of little - endian words
* Characters > 255 have their high - byte silently ignored .
*
* @ param { string } input Raw input string
* @ returns { Array < number > } Array of little - endian words
* /
function rstr2binl ( input ) {
var i ;
var output = [ ] ;
output [ ( input . length >> 2 ) - 1 ] = undefined ;
for ( i = 0 ; i < output . length ; i += 1 ) {
output [ i ] = 0 ;
}
var length8 = input . length * 8 ;
for ( i = 0 ; i < length8 ; i += 8 ) {
output [ i >> 5 ] |= ( input . charCodeAt ( i / 8 ) & 0xff ) << i % 32 ;
}
return output ;
}
/ * *
* Calculate the MD5 of a raw string
*
* @ param { string } s Input string
* @ returns { string } Raw MD5 string
* /
function rstrMD5 ( s ) {
return binl2rstr ( binlMD5 ( rstr2binl ( s ) , s . length * 8 ) ) ;
}
/ * *
* Calculates the HMAC - MD5 of a key and some data ( raw strings )
*
* @ param { string } key HMAC key
* @ param { string } data Raw input string
* @ returns { string } Raw MD5 string
* /
function rstrHMACMD5 ( key , data ) {
var i ;
var bkey = rstr2binl ( key ) ;
var ipad = [ ] ;
var opad = [ ] ;
var hash ;
ipad [ 15 ] = opad [ 15 ] = undefined ;
if ( bkey . length > 16 ) {
bkey = binlMD5 ( bkey , key . length * 8 ) ;
}
for ( i = 0 ; i < 16 ; i += 1 ) {
ipad [ i ] = bkey [ i ] ^ 0x36363636 ;
opad [ i ] = bkey [ i ] ^ 0x5c5c5c5c ;
}
hash = binlMD5 ( ipad . concat ( rstr2binl ( data ) ) , 512 + data . length * 8 ) ;
return binl2rstr ( binlMD5 ( opad . concat ( hash ) , 512 + 128 ) ) ;
}
/ * *
* Convert a raw string to a hex string
*
* @ param { string } input Raw input string
* @ returns { string } Hex encoded string
* /
function rstr2hex ( input ) {
var hexTab = '0123456789abcdef' ;
var output = '' ;
var x ;
var i ;
for ( i = 0 ; i < input . length ; i += 1 ) {
x = input . charCodeAt ( i ) ;
output += hexTab . charAt ( x >>> 4 & 0x0f ) + hexTab . charAt ( x & 0x0f ) ;
}
return output ;
}
/ * *
* Encode a string as UTF - 8
*
* @ param { string } input Input string
* @ returns { string } UTF8 string
* /
function str2rstrUTF8 ( input ) {
return unescape ( encodeURIComponent ( input ) ) ;
}
/ * *
* Encodes input string as raw MD5 string
*
* @ param { string } s Input string
* @ returns { string } Raw MD5 string
* /
function rawMD5 ( s ) {
return rstrMD5 ( str2rstrUTF8 ( s ) ) ;
}
/ * *
* Encodes input string as Hex encoded string
*
* @ param { string } s Input string
* @ returns { string } Hex encoded string
* /
function hexMD5 ( s ) {
return rstr2hex ( rawMD5 ( s ) ) ;
}
/ * *
* Calculates the raw HMAC - MD5 for the given key and data
*
* @ param { string } k HMAC key
* @ param { string } d Input string
* @ returns { string } Raw MD5 string
* /
function rawHMACMD5 ( k , d ) {
return rstrHMACMD5 ( str2rstrUTF8 ( k ) , str2rstrUTF8 ( d ) ) ;
}
/ * *
* Calculates the Hex encoded HMAC - MD5 for the given key and data
*
* @ param { string } k HMAC key
* @ param { string } d Input string
* @ returns { string } Raw MD5 string
* /
function hexHMACMD5 ( k , d ) {
return rstr2hex ( rawHMACMD5 ( k , d ) ) ;
}
/ * *
* Calculates MD5 value for a given string .
* If a key is provided , calculates the HMAC - MD5 value .
* Returns a Hex encoded string unless the raw argument is given .
*
* @ param { string } string Input string
* @ param { string } [ key ] HMAC key
* @ param { boolean } [ raw ] Raw output switch
* @ returns { string } MD5 output
* /
function md5 ( string , key , raw ) {
if ( ! key ) {
if ( ! raw ) {
return hexMD5 ( string ) ;
}
return rawMD5 ( string ) ;
}
if ( ! raw ) {
return hexHMACMD5 ( key , string ) ;
}
return rawHMACMD5 ( key , string ) ;
}
if ( module . exports ) {
module . exports = md5 ;
} else {
$ . md5 = md5 ;
}
} ) ( commonjsGlobal ) ;
} ) ;
function md5ForNode ( node ) {
if ( null === node || 'object' !== _typeof ( node ) ) return undefined ;
if ( node . src ) {
return md5 ( node . src ) ;
} else if ( node . href ) {
return md5 ( node . href ) ;
} else if ( node . innerText && '' !== node . innerText ) {
// eslint-disable-line yoda
return md5 ( node . innerText ) ;
} else {
return undefined ;
}
}
var diagScriptId = 'fa-kits-diag' ;
var nodeUnderTestId = 'fa-kits-node-under-test' ;
var md5Attr = 'data-md5' ;
var detectionIgnoreAttr = 'data-fa-detection-ignore' ;
var timeoutAttr = 'data-fa-detection-timeout' ;
var resultsCollectionMaxWaitAttr = 'data-fa-detection-results-collection-max-wait' ;
var silenceErrors = function silenceErrors ( e ) {
e . preventDefault ( ) ;
e . stopPropagation ( ) ;
} ;
function pollUntil ( _ref ) {
var _ref$fn = _ref . fn ,
fn = _ref$fn === void 0 ? function ( ) {
return true ;
} : _ref$fn ,
_ref$initialDuration = _ref . initialDuration ,
initialDuration = _ref$initialDuration === void 0 ? 1 : _ref$initialDuration ,
_ref$maxDuration = _ref . maxDuration ,
maxDuration = _ref$maxDuration === void 0 ? WINDOW . FontAwesomeDetection . timeout : _ref$maxDuration ,
_ref$showProgress = _ref . showProgress ,
showProgress = _ref$showProgress === void 0 ? false : _ref$showProgress ,
progressIndicator = _ref . progressIndicator ;
return new Promise ( function ( resolve , reject ) {
// eslint-disable-line compat/compat
function poll ( duration , cumulativeDuration ) {
setTimeout ( function ( ) {
var result = fn ( ) ;
if ( showProgress ) {
console . info ( progressIndicator ) ;
}
if ( ! ! result ) {
// eslint-disable-line no-extra-boolean-cast
resolve ( result ) ;
} else {
var nextDuration = 250 ;
var nextCumulativeDuration = nextDuration + cumulativeDuration ;
if ( nextCumulativeDuration <= maxDuration ) {
poll ( nextDuration , nextCumulativeDuration ) ;
} else {
reject ( 'timeout' ) ; // eslint-disable-line prefer-promise-reject-errors
}
}
} , duration ) ;
}
poll ( initialDuration , 0 ) ;
} ) ;
}
function detectWebfontConflicts ( ) {
var linkTags = Array . from ( DOCUMENT . getElementsByTagName ( 'link' ) ) . filter ( function ( t ) {
return ! t . hasAttribute ( detectionIgnoreAttr ) ;
} ) ;
var styleTags = Array . from ( DOCUMENT . getElementsByTagName ( 'style' ) ) . filter ( function ( t ) {
if ( t . hasAttribute ( detectionIgnoreAttr ) ) {
return false ;
} // If the browser has loaded the FA5 CSS, let's not test that <style> element.
// Its enough that we'll be testing for traces of the corresponding JS being loaded, and testing
// this <style> would only produce a false negative anyway.
if ( WINDOW . FontAwesomeConfig && t . innerText . match ( new RegExp ( "svg:not\\(:root\\)\\." . concat ( WINDOW . FontAwesomeConfig . replacementClass ) ) ) ) {
return false ;
}
return true ;
} ) ;
function runDiag ( scriptOrLinkTag , md5 ) {
var diagFrame = DOCUMENT . createElement ( 'iframe' ) ; // Using "visibility: hidden; position: absolute" instead of "display: none;" because
// Firefox will not return the expected results for getComputedStyle if our iframe has display: none.
diagFrame . setAttribute ( 'style' , 'visibility: hidden; position: absolute; height: 0; width: 0;' ) ;
var testIconId = 'fa-test-icon-' + md5 ;
var iTag = DOCUMENT . createElement ( 'i' ) ;
iTag . setAttribute ( 'class' , 'fa fa-coffee' ) ;
iTag . setAttribute ( 'id' , testIconId ) ;
var diagScript = DOCUMENT . createElement ( 'script' ) ;
diagScript . setAttribute ( 'id' , diagScriptId ) ; // WARNING: this function will be toString()'d and assigned to innerText of the diag script
// element that we'll be putting into a diagnostic iframe.
// That means that this code won't compile until after the outer script has run and injected
// this code into the iframe. There are some compile time errors that might occur there.
// For example, using single line (double-slash) comments like this one inside that function
// will probably cause it to choke. Chrome will show an error like this:
// Uncaught SyntaxError: Unexpected end of input
var diagScriptFun = function diagScriptFun ( nodeUnderTestId , testIconId , md5 , parentOrigin ) {
parent . FontAwesomeDetection . _ _pollUntil ( {
fn : function fn ( ) {
var iEl = document . getElementById ( testIconId ) ;
var computedStyle = window . getComputedStyle ( iEl ) ;
var fontFamily = computedStyle . getPropertyValue ( 'font-family' ) ;
if ( ! ! fontFamily . match ( /FontAwesome/ ) || ! ! fontFamily . match ( /Font Awesome [56]/ ) ) {
return true ;
} else {
return false ;
}
}
} ) . then ( function ( ) {
var node = document . getElementById ( nodeUnderTestId ) ;
parent . postMessage ( {
type : 'fontawesome-conflict' ,
technology : 'webfont' ,
href : node . href ,
innerText : node . innerText ,
tagName : node . tagName ,
md5 : md5
} , parentOrigin ) ;
} ) . catch ( function ( e ) {
var node = document . getElementById ( nodeUnderTestId ) ;
if ( e === 'timeout' ) {
parent . postMessage ( {
type : 'no-conflict' ,
technology : 'webfont' ,
href : node . src ,
innerText : node . innerText ,
tagName : node . tagName ,
md5 : md5
} , parentOrigin ) ;
} else {
console . error ( e ) ;
}
} ) ;
} ;
var parentOrigin = WINDOW . location . origin === 'file://' ? '*' : WINDOW . location . origin ;
diagScript . innerText = "(" . concat ( diagScriptFun . toString ( ) , ")('" ) . concat ( nodeUnderTestId , "', '" ) . concat ( testIconId || 'foo' , "', '" ) . concat ( md5 , "', '" ) . concat ( parentOrigin , "');" ) ;
diagFrame . onload = function ( ) {
diagFrame . contentWindow . addEventListener ( 'error' , silenceErrors , true ) ;
diagFrame . contentDocument . head . appendChild ( diagScript ) ;
diagFrame . contentDocument . head . appendChild ( scriptOrLinkTag ) ;
diagFrame . contentDocument . body . appendChild ( iTag ) ;
} ;
domready ( function ( ) {
return DOCUMENT . body . appendChild ( diagFrame ) ;
} ) ;
}
var cssByMD5 = { } ;
for ( var i = 0 ; i < linkTags . length ; i ++ ) {
var linkUnderTest = DOCUMENT . createElement ( 'link' ) ;
linkUnderTest . setAttribute ( 'id' , nodeUnderTestId ) ;
linkUnderTest . setAttribute ( 'href' , linkTags [ i ] . href ) ;
linkUnderTest . setAttribute ( 'rel' , linkTags [ i ] . rel ) ;
var md5ForLink = md5ForNode ( linkTags [ i ] ) ;
linkUnderTest . setAttribute ( md5Attr , md5ForLink ) ;
cssByMD5 [ md5ForLink ] = linkTags [ i ] ;
runDiag ( linkUnderTest , md5ForLink ) ;
}
for ( var _i = 0 ; _i < styleTags . length ; _i ++ ) {
var styleUnderTest = DOCUMENT . createElement ( 'style' ) ;
styleUnderTest . setAttribute ( 'id' , nodeUnderTestId ) ;
var md5ForStyle = md5ForNode ( styleTags [ _i ] ) ;
styleUnderTest . setAttribute ( md5Attr , md5ForStyle ) ;
styleUnderTest . innerText = styleTags [ _i ] . innerText ;
cssByMD5 [ md5ForStyle ] = styleTags [ _i ] ;
runDiag ( styleUnderTest , md5ForStyle ) ;
}
return cssByMD5 ;
}
function detectSvgConflicts ( currentScript ) {
var scripts = Array . from ( DOCUMENT . scripts ) . filter ( function ( t ) {
return ! t . hasAttribute ( detectionIgnoreAttr ) && t !== currentScript ;
} ) ;
var scriptsByMD5 = { } ;
var _loop = function _loop ( scriptIdx ) {
var diagFrame = DOCUMENT . createElement ( 'iframe' ) ;
diagFrame . setAttribute ( 'style' , 'display:none;' ) ;
var scriptUnderTest = DOCUMENT . createElement ( 'script' ) ;
scriptUnderTest . setAttribute ( 'id' , nodeUnderTestId ) ;
var md5ForScript = md5ForNode ( scripts [ scriptIdx ] ) ;
scriptUnderTest . setAttribute ( md5Attr , md5ForScript ) ;
scriptsByMD5 [ md5ForScript ] = scripts [ scriptIdx ] ;
if ( scripts [ scriptIdx ] . src !== '' ) {
scriptUnderTest . src = scripts [ scriptIdx ] . src ;
}
if ( scripts [ scriptIdx ] . innerText !== '' ) {
scriptUnderTest . innerText = scripts [ scriptIdx ] . innerText ;
}
scriptUnderTest . async = true ;
var diagScript = DOCUMENT . createElement ( 'script' ) ;
diagScript . setAttribute ( 'id' , diagScriptId ) ;
var parentOrigin = WINDOW . location . origin === 'file://' ? '*' : WINDOW . location . origin ;
var diagScriptFun = function diagScriptFun ( nodeUnderTestId , md5 , parentOrigin ) {
parent . FontAwesomeDetection . _ _pollUntil ( {
fn : function fn ( ) {
return ! ! window . FontAwesomeConfig || ! ! window . FontAwesomeKitConfig ;
}
} ) . then ( function ( ) {
var scriptNode = document . getElementById ( nodeUnderTestId ) ;
parent . postMessage ( {
type : 'fontawesome-conflict' ,
technology : 'js' ,
src : scriptNode . src ,
innerText : scriptNode . innerText ,
tagName : scriptNode . tagName ,
md5 : md5
} , parentOrigin ) ;
} ) . catch ( function ( e ) {
var scriptNode = document . getElementById ( nodeUnderTestId ) ;
if ( e === 'timeout' ) {
parent . postMessage ( {
type : 'no-conflict' ,
src : scriptNode . src ,
innerText : scriptNode . innerText ,
tagName : scriptNode . tagName ,
md5 : md5
} , parentOrigin ) ;
} else {
console . error ( e ) ;
}
} ) ;
} ;
diagScript . innerText = "(" . concat ( diagScriptFun . toString ( ) , ")('" ) . concat ( nodeUnderTestId , "', '" ) . concat ( md5ForScript , "', '" ) . concat ( parentOrigin , "');" ) ;
diagFrame . onload = function ( ) {
diagFrame . contentWindow . addEventListener ( 'error' , silenceErrors , true ) ;
diagFrame . contentDocument . head . appendChild ( diagScript ) ;
diagFrame . contentDocument . head . appendChild ( scriptUnderTest ) ;
} ;
domready ( function ( ) {
return DOCUMENT . body . appendChild ( diagFrame ) ;
} ) ;
} ;
for ( var scriptIdx = 0 ; scriptIdx < scripts . length ; scriptIdx ++ ) {
_loop ( scriptIdx ) ;
}
return scriptsByMD5 ;
}
function setDoneResults ( _ref2 ) {
var nodesTested = _ref2 . nodesTested ,
nodesFound = _ref2 . nodesFound ;
WINDOW . FontAwesomeDetection = WINDOW . FontAwesomeDetection || { } ;
WINDOW . FontAwesomeDetection . nodesTested = nodesTested ;
WINDOW . FontAwesomeDetection . nodesFound = nodesFound ;
WINDOW . FontAwesomeDetection . detectionDone = true ;
}
function conflictDetection ( ) {
var report$$1 = arguments . length > 0 && arguments [ 0 ] !== undefined ? arguments [ 0 ] : function ( ) { } ;
var nodesTested = {
conflict : { } ,
noConflict : { }
} ;
WINDOW . onmessage = function ( e ) {
if ( WINDOW . location . origin === 'file://' || e . origin === WINDOW . location . origin ) {
if ( e && e . data ) {
if ( e . data . type === 'fontawesome-conflict' ) {
nodesTested . conflict [ e . data . md5 ] = e . data ;
} else if ( e . data . type === 'no-conflict' ) {
nodesTested . noConflict [ e . data . md5 ] = e . data ;
}
}
}
} ;
var scriptsToTest = detectSvgConflicts ( DOCUMENT . currentScript ) ;
var cssToTest = detectWebfontConflicts ( ) ;
var nodesFound = _objectSpread2 ( _objectSpread2 ( { } , scriptsToTest ) , cssToTest ) ;
var testCount = Object . keys ( scriptsToTest ) . length + Object . keys ( cssToTest ) . length ; // The resultsCollectionMaxWait allows for the time between when the tests running under
// child iframes call postMessage with their results, and when the parent window
// receives and handles those events with window.onmessage.
// Making it configurable allows us to test the scenario where this timeout is exceeded.
// Naming it something very different from "timeout" is to help avoid the potential ambiguity between
// these two timeout-related settings.
var masterTimeout = WINDOW . FontAwesomeDetection . timeout + WINDOW . FontAwesomeDetection . resultsCollectionMaxWait ;
console . group ( 'Font Awesome Detector' ) ;
if ( testCount === 0 ) {
console . info ( '%cAll Good!' , 'color: green; font-size: large' ) ;
console . info ( 'We didn\'t find anything that needs testing for conflicts. Ergo, no conflicts.' ) ;
} else {
console . info ( "Testing " . concat ( testCount , " possible conflicts." ) ) ;
console . info ( "We'll wait about " . concat ( Math . round ( WINDOW . FontAwesomeDetection . timeout / 10 ) / 100 , " seconds while testing these and\n" ) + "then up to another " . concat ( Math . round ( WINDOW . FontAwesomeDetection . resultsCollectionMaxWait / 10 ) / 100 , " to allow the browser time\n" ) + "to accumulate the results. But we'll probably be outta here way before then.\n\n" ) ;
console . info ( "You can adjust those durations by assigning values to these attributes on the <script> element that loads this detection:" ) ;
console . info ( "\t%c" . concat ( timeoutAttr , "%c: milliseconds to wait for each test before deciding whether it's a conflict." ) , 'font-weight: bold;' , 'font-size: normal;' ) ;
console . info ( "\t%c" . concat ( resultsCollectionMaxWaitAttr , "%c: milliseconds to wait for the browser to accumulate test results before giving up." ) , 'font-weight: bold;' , 'font-size: normal;' ) ;
pollUntil ( {
// Give this overall timer a little extra cushion
maxDuration : masterTimeout ,
showProgress : true ,
progressIndicator : 'waiting...' ,
fn : function fn ( ) {
return Object . keys ( nodesTested . conflict ) . length + Object . keys ( nodesTested . noConflict ) . length >= testCount ;
}
} ) . then ( function ( ) {
console . info ( 'DONE!' ) ;
setDoneResults ( {
nodesTested : nodesTested ,
nodesFound : nodesFound
} ) ;
report$$1 ( {
nodesTested : nodesTested ,
nodesFound : nodesFound
} ) ;
console . groupEnd ( ) ;
} ) . catch ( function ( e ) {
if ( e === 'timeout' ) {
console . info ( 'TIME OUT! We waited until we got tired. Here\'s what we found:' ) ;
setDoneResults ( {
nodesTested : nodesTested ,
nodesFound : nodesFound
} ) ;
report$$1 ( {
nodesTested : nodesTested ,
nodesFound : nodesFound
} ) ;
} else {
console . info ( 'Whoops! We hit an error:' , e ) ;
console . info ( 'Here\'s what we\'d found up until that error:' ) ;
setDoneResults ( {
nodesTested : nodesTested ,
nodesFound : nodesFound
} ) ;
report$$1 ( {
nodesTested : nodesTested ,
nodesFound : nodesFound
} ) ;
}
console . groupEnd ( ) ;
} ) ;
}
} // Allow clients to access, and in some cases, override some properties
var initialConfig = WINDOW . FontAwesomeDetection || { } ; // These can be overridden
var _default = {
report : report ,
timeout : + ( DOCUMENT . currentScript . getAttribute ( timeoutAttr ) || "2000" ) ,
resultsCollectionMaxWait : + ( DOCUMENT . currentScript . getAttribute ( resultsCollectionMaxWaitAttr ) || "5000" )
} ;
var _config = _objectSpread2 ( _objectSpread2 ( _objectSpread2 ( { } , _default ) , initialConfig ) , { } , {
// These cannot be overridden
_ _pollUntil : pollUntil ,
md5ForNode : md5ForNode ,
detectionDone : false ,
nodesTested : null ,
nodesFound : null
} ) ;
WINDOW . FontAwesomeDetection = _config ;
var PRODUCTION = function ( ) {
try {
return process . env . NODE _ENV === 'production' ;
} catch ( e ) {
return false ;
}
} ( ) ;
var STYLE _TO _PREFIX = {
'solid' : 'fas' ,
'regular' : 'far' ,
'light' : 'fal' ,
'thin' : 'fat' ,
'duotone' : 'fad' ,
'brands' : 'fab' ,
'kit' : 'fak'
} ;
var oneToTen = [ 1 , 2 , 3 , 4 , 5 , 6 , 7 , 8 , 9 , 10 ] ;
var oneToTwenty = oneToTen . concat ( [ 11 , 12 , 13 , 14 , 15 , 16 , 17 , 18 , 19 , 20 ] ) ;
var DUOTONE _CLASSES = {
GROUP : 'duotone-group' ,
SWAP _OPACITY : 'swap-opacity' ,
PRIMARY : 'primary' ,
SECONDARY : 'secondary'
} ;
var RESERVED _CLASSES = [ ] . concat ( _toConsumableArray ( Object . keys ( STYLE _TO _PREFIX ) ) , [ '2xs' , 'xs' , 'sm' , 'lg' , 'xl' , '2xl' , 'beat' , 'border' , 'fade' , 'beat-fade' , 'bounce' , 'flip-both' , 'flip-horizontal' , 'flip-vertical' , 'flip' , 'fw' , 'inverse' , 'layers-counter' , 'layers-text' , 'layers' , 'li' , 'pull-left' , 'pull-right' , 'pulse' , 'rotate-180' , 'rotate-270' , 'rotate-90' , 'rotate-by' , 'shake' , 'spin-pulse' , 'spin-reverse' , 'spin' , 'stack-1x' , 'stack-2x' , 'stack' , 'ul' , DUOTONE _CLASSES . GROUP , DUOTONE _CLASSES . SWAP _OPACITY , DUOTONE _CLASSES . PRIMARY , DUOTONE _CLASSES . SECONDARY ] ) . concat ( oneToTen . map ( function ( n ) {
return "" . concat ( n , "x" ) ;
} ) ) . concat ( oneToTwenty . map ( function ( n ) {
return "w-" . concat ( n ) ;
} ) ) ;
function bunker ( fn ) {
try {
for ( var _len = arguments . length , args = new Array ( _len > 1 ? _len - 1 : 0 ) , _key = 1 ; _key < _len ; _key ++ ) {
args [ _key - 1 ] = arguments [ _key ] ;
}
fn . apply ( void 0 , args ) ;
} catch ( e ) {
if ( ! PRODUCTION ) {
throw e ;
}
}
}
bunker ( function ( ) {
if ( IS _BROWSER && IS _DOM ) {
conflictDetection ( window . FontAwesomeDetection . report ) ;
}
} ) ;
} ) ) ) ;
