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/ * !
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* Omi v0 . 4.0 By dntzhang
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* Github : https : //github.com/AlloyTeam/omi
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* MIT Licensed .
* /
( function webpackUniversalModuleDefinition ( root , factory ) {
if ( typeof exports === 'object' && typeof module === 'object' )
module . exports = factory ( ) ;
else if ( typeof define === 'function' && define . amd )
define ( [ ] , factory ) ;
else if ( typeof exports === 'object' )
exports [ "Omi" ] = factory ( ) ;
else
root [ "Omi" ] = factory ( ) ;
} ) ( this , function ( ) {
return /******/ ( function ( modules ) { // webpackBootstrap
/******/ // The module cache
/******/ var installedModules = { } ;
/******/ // The require function
/******/ function _ _webpack _require _ _ ( moduleId ) {
/******/ // Check if module is in cache
/******/ if ( installedModules [ moduleId ] )
/******/ return installedModules [ moduleId ] . exports ;
/******/ // Create a new module (and put it into the cache)
/******/ var module = installedModules [ moduleId ] = {
/******/ exports : { } ,
/******/ id : moduleId ,
/******/ loaded : false
/******/ } ;
/******/ // Execute the module function
/******/ modules [ moduleId ] . call ( module . exports , module , module . exports , _ _webpack _require _ _ ) ;
/******/ // Flag the module as loaded
/******/ module . loaded = true ;
/******/ // Return the exports of the module
/******/ return module . exports ;
/******/ }
/******/ // expose the modules object (__webpack_modules__)
/******/ _ _webpack _require _ _ . m = modules ;
/******/ // expose the module cache
/******/ _ _webpack _require _ _ . c = installedModules ;
/******/ // __webpack_public_path__
/******/ _ _webpack _require _ _ . p = "" ;
/******/ // Load entry module and return exports
/******/ return _ _webpack _require _ _ ( 0 ) ;
/******/ } )
/************************************************************************/
/******/ ( [
/* 0 */
/***/ function ( module , exports , _ _webpack _require _ _ ) {
'use strict' ;
var _omi = _ _webpack _require _ _ ( 1 ) ;
var _omi2 = _interopRequireDefault ( _omi ) ;
var _mustache = _ _webpack _require _ _ ( 2 ) ;
var _mustache2 = _interopRequireDefault ( _mustache ) ;
var _component = _ _webpack _require _ _ ( 3 ) ;
var _component2 = _interopRequireDefault ( _component ) ;
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function _interopRequireDefault ( obj ) { return obj && obj . _ _esModule ? obj : { 'default' : obj } ; }
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_omi2 [ 'default' ] . template = _mustache2 [ 'default' ] . render ;
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_omi2 [ 'default' ] . Component = _component2 [ 'default' ] ;
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window . Omi = _omi2 [ 'default' ] ;
module . exports = _omi2 [ 'default' ] ;
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/***/ } ,
/* 1 */
/***/ function ( module , exports ) {
"use strict" ;
var _typeof = typeof Symbol === "function" && typeof Symbol . iterator === "symbol" ? function ( obj ) { return typeof obj ; } : function ( obj ) { return obj && typeof Symbol === "function" && obj . constructor === Symbol && obj !== Symbol . prototype ? "symbol" : typeof obj ; } ;
var Omi = { } ;
Omi . instances = { } ;
Omi . _instanceId = 0 ;
Omi . getInstanceId = function ( ) {
return Omi . _instanceId ++ ;
} ;
Omi . customTags = [ ] ;
Omi . mapping = { } ;
Omi . STYLEPREFIX = "omi_style_" ;
Omi . STYLESCOPEDPREFIX = "omi_scoped_" ;
//fix ie bug
if ( typeof Object . assign != 'function' ) {
Object . assign = function ( target ) {
'use strict' ;
if ( target == null ) {
throw new TypeError ( 'Cannot convert undefined or null to object' ) ;
}
target = Object ( target ) ;
for ( var index = 1 ; index < arguments . length ; index ++ ) {
var source = arguments [ index ] ;
if ( source != null ) {
for ( var key in source ) {
if ( Object . prototype . hasOwnProperty . call ( source , key ) ) {
target [ key ] = source [ key ] ;
}
}
}
}
return target ;
} ;
}
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/ * *
* Shim for "fixing" IE ' s lack of support ( IE < 9 ) for applying slice
* on host objects like NamedNodeMap , NodeList , and HTMLCollection
* ( technically , since host objects have been implementation - dependent ,
* at least before ES6 , IE hasn ' t needed to work this way ) .
* Also works on strings , fixes IE < 9 to allow an explicit undefined
* for the 2 nd argument ( as in Firefox ) , and prevents errors when
* called on other DOM objects .
* /
( function ( ) {
'use strict' ;
var _slice = Array . prototype . slice ;
try {
// Can't be used with DOM elements in IE < 9
_slice . call ( document . documentElement ) ;
} catch ( e ) {
// Fails in IE < 9
// This will work for genuine arrays, array-like objects,
// NamedNodeMap (attributes, entities, notations),
// NodeList (e.g., getElementsByTagName), HTMLCollection (e.g., childNodes),
// and will not fail on other DOM objects (as do DOM elements in IE < 9)
Array . prototype . slice = function ( begin , end ) {
// IE < 9 gets unhappy with an undefined end argument
end = typeof end !== 'undefined' ? end : this . length ;
// For native Array objects, we use the native slice function
if ( Object . prototype . toString . call ( this ) === '[object Array]' ) {
return _slice . call ( this , begin , end ) ;
}
// For array like object we handle it ourselves.
var i ,
cloned = [ ] ,
size ,
len = this . length ;
// Handle negative value for "begin"
var start = begin || 0 ;
start = start >= 0 ? start : len + start ;
// Handle negative value for "end"
var upTo = end ? end : len ;
if ( end < 0 ) {
upTo = len + end ;
}
// Actual expected size of the slice
size = upTo - start ;
if ( size > 0 ) {
cloned = new Array ( size ) ;
if ( this . charAt ) {
for ( i = 0 ; i < size ; i ++ ) {
cloned [ i ] = this . charAt ( start + i ) ;
}
} else {
for ( i = 0 ; i < size ; i ++ ) {
cloned [ i ] = this [ start + i ] ;
}
}
}
return cloned ;
} ;
}
} ) ( ) ;
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var _createClass = function ( ) {
function defineProperties ( target , props ) {
for ( var i = 0 ; i < props . length ; i ++ ) {
var descriptor = props [ i ] ; descriptor . enumerable = descriptor . enumerable || false ; descriptor . configurable = true ; if ( "value" in descriptor ) descriptor . writable = true ; Object . defineProperty ( target , descriptor . key , descriptor ) ;
}
} return function ( Constructor , protoProps , staticProps ) {
if ( protoProps ) defineProperties ( Constructor . prototype , protoProps ) ; if ( staticProps ) defineProperties ( Constructor , staticProps ) ; return Constructor ;
} ;
} ( ) ;
function _classCallCheck ( instance , Constructor ) {
if ( ! ( instance instanceof Constructor ) ) {
throw new TypeError ( "Cannot call a class as a function" ) ;
}
}
function _possibleConstructorReturn ( self , call ) {
if ( ! self ) {
throw new ReferenceError ( "this hasn't been initialised - super() hasn't been called" ) ;
} return call && ( ( typeof call === "undefined" ? "undefined" : _typeof ( call ) ) === "object" || typeof call === "function" ) ? call : self ;
}
function _inherits ( subClass , superClass ) {
if ( typeof superClass !== "function" && superClass !== null ) {
throw new TypeError ( "Super expression must either be null or a function, not " + ( typeof superClass === "undefined" ? "undefined" : _typeof ( superClass ) ) ) ;
} subClass . prototype = Object . create ( superClass && superClass . prototype , { constructor : { value : subClass , enumerable : false , writable : true , configurable : true } } ) ; if ( superClass ) Object . setPrototypeOf ? Object . setPrototypeOf ( subClass , superClass ) : subClass . _ _proto _ _ = superClass ;
}
function toArr ( obj ) {
var arr = [ ] ;
for ( var key in obj ) {
if ( obj . hasOwnProperty ( key ) ) {
arr . push ( { key : key , value : obj [ key ] } ) ;
}
}
return arr ;
}
Omi . create = function ( tagName , parent , setting ) {
var u _setting = parent ,
u _parent = Omi . Component ;
if ( arguments . length > 2 ) {
u _setting = setting ;
u _parent = parent ;
}
Omi [ tagName ] = function ( parent ) {
_inherits ( Obj , parent ) ;
function Obj ( data , server ) {
_classCallCheck ( this , Obj ) ;
this . _ _ _omi _constructor _name = tagName ;
return _possibleConstructorReturn ( this , ( Obj . _ _proto _ _ || Object . getPrototypeOf ( Obj ) ) . call ( this , data , server ) ) ;
}
_createClass ( Obj , toArr ( u _setting ) ) ;
return Obj ;
} ( u _parent ) ;
Omi . customTags . push ( tagName ) ;
return Omi [ tagName ] ;
} ;
Omi . mixIndex = function ( array , key ) {
var len = array . length ,
indexName = key || "index" ;
for ( var i = 0 ; i < len ; i ++ ) {
var item = array [ i ] ;
if ( ( typeof item === "undefined" ? "undefined" : _typeof ( item ) ) === "object" ) {
item [ indexName ] = i ;
} else {
array [ i ] = { value : item } ;
array [ i ] [ indexName ] = i ;
}
}
return array ;
} ;
Omi . $ = function ( selector , context ) {
if ( context ) {
return context . querySelector ( selector ) ;
} else {
return document . querySelector ( selector ) ;
}
} ;
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Omi . $$ = function ( selector , context ) {
if ( context ) {
return Array . prototype . slice . call ( context . querySelectorAll ( selector ) ) ;
} else {
return Array . prototype . slice . call ( document . querySelectorAll ( selector ) ) ;
}
} ;
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Omi . getClassFromString = function ( str ) {
if ( str . indexOf ( '.' ) !== 0 ) {
var arr = str . split ( '.' ) ;
var len = arr . length ;
var current = Omi [ arr [ 0 ] ] ;
for ( var i = 1 ; i < len ; i ++ ) {
current = current [ arr [ i ] ] ;
}
return current ;
} else {
return Omi [ str ] ;
}
} ;
//<2F> <> ǰ<EFBFBD> <C7B0> Component<6E> ľ<EFBFBD> ̬<EFBFBD> <CCAC> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> Ƶ<EFBFBD> omi<6D> <69> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> Ȼmakehtml <20> <> ie<69> <65> child<6C> <64> <EFBFBD> ʲ<EFBFBD> <CAB2> <EFBFBD> <EFBFBD> <EFBFBD> <EFBFBD> ľ<D7B5> ̬<EFBFBD> <CCAC> <EFBFBD> <EFBFBD>
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Omi . makeHTML = function ( name , ctor ) {
Omi [ name ] = ctor ;
Omi . customTags . push ( name ) ;
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} ;
Omi . render = function ( component , renderTo , increment ) {
component . renderTo = typeof renderTo === "string" ? document . querySelector ( renderTo ) : renderTo ;
component . _omi _increment = increment ;
component . install ( ) ;
component . _render ( true ) ;
component . installed ( ) ;
component . _childrenInstalled ( component ) ;
return component ;
} ;
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Omi . get = function ( name ) {
return Omi . mapping [ name ] ;
} ;
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Omi . plugins = { } ;
Omi . extendPlugin = function ( name , handler ) {
Omi . plugins [ name ] = handler ;
} ;
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Omi . getParameters = function ( dom , instance , types ) {
var data = { } ;
var noop = function noop ( ) { } ;
var methodMapping = {
stringType : function stringType ( value ) {
return value ;
} ,
numberType : function numberType ( value ) {
return Number ( value ) ;
} ,
booleanType : function booleanType ( value ) {
if ( value === 'true' ) {
return true ;
} else if ( value === 'false' ) {
return false ;
} else {
return Boolean ( value ) ;
}
} ,
functionType : function functionType ( value ) {
if ( value ) {
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var handler = instance [ value . replace ( /Omi.instances\[\d\]./ , '' ) ] ;
if ( handler ) {
return handler . bind ( instance ) ;
} else {
console . warn ( 'You do not define [ ' + value + ' ] method in following component' ) ;
console . warn ( instance ) ;
}
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} else {
return noop ;
}
}
} ;
Object . keys ( types ) . forEach ( function ( type ) {
types [ type ] . forEach ( function ( name ) {
var attr = dom . getAttribute ( name ) ;
if ( attr !== null ) {
data [ name ] = methodMapping [ type ] ( attr ) ;
}
} ) ;
} ) ;
return data ;
} ;
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Omi . mixIndexToArray = function ( arr , indexName ) {
arr . forEach ( function ( item , index ) {
item [ indexName || 'index' ] = index ;
} ) ;
} ;
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module . exports = Omi ;
/***/ } ,
/* 2 */
/***/ function ( module , exports , _ _webpack _require _ _ ) {
var _ _WEBPACK _AMD _DEFINE _FACTORY _ _ , _ _WEBPACK _AMD _DEFINE _ARRAY _ _ , _ _WEBPACK _AMD _DEFINE _RESULT _ _ ; 'use strict' ;
var _typeof = typeof Symbol === "function" && typeof Symbol . iterator === "symbol" ? function ( obj ) { return typeof obj ; } : function ( obj ) { return obj && typeof Symbol === "function" && obj . constructor === Symbol && obj !== Symbol . prototype ? "symbol" : typeof obj ; } ;
/ * !
* mustache . js - Logic - less { { mustache } } templates with JavaScript
* http : //github.com/janl/mustache.js
* /
/*global define: false Mustache: true*/
( function defineMustache ( global , factory ) {
if ( ( false ? 'undefined' : _typeof ( exports ) ) === 'object' && exports && typeof exports . nodeName !== 'string' ) {
factory ( exports ) ; // CommonJS
} else if ( true ) {
! ( _ _WEBPACK _AMD _DEFINE _ARRAY _ _ = [ exports ] , _ _WEBPACK _AMD _DEFINE _FACTORY _ _ = ( factory ) , _ _WEBPACK _AMD _DEFINE _RESULT _ _ = ( typeof _ _WEBPACK _AMD _DEFINE _FACTORY _ _ === 'function' ? ( _ _WEBPACK _AMD _DEFINE _FACTORY _ _ . apply ( exports , _ _WEBPACK _AMD _DEFINE _ARRAY _ _ ) ) : _ _WEBPACK _AMD _DEFINE _FACTORY _ _ ) , _ _WEBPACK _AMD _DEFINE _RESULT _ _ !== undefined && ( module . exports = _ _WEBPACK _AMD _DEFINE _RESULT _ _ ) ) ; // AMD
} else {
global . Mustache = { } ;
factory ( global . Mustache ) ; // script, wsh, asp
}
} ) ( undefined , function mustacheFactory ( mustache ) {
var objectToString = Object . prototype . toString ;
var isArray = Array . isArray || function isArrayPolyfill ( object ) {
return objectToString . call ( object ) === '[object Array]' ;
} ;
function isFunction ( object ) {
return typeof object === 'function' ;
}
/ * *
* More correct typeof string handling array
* which normally returns typeof 'object'
* /
function typeStr ( obj ) {
return isArray ( obj ) ? 'array' : typeof obj === 'undefined' ? 'undefined' : _typeof ( obj ) ;
}
function escapeRegExp ( string ) {
return string . replace ( /[\-\[\]{}()*+?.,\\\^$|#\s]/g , '\\$&' ) ;
}
/ * *
* Null safe way of checking whether or not an object ,
* including its prototype , has a given property
* /
function hasProperty ( obj , propName ) {
return obj != null && ( typeof obj === 'undefined' ? 'undefined' : _typeof ( obj ) ) === 'object' && propName in obj ;
}
// Workaround for https://issues.apache.org/jira/browse/COUCHDB-577
// See https://github.com/janl/mustache.js/issues/189
var regExpTest = RegExp . prototype . test ;
function testRegExp ( re , string ) {
return regExpTest . call ( re , string ) ;
}
var nonSpaceRe = /\S/ ;
function isWhitespace ( string ) {
return ! testRegExp ( nonSpaceRe , string ) ;
}
var entityMap = {
'&' : '&' ,
'<' : '<' ,
'>' : '>' ,
'"' : '"' ,
"'" : ''' ,
'/' : '/' ,
'`' : '`' ,
'=' : '='
} ;
function escapeHtml ( string ) {
return String ( string ) . replace ( /[&<>"'`=\/]/g , function fromEntityMap ( s ) {
return entityMap [ s ] ;
} ) ;
}
var whiteRe = /\s*/ ;
var spaceRe = /\s+/ ;
var equalsRe = /\s*=/ ;
var curlyRe = /\s*\}/ ;
var tagRe = /#|\^|\/|>|\{|&|=|!/ ;
/ * *
* Breaks up the given ` template ` string into a tree of tokens . If the ` tags `
* argument is given here it must be an array with two string values : the
* opening and closing tags used in the template ( e . g . [ "<%" , "%>" ] ) . Of
* course , the default is to use mustaches ( i . e . mustache . tags ) .
*
* A token is an array with at least 4 elements . The first element is the
* mustache symbol that was used inside the tag , e . g . "#" or "&" . If the tag
* did not contain a symbol ( i . e . { { myValue } } ) this element is "name" . For
* all text that appears outside a symbol this element is "text" .
*
* The second element of a token is its "value" . For mustache tags this is
* whatever else was inside the tag besides the opening symbol . For text tokens
* this is the text itself .
*
* The third and fourth elements of the token are the start and end indices ,
* respectively , of the token in the original template .
*
* Tokens that are the root node of a subtree contain two more elements : 1 ) an
* array of tokens in the subtree and 2 ) the index in the original template at
* which the closing tag for that section begins .
* /
function parseTemplate ( template , tags ) {
if ( ! template ) return [ ] ;
var sections = [ ] ; // Stack to hold section tokens
var tokens = [ ] ; // Buffer to hold the tokens
var spaces = [ ] ; // Indices of whitespace tokens on the current line
var hasTag = false ; // Is there a {{tag}} on the current line?
var nonSpace = false ; // Is there a non-space char on the current line?
// Strips all whitespace tokens array for the current line
// if there was a {{#tag}} on it and otherwise only space.
function stripSpace ( ) {
if ( hasTag && ! nonSpace ) {
while ( spaces . length ) {
delete tokens [ spaces . pop ( ) ] ;
}
} else {
spaces = [ ] ;
}
hasTag = false ;
nonSpace = false ;
}
var openingTagRe , closingTagRe , closingCurlyRe ;
function compileTags ( tagsToCompile ) {
if ( typeof tagsToCompile === 'string' ) tagsToCompile = tagsToCompile . split ( spaceRe , 2 ) ;
if ( ! isArray ( tagsToCompile ) || tagsToCompile . length !== 2 ) throw new Error ( 'Invalid tags: ' + tagsToCompile ) ;
openingTagRe = new RegExp ( escapeRegExp ( tagsToCompile [ 0 ] ) + '\\s*' ) ;
closingTagRe = new RegExp ( '\\s*' + escapeRegExp ( tagsToCompile [ 1 ] ) ) ;
closingCurlyRe = new RegExp ( '\\s*' + escapeRegExp ( '}' + tagsToCompile [ 1 ] ) ) ;
}
compileTags ( tags || mustache . tags ) ;
var scanner = new Scanner ( template ) ;
var start , type , value , chr , token , openSection ;
while ( ! scanner . eos ( ) ) {
start = scanner . pos ;
// Match any text between tags.
value = scanner . scanUntil ( openingTagRe ) ;
if ( value ) {
for ( var i = 0 , valueLength = value . length ; i < valueLength ; ++ i ) {
chr = value . charAt ( i ) ;
if ( isWhitespace ( chr ) ) {
spaces . push ( tokens . length ) ;
} else {
nonSpace = true ;
}
tokens . push ( [ 'text' , chr , start , start + 1 ] ) ;
start += 1 ;
// Check for whitespace on the current line.
if ( chr === '\n' ) stripSpace ( ) ;
}
}
// Match the opening tag.
if ( ! scanner . scan ( openingTagRe ) ) break ;
hasTag = true ;
// Get the tag type.
type = scanner . scan ( tagRe ) || 'name' ;
scanner . scan ( whiteRe ) ;
// Get the tag value.
if ( type === '=' ) {
value = scanner . scanUntil ( equalsRe ) ;
scanner . scan ( equalsRe ) ;
scanner . scanUntil ( closingTagRe ) ;
} else if ( type === '{' ) {
value = scanner . scanUntil ( closingCurlyRe ) ;
scanner . scan ( curlyRe ) ;
scanner . scanUntil ( closingTagRe ) ;
type = '&' ;
} else {
value = scanner . scanUntil ( closingTagRe ) ;
}
// Match the closing tag.
if ( ! scanner . scan ( closingTagRe ) ) throw new Error ( 'Unclosed tag at ' + scanner . pos ) ;
token = [ type , value , start , scanner . pos ] ;
tokens . push ( token ) ;
if ( type === '#' || type === '^' ) {
sections . push ( token ) ;
} else if ( type === '/' ) {
// Check section nesting.
openSection = sections . pop ( ) ;
if ( ! openSection ) throw new Error ( 'Unopened section "' + value + '" at ' + start ) ;
if ( openSection [ 1 ] !== value ) throw new Error ( 'Unclosed section "' + openSection [ 1 ] + '" at ' + start ) ;
} else if ( type === 'name' || type === '{' || type === '&' ) {
nonSpace = true ;
} else if ( type === '=' ) {
// Set the tags for the next time around.
compileTags ( value ) ;
}
}
// Make sure there are no open sections when we're done.
openSection = sections . pop ( ) ;
if ( openSection ) throw new Error ( 'Unclosed section "' + openSection [ 1 ] + '" at ' + scanner . pos ) ;
return nestTokens ( squashTokens ( tokens ) ) ;
}
/ * *
* Combines the values of consecutive text tokens in the given ` tokens ` array
* to a single token .
* /
function squashTokens ( tokens ) {
var squashedTokens = [ ] ;
var token , lastToken ;
for ( var i = 0 , numTokens = tokens . length ; i < numTokens ; ++ i ) {
token = tokens [ i ] ;
if ( token ) {
if ( token [ 0 ] === 'text' && lastToken && lastToken [ 0 ] === 'text' ) {
lastToken [ 1 ] += token [ 1 ] ;
lastToken [ 3 ] = token [ 3 ] ;
} else {
squashedTokens . push ( token ) ;
lastToken = token ;
}
}
}
return squashedTokens ;
}
/ * *
* Forms the given array of ` tokens ` into a nested tree structure where
* tokens that represent a section have two additional items : 1 ) an array of
* all tokens that appear in that section and 2 ) the index in the original
* template that represents the end of that section .
* /
function nestTokens ( tokens ) {
var nestedTokens = [ ] ;
var collector = nestedTokens ;
var sections = [ ] ;
var token , section ;
for ( var i = 0 , numTokens = tokens . length ; i < numTokens ; ++ i ) {
token = tokens [ i ] ;
switch ( token [ 0 ] ) {
case '#' :
case '^' :
collector . push ( token ) ;
sections . push ( token ) ;
collector = token [ 4 ] = [ ] ;
break ;
case '/' :
section = sections . pop ( ) ;
section [ 5 ] = token [ 2 ] ;
collector = sections . length > 0 ? sections [ sections . length - 1 ] [ 4 ] : nestedTokens ;
break ;
default :
collector . push ( token ) ;
}
}
return nestedTokens ;
}
/ * *
* A simple string scanner that is used by the template parser to find
* tokens in template strings .
* /
function Scanner ( string ) {
this . string = string ;
this . tail = string ;
this . pos = 0 ;
}
/ * *
* Returns ` true ` if the tail is empty ( end of string ) .
* /
Scanner . prototype . eos = function eos ( ) {
return this . tail === '' ;
} ;
/ * *
* Tries to match the given regular expression at the current position .
* Returns the matched text if it can match , the empty string otherwise .
* /
Scanner . prototype . scan = function scan ( re ) {
var match = this . tail . match ( re ) ;
if ( ! match || match . index !== 0 ) return '' ;
var string = match [ 0 ] ;
this . tail = this . tail . substring ( string . length ) ;
this . pos += string . length ;
return string ;
} ;
/ * *
* Skips all text until the given regular expression can be matched . Returns
* the skipped string , which is the entire tail if no match can be made .
* /
Scanner . prototype . scanUntil = function scanUntil ( re ) {
var index = this . tail . search ( re ) ,
match ;
switch ( index ) {
case - 1 :
match = this . tail ;
this . tail = '' ;
break ;
case 0 :
match = '' ;
break ;
default :
match = this . tail . substring ( 0 , index ) ;
this . tail = this . tail . substring ( index ) ;
}
this . pos += match . length ;
return match ;
} ;
/ * *
* Represents a rendering context by wrapping a view object and
* maintaining a reference to the parent context .
* /
function Context ( view , parentContext ) {
this . view = view ;
this . cache = { '.' : this . view } ;
this . parent = parentContext ;
}
/ * *
* Creates a new context using the given view with this context
* as the parent .
* /
Context . prototype . push = function push ( view ) {
return new Context ( view , this ) ;
} ;
/ * *
* Returns the value of the given name in this context , traversing
* up the context hierarchy if the value is absent in this context ' s view .
* /
Context . prototype . lookup = function lookup ( name ) {
var cache = this . cache ;
var value ;
if ( cache . hasOwnProperty ( name ) ) {
value = cache [ name ] ;
} else {
var context = this ,
names ,
index ,
lookupHit = false ;
while ( context ) {
if ( name . indexOf ( '.' ) > 0 ) {
value = context . view ;
names = name . split ( '.' ) ;
index = 0 ;
/ * *
* Using the dot notion path in ` name ` , we descend through the
* nested objects .
*
* To be certain that the lookup has been successful , we have to
* check if the last object in the path actually has the property
* we are looking for . We store the result in ` lookupHit ` .
*
* This is specially necessary for when the value has been set to
* ` undefined ` and we want to avoid looking up parent contexts .
* * /
while ( value != null && index < names . length ) {
if ( index === names . length - 1 ) lookupHit = hasProperty ( value , names [ index ] ) ;
value = value [ names [ index ++ ] ] ;
}
} else {
value = context . view [ name ] ;
lookupHit = hasProperty ( context . view , name ) ;
}
if ( lookupHit ) break ;
context = context . parent ;
}
cache [ name ] = value ;
}
if ( isFunction ( value ) ) value = value . call ( this . view ) ;
return value ;
} ;
/ * *
* A Writer knows how to take a stream of tokens and render them to a
* string , given a context . It also maintains a cache of templates to
* avoid the need to parse the same template twice .
* /
function Writer ( ) {
this . cache = { } ;
}
/ * *
* Clears all cached templates in this writer .
* /
Writer . prototype . clearCache = function clearCache ( ) {
this . cache = { } ;
} ;
/ * *
* Parses and caches the given ` template ` and returns the array of tokens
* that is generated from the parse .
* /
Writer . prototype . parse = function parse ( template , tags ) {
var cache = this . cache ;
var tokens = cache [ template ] ;
if ( tokens == null ) tokens = cache [ template ] = parseTemplate ( template , tags ) ;
return tokens ;
} ;
/ * *
* High - level method that is used to render the given ` template ` with
* the given ` view ` .
*
* The optional ` partials ` argument may be an object that contains the
* names and templates of partials that are used in the template . It may
* also be a function that is used to load partial templates on the fly
* that takes a single argument : the name of the partial .
* /
Writer . prototype . render = function render ( template , view , partials ) {
var tokens = this . parse ( template ) ;
var context = view instanceof Context ? view : new Context ( view ) ;
return this . renderTokens ( tokens , context , partials , template ) ;
} ;
/ * *
* Low - level method that renders the given array of ` tokens ` using
* the given ` context ` and ` partials ` .
*
* Note : The ` originalTemplate ` is only ever used to extract the portion
* of the original template that was contained in a higher - order section .
* If the template doesn ' t use higher - order sections , this argument may
* be omitted .
* /
Writer . prototype . renderTokens = function renderTokens ( tokens , context , partials , originalTemplate ) {
var buffer = '' ;
var token , symbol , value ;
for ( var i = 0 , numTokens = tokens . length ; i < numTokens ; ++ i ) {
value = undefined ;
token = tokens [ i ] ;
symbol = token [ 0 ] ;
if ( symbol === '#' ) value = this . renderSection ( token , context , partials , originalTemplate ) ; else if ( symbol === '^' ) value = this . renderInverted ( token , context , partials , originalTemplate ) ; else if ( symbol === '>' ) value = this . renderPartial ( token , context , partials , originalTemplate ) ; else if ( symbol === '&' ) value = this . unescapedValue ( token , context ) ; else if ( symbol === 'name' ) value = this . escapedValue ( token , context ) ; else if ( symbol === 'text' ) value = this . rawValue ( token ) ;
if ( value !== undefined ) buffer += value ;
}
return buffer ;
} ;
Writer . prototype . renderSection = function renderSection ( token , context , partials , originalTemplate ) {
var self = this ;
var buffer = '' ;
var value = context . lookup ( token [ 1 ] ) ;
// This function is used to render an arbitrary template
// in the current context by higher-order sections.
function subRender ( template ) {
return self . render ( template , context , partials ) ;
}
if ( ! value ) return ;
if ( isArray ( value ) ) {
for ( var j = 0 , valueLength = value . length ; j < valueLength ; ++ j ) {
buffer += this . renderTokens ( token [ 4 ] , context . push ( value [ j ] ) , partials , originalTemplate ) ;
}
} else if ( ( typeof value === 'undefined' ? 'undefined' : _typeof ( value ) ) === 'object' || typeof value === 'string' || typeof value === 'number' ) {
buffer += this . renderTokens ( token [ 4 ] , context . push ( value ) , partials , originalTemplate ) ;
} else if ( isFunction ( value ) ) {
if ( typeof originalTemplate !== 'string' ) throw new Error ( 'Cannot use higher-order sections without the original template' ) ;
// Extract the portion of the original template that the section contains.
value = value . call ( context . view , originalTemplate . slice ( token [ 3 ] , token [ 5 ] ) , subRender ) ;
if ( value != null ) buffer += value ;
} else {
buffer += this . renderTokens ( token [ 4 ] , context , partials , originalTemplate ) ;
}
return buffer ;
} ;
Writer . prototype . renderInverted = function renderInverted ( token , context , partials , originalTemplate ) {
var value = context . lookup ( token [ 1 ] ) ;
// Use JavaScript's definition of falsy. Include empty arrays.
// See https://github.com/janl/mustache.js/issues/186
if ( ! value || isArray ( value ) && value . length === 0 ) return this . renderTokens ( token [ 4 ] , context , partials , originalTemplate ) ;
} ;
Writer . prototype . renderPartial = function renderPartial ( token , context , partials ) {
if ( ! partials ) return ;
var value = isFunction ( partials ) ? partials ( token [ 1 ] ) : partials [ token [ 1 ] ] ;
if ( value != null ) return this . renderTokens ( this . parse ( value ) , context , partials , value ) ;
} ;
Writer . prototype . unescapedValue = function unescapedValue ( token , context ) {
var value = context . lookup ( token [ 1 ] ) ;
if ( value != null ) return value ;
} ;
Writer . prototype . escapedValue = function escapedValue ( token , context ) {
var value = context . lookup ( token [ 1 ] ) ;
if ( value != null ) return mustache . escape ( value ) ;
} ;
Writer . prototype . rawValue = function rawValue ( token ) {
return token [ 1 ] ;
} ;
mustache . name = 'mustache.js' ;
mustache . version = '2.3.0' ;
mustache . tags = [ '{{' , '}}' ] ;
// All high-level mustache.* functions use this writer.
var defaultWriter = new Writer ( ) ;
/ * *
* Clears all cached templates in the default writer .
* /
mustache . clearCache = function clearCache ( ) {
return defaultWriter . clearCache ( ) ;
} ;
/ * *
* Parses and caches the given template in the default writer and returns the
* array of tokens it contains . Doing this ahead of time avoids the need to
* parse templates on the fly as they are rendered .
* /
mustache . parse = function parse ( template , tags ) {
return defaultWriter . parse ( template , tags ) ;
} ;
/ * *
* Renders the ` template ` with the given ` view ` and ` partials ` using the
* default writer .
* /
mustache . render = function render ( template , view , partials ) {
if ( typeof template !== 'string' ) {
throw new TypeError ( 'Invalid template! Template should be a "string" ' + 'but "' + typeStr ( template ) + '" was given as the first ' + 'argument for mustache#render(template, view, partials)' ) ;
}
return defaultWriter . render ( template , view , partials ) ;
} ;
// This is here for backwards compatibility with 0.4.x.,
/*eslint-disable */ // eslint wants camel cased function name
mustache . to _html = function to _html ( template , view , partials , send ) {
/*eslint-enable*/
var result = mustache . render ( template , view , partials ) ;
if ( isFunction ( send ) ) {
send ( result ) ;
} else {
return result ;
}
} ;
// Export the escaping function so that the user may override it.
// See https://github.com/janl/mustache.js/issues/244
mustache . escape = escapeHtml ;
// Export these mainly for testing, but also for advanced usage.
mustache . Scanner = Scanner ;
mustache . Context = Context ;
mustache . Writer = Writer ;
return mustache ;
} ) ;
/***/ } ,
/* 3 */
/***/ function ( module , exports , _ _webpack _require _ _ ) {
'use strict' ;
Object . defineProperty ( exports , "__esModule" , {
value : true
} ) ;
var _createClass = function ( ) { function defineProperties ( target , props ) { for ( var i = 0 ; i < props . length ; i ++ ) { var descriptor = props [ i ] ; descriptor . enumerable = descriptor . enumerable || false ; descriptor . configurable = true ; if ( "value" in descriptor ) descriptor . writable = true ; Object . defineProperty ( target , descriptor . key , descriptor ) ; } } return function ( Constructor , protoProps , staticProps ) { if ( protoProps ) defineProperties ( Constructor . prototype , protoProps ) ; if ( staticProps ) defineProperties ( Constructor , staticProps ) ; return Constructor ; } ; } ( ) ;
var _omi = _ _webpack _require _ _ ( 1 ) ;
var _omi2 = _interopRequireDefault ( _omi ) ;
var _style = _ _webpack _require _ _ ( 4 ) ;
var _style2 = _interopRequireDefault ( _style ) ;
var _event = _ _webpack _require _ _ ( 5 ) ;
var _event2 = _interopRequireDefault ( _event ) ;
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var _morphdom = _ _webpack _require _ _ ( 6 ) ;
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var _morphdom2 = _interopRequireDefault ( _morphdom ) ;
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var _html2json = _ _webpack _require _ _ ( 7 ) ;
var _html2json2 = _interopRequireDefault ( _html2json ) ;
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function _interopRequireDefault ( obj ) { return obj && obj . _ _esModule ? obj : { 'default' : obj } ; }
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function _classCallCheck ( instance , Constructor ) { if ( ! ( instance instanceof Constructor ) ) { throw new TypeError ( "Cannot call a class as a function" ) ; } }
var Component = function ( ) {
function Component ( data , server ) {
_classCallCheck ( this , Component ) ;
//re render the server-side rendering html on the client-side
var type = Object . prototype . toString . call ( data ) ;
var isReRendering = type !== '[object Object]' && type !== '[object Undefined]' ;
if ( isReRendering ) {
this . renderTo = typeof data === "string" ? document . querySelector ( data ) : data ;
this . _hidden = this . renderTo . querySelector ( '.omi_scoped__hidden_data' ) ;
this . id = this . _hidden . dataset . omiId ;
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this . data = JSON . parse ( this . _hidden . value ) ;
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} else {
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this . data = data || { } ;
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this . _omi _server _rendering = server ;
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this . id = this . _omi _server _rendering ? 1000000 + _omi2 [ 'default' ] . getInstanceId ( ) : _omi2 [ 'default' ] . getInstanceId ( ) ;
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}
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this . refs = { } ;
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this . children = [ ] ;
this . childrenData = [ ] ;
this . HTML = null ;
this . _addedItems = [ ] ;
this . _omi _order = [ ] ;
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_omi2 [ 'default' ] . instances [ this . id ] = this ;
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this . dataFirst = true ;
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this . _omi _scoped _attr = _omi2 [ 'default' ] . STYLESCOPEDPREFIX + this . id ;
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//this.BODY_ELEMENT = document.createElement('body');
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this . _preCSS = null ;
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this . _omiGroupDataCounter = { } ;
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if ( this . _omi _server _rendering || isReRendering ) {
this . install ( ) ;
this . _render ( true ) ;
this . installed ( ) ;
this . _childrenInstalled ( this ) ;
}
}
_createClass ( Component , [ {
key : 'install' ,
value : function install ( ) { }
} , {
key : 'installed' ,
value : function installed ( ) { }
} , {
key : 'uninstall' ,
value : function uninstall ( ) { }
} , {
key : 'afterUpdate' ,
value : function afterUpdate ( ) { }
} , {
key : 'beforeUpdate' ,
value : function beforeUpdate ( ) { }
} , {
key : 'render' ,
value : function render ( ) { }
} , {
key : 'style' ,
value : function style ( ) { }
} , {
key : 'update' ,
value : function update ( ) {
this . beforeUpdate ( ) ;
if ( this . renderTo ) {
this . _render ( ) ;
} else {
// update child node
if ( this . _omi _removed ) {
var hdNode = this . _createHiddenNode ( ) ;
this . node . parentNode . replaceChild ( hdNode , this . node ) ;
this . node = hdNode ;
} else {
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( 0 , _morphdom2 [ 'default' ] ) ( this . node , ( 0 , _event2 [ 'default' ] ) ( this . _childRender ( this . _omiChildStr ) , this . id ) ) ;
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this . node = document . querySelector ( "[" + this . _omi _scoped _attr + "]" ) ;
this . _queryElements ( this ) ;
this . _fixForm ( ) ;
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}
}
//update added components
this . _renderAddedChildren ( ) ;
this . afterUpdate ( ) ;
}
} , {
key : 'setData' ,
value : function setData ( data , update ) {
this . data = data ;
if ( update ) {
this . update ( ) ;
}
}
} , {
key : 'removeChild' ,
value : function removeChild ( indexOrChild ) {
var child = indexOrChild ;
if ( typeof indexOrChild === 'number' ) {
child = this . children [ indexOrChild ] ;
}
child . remove ( ) ;
}
} , {
key : 'restoreChild' ,
value : function restoreChild ( indexOrChild ) {
var child = indexOrChild ;
if ( typeof indexOrChild === 'number' ) {
child = this . children [ indexOrChild ] ;
}
child . restore ( ) ;
}
} , {
key : 'setComponentOrder' ,
value : function setComponentOrder ( arr ) {
var _this = this ;
arr . forEach ( function ( item , index ) {
_this . _omi _order [ index ] = item ;
} ) ;
this . update ( ) ;
}
//beforeBegin,beforeEnd,afterBegin,afterEnd
} , {
key : 'addComponent' ,
value : function addComponent ( position , el , component ) {
this . _addedItems . push ( { position : position , el : el , component : component } ) ;
this . update ( ) ;
}
} , {
key : 'removeComponent' ,
value : function removeComponent ( component ) {
for ( var i = 0 , len = this . _addedItems . length ; i < len ; i ++ ) {
if ( component . id === this . _addedItems [ i ] . component . id ) {
this . _addedItems . splice ( i , 1 ) ;
break ;
}
}
this . update ( ) ;
}
} , {
key : 'remove' ,
value : function remove ( ) {
this . _omi _removed = true ;
this . update ( ) ;
this . uninstall ( ) ;
}
} , {
key : 'restore' ,
value : function restore ( ) {
this . _omi _removed = false ;
this . update ( ) ;
this . installed ( ) ;
}
} , {
key : '_renderAddedChildren' ,
value : function _renderAddedChildren ( ) {
var _this2 = this ;
this . _addedItems . forEach ( function ( item ) {
var target = typeof item . el === "string" ? _this2 . node . querySelector ( item . el ) : item . el ;
item . component . install ( ) ;
item . component . _render ( true ) ;
item . component . installed ( ) ;
item . component . _childrenInstalled ( item . component ) ;
target . insertAdjacentHTML ( item . position , item . component . HTML ) ;
} ) ;
this . children . forEach ( function ( child ) {
child . _renderAddedChildren ( ) ;
} ) ;
}
} , {
key : '_render' ,
value : function _render ( isFirst ) {
var _this3 = this ;
if ( this . _omi _removed ) {
var node = this . _createHiddenNode ( ) ;
if ( ! isFirst ) {
this . node . parentNode . replaceChild ( node , this . node ) ;
this . node = node ;
} else if ( this . renderTo ) {
this . renderTo . appendChild ( node ) ;
}
return ;
}
this . _generateHTMLCSS ( ) ;
this . _extractChildren ( this ) ;
if ( isFirst ) {
this . children . forEach ( function ( item , index ) {
_this3 . _omi _order [ index ] = index ;
} ) ;
}
this . children . forEach ( function ( item , index ) {
_this3 . HTML = _this3 . HTML . replace ( item . _omiChildStr , _this3 . children [ _this3 . _omi _order [ index ] ] . HTML ) ;
} ) ;
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this . HTML = ( 0 , _event2 [ 'default' ] ) ( this . HTML , this . id ) ;
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if ( isFirst ) {
if ( this . renderTo ) {
if ( this . _omi _increment ) {
this . renderTo . insertAdjacentHTML ( 'beforeend' , this . HTML ) ;
} else {
this . renderTo . innerHTML = this . HTML ;
}
}
} else {
if ( this . HTML !== "" ) {
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( 0 , _morphdom2 [ 'default' ] ) ( this . node , this . HTML ) ;
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} else {
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( 0 , _morphdom2 [ 'default' ] ) ( this . node , this . _createHiddenNode ( ) ) ;
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}
}
//get node prop from parent node
if ( this . renderTo ) {
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this . node = document . querySelector ( "[" + this . _omi _scoped _attr + "]" ) ;
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this . _queryElements ( this ) ;
this . _fixForm ( ) ;
}
}
} , {
key : '_childRender' ,
value : function _childRender ( childStr , isFirst ) {
var _this4 = this ;
if ( this . _omi _removed ) {
this . HTML = '<input type="hidden" omi_scoped_' + this . id + ' >' ;
return this . HTML ;
}
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//childStr = childStr.replace("<child", "<div").replace("/>", "></div>");
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this . _mergeData ( childStr ) ;
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this . _generateHTMLCSS ( ) ;
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this . _extractChildren ( this ) ;
if ( isFirst ) {
this . children . forEach ( function ( item , index ) {
_this4 . _omi _order [ index ] = index ;
} ) ;
}
this . children . forEach ( function ( item , index ) {
_this4 . HTML = _this4 . HTML . replace ( item . _omiChildStr , _this4 . children [ _this4 . _omi _order [ index ] ] . HTML ) ;
} ) ;
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this . HTML = ( 0 , _event2 [ 'default' ] ) ( this . HTML , this . id ) ;
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return this . HTML ;
}
} , {
key : '_queryElements' ,
value : function _queryElements ( current ) {
current . _mixRefs ( ) ;
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current . _execPlugins ( ) ;
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current . children . forEach ( function ( item ) {
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item . node = current . node . querySelector ( "[" + _omi2 [ 'default' ] . STYLESCOPEDPREFIX + item . id + "]" ) ;
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//recursion get node prop from parent node
current . _queryElements ( item ) ;
} ) ;
}
} , {
key : '_mixRefs' ,
value : function _mixRefs ( ) {
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var _this5 = this ;
var nodes = _omi2 [ 'default' ] . $$ ( '*[ref]' , this . node ) ;
nodes . forEach ( function ( node ) {
if ( node . hasAttribute ( _this5 . _omi _scoped _attr ) ) {
_this5 . refs [ node . getAttribute ( 'ref' ) ] = node ;
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}
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} ) ;
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var attr = this . node . getAttribute ( 'ref' ) ;
if ( attr ) {
this . refs [ attr ] = this . node ;
}
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}
} , {
key : '_execPlugins' ,
value : function _execPlugins ( ) {
var _this6 = this ;
Object . keys ( _omi2 [ 'default' ] . plugins ) . forEach ( function ( item ) {
var nodes = _omi2 [ 'default' ] . $$ ( '*[' + item + ']' , _this6 . node ) ;
nodes . forEach ( function ( node ) {
if ( node . hasAttribute ( _this6 . _omi _scoped _attr ) ) {
_omi2 [ 'default' ] . plugins [ item ] ( node , _this6 ) ;
}
} ) ;
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if ( _this6 . node . hasAttribute ( item ) ) {
_omi2 [ 'default' ] . plugins [ item ] ( _this6 . node , _this6 ) ;
}
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} ) ;
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}
} , {
key : '_childrenInstalled' ,
value : function _childrenInstalled ( root ) {
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var _this7 = this ;
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root . children . forEach ( function ( child ) {
child . installed ( ) ;
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_this7 . _childrenInstalled ( child ) ;
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} ) ;
}
} , {
key : '_fixForm' ,
value : function _fixForm ( ) {
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_omi2 [ 'default' ] . $$ ( 'input' , this . node ) . forEach ( function ( element ) {
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var type = element . type . toLowerCase ( ) ;
if ( element . getAttribute ( 'value' ) === '' ) {
element . value = '' ;
}
if ( type === 'checked' || type === 'radio' ) {
if ( element . hasAttribute ( 'checked' ) ) {
element . checked = 'checked' ;
} else {
element . checked = false ;
}
}
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} ) ;
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_omi2 [ 'default' ] . $$ ( 'textarea' , this . node ) . forEach ( function ( textarea ) {
textarea . value = textarea . getAttribute ( 'value' ) ;
} ) ;
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_omi2 [ 'default' ] . $$ ( 'select' , this . node ) . forEach ( function ( select ) {
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var value = select . getAttribute ( 'value' ) ;
if ( value ) {
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_omi2 [ 'default' ] . $$ ( 'option' , select ) . forEach ( function ( option ) {
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if ( value === option . getAttribute ( 'value' ) ) {
option . setAttribute ( 'selected' , 'selected' ) ;
}
} ) ;
} else {
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var firstOption = _omi2 [ 'default' ] . $$ ( 'option' , select ) [ 0 ] ;
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firstOption && firstOption . setAttribute ( 'selected' , 'selected' ) ;
}
} ) ;
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}
} , {
key : '_replaceTags' ,
value : function _replaceTags ( array , html ) {
var str = array . join ( "|" ) ;
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var reg = new RegExp ( '<(' + str + '+)((?:\\s+[a-zA-Z_:][-a-zA-Z0-9_:.]*(?:\\s*=\\s*(?:(?:"[^"]*")|(?:\'[^\']*\')|[^>\\s]+))?)*)\\s*(\\/?)>' , 'g' ) ;
return html . replace ( reg , function ( m , a ) {
var d = m . length - 2 ;
if ( d >= 0 && m . lastIndexOf ( '/>' ) === m . length - 2 ) {
return m . replace ( '<' + a , '<child tag="' + a + '"' ) . substr ( 0 , m . length + 10 ) + '></child>' ;
} else if ( m . lastIndexOf ( '>' ) === m . length - 1 ) {
return m . replace ( '<' + a , '<child tag="' + a + '"' ) + '</child>' ;
}
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} ) ;
}
} , {
key : '_createHiddenNode' ,
value : function _createHiddenNode ( ) {
var hdNode = document . createElement ( "input" ) ;
hdNode . setAttribute ( "type" , "hidden" ) ;
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hdNode . setAttribute ( this . _omi _scoped _attr , '' ) ;
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return hdNode ;
}
} , {
key : '_mergeData' ,
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value : function _mergeData ( childStr ) {
if ( this . dataFirst ) {
this . data = Object . assign ( { } , this . _getDataset ( childStr ) , this . data ) ;
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} else {
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this . data = Object . assign ( { } , this . data , this . _getDataset ( childStr ) ) ;
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}
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}
} , {
key : '_generateHTMLCSS' ,
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value : function _generateHTMLCSS ( ) {
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this . CSS = this . style ( ) || '' ;
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if ( this . CSS ) {
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this . CSS = _style2 [ 'default' ] . scoper ( this . CSS , "[" + this . _omi _scoped _attr + "]" ) ;
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if ( this . CSS !== this . _preCSS && ! this . _omi _server _rendering ) {
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_style2 [ 'default' ] . addStyle ( this . CSS , this . id ) ;
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this . _preCSS = this . CSS ;
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}
}
var tpl = this . render ( ) ;
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this . HTML = this . _scopedAttr ( _omi2 [ 'default' ] . template ( tpl ? tpl : "" , this . data ) , this . _omi _scoped _attr ) . trim ( ) ;
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if ( this . _omi _server _rendering ) {
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this . HTML = '\r\n<style id="' + _omi2 [ 'default' ] . STYLEPREFIX + this . id + '">\r\n' + this . CSS + '\r\n</style>\r\n' + this . HTML ;
this . HTML += '\r\n<input type="hidden" data-omi-id="' + this . id + '" class="' + _omi2 [ 'default' ] . STYLESCOPEDPREFIX + '_hidden_data" value=\'' + JSON . stringify ( this . data ) + '\' />\r\n' ;
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}
}
} , {
key : '_scopedAttr' ,
value : function _scopedAttr ( html , id ) {
return html . replace ( /<[^/]([A-Za-z]*)[^>]*>/g , function ( m ) {
var str = m . split ( " " ) [ 0 ] . replace ( ">" , "" ) ;
return m . replace ( str , str + " " + id ) ;
} ) ;
}
} , {
key : '_getDataset' ,
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value : function _getDataset ( childStr ) {
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var _this8 = this ;
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var json = ( 0 , _html2json2 [ 'default' ] ) ( childStr ) ;
var attr = json . child [ 0 ] . attr ;
Object . keys ( attr ) . forEach ( function ( key ) {
if ( key . indexOf ( 'data-' ) === 0 ) {
_this8 . _dataset [ _this8 . _capitalize ( key . replace ( 'data-' , '' ) ) ] = attr [ key ] ;
}
} ) ;
return this . _dataset ;
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}
} , {
key : '_capitalize' ,
value : function _capitalize ( str ) {
str = str . toLowerCase ( ) ;
str = str . replace ( /\b\w+\b/g , function ( word ) {
return word . substring ( 0 , 1 ) . toUpperCase ( ) + word . substring ( 1 ) ;
} ) . replace ( /-/g , '' ) ;
return str . substring ( 0 , 1 ) . toLowerCase ( ) + str . substring ( 1 ) ;
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}
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} , {
key : '_extractPropertyFromString' ,
value : function _extractPropertyFromString ( str , instance ) {
var arr = str . replace ( /['|"|\]]/g , '' ) . replace ( /\[/g , '.' ) . split ( '.' ) ;
var current = instance ;
arr . forEach ( function ( prop ) {
current = current [ prop ] ;
} ) ;
arr = null ;
return current ;
}
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} , {
key : '_extractChildren' ,
value : function _extractChildren ( child ) {
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var _this9 = this ;
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if ( _omi2 [ 'default' ] . customTags . length > 0 ) {
child . HTML = this . _replaceTags ( _omi2 [ 'default' ] . customTags , child . HTML ) ;
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}
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var arr = child . HTML . match ( /<child[^>][\s\S]*?tag=['|"](\S*)['|"][\s\S]*?><\/child>/g ) ;
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if ( arr ) {
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arr . forEach ( function ( childStr , i ) {
var json = ( 0 , _html2json2 [ 'default' ] ) ( childStr ) ;
var attr = json . child [ 0 ] . attr ;
var name = attr . tag ;
delete attr . tag ;
var cmi = _this9 . children [ i ] ;
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//if not first time to invoke _extractChildren method
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if ( cmi && cmi . _ _ _omi _constructor _name === name ) {
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cmi . _childRender ( childStr ) ;
} else {
( function ( ) {
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var baseData = { } ;
var dataset = { } ;
var dataFromParent = { } ;
var groupData = { } ;
var omiID = null ;
var instanceName = null ;
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Object . keys ( attr ) . forEach ( function ( key ) {
var value = attr [ key ] ;
if ( key . indexOf ( 'on' ) === 0 ) {
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var handler = child [ value ] ;
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if ( handler ) {
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baseData [ key ] = handler . bind ( child ) ;
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}
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} else if ( key === 'omi-id' ) {
omiID = value ;
} else if ( key === 'name' ) {
instanceName = value ;
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} else if ( key === 'group-data' ) {
if ( child . _omiGroupDataCounter . hasOwnProperty ( value ) ) {
child . _omiGroupDataCounter [ value ] ++ ;
} else {
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child . _omiGroupDataCounter [ value ] = 0 ;
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}
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groupData = _this9 . _extractPropertyFromString ( value , child ) [ child . _omiGroupDataCounter [ value ] ] ;
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} else if ( key . indexOf ( 'data-' ) === 0 ) {
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dataset [ _this9 . _capitalize ( key . replace ( 'data-' , '' ) ) ] = value ;
} else if ( key === 'data' ) {
dataFromParent = _this9 . _extractPropertyFromString ( value , child ) ;
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}
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} ) ;
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var ChildClass = _omi2 [ 'default' ] . getClassFromString ( name ) ;
if ( ! ChildClass ) throw "Can't find Class called [" + name + "]" ;
var sub _child = new ChildClass ( Object . assign ( baseData , child . childrenData [ i ] , dataset , dataFromParent , groupData ) , false ) ;
sub _child . _omiChildStr = childStr ;
sub _child . parent = child ;
sub _child . _ _ _omi _constructor _name = name ;
sub _child . _dataset = { } ;
sub _child . install ( ) ;
omiID && ( _omi2 [ 'default' ] . mapping [ omiID ] = sub _child ) ;
instanceName && ( child [ instanceName ] = sub _child ) ;
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if ( ! cmi ) {
child . children . push ( sub _child ) ;
} else {
child . children [ i ] = sub _child ;
}
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sub _child . _childRender ( childStr , true ) ;
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} ) ( ) ;
}
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} ) ;
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}
}
} ] ) ;
return Component ;
} ( ) ;
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exports [ 'default' ] = Component ;
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/***/ } ,
/* 4 */
/***/ function ( module , exports , _ _webpack _require _ _ ) {
"use strict" ;
Object . defineProperty ( exports , "__esModule" , {
value : true
} ) ;
var _omi = _ _webpack _require _ _ ( 1 ) ;
var _omi2 = _interopRequireDefault ( _omi ) ;
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function _interopRequireDefault ( obj ) { return obj && obj . _ _esModule ? obj : { "default" : obj } ; }
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//many thanks to https://github.com/thomaspark/scoper/
function scoper ( css , prefix ) {
var re = new RegExp ( "([^\r\n,{}]+)(,(?=[^}]*{)|\s*{)" , "g" ) ;
css = css . replace ( re , function ( g0 , g1 , g2 ) {
if ( g1 . match ( /^\s*(@media|@keyframes|to|from|@font-face)/ ) ) {
return g1 + g2 ;
}
if ( g1 . match ( /:scope/ ) ) {
g1 = g1 . replace ( /([^\s]*):scope/ , function ( h0 , h1 ) {
if ( h1 === "" ) {
return "> *" ;
} else {
return "> " + h1 ;
}
} ) ;
}
g1 = g1 . replace ( /^(\s*)/ , g1 . trim ( ) + prefix + "," + "$1" + prefix + " " ) . replace ( /\s+/g , ' ' ) ;
return g1 + g2 ;
} ) ;
return css ;
}
function addStyle ( cssText , id ) {
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var ele = document . getElementById ( _omi2 [ "default" ] . STYLEPREFIX + id ) ,
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head = document . getElementsByTagName ( 'head' ) [ 0 ] ;
if ( ele && ele . parentNode === head ) {
head . removeChild ( ele ) ;
}
var someThingStyles = document . createElement ( 'style' ) ;
head . appendChild ( someThingStyles ) ;
someThingStyles . setAttribute ( 'type' , 'text/css' ) ;
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someThingStyles . setAttribute ( 'id' , _omi2 [ "default" ] . STYLEPREFIX + id ) ;
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if ( ! ! window . ActiveXObject ) {
someThingStyles . styleSheet . cssText = cssText ;
} else {
someThingStyles . textContent = cssText ;
}
}
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exports [ "default" ] = {
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scoper : scoper ,
addStyle : addStyle
} ;
/***/ } ,
/* 5 */
/***/ function ( module , exports ) {
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'use strict' ;
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Object . defineProperty ( exports , "__esModule" , {
value : true
} ) ;
function scopedEvent ( tpl , id ) {
return tpl . replace ( /<[\s\S]*?>/g , function ( item ) {
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return item . replace ( /on(abort|blur|cancel|canplay|canplaythrough|change|click|close|contextmenu|cuechange|dblclick|drag|dragend|dragenter|dragleave|dragover|dragstart|drop|durationchange|emptied|ended|error|focus|input|invalid|keydown|keypress|keyup|load|loadeddata|loadedmetadata|loadstart|mousedown|mouseenter|mouseleave|mousemove|mouseout|mouseover|mouseup|mousewheel|pause|play|playing|progress|ratechange|reset|resize|scroll|seeked|seeking|select|show|stalled|submit|suspend|timeupdate|toggle|volumechange|waiting|autocomplete|autocompleteerror|beforecopy|beforecut|beforepaste|copy|cut|paste|search|selectstart|wheel|webkitfullscreenchange|webkitfullscreenerror|touchstart|touchmove|touchend|touchcancel|pointerdown|pointerup|pointercancel|pointermove|pointerover|pointerout|pointerenter|pointerleave|Abort|Blur|Cancel|CanPlay|CanPlayThrough|Change|Click|Close|ContextMenu|CueChange|DblClick|Drag|DragEnd|DragEnter|DragLeave|DragOver|DragStart|Drop|DurationChange|Emptied|Ended|Error|Focus|Input|Invalid|KeyDown|KeyPress|KeyUp|Load|LoadedData|LoadedMetadata|LoadStart|MouseDown|MouseEnter|MouseLeave|MouseMove|MouseOut|MouseOver|MouseUp|MouseWheel|Pause|Play|Playing|Progress|RateChange|Reset|Resize|Scroll|Seeked|Seeking|Select|Show|Stalled|Submit|Suspend|TimeUpdate|Toggle|VolumeChange|Waiting|AutoComplete|AutoCompleteError|BeforeCopy|BeforeCut|BeforePaste|Copy|Cut|Paste|Search|SelectStart|Wheel|WebkitFullScreenChange|WebkitFullScreenError|TouchStart|TouchMove|TouchEnd|TouchCancel|PointerDown|PointerUp|PointerCancel|PointerMove|PointerOver|PointerOut|PointerEnter|PointerLeave)=('|")([\s\S]*?)\([\s\S]*?\)/g , function ( eventStr , b , c , d ) {
if ( d . indexOf ( 'Omi.instances[' ) === 0 ) {
return eventStr ;
} else {
return eventStr . replace ( /=(['|"])/ , '=$1Omi.instances[' + id + '].' ) ;
}
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} ) ;
} ) ;
} ;
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exports [ 'default' ] = scopedEvent ;
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/***/ } ,
/* 6 */
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/***/ function ( module , exports , _ _webpack _require _ _ ) {
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var _ _WEBPACK _AMD _DEFINE _FACTORY _ _ , _ _WEBPACK _AMD _DEFINE _RESULT _ _ ; 'use strict' ;
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var _typeof = typeof Symbol === "function" && typeof Symbol . iterator === "symbol" ? function ( obj ) { return typeof obj ; } : function ( obj ) { return obj && typeof Symbol === "function" && obj . constructor === Symbol && obj !== Symbol . prototype ? "symbol" : typeof obj ; } ;
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( function ( global , factory ) {
( false ? 'undefined' : _typeof ( exports ) ) === 'object' && typeof module !== 'undefined' ? module . exports = factory ( ) : true ? ! ( _ _WEBPACK _AMD _DEFINE _FACTORY _ _ = ( factory ) , _ _WEBPACK _AMD _DEFINE _RESULT _ _ = ( typeof _ _WEBPACK _AMD _DEFINE _FACTORY _ _ === 'function' ? ( _ _WEBPACK _AMD _DEFINE _FACTORY _ _ . call ( exports , _ _webpack _require _ _ , exports , module ) ) : _ _WEBPACK _AMD _DEFINE _FACTORY _ _ ) , _ _WEBPACK _AMD _DEFINE _RESULT _ _ !== undefined && ( module . exports = _ _WEBPACK _AMD _DEFINE _RESULT _ _ ) ) : global . morphdom = factory ( ) ;
} ) ( undefined , function ( ) {
'use strict' ;
var range ; // Create a range object for efficently rendering strings to elements.
var NS _XHTML = 'http://www.w3.org/1999/xhtml' ;
var doc = typeof document === 'undefined' ? undefined : document ;
var testEl = doc ? doc . body || doc . createElement ( 'div' ) : { } ;
// Fixes <https://github.com/patrick-steele-idem/morphdom/issues/32>
// (IE7+ support) <=IE7 does not support el.hasAttribute(name)
var actualHasAttributeNS ;
if ( testEl . hasAttributeNS ) {
actualHasAttributeNS = function actualHasAttributeNS ( el , namespaceURI , name ) {
return el . hasAttributeNS ( namespaceURI , name ) ;
} ;
} else if ( testEl . hasAttribute ) {
actualHasAttributeNS = function actualHasAttributeNS ( el , namespaceURI , name ) {
return el . hasAttribute ( name ) ;
} ;
} else {
actualHasAttributeNS = function actualHasAttributeNS ( el , namespaceURI , name ) {
return el . getAttributeNode ( namespaceURI , name ) != null ;
} ;
}
var hasAttributeNS = actualHasAttributeNS ;
function toElement ( str ) {
if ( ! range && doc . createRange ) {
range = doc . createRange ( ) ;
range . selectNode ( doc . body ) ;
}
var fragment ;
if ( range && range . createContextualFragment ) {
fragment = range . createContextualFragment ( str ) ;
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} else {
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fragment = doc . createElement ( 'body' ) ;
fragment . innerHTML = str ;
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}
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return fragment . childNodes [ 0 ] ;
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}
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/ * *
* Returns true if two node ' s names are the same .
*
* NOTE : We don ' t bother checking ` namespaceURI ` because you will never find two HTML elements with the same
* nodeName and different namespace URIs .
*
* @ param { Element } a
* @ param { Element } b The target element
* @ return { boolean }
* /
function compareNodeNames ( fromEl , toEl ) {
var fromNodeName = fromEl . nodeName ;
var toNodeName = toEl . nodeName ;
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if ( fromNodeName === toNodeName ) {
return true ;
}
if ( toEl . actualize && fromNodeName . charCodeAt ( 0 ) < 91 && /* from tag name is upper case */
toNodeName . charCodeAt ( 0 ) > 90 /* target tag name is lower case */ ) {
// If the target element is a virtual DOM node then we may need to normalize the tag name
// before comparing. Normal HTML elements that are in the "http://www.w3.org/1999/xhtml"
// are converted to upper case
return fromNodeName === toNodeName . toUpperCase ( ) ;
} else {
return false ;
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}
}
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/ * *
* Create an element , optionally with a known namespace URI .
*
* @ param { string } name the element name , e . g . 'div' or 'svg'
* @ param { string } [ namespaceURI ] the element ' s namespace URI , i . e . the value of
* its ` xmlns ` attribute or its inferred namespace .
*
* @ return { Element }
* /
function createElementNS ( name , namespaceURI ) {
return ! namespaceURI || namespaceURI === NS _XHTML ? doc . createElement ( name ) : doc . createElementNS ( namespaceURI , name ) ;
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}
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/ * *
* Copies the children of one DOM element to another DOM element
* /
function moveChildren ( fromEl , toEl ) {
var curChild = fromEl . firstChild ;
while ( curChild ) {
var nextChild = curChild . nextSibling ;
toEl . appendChild ( curChild ) ;
curChild = nextChild ;
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}
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return toEl ;
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}
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function morphAttrs ( fromNode , toNode ) {
var attrs = toNode . attributes ;
var i ;
var attr ;
var attrName ;
var attrNamespaceURI ;
var attrValue ;
var fromValue ;
for ( i = attrs . length - 1 ; i >= 0 ; -- i ) {
attr = attrs [ i ] ;
attrName = attr . name ;
attrNamespaceURI = attr . namespaceURI ;
attrValue = attr . value ;
if ( attrNamespaceURI ) {
attrName = attr . localName || attrName ;
fromValue = fromNode . getAttributeNS ( attrNamespaceURI , attrName ) ;
if ( fromValue !== attrValue ) {
fromNode . setAttributeNS ( attrNamespaceURI , attrName , attrValue ) ;
}
} else {
fromValue = fromNode . getAttribute ( attrName ) ;
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if ( fromValue !== attrValue ) {
fromNode . setAttribute ( attrName , attrValue ) ;
}
}
}
// Remove any extra attributes found on the original DOM element that
// weren't found on the target element.
attrs = fromNode . attributes ;
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for ( i = attrs . length - 1 ; i >= 0 ; -- i ) {
attr = attrs [ i ] ;
if ( attr . specified !== false ) {
attrName = attr . name ;
attrNamespaceURI = attr . namespaceURI ;
if ( attrNamespaceURI ) {
attrName = attr . localName || attrName ;
if ( ! hasAttributeNS ( toNode , attrNamespaceURI , attrName ) ) {
fromNode . removeAttributeNS ( attrNamespaceURI , attrName ) ;
}
} else {
if ( ! hasAttributeNS ( toNode , null , attrName ) ) {
fromNode . removeAttribute ( attrName ) ;
}
}
}
}
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}
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function syncBooleanAttrProp ( fromEl , toEl , name ) {
if ( fromEl [ name ] !== toEl [ name ] ) {
fromEl [ name ] = toEl [ name ] ;
if ( fromEl [ name ] ) {
fromEl . setAttribute ( name , '' ) ;
} else {
fromEl . removeAttribute ( name , '' ) ;
}
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}
}
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var specialElHandlers = {
/ * *
* Needed for IE . Apparently IE doesn ' t think that "selected" is an
* attribute when reading over the attributes using selectEl . attributes
* /
OPTION : function OPTION ( fromEl , toEl ) {
syncBooleanAttrProp ( fromEl , toEl , 'selected' ) ;
} ,
/ * *
* The "value" attribute is special for the < input > element since it sets
* the initial value . Changing the "value" attribute without changing the
* "value" property will have no effect since it is only used to the set the
* initial value . Similar for the "checked" attribute , and "disabled" .
* /
INPUT : function INPUT ( fromEl , toEl ) {
syncBooleanAttrProp ( fromEl , toEl , 'checked' ) ;
syncBooleanAttrProp ( fromEl , toEl , 'disabled' ) ;
if ( fromEl . value !== toEl . value ) {
fromEl . value = toEl . value ;
}
if ( ! hasAttributeNS ( toEl , null , 'value' ) ) {
fromEl . removeAttribute ( 'value' ) ;
}
} ,
TEXTAREA : function TEXTAREA ( fromEl , toEl ) {
var newValue = toEl . value ;
if ( fromEl . value !== newValue ) {
fromEl . value = newValue ;
}
if ( fromEl . firstChild ) {
// Needed for IE. Apparently IE sets the placeholder as the
// node value and vise versa. This ignores an empty update.
if ( newValue === '' && fromEl . firstChild . nodeValue === fromEl . placeholder ) {
return ;
}
fromEl . firstChild . nodeValue = newValue ;
}
} ,
SELECT : function SELECT ( fromEl , toEl ) {
if ( ! hasAttributeNS ( toEl , null , 'multiple' ) ) {
var selectedIndex = - 1 ;
var i = 0 ;
var curChild = toEl . firstChild ;
while ( curChild ) {
var nodeName = curChild . nodeName ;
if ( nodeName && nodeName . toUpperCase ( ) === 'OPTION' ) {
if ( hasAttributeNS ( curChild , null , 'selected' ) ) {
selectedIndex = i ;
break ;
}
i ++ ;
}
curChild = curChild . nextSibling ;
}
fromEl . selectedIndex = i ;
}
}
} ;
var ELEMENT _NODE = 1 ;
var TEXT _NODE = 3 ;
var COMMENT _NODE = 8 ;
function noop ( ) { }
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function defaultGetNodeKey ( node ) {
return node . id ;
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}
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function morphdomFactory ( morphAttrs ) {
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return function morphdom ( fromNode , toNode , options ) {
if ( ! options ) {
options = { } ;
}
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if ( typeof toNode === 'string' ) {
if ( fromNode . nodeName === '#document' || fromNode . nodeName === 'HTML' ) {
var toNodeHtml = toNode ;
toNode = doc . createElement ( 'html' ) ;
toNode . innerHTML = toNodeHtml ;
} else {
toNode = toElement ( toNode ) ;
}
}
var getNodeKey = options . getNodeKey || defaultGetNodeKey ;
var onBeforeNodeAdded = options . onBeforeNodeAdded || noop ;
var onNodeAdded = options . onNodeAdded || noop ;
var onBeforeElUpdated = options . onBeforeElUpdated || noop ;
var onElUpdated = options . onElUpdated || noop ;
var onBeforeNodeDiscarded = options . onBeforeNodeDiscarded || noop ;
var onNodeDiscarded = options . onNodeDiscarded || noop ;
var onBeforeElChildrenUpdated = options . onBeforeElChildrenUpdated || noop ;
var childrenOnly = options . childrenOnly === true ;
// This object is used as a lookup to quickly find all keyed elements in the original DOM tree.
var fromNodesLookup = { } ;
var keyedRemovalList ;
function addKeyedRemoval ( key ) {
if ( keyedRemovalList ) {
keyedRemovalList . push ( key ) ;
} else {
keyedRemovalList = [ key ] ;
}
}
function walkDiscardedChildNodes ( node , skipKeyedNodes ) {
if ( node . nodeType === ELEMENT _NODE ) {
var curChild = node . firstChild ;
while ( curChild ) {
var key = undefined ;
if ( skipKeyedNodes && ( key = getNodeKey ( curChild ) ) ) {
// If we are skipping keyed nodes then we add the key
// to a list so that it can be handled at the very end.
addKeyedRemoval ( key ) ;
} else {
// Only report the node as discarded if it is not keyed. We do this because
// at the end we loop through all keyed elements that were unmatched
// and then discard them in one final pass.
onNodeDiscarded ( curChild ) ;
if ( curChild . firstChild ) {
walkDiscardedChildNodes ( curChild , skipKeyedNodes ) ;
}
}
curChild = curChild . nextSibling ;
}
}
}
/ * *
* Removes a DOM node out of the original DOM
*
* @ param { Node } node The node to remove
* @ param { Node } parentNode The nodes parent
* @ param { Boolean } skipKeyedNodes If true then elements with keys will be skipped and not discarded .
* @ return { undefined }
* /
function removeNode ( node , parentNode , skipKeyedNodes ) {
if ( onBeforeNodeDiscarded ( node ) === false ) {
return ;
}
if ( parentNode ) {
parentNode . removeChild ( node ) ;
}
onNodeDiscarded ( node ) ;
walkDiscardedChildNodes ( node , skipKeyedNodes ) ;
}
// // TreeWalker implementation is no faster, but keeping this around in case this changes in the future
// function indexTree(root) {
// var treeWalker = document.createTreeWalker(
// root,
// NodeFilter.SHOW_ELEMENT);
//
// var el;
// while((el = treeWalker.nextNode())) {
// var key = getNodeKey(el);
// if (key) {
// fromNodesLookup[key] = el;
// }
// }
// }
// // NodeIterator implementation is no faster, but keeping this around in case this changes in the future
//
// function indexTree(node) {
// var nodeIterator = document.createNodeIterator(node, NodeFilter.SHOW_ELEMENT);
// var el;
// while((el = nodeIterator.nextNode())) {
// var key = getNodeKey(el);
// if (key) {
// fromNodesLookup[key] = el;
// }
// }
// }
function indexTree ( node ) {
if ( node . nodeType === ELEMENT _NODE ) {
var curChild = node . firstChild ;
while ( curChild ) {
var key = getNodeKey ( curChild ) ;
if ( key ) {
fromNodesLookup [ key ] = curChild ;
}
// Walk recursively
indexTree ( curChild ) ;
curChild = curChild . nextSibling ;
}
}
}
indexTree ( fromNode ) ;
function handleNodeAdded ( el ) {
onNodeAdded ( el ) ;
var curChild = el . firstChild ;
while ( curChild ) {
var nextSibling = curChild . nextSibling ;
var key = getNodeKey ( curChild ) ;
if ( key ) {
var unmatchedFromEl = fromNodesLookup [ key ] ;
if ( unmatchedFromEl && compareNodeNames ( curChild , unmatchedFromEl ) ) {
curChild . parentNode . replaceChild ( unmatchedFromEl , curChild ) ;
morphEl ( unmatchedFromEl , curChild ) ;
}
}
handleNodeAdded ( curChild ) ;
curChild = nextSibling ;
}
}
function morphEl ( fromEl , toEl , childrenOnly ) {
var toElKey = getNodeKey ( toEl ) ;
var curFromNodeKey ;
if ( toElKey ) {
// If an element with an ID is being morphed then it is will be in the final
// DOM so clear it out of the saved elements collection
delete fromNodesLookup [ toElKey ] ;
}
if ( toNode . isSameNode && toNode . isSameNode ( fromNode ) ) {
return ;
}
if ( ! childrenOnly ) {
if ( onBeforeElUpdated ( fromEl , toEl ) === false ) {
return ;
}
morphAttrs ( fromEl , toEl ) ;
onElUpdated ( fromEl ) ;
if ( onBeforeElChildrenUpdated ( fromEl , toEl ) === false ) {
return ;
}
}
if ( fromEl . nodeName !== 'TEXTAREA' ) {
var curToNodeChild = toEl . firstChild ;
var curFromNodeChild = fromEl . firstChild ;
var curToNodeKey ;
var fromNextSibling ;
var toNextSibling ;
var matchingFromEl ;
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outer : while ( curToNodeChild ) {
toNextSibling = curToNodeChild . nextSibling ;
curToNodeKey = getNodeKey ( curToNodeChild ) ;
while ( curFromNodeChild ) {
fromNextSibling = curFromNodeChild . nextSibling ;
if ( curToNodeChild . isSameNode && curToNodeChild . isSameNode ( curFromNodeChild ) ) {
curToNodeChild = toNextSibling ;
curFromNodeChild = fromNextSibling ;
continue outer ;
}
curFromNodeKey = getNodeKey ( curFromNodeChild ) ;
var curFromNodeType = curFromNodeChild . nodeType ;
var isCompatible = undefined ;
if ( curFromNodeType === curToNodeChild . nodeType ) {
if ( curFromNodeType === ELEMENT _NODE ) {
// Both nodes being compared are Element nodes
if ( curToNodeKey ) {
// The target node has a key so we want to match it up with the correct element
// in the original DOM tree
if ( curToNodeKey !== curFromNodeKey ) {
// The current element in the original DOM tree does not have a matching key so
// let's check our lookup to see if there is a matching element in the original
// DOM tree
if ( matchingFromEl = fromNodesLookup [ curToNodeKey ] ) {
if ( curFromNodeChild . nextSibling === matchingFromEl ) {
// Special case for single element removals. To avoid removing the original
// DOM node out of the tree (since that can break CSS transitions, etc.),
// we will instead discard the current node and wait until the next
// iteration to properly match up the keyed target element with its matching
// element in the original tree
isCompatible = false ;
} else {
// We found a matching keyed element somewhere in the original DOM tree.
// Let's moving the original DOM node into the current position and morph
// it.
// NOTE: We use insertBefore instead of replaceChild because we want to go through
// the `removeNode()` function for the node that is being discarded so that
// all lifecycle hooks are correctly invoked
fromEl . insertBefore ( matchingFromEl , curFromNodeChild ) ;
fromNextSibling = curFromNodeChild . nextSibling ;
if ( curFromNodeKey ) {
// Since the node is keyed it might be matched up later so we defer
// the actual removal to later
addKeyedRemoval ( curFromNodeKey ) ;
} else {
// NOTE: we skip nested keyed nodes from being removed since there is
// still a chance they will be matched up later
removeNode ( curFromNodeChild , fromEl , true /* skip keyed nodes */ ) ;
}
curFromNodeChild = matchingFromEl ;
}
} else {
// The nodes are not compatible since the "to" node has a key and there
// is no matching keyed node in the source tree
isCompatible = false ;
}
}
} else if ( curFromNodeKey ) {
// The original has a key
isCompatible = false ;
}
isCompatible = isCompatible !== false && compareNodeNames ( curFromNodeChild , curToNodeChild ) ;
if ( isCompatible ) {
// We found compatible DOM elements so transform
// the current "from" node to match the current
// target DOM node.
morphEl ( curFromNodeChild , curToNodeChild ) ;
}
} else if ( curFromNodeType === TEXT _NODE || curFromNodeType == COMMENT _NODE ) {
// Both nodes being compared are Text or Comment nodes
isCompatible = true ;
// Simply update nodeValue on the original node to
// change the text value
curFromNodeChild . nodeValue = curToNodeChild . nodeValue ;
}
}
if ( isCompatible ) {
// Advance both the "to" child and the "from" child since we found a match
curToNodeChild = toNextSibling ;
curFromNodeChild = fromNextSibling ;
continue outer ;
}
// No compatible match so remove the old node from the DOM and continue trying to find a
// match in the original DOM. However, we only do this if the from node is not keyed
// since it is possible that a keyed node might match up with a node somewhere else in the
// target tree and we don't want to discard it just yet since it still might find a
// home in the final DOM tree. After everything is done we will remove any keyed nodes
// that didn't find a home
if ( curFromNodeKey ) {
// Since the node is keyed it might be matched up later so we defer
// the actual removal to later
addKeyedRemoval ( curFromNodeKey ) ;
} else {
// NOTE: we skip nested keyed nodes from being removed since there is
// still a chance they will be matched up later
removeNode ( curFromNodeChild , fromEl , true /* skip keyed nodes */ ) ;
}
curFromNodeChild = fromNextSibling ;
}
// If we got this far then we did not find a candidate match for
// our "to node" and we exhausted all of the children "from"
// nodes. Therefore, we will just append the current "to" node
// to the end
if ( curToNodeKey && ( matchingFromEl = fromNodesLookup [ curToNodeKey ] ) && compareNodeNames ( matchingFromEl , curToNodeChild ) ) {
fromEl . appendChild ( matchingFromEl ) ;
morphEl ( matchingFromEl , curToNodeChild ) ;
} else {
var onBeforeNodeAddedResult = onBeforeNodeAdded ( curToNodeChild ) ;
if ( onBeforeNodeAddedResult !== false ) {
if ( onBeforeNodeAddedResult ) {
curToNodeChild = onBeforeNodeAddedResult ;
}
if ( curToNodeChild . actualize ) {
curToNodeChild = curToNodeChild . actualize ( fromEl . ownerDocument || doc ) ;
}
fromEl . appendChild ( curToNodeChild ) ;
handleNodeAdded ( curToNodeChild ) ;
}
}
curToNodeChild = toNextSibling ;
curFromNodeChild = fromNextSibling ;
}
// We have processed all of the "to nodes". If curFromNodeChild is
// non-null then we still have some from nodes left over that need
// to be removed
while ( curFromNodeChild ) {
fromNextSibling = curFromNodeChild . nextSibling ;
if ( curFromNodeKey = getNodeKey ( curFromNodeChild ) ) {
// Since the node is keyed it might be matched up later so we defer
// the actual removal to later
addKeyedRemoval ( curFromNodeKey ) ;
} else {
// NOTE: we skip nested keyed nodes from being removed since there is
// still a chance they will be matched up later
removeNode ( curFromNodeChild , fromEl , true /* skip keyed nodes */ ) ;
}
curFromNodeChild = fromNextSibling ;
}
}
var specialElHandler = specialElHandlers [ fromEl . nodeName ] ;
if ( specialElHandler ) {
specialElHandler ( fromEl , toEl ) ;
}
} // END: morphEl(...)
var morphedNode = fromNode ;
var morphedNodeType = morphedNode . nodeType ;
var toNodeType = toNode . nodeType ;
if ( ! childrenOnly ) {
// Handle the case where we are given two DOM nodes that are not
// compatible (e.g. <div> --> <span> or <div> --> TEXT)
if ( morphedNodeType === ELEMENT _NODE ) {
if ( toNodeType === ELEMENT _NODE ) {
if ( ! compareNodeNames ( fromNode , toNode ) ) {
onNodeDiscarded ( fromNode ) ;
morphedNode = moveChildren ( fromNode , createElementNS ( toNode . nodeName , toNode . namespaceURI ) ) ;
}
} else {
// Going from an element node to a text node
morphedNode = toNode ;
}
} else if ( morphedNodeType === TEXT _NODE || morphedNodeType === COMMENT _NODE ) {
// Text or comment node
if ( toNodeType === morphedNodeType ) {
morphedNode . nodeValue = toNode . nodeValue ;
return morphedNode ;
} else {
// Text node to something else
morphedNode = toNode ;
}
}
}
if ( morphedNode === toNode ) {
// The "to node" was not compatible with the "from node" so we had to
// toss out the "from node" and use the "to node"
onNodeDiscarded ( fromNode ) ;
} else {
morphEl ( morphedNode , toNode , childrenOnly ) ;
// We now need to loop over any keyed nodes that might need to be
// removed. We only do the removal if we know that the keyed node
// never found a match. When a keyed node is matched up we remove
// it out of fromNodesLookup and we use fromNodesLookup to determine
// if a keyed node has been matched up or not
if ( keyedRemovalList ) {
for ( var i = 0 , len = keyedRemovalList . length ; i < len ; i ++ ) {
var elToRemove = fromNodesLookup [ keyedRemovalList [ i ] ] ;
if ( elToRemove ) {
removeNode ( elToRemove , elToRemove . parentNode , false ) ;
}
}
}
}
if ( ! childrenOnly && morphedNode !== fromNode && fromNode . parentNode ) {
if ( morphedNode . actualize ) {
morphedNode = morphedNode . actualize ( fromNode . ownerDocument || doc ) ;
}
// If we had to swap out the from node with a new node because the old
// node was not compatible with the target node then we need to
// replace the old DOM node in the original DOM tree. This is only
// possible if the original DOM node was part of a DOM tree which
// we know is the case if it has a parent node.
fromNode . parentNode . replaceChild ( morphedNode , fromNode ) ;
}
return morphedNode ;
} ;
}
var morphdom = morphdomFactory ( morphAttrs ) ;
return morphdom ;
} ) ;
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/***/ } ,
/* 7 */
/***/ function ( module , exports ) {
"use strict" ;
Object . defineProperty ( exports , "__esModule" , {
value : true
} ) ;
/ *
* html2json for omi
* https : //github.com/AlloyTeam/omi
*
* Original code by John Resig ( ejohn . org )
* http : //ejohn.org/blog/pure-javascript-html-parser/
* Original code by Erik Arvidsson , Mozilla Public License
* http : //erik.eae.net/simplehtmlparser/simplehtmlparser.js
* Original code by Jxck
* https : //github.com/Jxck/html2json
* /
// Regular Expressions for parsing tags and attributes
var startTag = /^<([-A-Za-z0-9_]+)((?:\s+[a-zA-Z_:][-a-zA-Z0-9_:.]*(?:\s*=\s*(?:(?:"[^"]*")|(?:'[^']*')|[^>\s]+))?)*)\s*(\/?)>/ ,
endTag = /^<\/([-A-Za-z0-9_]+)[^>]*>/ ,
attr = /([a-zA-Z_:][-a-zA-Z0-9_:.]*)(?:\s*=\s*(?:(?:"((?:\\.|[^"])*)")|(?:'((?:\\.|[^'])*)')|([^>\s]+)))?/g ;
var HTMLParser = function HTMLParser ( html , handler ) {
var index ,
chars ,
match ,
stack = [ ] ,
last = html ;
stack . last = function ( ) {
return this [ this . length - 1 ] ;
} ;
while ( html ) {
chars = true ;
// Make sure we're not in a script or style element
if ( ! stack . last ( ) ) {
if ( html . indexOf ( "</" ) == 0 ) {
match = html . match ( endTag ) ;
if ( match ) {
html = html . substring ( match [ 0 ] . length ) ;
match [ 0 ] . replace ( endTag , parseEndTag ) ;
chars = false ;
}
// start tag
} else if ( html . indexOf ( "<" ) == 0 ) {
match = html . match ( startTag ) ;
if ( match ) {
html = html . substring ( match [ 0 ] . length ) ;
match [ 0 ] . replace ( startTag , parseStartTag ) ;
chars = false ;
}
}
if ( chars ) {
index = html . indexOf ( "<" ) ;
var text = index < 0 ? html : html . substring ( 0 , index ) ;
html = index < 0 ? "" : html . substring ( index ) ;
if ( handler . chars ) handler . chars ( text ) ;
}
} else {
html = html . replace ( new RegExp ( "([\\s\\S]*?)<\/" + stack . last ( ) + "[^>]*>" ) , function ( all , text ) {
if ( handler . chars ) handler . chars ( text ) ;
return "" ;
} ) ;
parseEndTag ( "" , stack . last ( ) ) ;
}
if ( html == last ) throw "Parse Error: " + html ;
last = html ;
}
// Clean up any remaining tags
parseEndTag ( ) ;
function parseStartTag ( tag , tagName , rest , unary ) {
tagName = tagName . toLowerCase ( ) ;
unary = ! ! unary ;
if ( ! unary ) stack . push ( tagName ) ;
if ( handler . start ) {
var attrs = [ ] ;
rest . replace ( attr , function ( match , name ) {
var value = arguments [ 2 ] ? arguments [ 2 ] : arguments [ 3 ] ? arguments [ 3 ] : arguments [ 4 ] ? arguments [ 4 ] : "" ;
attrs . push ( {
name : name ,
value : value ,
escaped : value . replace ( /(^|[^\\])"/g , '$1\\\"' ) //"
} ) ;
} ) ;
if ( handler . start ) handler . start ( tagName , attrs , unary ) ;
}
}
function parseEndTag ( tag , tagName ) {
// If no tag name is provided, clean shop
if ( ! tagName ) var pos = 0 ;
// Find the closest opened tag of the same type
else for ( var pos = stack . length - 1 ; pos >= 0 ; pos -- ) {
if ( stack [ pos ] == tagName ) break ;
} if ( pos >= 0 ) {
// Close all the open elements, up the stack
for ( var i = stack . length - 1 ; i >= pos ; i -- ) {
if ( handler . end ) handler . end ( stack [ i ] ) ;
} // Remove the open elements from the stack
stack . length = pos ;
}
}
} ;
var DEBUG = false ;
var debug = DEBUG ? console . log . bind ( console ) : function ( ) { } ;
// Production steps of ECMA-262, Edition 5, 15.4.4.21
// Reference: http://es5.github.io/#x15.4.4.21
if ( ! Array . prototype . reduce ) {
Array . prototype . reduce = function ( callback /*, initialValue*/ ) {
'use strict' ;
if ( this == null ) {
throw new TypeError ( 'Array.prototype.reduce called on null or undefined' ) ;
}
if ( typeof callback !== 'function' ) {
throw new TypeError ( callback + ' is not a function' ) ;
}
var t = Object ( this ) ,
len = t . length >>> 0 ,
k = 0 ,
value ;
if ( arguments . length == 2 ) {
value = arguments [ 1 ] ;
} else {
while ( k < len && ! ( k in t ) ) {
k ++ ;
}
if ( k >= len ) {
throw new TypeError ( 'Reduce of empty array with no initial value' ) ;
}
value = t [ k ++ ] ;
}
for ( ; k < len ; k ++ ) {
if ( k in t ) {
value = callback ( value , t [ k ] , k , t ) ;
}
}
return value ;
} ;
}
var html2json = function html2json ( html ) {
var bufArray = [ ] ;
var results = {
node : 'root' ,
child : [ ]
} ;
HTMLParser ( html , {
start : function start ( tag , attrs , unary ) {
debug ( tag , attrs , unary ) ;
// node for this element
var node = {
node : 'element' ,
tag : tag
} ;
if ( attrs . length !== 0 ) {
node . attr = attrs . reduce ( function ( pre , attr ) {
var name = attr . name ;
var value = attr . value ;
pre [ name ] = value ;
return pre ;
} , { } ) ;
}
if ( unary ) {
// if this tag dosen't have end tag
// like <img src="hoge.png"/>
// add to parents
var parent = bufArray [ 0 ] || results ;
if ( parent . child === undefined ) {
parent . child = [ ] ;
}
parent . child . push ( node ) ;
} else {
bufArray . unshift ( node ) ;
}
} ,
end : function end ( tag ) {
debug ( tag ) ;
// merge into parent tag
var node = bufArray . shift ( ) ;
if ( node . tag !== tag ) console . error ( 'invalid state: mismatch end tag' ) ;
if ( bufArray . length === 0 ) {
results . child . push ( node ) ;
} else {
var parent = bufArray [ 0 ] ;
if ( parent . child === undefined ) {
parent . child = [ ] ;
}
parent . child . push ( node ) ;
}
} ,
chars : function chars ( text ) {
debug ( text ) ;
var node = {
node : 'text' ,
text : text
} ;
if ( bufArray . length === 0 ) {
results . child . push ( node ) ;
} else {
var parent = bufArray [ 0 ] ;
if ( parent . child === undefined ) {
parent . child = [ ] ;
}
parent . child . push ( node ) ;
}
}
} ) ;
return results ;
} ;
exports [ "default" ] = html2json ;
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/***/ }
/******/ ] )
} ) ;
;
