2020-12-06 12:49:50 +00:00
/ * *
2021-01-05 19:33:49 +00:00
* Fuse . js v6 . 4.6 - Lightweight fuzzy - search ( http : //fusejs.io)
2020-12-06 12:49:50 +00:00
*
2021-01-05 19:33:49 +00:00
* Copyright ( c ) 2021 Kiro Risk ( http : //kiro.me)
2020-12-06 12:49:50 +00:00
* All Rights Reserved . Apache Software License 2.0
*
* http : //www.apache.org/licenses/LICENSE-2.0
* /
( function ( global , factory ) {
typeof exports === 'object' && typeof module !== 'undefined' ? module . exports = factory ( ) :
typeof define === 'function' && define . amd ? define ( factory ) :
( global = global || self , global . Fuse = factory ( ) ) ;
} ( this , ( function ( ) { 'use strict' ;
function _typeof ( obj ) {
"@babel/helpers - typeof" ;
if ( typeof Symbol === "function" && typeof Symbol . iterator === "symbol" ) {
_typeof = function ( obj ) {
return typeof obj ;
} ;
} else {
_typeof = function ( obj ) {
return obj && typeof Symbol === "function" && obj . constructor === Symbol && obj !== Symbol . prototype ? "symbol" : typeof obj ;
} ;
}
return _typeof ( obj ) ;
}
function _classCallCheck ( instance , Constructor ) {
if ( ! ( instance instanceof Constructor ) ) {
throw new TypeError ( "Cannot call a class as a 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 ) ;
}
}
function _createClass ( Constructor , protoProps , staticProps ) {
if ( protoProps ) _defineProperties ( Constructor . prototype , protoProps ) ;
if ( staticProps ) _defineProperties ( Constructor , staticProps ) ;
return Constructor ;
}
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 ownKeys ( object , enumerableOnly ) {
var keys = Object . keys ( object ) ;
if ( Object . getOwnPropertySymbols ) {
var symbols = Object . getOwnPropertySymbols ( object ) ;
if ( 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 = arguments [ i ] != null ? arguments [ i ] : { } ;
if ( i % 2 ) {
ownKeys ( Object ( source ) , true ) . forEach ( function ( key ) {
_defineProperty ( target , key , source [ key ] ) ;
} ) ;
} else if ( Object . getOwnPropertyDescriptors ) {
Object . defineProperties ( target , Object . getOwnPropertyDescriptors ( source ) ) ;
} else {
ownKeys ( Object ( source ) ) . forEach ( function ( key ) {
Object . defineProperty ( target , key , Object . getOwnPropertyDescriptor ( source , key ) ) ;
} ) ;
}
}
return target ;
}
function _inherits ( subClass , superClass ) {
if ( typeof superClass !== "function" && superClass !== null ) {
throw new TypeError ( "Super expression must either be null or a function" ) ;
}
subClass . prototype = Object . create ( superClass && superClass . prototype , {
constructor : {
value : subClass ,
writable : true ,
configurable : true
}
} ) ;
if ( superClass ) _setPrototypeOf ( subClass , superClass ) ;
}
function _getPrototypeOf ( o ) {
_getPrototypeOf = Object . setPrototypeOf ? Object . getPrototypeOf : function _getPrototypeOf ( o ) {
return o . _ _proto _ _ || Object . getPrototypeOf ( o ) ;
} ;
return _getPrototypeOf ( o ) ;
}
function _setPrototypeOf ( o , p ) {
_setPrototypeOf = Object . setPrototypeOf || function _setPrototypeOf ( o , p ) {
o . _ _proto _ _ = p ;
return o ;
} ;
return _setPrototypeOf ( o , p ) ;
}
function _isNativeReflectConstruct ( ) {
if ( typeof Reflect === "undefined" || ! Reflect . construct ) return false ;
if ( Reflect . construct . sham ) return false ;
if ( typeof Proxy === "function" ) return true ;
try {
Date . prototype . toString . call ( Reflect . construct ( Date , [ ] , function ( ) { } ) ) ;
return true ;
} catch ( e ) {
return false ;
}
}
function _assertThisInitialized ( self ) {
if ( self === void 0 ) {
throw new ReferenceError ( "this hasn't been initialised - super() hasn't been called" ) ;
}
return self ;
}
function _possibleConstructorReturn ( self , call ) {
if ( call && ( typeof call === "object" || typeof call === "function" ) ) {
return call ;
}
return _assertThisInitialized ( self ) ;
}
function _createSuper ( Derived ) {
var hasNativeReflectConstruct = _isNativeReflectConstruct ( ) ;
return function _createSuperInternal ( ) {
var Super = _getPrototypeOf ( Derived ) ,
result ;
if ( hasNativeReflectConstruct ) {
var NewTarget = _getPrototypeOf ( this ) . constructor ;
result = Reflect . construct ( Super , arguments , NewTarget ) ;
} else {
result = Super . apply ( this , arguments ) ;
}
return _possibleConstructorReturn ( this , result ) ;
} ;
}
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" && Symbol . iterator in Object ( iter ) ) 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." ) ;
}
function isArray ( value ) {
return ! Array . isArray ? getTag ( value ) === '[object Array]' : Array . isArray ( value ) ;
} // Adapted from: https://github.com/lodash/lodash/blob/master/.internal/baseToString.js
var INFINITY = 1 / 0 ;
function baseToString ( value ) {
// Exit early for strings to avoid a performance hit in some environments.
if ( typeof value == 'string' ) {
return value ;
}
var result = value + '' ;
return result == '0' && 1 / value == - INFINITY ? '-0' : result ;
}
function toString ( value ) {
return value == null ? '' : baseToString ( value ) ;
}
function isString ( value ) {
return typeof value === 'string' ;
}
function isNumber ( value ) {
return typeof value === 'number' ;
} // Adapted from: https://github.com/lodash/lodash/blob/master/isBoolean.js
function isBoolean ( value ) {
return value === true || value === false || isObjectLike ( value ) && getTag ( value ) == '[object Boolean]' ;
}
function isObject ( value ) {
return _typeof ( value ) === 'object' ;
} // Checks if `value` is object-like.
function isObjectLike ( value ) {
return isObject ( value ) && value !== null ;
}
function isDefined ( value ) {
return value !== undefined && value !== null ;
}
function isBlank ( value ) {
return ! value . trim ( ) . length ;
} // Gets the `toStringTag` of `value`.
// Adapted from: https://github.com/lodash/lodash/blob/master/.internal/getTag.js
function getTag ( value ) {
return value == null ? value === undefined ? '[object Undefined]' : '[object Null]' : Object . prototype . toString . call ( value ) ;
}
var EXTENDED _SEARCH _UNAVAILABLE = 'Extended search is not available' ;
var INCORRECT _INDEX _TYPE = "Incorrect 'index' type" ;
var LOGICAL _SEARCH _INVALID _QUERY _FOR _KEY = function LOGICAL _SEARCH _INVALID _QUERY _FOR _KEY ( key ) {
return "Invalid value for key " . concat ( key ) ;
} ;
var PATTERN _LENGTH _TOO _LARGE = function PATTERN _LENGTH _TOO _LARGE ( max ) {
return "Pattern length exceeds max of " . concat ( max , "." ) ;
} ;
var MISSING _KEY _PROPERTY = function MISSING _KEY _PROPERTY ( name ) {
return "Missing " . concat ( name , " property in key" ) ;
} ;
var INVALID _KEY _WEIGHT _VALUE = function INVALID _KEY _WEIGHT _VALUE ( key ) {
return "Property 'weight' in key '" . concat ( key , "' must be a positive integer" ) ;
} ;
var hasOwn = Object . prototype . hasOwnProperty ;
var KeyStore = /*#__PURE__*/ function ( ) {
function KeyStore ( keys ) {
var _this = this ;
_classCallCheck ( this , KeyStore ) ;
this . _keys = [ ] ;
this . _keyMap = { } ;
var totalWeight = 0 ;
keys . forEach ( function ( key ) {
var obj = createKey ( key ) ;
totalWeight += obj . weight ;
_this . _keys . push ( obj ) ;
_this . _keyMap [ obj . id ] = obj ;
totalWeight += obj . weight ;
} ) ; // Normalize weights so that their sum is equal to 1
this . _keys . forEach ( function ( key ) {
key . weight /= totalWeight ;
} ) ;
}
_createClass ( KeyStore , [ {
key : "get" ,
value : function get ( keyId ) {
return this . _keyMap [ keyId ] ;
}
} , {
key : "keys" ,
value : function keys ( ) {
return this . _keys ;
}
} , {
key : "toJSON" ,
value : function toJSON ( ) {
return JSON . stringify ( this . _keys ) ;
}
} ] ) ;
return KeyStore ;
} ( ) ;
function createKey ( key ) {
var path = null ;
var id = null ;
var src = null ;
var weight = 1 ;
if ( isString ( key ) || isArray ( key ) ) {
src = key ;
path = createKeyPath ( key ) ;
id = createKeyId ( key ) ;
} else {
if ( ! hasOwn . call ( key , 'name' ) ) {
throw new Error ( MISSING _KEY _PROPERTY ( 'name' ) ) ;
}
var name = key . name ;
src = name ;
if ( hasOwn . call ( key , 'weight' ) ) {
weight = key . weight ;
if ( weight <= 0 ) {
throw new Error ( INVALID _KEY _WEIGHT _VALUE ( name ) ) ;
}
}
path = createKeyPath ( name ) ;
id = createKeyId ( name ) ;
}
return {
path : path ,
id : id ,
weight : weight ,
src : src
} ;
}
function createKeyPath ( key ) {
return isArray ( key ) ? key : key . split ( '.' ) ;
}
function createKeyId ( key ) {
return isArray ( key ) ? key . join ( '.' ) : key ;
}
function get ( obj , path ) {
var list = [ ] ;
var arr = false ;
var deepGet = function deepGet ( obj , path , index ) {
if ( ! isDefined ( obj ) ) {
return ;
}
if ( ! path [ index ] ) {
// If there's no path left, we've arrived at the object we care about.
list . push ( obj ) ;
} else {
var key = path [ index ] ;
var value = obj [ key ] ;
if ( ! isDefined ( value ) ) {
return ;
} // If we're at the last value in the path, and if it's a string/number/bool,
// add it to the list
if ( index === path . length - 1 && ( isString ( value ) || isNumber ( value ) || isBoolean ( value ) ) ) {
list . push ( toString ( value ) ) ;
} else if ( isArray ( value ) ) {
arr = true ; // Search each item in the array.
for ( var i = 0 , len = value . length ; i < len ; i += 1 ) {
deepGet ( value [ i ] , path , index + 1 ) ;
}
} else if ( path . length ) {
// An object. Recurse further.
deepGet ( value , path , index + 1 ) ;
}
}
} ; // Backwards compatibility (since path used to be a string)
deepGet ( obj , isString ( path ) ? path . split ( '.' ) : path , 0 ) ;
return arr ? list : list [ 0 ] ;
}
var MatchOptions = {
// Whether the matches should be included in the result set. When `true`, each record in the result
// set will include the indices of the matched characters.
// These can consequently be used for highlighting purposes.
includeMatches : false ,
// When `true`, the matching function will continue to the end of a search pattern even if
// a perfect match has already been located in the string.
findAllMatches : false ,
// Minimum number of characters that must be matched before a result is considered a match
minMatchCharLength : 1
} ;
var BasicOptions = {
// When `true`, the algorithm continues searching to the end of the input even if a perfect
// match is found before the end of the same input.
isCaseSensitive : false ,
// When true, the matching function will continue to the end of a search pattern even if
includeScore : false ,
// List of properties that will be searched. This also supports nested properties.
keys : [ ] ,
// Whether to sort the result list, by score
shouldSort : true ,
// Default sort function: sort by ascending score, ascending index
sortFn : function sortFn ( a , b ) {
return a . score === b . score ? a . idx < b . idx ? - 1 : 1 : a . score < b . score ? - 1 : 1 ;
}
} ;
var FuzzyOptions = {
// Approximately where in the text is the pattern expected to be found?
location : 0 ,
// At what point does the match algorithm give up. A threshold of '0.0' requires a perfect match
// (of both letters and location), a threshold of '1.0' would match anything.
threshold : 0.6 ,
// Determines how close the match must be to the fuzzy location (specified above).
// An exact letter match which is 'distance' characters away from the fuzzy location
// would score as a complete mismatch. A distance of '0' requires the match be at
// the exact location specified, a threshold of '1000' would require a perfect match
// to be within 800 characters of the fuzzy location to be found using a 0.8 threshold.
distance : 100
} ;
var AdvancedOptions = {
// When `true`, it enables the use of unix-like search commands
useExtendedSearch : false ,
// The get function to use when fetching an object's properties.
// The default will search nested paths *ie foo.bar.baz*
getFn : get ,
// When `true`, search will ignore `location` and `distance`, so it won't matter
// where in the string the pattern appears.
// More info: https://fusejs.io/concepts/scoring-theory.html#fuzziness-score
ignoreLocation : false ,
// When `true`, the calculation for the relevance score (used for sorting) will
// ignore the field-length norm.
// More info: https://fusejs.io/concepts/scoring-theory.html#field-length-norm
ignoreFieldNorm : false
} ;
var Config = _objectSpread2 ( { } , BasicOptions , { } , MatchOptions , { } , FuzzyOptions , { } , AdvancedOptions ) ;
var SPACE = /[^ ]+/g ; // Field-length norm: the shorter the field, the higher the weight.
// Set to 3 decimals to reduce index size.
function norm ( ) {
var mantissa = arguments . length > 0 && arguments [ 0 ] !== undefined ? arguments [ 0 ] : 3 ;
var cache = new Map ( ) ;
2021-01-05 19:33:49 +00:00
var m = Math . pow ( 10 , mantissa ) ;
2020-12-06 12:49:50 +00:00
return {
get : function get ( value ) {
var numTokens = value . match ( SPACE ) . length ;
if ( cache . has ( numTokens ) ) {
return cache . get ( numTokens ) ;
}
2021-01-05 19:33:49 +00:00
var norm = 1 / Math . sqrt ( numTokens ) ; // In place of `toFixed(mantissa)`, for faster computation
var n = parseFloat ( Math . round ( norm * m ) / m ) ;
2020-12-06 12:49:50 +00:00
cache . set ( numTokens , n ) ;
return n ;
} ,
clear : function clear ( ) {
cache . clear ( ) ;
}
} ;
}
var FuseIndex = /*#__PURE__*/ function ( ) {
function FuseIndex ( ) {
var _ref = arguments . length > 0 && arguments [ 0 ] !== undefined ? arguments [ 0 ] : { } ,
_ref$getFn = _ref . getFn ,
getFn = _ref$getFn === void 0 ? Config . getFn : _ref$getFn ;
_classCallCheck ( this , FuseIndex ) ;
this . norm = norm ( 3 ) ;
this . getFn = getFn ;
this . isCreated = false ;
this . setIndexRecords ( ) ;
}
_createClass ( FuseIndex , [ {
key : "setSources" ,
value : function setSources ( ) {
var docs = arguments . length > 0 && arguments [ 0 ] !== undefined ? arguments [ 0 ] : [ ] ;
this . docs = docs ;
}
} , {
key : "setIndexRecords" ,
value : function setIndexRecords ( ) {
var records = arguments . length > 0 && arguments [ 0 ] !== undefined ? arguments [ 0 ] : [ ] ;
this . records = records ;
}
} , {
key : "setKeys" ,
value : function setKeys ( ) {
var _this = this ;
var keys = arguments . length > 0 && arguments [ 0 ] !== undefined ? arguments [ 0 ] : [ ] ;
this . keys = keys ;
this . _keysMap = { } ;
keys . forEach ( function ( key , idx ) {
_this . _keysMap [ key . id ] = idx ;
} ) ;
}
} , {
key : "create" ,
value : function create ( ) {
var _this2 = this ;
if ( this . isCreated || ! this . docs . length ) {
return ;
}
this . isCreated = true ; // List is Array<String>
if ( isString ( this . docs [ 0 ] ) ) {
this . docs . forEach ( function ( doc , docIndex ) {
_this2 . _addString ( doc , docIndex ) ;
} ) ;
} else {
// List is Array<Object>
this . docs . forEach ( function ( doc , docIndex ) {
_this2 . _addObject ( doc , docIndex ) ;
} ) ;
}
this . norm . clear ( ) ;
} // Adds a doc to the end of the index
} , {
key : "add" ,
value : function add ( doc ) {
var idx = this . size ( ) ;
if ( isString ( doc ) ) {
this . _addString ( doc , idx ) ;
} else {
this . _addObject ( doc , idx ) ;
}
} // Removes the doc at the specified index of the index
} , {
key : "removeAt" ,
value : function removeAt ( idx ) {
this . records . splice ( idx , 1 ) ; // Change ref index of every subsquent doc
for ( var i = idx , len = this . size ( ) ; i < len ; i += 1 ) {
this . records [ i ] . i -= 1 ;
}
}
} , {
key : "getValueForItemAtKeyId" ,
value : function getValueForItemAtKeyId ( item , keyId ) {
return item [ this . _keysMap [ keyId ] ] ;
}
} , {
key : "size" ,
value : function size ( ) {
return this . records . length ;
}
} , {
key : "_addString" ,
value : function _addString ( doc , docIndex ) {
if ( ! isDefined ( doc ) || isBlank ( doc ) ) {
return ;
}
var record = {
v : doc ,
i : docIndex ,
n : this . norm . get ( doc )
} ;
this . records . push ( record ) ;
}
} , {
key : "_addObject" ,
value : function _addObject ( doc , docIndex ) {
var _this3 = this ;
var record = {
i : docIndex ,
$ : { }
} ; // Iterate over every key (i.e, path), and fetch the value at that key
this . keys . forEach ( function ( key , keyIndex ) {
// console.log(key)
var value = _this3 . getFn ( doc , key . path ) ;
if ( ! isDefined ( value ) ) {
return ;
}
if ( isArray ( value ) ) {
( function ( ) {
var subRecords = [ ] ;
var stack = [ {
nestedArrIndex : - 1 ,
value : value
} ] ;
while ( stack . length ) {
var _stack$pop = stack . pop ( ) ,
nestedArrIndex = _stack$pop . nestedArrIndex ,
_value = _stack$pop . value ;
if ( ! isDefined ( _value ) ) {
continue ;
}
if ( isString ( _value ) && ! isBlank ( _value ) ) {
var subRecord = {
v : _value ,
i : nestedArrIndex ,
n : _this3 . norm . get ( _value )
} ;
subRecords . push ( subRecord ) ;
} else if ( isArray ( _value ) ) {
_value . forEach ( function ( item , k ) {
stack . push ( {
nestedArrIndex : k ,
value : item
} ) ;
} ) ;
}
}
record . $ [ keyIndex ] = subRecords ;
} ) ( ) ;
} else if ( ! isBlank ( value ) ) {
var subRecord = {
v : value ,
n : _this3 . norm . get ( value )
} ;
record . $ [ keyIndex ] = subRecord ;
}
} ) ;
this . records . push ( record ) ;
}
} , {
key : "toJSON" ,
value : function toJSON ( ) {
return {
keys : this . keys ,
records : this . records
} ;
}
} ] ) ;
return FuseIndex ;
} ( ) ;
function createIndex ( keys , docs ) {
var _ref2 = arguments . length > 2 && arguments [ 2 ] !== undefined ? arguments [ 2 ] : { } ,
_ref2$getFn = _ref2 . getFn ,
getFn = _ref2$getFn === void 0 ? Config . getFn : _ref2$getFn ;
var myIndex = new FuseIndex ( {
getFn : getFn
} ) ;
myIndex . setKeys ( keys . map ( createKey ) ) ;
myIndex . setSources ( docs ) ;
myIndex . create ( ) ;
return myIndex ;
}
function parseIndex ( data ) {
var _ref3 = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : { } ,
_ref3$getFn = _ref3 . getFn ,
getFn = _ref3$getFn === void 0 ? Config . getFn : _ref3$getFn ;
var keys = data . keys ,
records = data . records ;
var myIndex = new FuseIndex ( {
getFn : getFn
} ) ;
myIndex . setKeys ( keys ) ;
myIndex . setIndexRecords ( records ) ;
return myIndex ;
}
function computeScore ( pattern ) {
var _ref = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : { } ,
_ref$errors = _ref . errors ,
errors = _ref$errors === void 0 ? 0 : _ref$errors ,
_ref$currentLocation = _ref . currentLocation ,
currentLocation = _ref$currentLocation === void 0 ? 0 : _ref$currentLocation ,
_ref$expectedLocation = _ref . expectedLocation ,
expectedLocation = _ref$expectedLocation === void 0 ? 0 : _ref$expectedLocation ,
_ref$distance = _ref . distance ,
distance = _ref$distance === void 0 ? Config . distance : _ref$distance ,
_ref$ignoreLocation = _ref . ignoreLocation ,
ignoreLocation = _ref$ignoreLocation === void 0 ? Config . ignoreLocation : _ref$ignoreLocation ;
var accuracy = errors / pattern . length ;
if ( ignoreLocation ) {
return accuracy ;
}
var proximity = Math . abs ( expectedLocation - currentLocation ) ;
if ( ! distance ) {
// Dodge divide by zero error.
return proximity ? 1.0 : accuracy ;
}
return accuracy + proximity / distance ;
}
function convertMaskToIndices ( ) {
var matchmask = arguments . length > 0 && arguments [ 0 ] !== undefined ? arguments [ 0 ] : [ ] ;
var minMatchCharLength = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : Config . minMatchCharLength ;
var indices = [ ] ;
var start = - 1 ;
var end = - 1 ;
var i = 0 ;
for ( var len = matchmask . length ; i < len ; i += 1 ) {
var match = matchmask [ i ] ;
if ( match && start === - 1 ) {
start = i ;
} else if ( ! match && start !== - 1 ) {
end = i - 1 ;
if ( end - start + 1 >= minMatchCharLength ) {
indices . push ( [ start , end ] ) ;
}
start = - 1 ;
}
} // (i-1 - start) + 1 => i - start
if ( matchmask [ i - 1 ] && i - start >= minMatchCharLength ) {
indices . push ( [ start , i - 1 ] ) ;
}
return indices ;
}
// Machine word size
var MAX _BITS = 32 ;
function search ( text , pattern , patternAlphabet ) {
var _ref = arguments . length > 3 && arguments [ 3 ] !== undefined ? arguments [ 3 ] : { } ,
_ref$location = _ref . location ,
location = _ref$location === void 0 ? Config . location : _ref$location ,
_ref$distance = _ref . distance ,
distance = _ref$distance === void 0 ? Config . distance : _ref$distance ,
_ref$threshold = _ref . threshold ,
threshold = _ref$threshold === void 0 ? Config . threshold : _ref$threshold ,
_ref$findAllMatches = _ref . findAllMatches ,
findAllMatches = _ref$findAllMatches === void 0 ? Config . findAllMatches : _ref$findAllMatches ,
_ref$minMatchCharLeng = _ref . minMatchCharLength ,
minMatchCharLength = _ref$minMatchCharLeng === void 0 ? Config . minMatchCharLength : _ref$minMatchCharLeng ,
_ref$includeMatches = _ref . includeMatches ,
includeMatches = _ref$includeMatches === void 0 ? Config . includeMatches : _ref$includeMatches ,
_ref$ignoreLocation = _ref . ignoreLocation ,
ignoreLocation = _ref$ignoreLocation === void 0 ? Config . ignoreLocation : _ref$ignoreLocation ;
if ( pattern . length > MAX _BITS ) {
throw new Error ( PATTERN _LENGTH _TOO _LARGE ( MAX _BITS ) ) ;
}
var patternLen = pattern . length ; // Set starting location at beginning text and initialize the alphabet.
var textLen = text . length ; // Handle the case when location > text.length
var expectedLocation = Math . max ( 0 , Math . min ( location , textLen ) ) ; // Highest score beyond which we give up.
var currentThreshold = threshold ; // Is there a nearby exact match? (speedup)
var bestLocation = expectedLocation ; // Performance: only computer matches when the minMatchCharLength > 1
// OR if `includeMatches` is true.
var computeMatches = minMatchCharLength > 1 || includeMatches ; // A mask of the matches, used for building the indices
var matchMask = computeMatches ? Array ( textLen ) : [ ] ;
var index ; // Get all exact matches, here for speed up
while ( ( index = text . indexOf ( pattern , bestLocation ) ) > - 1 ) {
var score = computeScore ( pattern , {
currentLocation : index ,
expectedLocation : expectedLocation ,
distance : distance ,
ignoreLocation : ignoreLocation
} ) ;
currentThreshold = Math . min ( score , currentThreshold ) ;
bestLocation = index + patternLen ;
if ( computeMatches ) {
var i = 0 ;
while ( i < patternLen ) {
matchMask [ index + i ] = 1 ;
i += 1 ;
}
}
} // Reset the best location
bestLocation = - 1 ;
var lastBitArr = [ ] ;
var finalScore = 1 ;
var binMax = patternLen + textLen ;
var mask = 1 << patternLen - 1 ;
for ( var _i = 0 ; _i < patternLen ; _i += 1 ) {
// Scan for the best match; each iteration allows for one more error.
// Run a binary search to determine how far from the match location we can stray
// at this error level.
var binMin = 0 ;
var binMid = binMax ;
while ( binMin < binMid ) {
var _score2 = computeScore ( pattern , {
errors : _i ,
currentLocation : expectedLocation + binMid ,
expectedLocation : expectedLocation ,
distance : distance ,
ignoreLocation : ignoreLocation
} ) ;
if ( _score2 <= currentThreshold ) {
binMin = binMid ;
} else {
binMax = binMid ;
}
binMid = Math . floor ( ( binMax - binMin ) / 2 + binMin ) ;
} // Use the result from this iteration as the maximum for the next.
binMax = binMid ;
var start = Math . max ( 1 , expectedLocation - binMid + 1 ) ;
var finish = findAllMatches ? textLen : Math . min ( expectedLocation + binMid , textLen ) + patternLen ; // Initialize the bit array
var bitArr = Array ( finish + 2 ) ;
bitArr [ finish + 1 ] = ( 1 << _i ) - 1 ;
for ( var j = finish ; j >= start ; j -= 1 ) {
var currentLocation = j - 1 ;
var charMatch = patternAlphabet [ text . charAt ( currentLocation ) ] ;
if ( computeMatches ) {
// Speed up: quick bool to int conversion (i.e, `charMatch ? 1 : 0`)
matchMask [ currentLocation ] = + ! ! charMatch ;
} // First pass: exact match
bitArr [ j ] = ( bitArr [ j + 1 ] << 1 | 1 ) & charMatch ; // Subsequent passes: fuzzy match
if ( _i ) {
bitArr [ j ] |= ( lastBitArr [ j + 1 ] | lastBitArr [ j ] ) << 1 | 1 | lastBitArr [ j + 1 ] ;
}
if ( bitArr [ j ] & mask ) {
finalScore = computeScore ( pattern , {
errors : _i ,
currentLocation : currentLocation ,
expectedLocation : expectedLocation ,
distance : distance ,
ignoreLocation : ignoreLocation
} ) ; // This match will almost certainly be better than any existing match.
// But check anyway.
if ( finalScore <= currentThreshold ) {
// Indeed it is
currentThreshold = finalScore ;
bestLocation = currentLocation ; // Already passed `loc`, downhill from here on in.
if ( bestLocation <= expectedLocation ) {
break ;
} // When passing `bestLocation`, don't exceed our current distance from `expectedLocation`.
start = Math . max ( 1 , 2 * expectedLocation - bestLocation ) ;
}
}
} // No hope for a (better) match at greater error levels.
var _score = computeScore ( pattern , {
errors : _i + 1 ,
currentLocation : expectedLocation ,
expectedLocation : expectedLocation ,
distance : distance ,
ignoreLocation : ignoreLocation
} ) ;
if ( _score > currentThreshold ) {
break ;
}
lastBitArr = bitArr ;
}
var result = {
isMatch : bestLocation >= 0 ,
// Count exact matches (those with a score of 0) to be "almost" exact
score : Math . max ( 0.001 , finalScore )
} ;
if ( computeMatches ) {
var indices = convertMaskToIndices ( matchMask , minMatchCharLength ) ;
if ( ! indices . length ) {
result . isMatch = false ;
} else if ( includeMatches ) {
result . indices = indices ;
}
}
return result ;
}
function createPatternAlphabet ( pattern ) {
var mask = { } ;
for ( var i = 0 , len = pattern . length ; i < len ; i += 1 ) {
var char = pattern . charAt ( i ) ;
mask [ char ] = ( mask [ char ] || 0 ) | 1 << len - i - 1 ;
}
return mask ;
}
var BitapSearch = /*#__PURE__*/ function ( ) {
function BitapSearch ( pattern ) {
var _this = this ;
var _ref = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : { } ,
_ref$location = _ref . location ,
location = _ref$location === void 0 ? Config . location : _ref$location ,
_ref$threshold = _ref . threshold ,
threshold = _ref$threshold === void 0 ? Config . threshold : _ref$threshold ,
_ref$distance = _ref . distance ,
distance = _ref$distance === void 0 ? Config . distance : _ref$distance ,
_ref$includeMatches = _ref . includeMatches ,
includeMatches = _ref$includeMatches === void 0 ? Config . includeMatches : _ref$includeMatches ,
_ref$findAllMatches = _ref . findAllMatches ,
findAllMatches = _ref$findAllMatches === void 0 ? Config . findAllMatches : _ref$findAllMatches ,
_ref$minMatchCharLeng = _ref . minMatchCharLength ,
minMatchCharLength = _ref$minMatchCharLeng === void 0 ? Config . minMatchCharLength : _ref$minMatchCharLeng ,
_ref$isCaseSensitive = _ref . isCaseSensitive ,
isCaseSensitive = _ref$isCaseSensitive === void 0 ? Config . isCaseSensitive : _ref$isCaseSensitive ,
_ref$ignoreLocation = _ref . ignoreLocation ,
ignoreLocation = _ref$ignoreLocation === void 0 ? Config . ignoreLocation : _ref$ignoreLocation ;
_classCallCheck ( this , BitapSearch ) ;
this . options = {
location : location ,
threshold : threshold ,
distance : distance ,
includeMatches : includeMatches ,
findAllMatches : findAllMatches ,
minMatchCharLength : minMatchCharLength ,
isCaseSensitive : isCaseSensitive ,
ignoreLocation : ignoreLocation
} ;
this . pattern = isCaseSensitive ? pattern : pattern . toLowerCase ( ) ;
this . chunks = [ ] ;
if ( ! this . pattern . length ) {
return ;
}
var addChunk = function addChunk ( pattern , startIndex ) {
_this . chunks . push ( {
pattern : pattern ,
alphabet : createPatternAlphabet ( pattern ) ,
startIndex : startIndex
} ) ;
} ;
var len = this . pattern . length ;
if ( len > MAX _BITS ) {
var i = 0 ;
var remainder = len % MAX _BITS ;
var end = len - remainder ;
while ( i < end ) {
addChunk ( this . pattern . substr ( i , MAX _BITS ) , i ) ;
i += MAX _BITS ;
}
if ( remainder ) {
var startIndex = len - MAX _BITS ;
addChunk ( this . pattern . substr ( startIndex ) , startIndex ) ;
}
} else {
addChunk ( this . pattern , 0 ) ;
}
}
_createClass ( BitapSearch , [ {
key : "searchIn" ,
value : function searchIn ( text ) {
var _this$options = this . options ,
isCaseSensitive = _this$options . isCaseSensitive ,
includeMatches = _this$options . includeMatches ;
if ( ! isCaseSensitive ) {
text = text . toLowerCase ( ) ;
} // Exact match
if ( this . pattern === text ) {
var _result = {
isMatch : true ,
score : 0
} ;
if ( includeMatches ) {
_result . indices = [ [ 0 , text . length - 1 ] ] ;
}
return _result ;
} // Otherwise, use Bitap algorithm
var _this$options2 = this . options ,
location = _this$options2 . location ,
distance = _this$options2 . distance ,
threshold = _this$options2 . threshold ,
findAllMatches = _this$options2 . findAllMatches ,
minMatchCharLength = _this$options2 . minMatchCharLength ,
ignoreLocation = _this$options2 . ignoreLocation ;
var allIndices = [ ] ;
var totalScore = 0 ;
var hasMatches = false ;
this . chunks . forEach ( function ( _ref2 ) {
var pattern = _ref2 . pattern ,
alphabet = _ref2 . alphabet ,
startIndex = _ref2 . startIndex ;
var _search = search ( text , pattern , alphabet , {
location : location + startIndex ,
distance : distance ,
threshold : threshold ,
findAllMatches : findAllMatches ,
minMatchCharLength : minMatchCharLength ,
includeMatches : includeMatches ,
ignoreLocation : ignoreLocation
} ) ,
isMatch = _search . isMatch ,
score = _search . score ,
indices = _search . indices ;
if ( isMatch ) {
hasMatches = true ;
}
totalScore += score ;
if ( isMatch && indices ) {
allIndices = [ ] . concat ( _toConsumableArray ( allIndices ) , _toConsumableArray ( indices ) ) ;
}
} ) ;
var result = {
isMatch : hasMatches ,
score : hasMatches ? totalScore / this . chunks . length : 1
} ;
if ( hasMatches && includeMatches ) {
result . indices = allIndices ;
}
return result ;
}
} ] ) ;
return BitapSearch ;
} ( ) ;
var BaseMatch = /*#__PURE__*/ function ( ) {
function BaseMatch ( pattern ) {
_classCallCheck ( this , BaseMatch ) ;
this . pattern = pattern ;
}
_createClass ( BaseMatch , [ {
key : "search" ,
value : function search ( )
/*text*/
{ }
} ] , [ {
key : "isMultiMatch" ,
value : function isMultiMatch ( pattern ) {
return getMatch ( pattern , this . multiRegex ) ;
}
} , {
key : "isSingleMatch" ,
value : function isSingleMatch ( pattern ) {
return getMatch ( pattern , this . singleRegex ) ;
}
} ] ) ;
return BaseMatch ;
} ( ) ;
function getMatch ( pattern , exp ) {
var matches = pattern . match ( exp ) ;
return matches ? matches [ 1 ] : null ;
}
var ExactMatch = /*#__PURE__*/ function ( _BaseMatch ) {
_inherits ( ExactMatch , _BaseMatch ) ;
var _super = _createSuper ( ExactMatch ) ;
function ExactMatch ( pattern ) {
_classCallCheck ( this , ExactMatch ) ;
return _super . call ( this , pattern ) ;
}
_createClass ( ExactMatch , [ {
key : "search" ,
value : function search ( text ) {
var isMatch = text === this . pattern ;
return {
isMatch : isMatch ,
score : isMatch ? 0 : 1 ,
indices : [ 0 , this . pattern . length - 1 ]
} ;
}
} ] , [ {
key : "type" ,
get : function get ( ) {
return 'exact' ;
}
} , {
key : "multiRegex" ,
get : function get ( ) {
return /^="(.*)"$/ ;
}
} , {
key : "singleRegex" ,
get : function get ( ) {
return /^=(.*)$/ ;
}
} ] ) ;
return ExactMatch ;
} ( BaseMatch ) ;
var InverseExactMatch = /*#__PURE__*/ function ( _BaseMatch ) {
_inherits ( InverseExactMatch , _BaseMatch ) ;
var _super = _createSuper ( InverseExactMatch ) ;
function InverseExactMatch ( pattern ) {
_classCallCheck ( this , InverseExactMatch ) ;
return _super . call ( this , pattern ) ;
}
_createClass ( InverseExactMatch , [ {
key : "search" ,
value : function search ( text ) {
var index = text . indexOf ( this . pattern ) ;
var isMatch = index === - 1 ;
return {
isMatch : isMatch ,
score : isMatch ? 0 : 1 ,
indices : [ 0 , text . length - 1 ]
} ;
}
} ] , [ {
key : "type" ,
get : function get ( ) {
return 'inverse-exact' ;
}
} , {
key : "multiRegex" ,
get : function get ( ) {
return /^!"(.*)"$/ ;
}
} , {
key : "singleRegex" ,
get : function get ( ) {
return /^!(.*)$/ ;
}
} ] ) ;
return InverseExactMatch ;
} ( BaseMatch ) ;
var PrefixExactMatch = /*#__PURE__*/ function ( _BaseMatch ) {
_inherits ( PrefixExactMatch , _BaseMatch ) ;
var _super = _createSuper ( PrefixExactMatch ) ;
function PrefixExactMatch ( pattern ) {
_classCallCheck ( this , PrefixExactMatch ) ;
return _super . call ( this , pattern ) ;
}
_createClass ( PrefixExactMatch , [ {
key : "search" ,
value : function search ( text ) {
var isMatch = text . startsWith ( this . pattern ) ;
return {
isMatch : isMatch ,
score : isMatch ? 0 : 1 ,
indices : [ 0 , this . pattern . length - 1 ]
} ;
}
} ] , [ {
key : "type" ,
get : function get ( ) {
return 'prefix-exact' ;
}
} , {
key : "multiRegex" ,
get : function get ( ) {
return /^\^"(.*)"$/ ;
}
} , {
key : "singleRegex" ,
get : function get ( ) {
return /^\^(.*)$/ ;
}
} ] ) ;
return PrefixExactMatch ;
} ( BaseMatch ) ;
var InversePrefixExactMatch = /*#__PURE__*/ function ( _BaseMatch ) {
_inherits ( InversePrefixExactMatch , _BaseMatch ) ;
var _super = _createSuper ( InversePrefixExactMatch ) ;
function InversePrefixExactMatch ( pattern ) {
_classCallCheck ( this , InversePrefixExactMatch ) ;
return _super . call ( this , pattern ) ;
}
_createClass ( InversePrefixExactMatch , [ {
key : "search" ,
value : function search ( text ) {
var isMatch = ! text . startsWith ( this . pattern ) ;
return {
isMatch : isMatch ,
score : isMatch ? 0 : 1 ,
indices : [ 0 , text . length - 1 ]
} ;
}
} ] , [ {
key : "type" ,
get : function get ( ) {
return 'inverse-prefix-exact' ;
}
} , {
key : "multiRegex" ,
get : function get ( ) {
return /^!\^"(.*)"$/ ;
}
} , {
key : "singleRegex" ,
get : function get ( ) {
return /^!\^(.*)$/ ;
}
} ] ) ;
return InversePrefixExactMatch ;
} ( BaseMatch ) ;
var SuffixExactMatch = /*#__PURE__*/ function ( _BaseMatch ) {
_inherits ( SuffixExactMatch , _BaseMatch ) ;
var _super = _createSuper ( SuffixExactMatch ) ;
function SuffixExactMatch ( pattern ) {
_classCallCheck ( this , SuffixExactMatch ) ;
return _super . call ( this , pattern ) ;
}
_createClass ( SuffixExactMatch , [ {
key : "search" ,
value : function search ( text ) {
var isMatch = text . endsWith ( this . pattern ) ;
return {
isMatch : isMatch ,
score : isMatch ? 0 : 1 ,
indices : [ text . length - this . pattern . length , text . length - 1 ]
} ;
}
} ] , [ {
key : "type" ,
get : function get ( ) {
return 'suffix-exact' ;
}
} , {
key : "multiRegex" ,
get : function get ( ) {
return /^"(.*)"\$$/ ;
}
} , {
key : "singleRegex" ,
get : function get ( ) {
return /^(.*)\$$/ ;
}
} ] ) ;
return SuffixExactMatch ;
} ( BaseMatch ) ;
var InverseSuffixExactMatch = /*#__PURE__*/ function ( _BaseMatch ) {
_inherits ( InverseSuffixExactMatch , _BaseMatch ) ;
var _super = _createSuper ( InverseSuffixExactMatch ) ;
function InverseSuffixExactMatch ( pattern ) {
_classCallCheck ( this , InverseSuffixExactMatch ) ;
return _super . call ( this , pattern ) ;
}
_createClass ( InverseSuffixExactMatch , [ {
key : "search" ,
value : function search ( text ) {
var isMatch = ! text . endsWith ( this . pattern ) ;
return {
isMatch : isMatch ,
score : isMatch ? 0 : 1 ,
indices : [ 0 , text . length - 1 ]
} ;
}
} ] , [ {
key : "type" ,
get : function get ( ) {
return 'inverse-suffix-exact' ;
}
} , {
key : "multiRegex" ,
get : function get ( ) {
return /^!"(.*)"\$$/ ;
}
} , {
key : "singleRegex" ,
get : function get ( ) {
return /^!(.*)\$$/ ;
}
} ] ) ;
return InverseSuffixExactMatch ;
} ( BaseMatch ) ;
var FuzzyMatch = /*#__PURE__*/ function ( _BaseMatch ) {
_inherits ( FuzzyMatch , _BaseMatch ) ;
var _super = _createSuper ( FuzzyMatch ) ;
function FuzzyMatch ( pattern ) {
var _this ;
var _ref = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : { } ,
_ref$location = _ref . location ,
location = _ref$location === void 0 ? Config . location : _ref$location ,
_ref$threshold = _ref . threshold ,
threshold = _ref$threshold === void 0 ? Config . threshold : _ref$threshold ,
_ref$distance = _ref . distance ,
distance = _ref$distance === void 0 ? Config . distance : _ref$distance ,
_ref$includeMatches = _ref . includeMatches ,
includeMatches = _ref$includeMatches === void 0 ? Config . includeMatches : _ref$includeMatches ,
_ref$findAllMatches = _ref . findAllMatches ,
findAllMatches = _ref$findAllMatches === void 0 ? Config . findAllMatches : _ref$findAllMatches ,
_ref$minMatchCharLeng = _ref . minMatchCharLength ,
minMatchCharLength = _ref$minMatchCharLeng === void 0 ? Config . minMatchCharLength : _ref$minMatchCharLeng ,
_ref$isCaseSensitive = _ref . isCaseSensitive ,
isCaseSensitive = _ref$isCaseSensitive === void 0 ? Config . isCaseSensitive : _ref$isCaseSensitive ,
_ref$ignoreLocation = _ref . ignoreLocation ,
ignoreLocation = _ref$ignoreLocation === void 0 ? Config . ignoreLocation : _ref$ignoreLocation ;
_classCallCheck ( this , FuzzyMatch ) ;
_this = _super . call ( this , pattern ) ;
_this . _bitapSearch = new BitapSearch ( pattern , {
location : location ,
threshold : threshold ,
distance : distance ,
includeMatches : includeMatches ,
findAllMatches : findAllMatches ,
minMatchCharLength : minMatchCharLength ,
isCaseSensitive : isCaseSensitive ,
ignoreLocation : ignoreLocation
} ) ;
return _this ;
}
_createClass ( FuzzyMatch , [ {
key : "search" ,
value : function search ( text ) {
return this . _bitapSearch . searchIn ( text ) ;
}
} ] , [ {
key : "type" ,
get : function get ( ) {
return 'fuzzy' ;
}
} , {
key : "multiRegex" ,
get : function get ( ) {
return /^"(.*)"$/ ;
}
} , {
key : "singleRegex" ,
get : function get ( ) {
return /^(.*)$/ ;
}
} ] ) ;
return FuzzyMatch ;
} ( BaseMatch ) ;
var IncludeMatch = /*#__PURE__*/ function ( _BaseMatch ) {
_inherits ( IncludeMatch , _BaseMatch ) ;
var _super = _createSuper ( IncludeMatch ) ;
function IncludeMatch ( pattern ) {
_classCallCheck ( this , IncludeMatch ) ;
return _super . call ( this , pattern ) ;
}
_createClass ( IncludeMatch , [ {
key : "search" ,
value : function search ( text ) {
var location = 0 ;
var index ;
var indices = [ ] ;
var patternLen = this . pattern . length ; // Get all exact matches
while ( ( index = text . indexOf ( this . pattern , location ) ) > - 1 ) {
location = index + patternLen ;
indices . push ( [ index , location - 1 ] ) ;
}
var isMatch = ! ! indices . length ;
return {
isMatch : isMatch ,
2021-01-05 19:33:49 +00:00
score : isMatch ? 0 : 1 ,
2020-12-06 12:49:50 +00:00
indices : indices
} ;
}
} ] , [ {
key : "type" ,
get : function get ( ) {
return 'include' ;
}
} , {
key : "multiRegex" ,
get : function get ( ) {
return /^'"(.*)"$/ ;
}
} , {
key : "singleRegex" ,
get : function get ( ) {
return /^'(.*)$/ ;
}
} ] ) ;
return IncludeMatch ;
} ( BaseMatch ) ;
var searchers = [ ExactMatch , IncludeMatch , PrefixExactMatch , InversePrefixExactMatch , InverseSuffixExactMatch , SuffixExactMatch , InverseExactMatch , FuzzyMatch ] ;
var searchersLen = searchers . length ; // Regex to split by spaces, but keep anything in quotes together
var SPACE _RE = / +(?=([^\"]*\"[^\"]*\")*[^\"]*$)/ ;
var OR _TOKEN = '|' ; // Return a 2D array representation of the query, for simpler parsing.
// Example:
// "^core go$ | rb$ | py$ xy$" => [["^core", "go$"], ["rb$"], ["py$", "xy$"]]
function parseQuery ( pattern ) {
var options = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : { } ;
return pattern . split ( OR _TOKEN ) . map ( function ( item ) {
var query = item . trim ( ) . split ( SPACE _RE ) . filter ( function ( item ) {
return item && ! ! item . trim ( ) ;
} ) ;
var results = [ ] ;
for ( var i = 0 , len = query . length ; i < len ; i += 1 ) {
var queryItem = query [ i ] ; // 1. Handle multiple query match (i.e, once that are quoted, like `"hello world"`)
var found = false ;
var idx = - 1 ;
while ( ! found && ++ idx < searchersLen ) {
var searcher = searchers [ idx ] ;
var token = searcher . isMultiMatch ( queryItem ) ;
if ( token ) {
results . push ( new searcher ( token , options ) ) ;
found = true ;
}
}
if ( found ) {
continue ;
} // 2. Handle single query matches (i.e, once that are *not* quoted)
idx = - 1 ;
while ( ++ idx < searchersLen ) {
var _searcher = searchers [ idx ] ;
var _token = _searcher . isSingleMatch ( queryItem ) ;
if ( _token ) {
results . push ( new _searcher ( _token , options ) ) ;
break ;
}
}
}
return results ;
} ) ;
}
// to a singl match
var MultiMatchSet = new Set ( [ FuzzyMatch . type , IncludeMatch . type ] ) ;
/ * *
* Command - like searching
* === === === === === === === =
*
* Given multiple search terms delimited by spaces . e . g . ` ^jscript .python $ ruby !java ` ,
* search in a given text .
*
* Search syntax :
*
* | Token | Match type | Description |
* | -- -- -- -- -- - | -- -- -- -- -- -- -- -- -- -- -- -- -- | -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- -- |
* | ` jscript ` | fuzzy - match | Items that fuzzy match ` jscript ` |
* | ` =scheme ` | exact - match | Items that are ` scheme ` |
* | ` 'python ` | include - match | Items that include ` python ` |
* | ` !ruby ` | inverse - exact - match | Items that do not include ` ruby ` |
* | ` ^java ` | prefix - exact - match | Items that start with ` java ` |
* | ` !^earlang ` | inverse - prefix - exact - match | Items that do not start with ` earlang ` |
* | ` .js $ ` | suffix - exact - match | Items that end with ` .js ` |
* | ` !.go $ ` | inverse - suffix - exact - match | Items that do not end with ` .go ` |
*
* A single pipe character acts as an OR operator . For example , the following
* query matches entries that start with ` core ` and end with either ` go ` , ` rb ` ,
* or ` py ` .
*
* ` ` `
* ^ core go$ | rb$ | py$
* ` ` `
* /
var ExtendedSearch = /*#__PURE__*/ function ( ) {
function ExtendedSearch ( pattern ) {
var _ref = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : { } ,
_ref$isCaseSensitive = _ref . isCaseSensitive ,
isCaseSensitive = _ref$isCaseSensitive === void 0 ? Config . isCaseSensitive : _ref$isCaseSensitive ,
_ref$includeMatches = _ref . includeMatches ,
includeMatches = _ref$includeMatches === void 0 ? Config . includeMatches : _ref$includeMatches ,
_ref$minMatchCharLeng = _ref . minMatchCharLength ,
minMatchCharLength = _ref$minMatchCharLeng === void 0 ? Config . minMatchCharLength : _ref$minMatchCharLeng ,
_ref$ignoreLocation = _ref . ignoreLocation ,
ignoreLocation = _ref$ignoreLocation === void 0 ? Config . ignoreLocation : _ref$ignoreLocation ,
_ref$findAllMatches = _ref . findAllMatches ,
findAllMatches = _ref$findAllMatches === void 0 ? Config . findAllMatches : _ref$findAllMatches ,
_ref$location = _ref . location ,
location = _ref$location === void 0 ? Config . location : _ref$location ,
_ref$threshold = _ref . threshold ,
threshold = _ref$threshold === void 0 ? Config . threshold : _ref$threshold ,
_ref$distance = _ref . distance ,
distance = _ref$distance === void 0 ? Config . distance : _ref$distance ;
_classCallCheck ( this , ExtendedSearch ) ;
this . query = null ;
this . options = {
isCaseSensitive : isCaseSensitive ,
includeMatches : includeMatches ,
minMatchCharLength : minMatchCharLength ,
findAllMatches : findAllMatches ,
ignoreLocation : ignoreLocation ,
location : location ,
threshold : threshold ,
distance : distance
} ;
this . pattern = isCaseSensitive ? pattern : pattern . toLowerCase ( ) ;
this . query = parseQuery ( this . pattern , this . options ) ;
}
_createClass ( ExtendedSearch , [ {
key : "searchIn" ,
value : function searchIn ( text ) {
var query = this . query ;
if ( ! query ) {
return {
isMatch : false ,
score : 1
} ;
}
var _this$options = this . options ,
includeMatches = _this$options . includeMatches ,
isCaseSensitive = _this$options . isCaseSensitive ;
text = isCaseSensitive ? text : text . toLowerCase ( ) ;
var numMatches = 0 ;
var allIndices = [ ] ;
var totalScore = 0 ; // ORs
for ( var i = 0 , qLen = query . length ; i < qLen ; i += 1 ) {
var searchers = query [ i ] ; // Reset indices
allIndices . length = 0 ;
numMatches = 0 ; // ANDs
for ( var j = 0 , pLen = searchers . length ; j < pLen ; j += 1 ) {
var searcher = searchers [ j ] ;
var _searcher$search = searcher . search ( text ) ,
isMatch = _searcher$search . isMatch ,
indices = _searcher$search . indices ,
score = _searcher$search . score ;
if ( isMatch ) {
numMatches += 1 ;
totalScore += score ;
if ( includeMatches ) {
var type = searcher . constructor . type ;
if ( MultiMatchSet . has ( type ) ) {
allIndices = [ ] . concat ( _toConsumableArray ( allIndices ) , _toConsumableArray ( indices ) ) ;
} else {
allIndices . push ( indices ) ;
}
}
} else {
totalScore = 0 ;
numMatches = 0 ;
allIndices . length = 0 ;
break ;
}
} // OR condition, so if TRUE, return
if ( numMatches ) {
var result = {
isMatch : true ,
score : totalScore / numMatches
} ;
if ( includeMatches ) {
result . indices = allIndices ;
}
return result ;
}
} // Nothing was matched
return {
isMatch : false ,
score : 1
} ;
}
} ] , [ {
key : "condition" ,
value : function condition ( _ , options ) {
return options . useExtendedSearch ;
}
} ] ) ;
return ExtendedSearch ;
} ( ) ;
var registeredSearchers = [ ] ;
function register ( ) {
registeredSearchers . push . apply ( registeredSearchers , arguments ) ;
}
function createSearcher ( pattern , options ) {
for ( var i = 0 , len = registeredSearchers . length ; i < len ; i += 1 ) {
var searcherClass = registeredSearchers [ i ] ;
if ( searcherClass . condition ( pattern , options ) ) {
return new searcherClass ( pattern , options ) ;
}
}
return new BitapSearch ( pattern , options ) ;
}
var LogicalOperator = {
AND : '$and' ,
OR : '$or'
} ;
var KeyType = {
PATH : '$path' ,
PATTERN : '$val'
} ;
var isExpression = function isExpression ( query ) {
return ! ! ( query [ LogicalOperator . AND ] || query [ LogicalOperator . OR ] ) ;
} ;
var isPath = function isPath ( query ) {
return ! ! query [ KeyType . PATH ] ;
} ;
var isLeaf = function isLeaf ( query ) {
return ! isArray ( query ) && isObject ( query ) && ! isExpression ( query ) ;
} ;
var convertToExplicit = function convertToExplicit ( query ) {
return _defineProperty ( { } , LogicalOperator . AND , Object . keys ( query ) . map ( function ( key ) {
return _defineProperty ( { } , key , query [ key ] ) ;
} ) ) ;
} ; // When `auto` is `true`, the parse function will infer and initialize and add
// the appropriate `Searcher` instance
function parse ( query , options ) {
var _ref3 = arguments . length > 2 && arguments [ 2 ] !== undefined ? arguments [ 2 ] : { } ,
_ref3$auto = _ref3 . auto ,
auto = _ref3$auto === void 0 ? true : _ref3$auto ;
var next = function next ( query ) {
var keys = Object . keys ( query ) ;
var isQueryPath = isPath ( query ) ;
if ( ! isQueryPath && keys . length > 1 && ! isExpression ( query ) ) {
return next ( convertToExplicit ( query ) ) ;
}
if ( isLeaf ( query ) ) {
var key = isQueryPath ? query [ KeyType . PATH ] : keys [ 0 ] ;
var pattern = isQueryPath ? query [ KeyType . PATTERN ] : query [ key ] ;
if ( ! isString ( pattern ) ) {
throw new Error ( LOGICAL _SEARCH _INVALID _QUERY _FOR _KEY ( key ) ) ;
}
var obj = {
keyId : createKeyId ( key ) ,
pattern : pattern
} ;
if ( auto ) {
obj . searcher = createSearcher ( pattern , options ) ;
}
return obj ;
}
var node = {
children : [ ] ,
operator : keys [ 0 ]
} ;
keys . forEach ( function ( key ) {
var value = query [ key ] ;
if ( isArray ( value ) ) {
value . forEach ( function ( item ) {
node . children . push ( next ( item ) ) ;
} ) ;
}
} ) ;
return node ;
} ;
if ( ! isExpression ( query ) ) {
query = convertToExplicit ( query ) ;
}
return next ( query ) ;
}
2021-01-05 19:33:49 +00:00
function computeScore$1 ( results , _ref ) {
var _ref$ignoreFieldNorm = _ref . ignoreFieldNorm ,
ignoreFieldNorm = _ref$ignoreFieldNorm === void 0 ? Config . ignoreFieldNorm : _ref$ignoreFieldNorm ;
results . forEach ( function ( result ) {
var totalScore = 1 ;
result . matches . forEach ( function ( _ref2 ) {
var key = _ref2 . key ,
norm = _ref2 . norm ,
score = _ref2 . score ;
var weight = key ? key . weight : null ;
totalScore *= Math . pow ( score === 0 && weight ? Number . EPSILON : score , ( weight || 1 ) * ( ignoreFieldNorm ? 1 : norm ) ) ;
} ) ;
result . score = totalScore ;
} ) ;
}
function transformMatches ( result , data ) {
var matches = result . matches ;
data . matches = [ ] ;
if ( ! isDefined ( matches ) ) {
return ;
}
matches . forEach ( function ( match ) {
if ( ! isDefined ( match . indices ) || ! match . indices . length ) {
return ;
}
var indices = match . indices ,
value = match . value ;
var obj = {
indices : indices ,
value : value
} ;
if ( match . key ) {
obj . key = match . key . src ;
}
if ( match . idx > - 1 ) {
obj . refIndex = match . idx ;
}
data . matches . push ( obj ) ;
} ) ;
}
function transformScore ( result , data ) {
data . score = result . score ;
}
function format ( results , docs ) {
var _ref = arguments . length > 2 && arguments [ 2 ] !== undefined ? arguments [ 2 ] : { } ,
_ref$includeMatches = _ref . includeMatches ,
includeMatches = _ref$includeMatches === void 0 ? Config . includeMatches : _ref$includeMatches ,
_ref$includeScore = _ref . includeScore ,
includeScore = _ref$includeScore === void 0 ? Config . includeScore : _ref$includeScore ;
var transformers = [ ] ;
if ( includeMatches ) transformers . push ( transformMatches ) ;
if ( includeScore ) transformers . push ( transformScore ) ;
return results . map ( function ( result ) {
var idx = result . idx ;
var data = {
item : docs [ idx ] ,
refIndex : idx
} ;
if ( transformers . length ) {
transformers . forEach ( function ( transformer ) {
transformer ( result , data ) ;
} ) ;
}
return data ;
} ) ;
}
2020-12-06 12:49:50 +00:00
var Fuse = /*#__PURE__*/ function ( ) {
function Fuse ( docs ) {
var options = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : { } ;
var index = arguments . length > 2 ? arguments [ 2 ] : undefined ;
_classCallCheck ( this , Fuse ) ;
this . options = _objectSpread2 ( { } , Config , { } , options ) ;
if ( this . options . useExtendedSearch && ! true ) {
throw new Error ( EXTENDED _SEARCH _UNAVAILABLE ) ;
}
this . _keyStore = new KeyStore ( this . options . keys ) ;
this . setCollection ( docs , index ) ;
}
_createClass ( Fuse , [ {
key : "setCollection" ,
value : function setCollection ( docs , index ) {
this . _docs = docs ;
if ( index && ! ( index instanceof FuseIndex ) ) {
throw new Error ( INCORRECT _INDEX _TYPE ) ;
}
this . _myIndex = index || createIndex ( this . options . keys , this . _docs , {
getFn : this . options . getFn
} ) ;
}
} , {
key : "add" ,
value : function add ( doc ) {
if ( ! isDefined ( doc ) ) {
return ;
}
this . _docs . push ( doc ) ;
this . _myIndex . add ( doc ) ;
}
} , {
key : "remove" ,
value : function remove ( ) {
var predicate = arguments . length > 0 && arguments [ 0 ] !== undefined ? arguments [ 0 ] : function ( ) {
return (
/* doc, idx */
false
) ;
} ;
var results = [ ] ;
for ( var i = 0 , len = this . _docs . length ; i < len ; i += 1 ) {
var doc = this . _docs [ i ] ;
if ( predicate ( doc , i ) ) {
this . removeAt ( i ) ;
i -= 1 ;
len -= 1 ;
results . push ( doc ) ;
}
}
return results ;
}
} , {
key : "removeAt" ,
value : function removeAt ( idx ) {
this . _docs . splice ( idx , 1 ) ;
this . _myIndex . removeAt ( idx ) ;
}
} , {
key : "getIndex" ,
value : function getIndex ( ) {
return this . _myIndex ;
}
} , {
key : "search" ,
value : function search ( query ) {
var _ref = arguments . length > 1 && arguments [ 1 ] !== undefined ? arguments [ 1 ] : { } ,
_ref$limit = _ref . limit ,
limit = _ref$limit === void 0 ? - 1 : _ref$limit ;
var _this$options = this . options ,
includeMatches = _this$options . includeMatches ,
includeScore = _this$options . includeScore ,
shouldSort = _this$options . shouldSort ,
sortFn = _this$options . sortFn ,
ignoreFieldNorm = _this$options . ignoreFieldNorm ;
var results = isString ( query ) ? isString ( this . _docs [ 0 ] ) ? this . _searchStringList ( query ) : this . _searchObjectList ( query ) : this . _searchLogical ( query ) ;
computeScore$1 ( results , {
ignoreFieldNorm : ignoreFieldNorm
} ) ;
if ( shouldSort ) {
results . sort ( sortFn ) ;
}
if ( isNumber ( limit ) && limit > - 1 ) {
results = results . slice ( 0 , limit ) ;
}
return format ( results , this . _docs , {
includeMatches : includeMatches ,
includeScore : includeScore
} ) ;
}
} , {
key : "_searchStringList" ,
value : function _searchStringList ( query ) {
var searcher = createSearcher ( query , this . options ) ;
var records = this . _myIndex . records ;
var results = [ ] ; // Iterate over every string in the index
records . forEach ( function ( _ref2 ) {
var text = _ref2 . v ,
idx = _ref2 . i ,
norm = _ref2 . n ;
if ( ! isDefined ( text ) ) {
return ;
}
var _searcher$searchIn = searcher . searchIn ( text ) ,
isMatch = _searcher$searchIn . isMatch ,
score = _searcher$searchIn . score ,
indices = _searcher$searchIn . indices ;
if ( isMatch ) {
results . push ( {
item : text ,
idx : idx ,
matches : [ {
score : score ,
value : text ,
norm : norm ,
indices : indices
} ]
} ) ;
}
} ) ;
return results ;
}
} , {
key : "_searchLogical" ,
value : function _searchLogical ( query ) {
var _this = this ;
var expression = parse ( query , this . options ) ;
var evaluate = function evaluate ( node , item , idx ) {
if ( ! node . children ) {
var keyId = node . keyId ,
searcher = node . searcher ;
var matches = _this . _findMatches ( {
key : _this . _keyStore . get ( keyId ) ,
value : _this . _myIndex . getValueForItemAtKeyId ( item , keyId ) ,
searcher : searcher
} ) ;
if ( matches && matches . length ) {
return [ {
idx : idx ,
item : item ,
matches : matches
} ] ;
}
return [ ] ;
}
/*eslint indent: [2, 2, {"SwitchCase": 1}]*/
switch ( node . operator ) {
case LogicalOperator . AND :
{
var res = [ ] ;
for ( var i = 0 , len = node . children . length ; i < len ; i += 1 ) {
var child = node . children [ i ] ;
var result = evaluate ( child , item , idx ) ;
if ( result . length ) {
res . push . apply ( res , _toConsumableArray ( result ) ) ;
} else {
return [ ] ;
}
}
return res ;
}
case LogicalOperator . OR :
{
var _res = [ ] ;
for ( var _i = 0 , _len = node . children . length ; _i < _len ; _i += 1 ) {
var _child = node . children [ _i ] ;
var _result = evaluate ( _child , item , idx ) ;
if ( _result . length ) {
_res . push . apply ( _res , _toConsumableArray ( _result ) ) ;
break ;
}
}
return _res ;
}
}
} ;
var records = this . _myIndex . records ;
var resultMap = { } ;
var results = [ ] ;
records . forEach ( function ( _ref3 ) {
var item = _ref3 . $ ,
idx = _ref3 . i ;
if ( isDefined ( item ) ) {
var expResults = evaluate ( expression , item , idx ) ;
if ( expResults . length ) {
// Dedupe when adding
if ( ! resultMap [ idx ] ) {
resultMap [ idx ] = {
idx : idx ,
item : item ,
matches : [ ]
} ;
results . push ( resultMap [ idx ] ) ;
}
expResults . forEach ( function ( _ref4 ) {
var _resultMap$idx$matche ;
var matches = _ref4 . matches ;
( _resultMap$idx$matche = resultMap [ idx ] . matches ) . push . apply ( _resultMap$idx$matche , _toConsumableArray ( matches ) ) ;
} ) ;
}
}
} ) ;
return results ;
}
} , {
key : "_searchObjectList" ,
value : function _searchObjectList ( query ) {
var _this2 = this ;
var searcher = createSearcher ( query , this . options ) ;
var _this$ _myIndex = this . _myIndex ,
keys = _this$ _myIndex . keys ,
records = _this$ _myIndex . records ;
var results = [ ] ; // List is Array<Object>
records . forEach ( function ( _ref5 ) {
var item = _ref5 . $ ,
idx = _ref5 . i ;
if ( ! isDefined ( item ) ) {
return ;
}
var matches = [ ] ; // Iterate over every key (i.e, path), and fetch the value at that key
keys . forEach ( function ( key , keyIndex ) {
matches . push . apply ( matches , _toConsumableArray ( _this2 . _findMatches ( {
key : key ,
value : item [ keyIndex ] ,
searcher : searcher
} ) ) ) ;
} ) ;
if ( matches . length ) {
results . push ( {
idx : idx ,
item : item ,
matches : matches
} ) ;
}
} ) ;
return results ;
}
} , {
key : "_findMatches" ,
value : function _findMatches ( _ref6 ) {
var key = _ref6 . key ,
value = _ref6 . value ,
searcher = _ref6 . searcher ;
if ( ! isDefined ( value ) ) {
return [ ] ;
}
var matches = [ ] ;
if ( isArray ( value ) ) {
value . forEach ( function ( _ref7 ) {
var text = _ref7 . v ,
idx = _ref7 . i ,
norm = _ref7 . n ;
if ( ! isDefined ( text ) ) {
return ;
}
var _searcher$searchIn2 = searcher . searchIn ( text ) ,
isMatch = _searcher$searchIn2 . isMatch ,
score = _searcher$searchIn2 . score ,
indices = _searcher$searchIn2 . indices ;
if ( isMatch ) {
matches . push ( {
score : score ,
key : key ,
value : text ,
idx : idx ,
norm : norm ,
indices : indices
} ) ;
}
} ) ;
} else {
var text = value . v ,
norm = value . n ;
var _searcher$searchIn3 = searcher . searchIn ( text ) ,
isMatch = _searcher$searchIn3 . isMatch ,
score = _searcher$searchIn3 . score ,
indices = _searcher$searchIn3 . indices ;
if ( isMatch ) {
matches . push ( {
score : score ,
key : key ,
value : text ,
norm : norm ,
indices : indices
} ) ;
}
}
return matches ;
}
} ] ) ;
return Fuse ;
2021-01-05 19:33:49 +00:00
} ( ) ;
2020-12-06 12:49:50 +00:00
2021-01-05 19:33:49 +00:00
Fuse . version = '6.4.6' ;
2020-12-06 12:49:50 +00:00
Fuse . createIndex = createIndex ;
Fuse . parseIndex = parseIndex ;
Fuse . config = Config ;
{
Fuse . parseQuery = parse ;
}
{
register ( ExtendedSearch ) ;
}
return Fuse ;
} ) ) ) ;