2019-04-09 22:37:39 +03:00
( function ( ) { function r ( e , n , t ) { function o ( i , f ) { if ( ! n [ i ] ) { if ( ! e [ i ] ) { var c = "function" == typeof require && require ; if ( ! f && c ) return c ( i , ! 0 ) ; if ( u ) return u ( i , ! 0 ) ; var a = new Error ( "Cannot find module '" + i + "'" ) ; throw a . code = "MODULE_NOT_FOUND" , a } var p = n [ i ] = { exports : { } } ; e [ i ] [ 0 ] . call ( p . exports , function ( r ) { var n = e [ i ] [ 1 ] [ r ] ; return o ( n || r ) } , p , p . exports , r , e , n , t ) } return n [ i ] . exports } for ( var u = "function" == typeof require && require , i = 0 ; i < t . length ; i ++ ) o ( t [ i ] ) ; return o } return r } ) ( ) ( { 1 : [ function ( require , module , exports ) {
( function ( Buffer ) {
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exports . pq = 1000 ;
exports . pr = 1768 ;
} ) . call ( this , require ( "buffer" ) . Buffer )
} , { "buffer" : 10 } ] , 2 : [ function ( require , module , exports ) {
/ *
Copyright 2019 0 KIMS association .
This file is part of websnark ( Web Assembly zkSnark Prover ) .
websnark is a free software : you can redistribute it and / or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
websnark is distributed in the hope that it will be useful , but WITHOUT
ANY WARRANTY ; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE . See the GNU General Public
License for more details .
You should have received a copy of the GNU General Public License
along with websnark . If not , see < https : //www.gnu.org/licenses/>.
* /
/* globals window */
const buildGroth16 = require ( "./src/groth16.js" ) ;
buildGroth16 ( ) . then ( ( groth16 ) => {
window . genZKSnarkProof = function ( witness , provingKey , cb ) {
const p = groth16 . proof ( witness , provingKey ) ;
if ( cb ) {
p . then ( ( proof ) => {
cb ( null , proof ) ;
} , ( err ) => {
cb ( err ) ;
} ) ;
} else {
return p ;
}
} ;
} ) ;
} , { "./src/groth16.js" : 4 } ] , 3 : [ function ( require , module , exports ) {
var bigInt = ( function ( undefined ) {
"use strict" ;
var BASE = 1e7 ,
LOG _BASE = 7 ,
MAX _INT = 9007199254740992 ,
MAX _INT _ARR = smallToArray ( MAX _INT ) ,
DEFAULT _ALPHABET = "0123456789abcdefghijklmnopqrstuvwxyz" ;
var supportsNativeBigInt = typeof BigInt === "function" ;
function Integer ( v , radix , alphabet , caseSensitive ) {
if ( typeof v === "undefined" ) return Integer [ 0 ] ;
if ( typeof radix !== "undefined" ) return + radix === 10 && ! alphabet ? parseValue ( v ) : parseBase ( v , radix , alphabet , caseSensitive ) ;
return parseValue ( v ) ;
}
function BigInteger ( value , sign ) {
this . value = value ;
this . sign = sign ;
this . isSmall = false ;
}
BigInteger . prototype = Object . create ( Integer . prototype ) ;
function SmallInteger ( value ) {
this . value = value ;
this . sign = value < 0 ;
this . isSmall = true ;
}
SmallInteger . prototype = Object . create ( Integer . prototype ) ;
function NativeBigInt ( value ) {
this . value = value ;
}
NativeBigInt . prototype = Object . create ( Integer . prototype ) ;
function isPrecise ( n ) {
return - MAX _INT < n && n < MAX _INT ;
}
function smallToArray ( n ) { // For performance reasons doesn't reference BASE, need to change this function if BASE changes
if ( n < 1e7 )
return [ n ] ;
if ( n < 1e14 )
return [ n % 1e7 , Math . floor ( n / 1e7 ) ] ;
return [ n % 1e7 , Math . floor ( n / 1e7 ) % 1e7 , Math . floor ( n / 1e14 ) ] ;
}
function arrayToSmall ( arr ) { // If BASE changes this function may need to change
trim ( arr ) ;
var length = arr . length ;
if ( length < 4 && compareAbs ( arr , MAX _INT _ARR ) < 0 ) {
switch ( length ) {
case 0 : return 0 ;
case 1 : return arr [ 0 ] ;
case 2 : return arr [ 0 ] + arr [ 1 ] * BASE ;
default : return arr [ 0 ] + ( arr [ 1 ] + arr [ 2 ] * BASE ) * BASE ;
}
}
return arr ;
}
function trim ( v ) {
var i = v . length ;
while ( v [ -- i ] === 0 ) ;
v . length = i + 1 ;
}
function createArray ( length ) { // function shamelessly stolen from Yaffle's library https://github.com/Yaffle/BigInteger
var x = new Array ( length ) ;
var i = - 1 ;
while ( ++ i < length ) {
x [ i ] = 0 ;
}
return x ;
}
function truncate ( n ) {
if ( n > 0 ) return Math . floor ( n ) ;
return Math . ceil ( n ) ;
}
function add ( a , b ) { // assumes a and b are arrays with a.length >= b.length
var l _a = a . length ,
l _b = b . length ,
r = new Array ( l _a ) ,
carry = 0 ,
base = BASE ,
sum , i ;
for ( i = 0 ; i < l _b ; i ++ ) {
sum = a [ i ] + b [ i ] + carry ;
carry = sum >= base ? 1 : 0 ;
r [ i ] = sum - carry * base ;
}
while ( i < l _a ) {
sum = a [ i ] + carry ;
carry = sum === base ? 1 : 0 ;
r [ i ++ ] = sum - carry * base ;
}
if ( carry > 0 ) r . push ( carry ) ;
return r ;
}
function addAny ( a , b ) {
if ( a . length >= b . length ) return add ( a , b ) ;
return add ( b , a ) ;
}
function addSmall ( a , carry ) { // assumes a is array, carry is number with 0 <= carry < MAX_INT
var l = a . length ,
r = new Array ( l ) ,
base = BASE ,
sum , i ;
for ( i = 0 ; i < l ; i ++ ) {
sum = a [ i ] - base + carry ;
carry = Math . floor ( sum / base ) ;
r [ i ] = sum - carry * base ;
carry += 1 ;
}
while ( carry > 0 ) {
r [ i ++ ] = carry % base ;
carry = Math . floor ( carry / base ) ;
}
return r ;
}
BigInteger . prototype . add = function ( v ) {
var n = parseValue ( v ) ;
if ( this . sign !== n . sign ) {
return this . subtract ( n . negate ( ) ) ;
}
var a = this . value , b = n . value ;
if ( n . isSmall ) {
return new BigInteger ( addSmall ( a , Math . abs ( b ) ) , this . sign ) ;
}
return new BigInteger ( addAny ( a , b ) , this . sign ) ;
} ;
BigInteger . prototype . plus = BigInteger . prototype . add ;
SmallInteger . prototype . add = function ( v ) {
var n = parseValue ( v ) ;
var a = this . value ;
if ( a < 0 !== n . sign ) {
return this . subtract ( n . negate ( ) ) ;
}
var b = n . value ;
if ( n . isSmall ) {
if ( isPrecise ( a + b ) ) return new SmallInteger ( a + b ) ;
b = smallToArray ( Math . abs ( b ) ) ;
}
return new BigInteger ( addSmall ( b , Math . abs ( a ) ) , a < 0 ) ;
} ;
SmallInteger . prototype . plus = SmallInteger . prototype . add ;
NativeBigInt . prototype . add = function ( v ) {
return new NativeBigInt ( this . value + parseValue ( v ) . value ) ;
}
NativeBigInt . prototype . plus = NativeBigInt . prototype . add ;
function subtract ( a , b ) { // assumes a and b are arrays with a >= b
var a _l = a . length ,
b _l = b . length ,
r = new Array ( a _l ) ,
borrow = 0 ,
base = BASE ,
i , difference ;
for ( i = 0 ; i < b _l ; i ++ ) {
difference = a [ i ] - borrow - b [ i ] ;
if ( difference < 0 ) {
difference += base ;
borrow = 1 ;
} else borrow = 0 ;
r [ i ] = difference ;
}
for ( i = b _l ; i < a _l ; i ++ ) {
difference = a [ i ] - borrow ;
if ( difference < 0 ) difference += base ;
else {
r [ i ++ ] = difference ;
break ;
}
r [ i ] = difference ;
}
for ( ; i < a _l ; i ++ ) {
r [ i ] = a [ i ] ;
}
trim ( r ) ;
return r ;
}
function subtractAny ( a , b , sign ) {
var value ;
if ( compareAbs ( a , b ) >= 0 ) {
value = subtract ( a , b ) ;
} else {
value = subtract ( b , a ) ;
sign = ! sign ;
}
value = arrayToSmall ( value ) ;
if ( typeof value === "number" ) {
if ( sign ) value = - value ;
return new SmallInteger ( value ) ;
}
return new BigInteger ( value , sign ) ;
}
function subtractSmall ( a , b , sign ) { // assumes a is array, b is number with 0 <= b < MAX_INT
var l = a . length ,
r = new Array ( l ) ,
carry = - b ,
base = BASE ,
i , difference ;
for ( i = 0 ; i < l ; i ++ ) {
difference = a [ i ] + carry ;
carry = Math . floor ( difference / base ) ;
difference %= base ;
r [ i ] = difference < 0 ? difference + base : difference ;
}
r = arrayToSmall ( r ) ;
if ( typeof r === "number" ) {
if ( sign ) r = - r ;
return new SmallInteger ( r ) ;
} return new BigInteger ( r , sign ) ;
}
BigInteger . prototype . subtract = function ( v ) {
var n = parseValue ( v ) ;
if ( this . sign !== n . sign ) {
return this . add ( n . negate ( ) ) ;
}
var a = this . value , b = n . value ;
if ( n . isSmall )
return subtractSmall ( a , Math . abs ( b ) , this . sign ) ;
return subtractAny ( a , b , this . sign ) ;
} ;
BigInteger . prototype . minus = BigInteger . prototype . subtract ;
SmallInteger . prototype . subtract = function ( v ) {
var n = parseValue ( v ) ;
var a = this . value ;
if ( a < 0 !== n . sign ) {
return this . add ( n . negate ( ) ) ;
}
var b = n . value ;
if ( n . isSmall ) {
return new SmallInteger ( a - b ) ;
}
return subtractSmall ( b , Math . abs ( a ) , a >= 0 ) ;
} ;
SmallInteger . prototype . minus = SmallInteger . prototype . subtract ;
NativeBigInt . prototype . subtract = function ( v ) {
return new NativeBigInt ( this . value - parseValue ( v ) . value ) ;
}
NativeBigInt . prototype . minus = NativeBigInt . prototype . subtract ;
BigInteger . prototype . negate = function ( ) {
return new BigInteger ( this . value , ! this . sign ) ;
} ;
SmallInteger . prototype . negate = function ( ) {
var sign = this . sign ;
var small = new SmallInteger ( - this . value ) ;
small . sign = ! sign ;
return small ;
} ;
NativeBigInt . prototype . negate = function ( ) {
return new NativeBigInt ( - this . value ) ;
}
BigInteger . prototype . abs = function ( ) {
return new BigInteger ( this . value , false ) ;
} ;
SmallInteger . prototype . abs = function ( ) {
return new SmallInteger ( Math . abs ( this . value ) ) ;
} ;
NativeBigInt . prototype . abs = function ( ) {
return new NativeBigInt ( this . value >= 0 ? this . value : - this . value ) ;
}
function multiplyLong ( a , b ) {
var a _l = a . length ,
b _l = b . length ,
l = a _l + b _l ,
r = createArray ( l ) ,
base = BASE ,
product , carry , i , a _i , b _j ;
for ( i = 0 ; i < a _l ; ++ i ) {
a _i = a [ i ] ;
for ( var j = 0 ; j < b _l ; ++ j ) {
b _j = b [ j ] ;
product = a _i * b _j + r [ i + j ] ;
carry = Math . floor ( product / base ) ;
r [ i + j ] = product - carry * base ;
r [ i + j + 1 ] += carry ;
}
}
trim ( r ) ;
return r ;
}
function multiplySmall ( a , b ) { // assumes a is array, b is number with |b| < BASE
var l = a . length ,
r = new Array ( l ) ,
base = BASE ,
carry = 0 ,
product , i ;
for ( i = 0 ; i < l ; i ++ ) {
product = a [ i ] * b + carry ;
carry = Math . floor ( product / base ) ;
r [ i ] = product - carry * base ;
}
while ( carry > 0 ) {
r [ i ++ ] = carry % base ;
carry = Math . floor ( carry / base ) ;
}
return r ;
}
function shiftLeft ( x , n ) {
var r = [ ] ;
while ( n -- > 0 ) r . push ( 0 ) ;
return r . concat ( x ) ;
}
function multiplyKaratsuba ( x , y ) {
var n = Math . max ( x . length , y . length ) ;
if ( n <= 30 ) return multiplyLong ( x , y ) ;
n = Math . ceil ( n / 2 ) ;
var b = x . slice ( n ) ,
a = x . slice ( 0 , n ) ,
d = y . slice ( n ) ,
c = y . slice ( 0 , n ) ;
var ac = multiplyKaratsuba ( a , c ) ,
bd = multiplyKaratsuba ( b , d ) ,
abcd = multiplyKaratsuba ( addAny ( a , b ) , addAny ( c , d ) ) ;
var product = addAny ( addAny ( ac , shiftLeft ( subtract ( subtract ( abcd , ac ) , bd ) , n ) ) , shiftLeft ( bd , 2 * n ) ) ;
trim ( product ) ;
return product ;
}
// The following function is derived from a surface fit of a graph plotting the performance difference
// between long multiplication and karatsuba multiplication versus the lengths of the two arrays.
function useKaratsuba ( l1 , l2 ) {
return - 0.012 * l1 - 0.012 * l2 + 0.000015 * l1 * l2 > 0 ;
}
BigInteger . prototype . multiply = function ( v ) {
var n = parseValue ( v ) ,
a = this . value , b = n . value ,
sign = this . sign !== n . sign ,
abs ;
if ( n . isSmall ) {
if ( b === 0 ) return Integer [ 0 ] ;
if ( b === 1 ) return this ;
if ( b === - 1 ) return this . negate ( ) ;
abs = Math . abs ( b ) ;
if ( abs < BASE ) {
return new BigInteger ( multiplySmall ( a , abs ) , sign ) ;
}
b = smallToArray ( abs ) ;
}
if ( useKaratsuba ( a . length , b . length ) ) // Karatsuba is only faster for certain array sizes
return new BigInteger ( multiplyKaratsuba ( a , b ) , sign ) ;
return new BigInteger ( multiplyLong ( a , b ) , sign ) ;
} ;
BigInteger . prototype . times = BigInteger . prototype . multiply ;
function multiplySmallAndArray ( a , b , sign ) { // a >= 0
if ( a < BASE ) {
return new BigInteger ( multiplySmall ( b , a ) , sign ) ;
}
return new BigInteger ( multiplyLong ( b , smallToArray ( a ) ) , sign ) ;
}
SmallInteger . prototype . _multiplyBySmall = function ( a ) {
if ( isPrecise ( a . value * this . value ) ) {
return new SmallInteger ( a . value * this . value ) ;
}
return multiplySmallAndArray ( Math . abs ( a . value ) , smallToArray ( Math . abs ( this . value ) ) , this . sign !== a . sign ) ;
} ;
BigInteger . prototype . _multiplyBySmall = function ( a ) {
if ( a . value === 0 ) return Integer [ 0 ] ;
if ( a . value === 1 ) return this ;
if ( a . value === - 1 ) return this . negate ( ) ;
return multiplySmallAndArray ( Math . abs ( a . value ) , this . value , this . sign !== a . sign ) ;
} ;
SmallInteger . prototype . multiply = function ( v ) {
return parseValue ( v ) . _multiplyBySmall ( this ) ;
} ;
SmallInteger . prototype . times = SmallInteger . prototype . multiply ;
NativeBigInt . prototype . multiply = function ( v ) {
return new NativeBigInt ( this . value * parseValue ( v ) . value ) ;
}
NativeBigInt . prototype . times = NativeBigInt . prototype . multiply ;
function square ( a ) {
//console.assert(2 * BASE * BASE < MAX_INT);
var l = a . length ,
r = createArray ( l + l ) ,
base = BASE ,
product , carry , i , a _i , a _j ;
for ( i = 0 ; i < l ; i ++ ) {
a _i = a [ i ] ;
carry = 0 - a _i * a _i ;
for ( var j = i ; j < l ; j ++ ) {
a _j = a [ j ] ;
product = 2 * ( a _i * a _j ) + r [ i + j ] + carry ;
carry = Math . floor ( product / base ) ;
r [ i + j ] = product - carry * base ;
}
r [ i + l ] = carry ;
}
trim ( r ) ;
return r ;
}
BigInteger . prototype . square = function ( ) {
return new BigInteger ( square ( this . value ) , false ) ;
} ;
SmallInteger . prototype . square = function ( ) {
var value = this . value * this . value ;
if ( isPrecise ( value ) ) return new SmallInteger ( value ) ;
return new BigInteger ( square ( smallToArray ( Math . abs ( this . value ) ) ) , false ) ;
} ;
NativeBigInt . prototype . square = function ( v ) {
return new NativeBigInt ( this . value * this . value ) ;
}
function divMod1 ( a , b ) { // Left over from previous version. Performs faster than divMod2 on smaller input sizes.
var a _l = a . length ,
b _l = b . length ,
base = BASE ,
result = createArray ( b . length ) ,
divisorMostSignificantDigit = b [ b _l - 1 ] ,
// normalization
lambda = Math . ceil ( base / ( 2 * divisorMostSignificantDigit ) ) ,
remainder = multiplySmall ( a , lambda ) ,
divisor = multiplySmall ( b , lambda ) ,
quotientDigit , shift , carry , borrow , i , l , q ;
if ( remainder . length <= a _l ) remainder . push ( 0 ) ;
divisor . push ( 0 ) ;
divisorMostSignificantDigit = divisor [ b _l - 1 ] ;
for ( shift = a _l - b _l ; shift >= 0 ; shift -- ) {
quotientDigit = base - 1 ;
if ( remainder [ shift + b _l ] !== divisorMostSignificantDigit ) {
quotientDigit = Math . floor ( ( remainder [ shift + b _l ] * base + remainder [ shift + b _l - 1 ] ) / divisorMostSignificantDigit ) ;
}
// quotientDigit <= base - 1
carry = 0 ;
borrow = 0 ;
l = divisor . length ;
for ( i = 0 ; i < l ; i ++ ) {
carry += quotientDigit * divisor [ i ] ;
q = Math . floor ( carry / base ) ;
borrow += remainder [ shift + i ] - ( carry - q * base ) ;
carry = q ;
if ( borrow < 0 ) {
remainder [ shift + i ] = borrow + base ;
borrow = - 1 ;
} else {
remainder [ shift + i ] = borrow ;
borrow = 0 ;
}
}
while ( borrow !== 0 ) {
quotientDigit -= 1 ;
carry = 0 ;
for ( i = 0 ; i < l ; i ++ ) {
carry += remainder [ shift + i ] - base + divisor [ i ] ;
if ( carry < 0 ) {
remainder [ shift + i ] = carry + base ;
carry = 0 ;
} else {
remainder [ shift + i ] = carry ;
carry = 1 ;
}
}
borrow += carry ;
}
result [ shift ] = quotientDigit ;
}
// denormalization
remainder = divModSmall ( remainder , lambda ) [ 0 ] ;
return [ arrayToSmall ( result ) , arrayToSmall ( remainder ) ] ;
}
function divMod2 ( a , b ) { // Implementation idea shamelessly stolen from Silent Matt's library http://silentmatt.com/biginteger/
// Performs faster than divMod1 on larger input sizes.
var a _l = a . length ,
b _l = b . length ,
result = [ ] ,
part = [ ] ,
base = BASE ,
guess , xlen , highx , highy , check ;
while ( a _l ) {
part . unshift ( a [ -- a _l ] ) ;
trim ( part ) ;
if ( compareAbs ( part , b ) < 0 ) {
result . push ( 0 ) ;
continue ;
}
xlen = part . length ;
highx = part [ xlen - 1 ] * base + part [ xlen - 2 ] ;
highy = b [ b _l - 1 ] * base + b [ b _l - 2 ] ;
if ( xlen > b _l ) {
highx = ( highx + 1 ) * base ;
}
guess = Math . ceil ( highx / highy ) ;
do {
check = multiplySmall ( b , guess ) ;
if ( compareAbs ( check , part ) <= 0 ) break ;
guess -- ;
} while ( guess ) ;
result . push ( guess ) ;
part = subtract ( part , check ) ;
}
result . reverse ( ) ;
return [ arrayToSmall ( result ) , arrayToSmall ( part ) ] ;
}
function divModSmall ( value , lambda ) {
var length = value . length ,
quotient = createArray ( length ) ,
base = BASE ,
i , q , remainder , divisor ;
remainder = 0 ;
for ( i = length - 1 ; i >= 0 ; -- i ) {
divisor = remainder * base + value [ i ] ;
q = truncate ( divisor / lambda ) ;
remainder = divisor - q * lambda ;
quotient [ i ] = q | 0 ;
}
return [ quotient , remainder | 0 ] ;
}
function divModAny ( self , v ) {
var value , n = parseValue ( v ) ;
if ( supportsNativeBigInt ) {
return [ new NativeBigInt ( self . value / n . value ) , new NativeBigInt ( self . value % n . value ) ] ;
}
var a = self . value , b = n . value ;
var quotient ;
if ( b === 0 ) throw new Error ( "Cannot divide by zero" ) ;
if ( self . isSmall ) {
if ( n . isSmall ) {
return [ new SmallInteger ( truncate ( a / b ) ) , new SmallInteger ( a % b ) ] ;
}
return [ Integer [ 0 ] , self ] ;
}
if ( n . isSmall ) {
if ( b === 1 ) return [ self , Integer [ 0 ] ] ;
if ( b == - 1 ) return [ self . negate ( ) , Integer [ 0 ] ] ;
var abs = Math . abs ( b ) ;
if ( abs < BASE ) {
value = divModSmall ( a , abs ) ;
quotient = arrayToSmall ( value [ 0 ] ) ;
var remainder = value [ 1 ] ;
if ( self . sign ) remainder = - remainder ;
if ( typeof quotient === "number" ) {
if ( self . sign !== n . sign ) quotient = - quotient ;
return [ new SmallInteger ( quotient ) , new SmallInteger ( remainder ) ] ;
}
return [ new BigInteger ( quotient , self . sign !== n . sign ) , new SmallInteger ( remainder ) ] ;
}
b = smallToArray ( abs ) ;
}
var comparison = compareAbs ( a , b ) ;
if ( comparison === - 1 ) return [ Integer [ 0 ] , self ] ;
if ( comparison === 0 ) return [ Integer [ self . sign === n . sign ? 1 : - 1 ] , Integer [ 0 ] ] ;
// divMod1 is faster on smaller input sizes
if ( a . length + b . length <= 200 )
value = divMod1 ( a , b ) ;
else value = divMod2 ( a , b ) ;
quotient = value [ 0 ] ;
var qSign = self . sign !== n . sign ,
mod = value [ 1 ] ,
mSign = self . sign ;
if ( typeof quotient === "number" ) {
if ( qSign ) quotient = - quotient ;
quotient = new SmallInteger ( quotient ) ;
} else quotient = new BigInteger ( quotient , qSign ) ;
if ( typeof mod === "number" ) {
if ( mSign ) mod = - mod ;
mod = new SmallInteger ( mod ) ;
} else mod = new BigInteger ( mod , mSign ) ;
return [ quotient , mod ] ;
}
BigInteger . prototype . divmod = function ( v ) {
var result = divModAny ( this , v ) ;
return {
quotient : result [ 0 ] ,
remainder : result [ 1 ]
} ;
} ;
NativeBigInt . prototype . divmod = SmallInteger . prototype . divmod = BigInteger . prototype . divmod ;
BigInteger . prototype . divide = function ( v ) {
return divModAny ( this , v ) [ 0 ] ;
} ;
NativeBigInt . prototype . over = NativeBigInt . prototype . divide = function ( v ) {
return new NativeBigInt ( this . value / parseValue ( v ) . value ) ;
} ;
SmallInteger . prototype . over = SmallInteger . prototype . divide = BigInteger . prototype . over = BigInteger . prototype . divide ;
BigInteger . prototype . mod = function ( v ) {
return divModAny ( this , v ) [ 1 ] ;
} ;
NativeBigInt . prototype . mod = NativeBigInt . prototype . remainder = function ( v ) {
return new NativeBigInt ( this . value % parseValue ( v ) . value ) ;
} ;
SmallInteger . prototype . remainder = SmallInteger . prototype . mod = BigInteger . prototype . remainder = BigInteger . prototype . mod ;
BigInteger . prototype . pow = function ( v ) {
var n = parseValue ( v ) ,
a = this . value ,
b = n . value ,
value , x , y ;
if ( b === 0 ) return Integer [ 1 ] ;
if ( a === 0 ) return Integer [ 0 ] ;
if ( a === 1 ) return Integer [ 1 ] ;
if ( a === - 1 ) return n . isEven ( ) ? Integer [ 1 ] : Integer [ - 1 ] ;
if ( n . sign ) {
return Integer [ 0 ] ;
}
if ( ! n . isSmall ) throw new Error ( "The exponent " + n . toString ( ) + " is too large." ) ;
if ( this . isSmall ) {
if ( isPrecise ( value = Math . pow ( a , b ) ) )
return new SmallInteger ( truncate ( value ) ) ;
}
x = this ;
y = Integer [ 1 ] ;
while ( true ) {
if ( b & 1 === 1 ) {
y = y . times ( x ) ;
-- b ;
}
if ( b === 0 ) break ;
b /= 2 ;
x = x . square ( ) ;
}
return y ;
} ;
SmallInteger . prototype . pow = BigInteger . prototype . pow ;
NativeBigInt . prototype . pow = function ( v ) {
var n = parseValue ( v ) ;
var a = this . value , b = n . value ;
var _0 = BigInt ( 0 ) , _1 = BigInt ( 1 ) , _2 = BigInt ( 2 ) ;
if ( b === _0 ) return Integer [ 1 ] ;
if ( a === _0 ) return Integer [ 0 ] ;
if ( a === _1 ) return Integer [ 1 ] ;
if ( a === BigInt ( - 1 ) ) return n . isEven ( ) ? Integer [ 1 ] : Integer [ - 1 ] ;
if ( n . isNegative ( ) ) return new NativeBigInt ( _0 ) ;
var x = this ;
var y = Integer [ 1 ] ;
while ( true ) {
if ( ( b & _1 ) === _1 ) {
y = y . times ( x ) ;
-- b ;
}
if ( b === _0 ) break ;
b /= _2 ;
x = x . square ( ) ;
}
return y ;
}
BigInteger . prototype . modPow = function ( exp , mod ) {
exp = parseValue ( exp ) ;
mod = parseValue ( mod ) ;
if ( mod . isZero ( ) ) throw new Error ( "Cannot take modPow with modulus 0" ) ;
var r = Integer [ 1 ] ,
base = this . mod ( mod ) ;
while ( exp . isPositive ( ) ) {
if ( base . isZero ( ) ) return Integer [ 0 ] ;
if ( exp . isOdd ( ) ) r = r . multiply ( base ) . mod ( mod ) ;
exp = exp . divide ( 2 ) ;
base = base . square ( ) . mod ( mod ) ;
}
return r ;
} ;
NativeBigInt . prototype . modPow = SmallInteger . prototype . modPow = BigInteger . prototype . modPow ;
function compareAbs ( a , b ) {
if ( a . length !== b . length ) {
return a . length > b . length ? 1 : - 1 ;
}
for ( var i = a . length - 1 ; i >= 0 ; i -- ) {
if ( a [ i ] !== b [ i ] ) return a [ i ] > b [ i ] ? 1 : - 1 ;
}
return 0 ;
}
BigInteger . prototype . compareAbs = function ( v ) {
var n = parseValue ( v ) ,
a = this . value ,
b = n . value ;
if ( n . isSmall ) return 1 ;
return compareAbs ( a , b ) ;
} ;
SmallInteger . prototype . compareAbs = function ( v ) {
var n = parseValue ( v ) ,
a = Math . abs ( this . value ) ,
b = n . value ;
if ( n . isSmall ) {
b = Math . abs ( b ) ;
return a === b ? 0 : a > b ? 1 : - 1 ;
}
return - 1 ;
} ;
NativeBigInt . prototype . compareAbs = function ( v ) {
var a = this . value ;
var b = parseValue ( v ) . value ;
a = a >= 0 ? a : - a ;
b = b >= 0 ? b : - b ;
return a === b ? 0 : a > b ? 1 : - 1 ;
}
BigInteger . prototype . compare = function ( v ) {
// See discussion about comparison with Infinity:
// https://github.com/peterolson/BigInteger.js/issues/61
if ( v === Infinity ) {
return - 1 ;
}
if ( v === - Infinity ) {
return 1 ;
}
var n = parseValue ( v ) ,
a = this . value ,
b = n . value ;
if ( this . sign !== n . sign ) {
return n . sign ? 1 : - 1 ;
}
if ( n . isSmall ) {
return this . sign ? - 1 : 1 ;
}
return compareAbs ( a , b ) * ( this . sign ? - 1 : 1 ) ;
} ;
BigInteger . prototype . compareTo = BigInteger . prototype . compare ;
SmallInteger . prototype . compare = function ( v ) {
if ( v === Infinity ) {
return - 1 ;
}
if ( v === - Infinity ) {
return 1 ;
}
var n = parseValue ( v ) ,
a = this . value ,
b = n . value ;
if ( n . isSmall ) {
return a == b ? 0 : a > b ? 1 : - 1 ;
}
if ( a < 0 !== n . sign ) {
return a < 0 ? - 1 : 1 ;
}
return a < 0 ? 1 : - 1 ;
} ;
SmallInteger . prototype . compareTo = SmallInteger . prototype . compare ;
NativeBigInt . prototype . compare = function ( v ) {
if ( v === Infinity ) {
return - 1 ;
}
if ( v === - Infinity ) {
return 1 ;
}
var a = this . value ;
var b = parseValue ( v ) . value ;
return a === b ? 0 : a > b ? 1 : - 1 ;
}
NativeBigInt . prototype . compareTo = NativeBigInt . prototype . compare ;
BigInteger . prototype . equals = function ( v ) {
return this . compare ( v ) === 0 ;
} ;
NativeBigInt . prototype . eq = NativeBigInt . prototype . equals = SmallInteger . prototype . eq = SmallInteger . prototype . equals = BigInteger . prototype . eq = BigInteger . prototype . equals ;
BigInteger . prototype . notEquals = function ( v ) {
return this . compare ( v ) !== 0 ;
} ;
NativeBigInt . prototype . neq = NativeBigInt . prototype . notEquals = SmallInteger . prototype . neq = SmallInteger . prototype . notEquals = BigInteger . prototype . neq = BigInteger . prototype . notEquals ;
BigInteger . prototype . greater = function ( v ) {
return this . compare ( v ) > 0 ;
} ;
NativeBigInt . prototype . gt = NativeBigInt . prototype . greater = SmallInteger . prototype . gt = SmallInteger . prototype . greater = BigInteger . prototype . gt = BigInteger . prototype . greater ;
BigInteger . prototype . lesser = function ( v ) {
return this . compare ( v ) < 0 ;
} ;
NativeBigInt . prototype . lt = NativeBigInt . prototype . lesser = SmallInteger . prototype . lt = SmallInteger . prototype . lesser = BigInteger . prototype . lt = BigInteger . prototype . lesser ;
BigInteger . prototype . greaterOrEquals = function ( v ) {
return this . compare ( v ) >= 0 ;
} ;
NativeBigInt . prototype . geq = NativeBigInt . prototype . greaterOrEquals = SmallInteger . prototype . geq = SmallInteger . prototype . greaterOrEquals = BigInteger . prototype . geq = BigInteger . prototype . greaterOrEquals ;
BigInteger . prototype . lesserOrEquals = function ( v ) {
return this . compare ( v ) <= 0 ;
} ;
NativeBigInt . prototype . leq = NativeBigInt . prototype . lesserOrEquals = SmallInteger . prototype . leq = SmallInteger . prototype . lesserOrEquals = BigInteger . prototype . leq = BigInteger . prototype . lesserOrEquals ;
BigInteger . prototype . isEven = function ( ) {
return ( this . value [ 0 ] & 1 ) === 0 ;
} ;
SmallInteger . prototype . isEven = function ( ) {
return ( this . value & 1 ) === 0 ;
} ;
NativeBigInt . prototype . isEven = function ( ) {
return ( this . value & BigInt ( 1 ) ) === BigInt ( 0 ) ;
}
BigInteger . prototype . isOdd = function ( ) {
return ( this . value [ 0 ] & 1 ) === 1 ;
} ;
SmallInteger . prototype . isOdd = function ( ) {
return ( this . value & 1 ) === 1 ;
} ;
NativeBigInt . prototype . isOdd = function ( ) {
return ( this . value & BigInt ( 1 ) ) === BigInt ( 1 ) ;
}
BigInteger . prototype . isPositive = function ( ) {
return ! this . sign ;
} ;
SmallInteger . prototype . isPositive = function ( ) {
return this . value > 0 ;
} ;
NativeBigInt . prototype . isPositive = SmallInteger . prototype . isPositive ;
BigInteger . prototype . isNegative = function ( ) {
return this . sign ;
} ;
SmallInteger . prototype . isNegative = function ( ) {
return this . value < 0 ;
} ;
NativeBigInt . prototype . isNegative = SmallInteger . prototype . isNegative ;
BigInteger . prototype . isUnit = function ( ) {
return false ;
} ;
SmallInteger . prototype . isUnit = function ( ) {
return Math . abs ( this . value ) === 1 ;
} ;
NativeBigInt . prototype . isUnit = function ( ) {
return this . abs ( ) . value === BigInt ( 1 ) ;
}
BigInteger . prototype . isZero = function ( ) {
return false ;
} ;
SmallInteger . prototype . isZero = function ( ) {
return this . value === 0 ;
} ;
NativeBigInt . prototype . isZero = function ( ) {
return this . value === BigInt ( 0 ) ;
}
BigInteger . prototype . isDivisibleBy = function ( v ) {
var n = parseValue ( v ) ;
if ( n . isZero ( ) ) return false ;
if ( n . isUnit ( ) ) return true ;
if ( n . compareAbs ( 2 ) === 0 ) return this . isEven ( ) ;
return this . mod ( n ) . isZero ( ) ;
} ;
NativeBigInt . prototype . isDivisibleBy = SmallInteger . prototype . isDivisibleBy = BigInteger . prototype . isDivisibleBy ;
function isBasicPrime ( v ) {
var n = v . abs ( ) ;
if ( n . isUnit ( ) ) return false ;
if ( n . equals ( 2 ) || n . equals ( 3 ) || n . equals ( 5 ) ) return true ;
if ( n . isEven ( ) || n . isDivisibleBy ( 3 ) || n . isDivisibleBy ( 5 ) ) return false ;
if ( n . lesser ( 49 ) ) return true ;
// we don't know if it's prime: let the other functions figure it out
}
function millerRabinTest ( n , a ) {
var nPrev = n . prev ( ) ,
b = nPrev ,
r = 0 ,
d , t , i , x ;
while ( b . isEven ( ) ) b = b . divide ( 2 ) , r ++ ;
next : for ( i = 0 ; i < a . length ; i ++ ) {
if ( n . lesser ( a [ i ] ) ) continue ;
x = bigInt ( a [ i ] ) . modPow ( b , n ) ;
if ( x . isUnit ( ) || x . equals ( nPrev ) ) continue ;
for ( d = r - 1 ; d != 0 ; d -- ) {
x = x . square ( ) . mod ( n ) ;
if ( x . isUnit ( ) ) return false ;
if ( x . equals ( nPrev ) ) continue next ;
}
return false ;
}
return true ;
}
// Set "strict" to true to force GRH-supported lower bound of 2*log(N)^2
BigInteger . prototype . isPrime = function ( strict ) {
var isPrime = isBasicPrime ( this ) ;
if ( isPrime !== undefined ) return isPrime ;
var n = this . abs ( ) ;
var bits = n . bitLength ( ) ;
if ( bits <= 64 )
return millerRabinTest ( n , [ 2 , 3 , 5 , 7 , 11 , 13 , 17 , 19 , 23 , 29 , 31 , 37 ] ) ;
var logN = Math . log ( 2 ) * bits . toJSNumber ( ) ;
var t = Math . ceil ( ( strict === true ) ? ( 2 * Math . pow ( logN , 2 ) ) : logN ) ;
for ( var a = [ ] , i = 0 ; i < t ; i ++ ) {
a . push ( bigInt ( i + 2 ) ) ;
}
return millerRabinTest ( n , a ) ;
} ;
NativeBigInt . prototype . isPrime = SmallInteger . prototype . isPrime = BigInteger . prototype . isPrime ;
BigInteger . prototype . isProbablePrime = function ( iterations ) {
var isPrime = isBasicPrime ( this ) ;
if ( isPrime !== undefined ) return isPrime ;
var n = this . abs ( ) ;
var t = iterations === undefined ? 5 : iterations ;
for ( var a = [ ] , i = 0 ; i < t ; i ++ ) {
a . push ( bigInt . randBetween ( 2 , n . minus ( 2 ) ) ) ;
}
return millerRabinTest ( n , a ) ;
} ;
NativeBigInt . prototype . isProbablePrime = SmallInteger . prototype . isProbablePrime = BigInteger . prototype . isProbablePrime ;
BigInteger . prototype . modInv = function ( n ) {
var t = bigInt . zero , newT = bigInt . one , r = parseValue ( n ) , newR = this . abs ( ) , q , lastT , lastR ;
while ( ! newR . isZero ( ) ) {
q = r . divide ( newR ) ;
lastT = t ;
lastR = r ;
t = newT ;
r = newR ;
newT = lastT . subtract ( q . multiply ( newT ) ) ;
newR = lastR . subtract ( q . multiply ( newR ) ) ;
}
if ( ! r . isUnit ( ) ) throw new Error ( this . toString ( ) + " and " + n . toString ( ) + " are not co-prime" ) ;
if ( t . compare ( 0 ) === - 1 ) {
t = t . add ( n ) ;
}
if ( this . isNegative ( ) ) {
return t . negate ( ) ;
}
return t ;
} ;
NativeBigInt . prototype . modInv = SmallInteger . prototype . modInv = BigInteger . prototype . modInv ;
BigInteger . prototype . next = function ( ) {
var value = this . value ;
if ( this . sign ) {
return subtractSmall ( value , 1 , this . sign ) ;
}
return new BigInteger ( addSmall ( value , 1 ) , this . sign ) ;
} ;
SmallInteger . prototype . next = function ( ) {
var value = this . value ;
if ( value + 1 < MAX _INT ) return new SmallInteger ( value + 1 ) ;
return new BigInteger ( MAX _INT _ARR , false ) ;
} ;
NativeBigInt . prototype . next = function ( ) {
return new NativeBigInt ( this . value + BigInt ( 1 ) ) ;
}
BigInteger . prototype . prev = function ( ) {
var value = this . value ;
if ( this . sign ) {
return new BigInteger ( addSmall ( value , 1 ) , true ) ;
}
return subtractSmall ( value , 1 , this . sign ) ;
} ;
SmallInteger . prototype . prev = function ( ) {
var value = this . value ;
if ( value - 1 > - MAX _INT ) return new SmallInteger ( value - 1 ) ;
return new BigInteger ( MAX _INT _ARR , true ) ;
} ;
NativeBigInt . prototype . prev = function ( ) {
return new NativeBigInt ( this . value - BigInt ( 1 ) ) ;
}
var powersOfTwo = [ 1 ] ;
while ( 2 * powersOfTwo [ powersOfTwo . length - 1 ] <= BASE ) powersOfTwo . push ( 2 * powersOfTwo [ powersOfTwo . length - 1 ] ) ;
var powers2Length = powersOfTwo . length , highestPower2 = powersOfTwo [ powers2Length - 1 ] ;
function shift _isSmall ( n ) {
return Math . abs ( n ) <= BASE ;
}
BigInteger . prototype . shiftLeft = function ( v ) {
var n = parseValue ( v ) . toJSNumber ( ) ;
if ( ! shift _isSmall ( n ) ) {
throw new Error ( String ( n ) + " is too large for shifting." ) ;
}
if ( n < 0 ) return this . shiftRight ( - n ) ;
var result = this ;
if ( result . isZero ( ) ) return result ;
while ( n >= powers2Length ) {
result = result . multiply ( highestPower2 ) ;
n -= powers2Length - 1 ;
}
return result . multiply ( powersOfTwo [ n ] ) ;
} ;
NativeBigInt . prototype . shiftLeft = SmallInteger . prototype . shiftLeft = BigInteger . prototype . shiftLeft ;
BigInteger . prototype . shiftRight = function ( v ) {
var remQuo ;
var n = parseValue ( v ) . toJSNumber ( ) ;
if ( ! shift _isSmall ( n ) ) {
throw new Error ( String ( n ) + " is too large for shifting." ) ;
}
if ( n < 0 ) return this . shiftLeft ( - n ) ;
var result = this ;
while ( n >= powers2Length ) {
if ( result . isZero ( ) || ( result . isNegative ( ) && result . isUnit ( ) ) ) return result ;
remQuo = divModAny ( result , highestPower2 ) ;
result = remQuo [ 1 ] . isNegative ( ) ? remQuo [ 0 ] . prev ( ) : remQuo [ 0 ] ;
n -= powers2Length - 1 ;
}
remQuo = divModAny ( result , powersOfTwo [ n ] ) ;
return remQuo [ 1 ] . isNegative ( ) ? remQuo [ 0 ] . prev ( ) : remQuo [ 0 ] ;
} ;
NativeBigInt . prototype . shiftRight = SmallInteger . prototype . shiftRight = BigInteger . prototype . shiftRight ;
function bitwise ( x , y , fn ) {
y = parseValue ( y ) ;
var xSign = x . isNegative ( ) , ySign = y . isNegative ( ) ;
var xRem = xSign ? x . not ( ) : x ,
yRem = ySign ? y . not ( ) : y ;
var xDigit = 0 , yDigit = 0 ;
var xDivMod = null , yDivMod = null ;
var result = [ ] ;
while ( ! xRem . isZero ( ) || ! yRem . isZero ( ) ) {
xDivMod = divModAny ( xRem , highestPower2 ) ;
xDigit = xDivMod [ 1 ] . toJSNumber ( ) ;
if ( xSign ) {
xDigit = highestPower2 - 1 - xDigit ; // two's complement for negative numbers
}
yDivMod = divModAny ( yRem , highestPower2 ) ;
yDigit = yDivMod [ 1 ] . toJSNumber ( ) ;
if ( ySign ) {
yDigit = highestPower2 - 1 - yDigit ; // two's complement for negative numbers
}
xRem = xDivMod [ 0 ] ;
yRem = yDivMod [ 0 ] ;
result . push ( fn ( xDigit , yDigit ) ) ;
}
var sum = fn ( xSign ? 1 : 0 , ySign ? 1 : 0 ) !== 0 ? bigInt ( - 1 ) : bigInt ( 0 ) ;
for ( var i = result . length - 1 ; i >= 0 ; i -= 1 ) {
sum = sum . multiply ( highestPower2 ) . add ( bigInt ( result [ i ] ) ) ;
}
return sum ;
}
BigInteger . prototype . not = function ( ) {
return this . negate ( ) . prev ( ) ;
} ;
NativeBigInt . prototype . not = SmallInteger . prototype . not = BigInteger . prototype . not ;
BigInteger . prototype . and = function ( n ) {
return bitwise ( this , n , function ( a , b ) { return a & b ; } ) ;
} ;
NativeBigInt . prototype . and = SmallInteger . prototype . and = BigInteger . prototype . and ;
BigInteger . prototype . or = function ( n ) {
return bitwise ( this , n , function ( a , b ) { return a | b ; } ) ;
} ;
NativeBigInt . prototype . or = SmallInteger . prototype . or = BigInteger . prototype . or ;
BigInteger . prototype . xor = function ( n ) {
return bitwise ( this , n , function ( a , b ) { return a ^ b ; } ) ;
} ;
NativeBigInt . prototype . xor = SmallInteger . prototype . xor = BigInteger . prototype . xor ;
var LOBMASK _I = 1 << 30 , LOBMASK _BI = ( BASE & - BASE ) * ( BASE & - BASE ) | LOBMASK _I ;
function roughLOB ( n ) { // get lowestOneBit (rough)
// SmallInteger: return Min(lowestOneBit(n), 1 << 30)
// BigInteger: return Min(lowestOneBit(n), 1 << 14) [BASE=1e7]
var v = n . value ,
x = typeof v === "number" ? v | LOBMASK _I :
typeof v === "bigint" ? v | BigInt ( LOBMASK _I ) :
v [ 0 ] + v [ 1 ] * BASE | LOBMASK _BI ;
return x & - x ;
}
function integerLogarithm ( value , base ) {
if ( base . compareTo ( value ) <= 0 ) {
var tmp = integerLogarithm ( value , base . square ( base ) ) ;
var p = tmp . p ;
var e = tmp . e ;
var t = p . multiply ( base ) ;
return t . compareTo ( value ) <= 0 ? { p : t , e : e * 2 + 1 } : { p : p , e : e * 2 } ;
}
return { p : bigInt ( 1 ) , e : 0 } ;
}
BigInteger . prototype . bitLength = function ( ) {
var n = this ;
if ( n . compareTo ( bigInt ( 0 ) ) < 0 ) {
n = n . negate ( ) . subtract ( bigInt ( 1 ) ) ;
}
if ( n . compareTo ( bigInt ( 0 ) ) === 0 ) {
return bigInt ( 0 ) ;
}
return bigInt ( integerLogarithm ( n , bigInt ( 2 ) ) . e ) . add ( bigInt ( 1 ) ) ;
}
NativeBigInt . prototype . bitLength = SmallInteger . prototype . bitLength = BigInteger . prototype . bitLength ;
function max ( a , b ) {
a = parseValue ( a ) ;
b = parseValue ( b ) ;
return a . greater ( b ) ? a : b ;
}
function min ( a , b ) {
a = parseValue ( a ) ;
b = parseValue ( b ) ;
return a . lesser ( b ) ? a : b ;
}
function gcd ( a , b ) {
a = parseValue ( a ) . abs ( ) ;
b = parseValue ( b ) . abs ( ) ;
if ( a . equals ( b ) ) return a ;
if ( a . isZero ( ) ) return b ;
if ( b . isZero ( ) ) return a ;
var c = Integer [ 1 ] , d , t ;
while ( a . isEven ( ) && b . isEven ( ) ) {
d = min ( roughLOB ( a ) , roughLOB ( b ) ) ;
a = a . divide ( d ) ;
b = b . divide ( d ) ;
c = c . multiply ( d ) ;
}
while ( a . isEven ( ) ) {
a = a . divide ( roughLOB ( a ) ) ;
}
do {
while ( b . isEven ( ) ) {
b = b . divide ( roughLOB ( b ) ) ;
}
if ( a . greater ( b ) ) {
t = b ; b = a ; a = t ;
}
b = b . subtract ( a ) ;
} while ( ! b . isZero ( ) ) ;
return c . isUnit ( ) ? a : a . multiply ( c ) ;
}
function lcm ( a , b ) {
a = parseValue ( a ) . abs ( ) ;
b = parseValue ( b ) . abs ( ) ;
return a . divide ( gcd ( a , b ) ) . multiply ( b ) ;
}
function randBetween ( a , b ) {
a = parseValue ( a ) ;
b = parseValue ( b ) ;
var low = min ( a , b ) , high = max ( a , b ) ;
var range = high . subtract ( low ) . add ( 1 ) ;
if ( range . isSmall ) return low . add ( Math . floor ( Math . random ( ) * range ) ) ;
var digits = toBase ( range , BASE ) . value ;
var result = [ ] , restricted = true ;
for ( var i = 0 ; i < digits . length ; i ++ ) {
var top = restricted ? digits [ i ] : BASE ;
var digit = truncate ( Math . random ( ) * top ) ;
result . push ( digit ) ;
if ( digit < top ) restricted = false ;
}
return low . add ( Integer . fromArray ( result , BASE , false ) ) ;
}
var parseBase = function ( text , base , alphabet , caseSensitive ) {
alphabet = alphabet || DEFAULT _ALPHABET ;
text = String ( text ) ;
if ( ! caseSensitive ) {
text = text . toLowerCase ( ) ;
alphabet = alphabet . toLowerCase ( ) ;
}
var length = text . length ;
var i ;
var absBase = Math . abs ( base ) ;
var alphabetValues = { } ;
for ( i = 0 ; i < alphabet . length ; i ++ ) {
alphabetValues [ alphabet [ i ] ] = i ;
}
for ( i = 0 ; i < length ; i ++ ) {
var c = text [ i ] ;
if ( c === "-" ) continue ;
if ( c in alphabetValues ) {
if ( alphabetValues [ c ] >= absBase ) {
if ( c === "1" && absBase === 1 ) continue ;
throw new Error ( c + " is not a valid digit in base " + base + "." ) ;
}
}
}
base = parseValue ( base ) ;
var digits = [ ] ;
var isNegative = text [ 0 ] === "-" ;
for ( i = isNegative ? 1 : 0 ; i < text . length ; i ++ ) {
var c = text [ i ] ;
if ( c in alphabetValues ) digits . push ( parseValue ( alphabetValues [ c ] ) ) ;
else if ( c === "<" ) {
var start = i ;
do { i ++ ; } while ( text [ i ] !== ">" && i < text . length ) ;
digits . push ( parseValue ( text . slice ( start + 1 , i ) ) ) ;
}
else throw new Error ( c + " is not a valid character" ) ;
}
return parseBaseFromArray ( digits , base , isNegative ) ;
} ;
function parseBaseFromArray ( digits , base , isNegative ) {
var val = Integer [ 0 ] , pow = Integer [ 1 ] , i ;
for ( i = digits . length - 1 ; i >= 0 ; i -- ) {
val = val . add ( digits [ i ] . times ( pow ) ) ;
pow = pow . times ( base ) ;
}
return isNegative ? val . negate ( ) : val ;
}
function stringify ( digit , alphabet ) {
alphabet = alphabet || DEFAULT _ALPHABET ;
if ( digit < alphabet . length ) {
return alphabet [ digit ] ;
}
return "<" + digit + ">" ;
}
function toBase ( n , base ) {
base = bigInt ( base ) ;
if ( base . isZero ( ) ) {
if ( n . isZero ( ) ) return { value : [ 0 ] , isNegative : false } ;
throw new Error ( "Cannot convert nonzero numbers to base 0." ) ;
}
if ( base . equals ( - 1 ) ) {
if ( n . isZero ( ) ) return { value : [ 0 ] , isNegative : false } ;
if ( n . isNegative ( ) )
return {
value : [ ] . concat . apply ( [ ] , Array . apply ( null , Array ( - n . toJSNumber ( ) ) )
. map ( Array . prototype . valueOf , [ 1 , 0 ] )
) ,
isNegative : false
} ;
var arr = Array . apply ( null , Array ( n . toJSNumber ( ) - 1 ) )
. map ( Array . prototype . valueOf , [ 0 , 1 ] ) ;
arr . unshift ( [ 1 ] ) ;
return {
value : [ ] . concat . apply ( [ ] , arr ) ,
isNegative : false
} ;
}
var neg = false ;
if ( n . isNegative ( ) && base . isPositive ( ) ) {
neg = true ;
n = n . abs ( ) ;
}
if ( base . isUnit ( ) ) {
if ( n . isZero ( ) ) return { value : [ 0 ] , isNegative : false } ;
return {
value : Array . apply ( null , Array ( n . toJSNumber ( ) ) )
. map ( Number . prototype . valueOf , 1 ) ,
isNegative : neg
} ;
}
var out = [ ] ;
var left = n , divmod ;
while ( left . isNegative ( ) || left . compareAbs ( base ) >= 0 ) {
divmod = left . divmod ( base ) ;
left = divmod . quotient ;
var digit = divmod . remainder ;
if ( digit . isNegative ( ) ) {
digit = base . minus ( digit ) . abs ( ) ;
left = left . next ( ) ;
}
out . push ( digit . toJSNumber ( ) ) ;
}
out . push ( left . toJSNumber ( ) ) ;
return { value : out . reverse ( ) , isNegative : neg } ;
}
function toBaseString ( n , base , alphabet ) {
var arr = toBase ( n , base ) ;
return ( arr . isNegative ? "-" : "" ) + arr . value . map ( function ( x ) {
return stringify ( x , alphabet ) ;
} ) . join ( '' ) ;
}
BigInteger . prototype . toArray = function ( radix ) {
return toBase ( this , radix ) ;
} ;
SmallInteger . prototype . toArray = function ( radix ) {
return toBase ( this , radix ) ;
} ;
NativeBigInt . prototype . toArray = function ( radix ) {
return toBase ( this , radix ) ;
} ;
BigInteger . prototype . toString = function ( radix , alphabet ) {
if ( radix === undefined ) radix = 10 ;
if ( radix !== 10 ) return toBaseString ( this , radix , alphabet ) ;
var v = this . value , l = v . length , str = String ( v [ -- l ] ) , zeros = "0000000" , digit ;
while ( -- l >= 0 ) {
digit = String ( v [ l ] ) ;
str += zeros . slice ( digit . length ) + digit ;
}
var sign = this . sign ? "-" : "" ;
return sign + str ;
} ;
SmallInteger . prototype . toString = function ( radix , alphabet ) {
if ( radix === undefined ) radix = 10 ;
if ( radix != 10 ) return toBaseString ( this , radix , alphabet ) ;
return String ( this . value ) ;
} ;
NativeBigInt . prototype . toString = SmallInteger . prototype . toString ;
NativeBigInt . prototype . toJSON = BigInteger . prototype . toJSON = SmallInteger . prototype . toJSON = function ( ) { return this . toString ( ) ; }
BigInteger . prototype . valueOf = function ( ) {
return parseInt ( this . toString ( ) , 10 ) ;
} ;
BigInteger . prototype . toJSNumber = BigInteger . prototype . valueOf ;
SmallInteger . prototype . valueOf = function ( ) {
return this . value ;
} ;
SmallInteger . prototype . toJSNumber = SmallInteger . prototype . valueOf ;
NativeBigInt . prototype . valueOf = NativeBigInt . prototype . toJSNumber = function ( ) {
return parseInt ( this . toString ( ) , 10 ) ;
}
function parseStringValue ( v ) {
if ( isPrecise ( + v ) ) {
var x = + v ;
if ( x === truncate ( x ) )
return supportsNativeBigInt ? new NativeBigInt ( BigInt ( x ) ) : new SmallInteger ( x ) ;
throw new Error ( "Invalid integer: " + v ) ;
}
var sign = v [ 0 ] === "-" ;
if ( sign ) v = v . slice ( 1 ) ;
var split = v . split ( /e/i ) ;
if ( split . length > 2 ) throw new Error ( "Invalid integer: " + split . join ( "e" ) ) ;
if ( split . length === 2 ) {
var exp = split [ 1 ] ;
if ( exp [ 0 ] === "+" ) exp = exp . slice ( 1 ) ;
exp = + exp ;
if ( exp !== truncate ( exp ) || ! isPrecise ( exp ) ) throw new Error ( "Invalid integer: " + exp + " is not a valid exponent." ) ;
var text = split [ 0 ] ;
var decimalPlace = text . indexOf ( "." ) ;
if ( decimalPlace >= 0 ) {
exp -= text . length - decimalPlace - 1 ;
text = text . slice ( 0 , decimalPlace ) + text . slice ( decimalPlace + 1 ) ;
}
if ( exp < 0 ) throw new Error ( "Cannot include negative exponent part for integers" ) ;
text += ( new Array ( exp + 1 ) ) . join ( "0" ) ;
v = text ;
}
var isValid = /^([0-9][0-9]*)$/ . test ( v ) ;
if ( ! isValid ) throw new Error ( "Invalid integer: " + v ) ;
if ( supportsNativeBigInt ) {
return new NativeBigInt ( BigInt ( sign ? "-" + v : v ) ) ;
}
var r = [ ] , max = v . length , l = LOG _BASE , min = max - l ;
while ( max > 0 ) {
r . push ( + v . slice ( min , max ) ) ;
min -= l ;
if ( min < 0 ) min = 0 ;
max -= l ;
}
trim ( r ) ;
return new BigInteger ( r , sign ) ;
}
function parseNumberValue ( v ) {
if ( supportsNativeBigInt ) {
return new NativeBigInt ( BigInt ( v ) ) ;
}
if ( isPrecise ( v ) ) {
if ( v !== truncate ( v ) ) throw new Error ( v + " is not an integer." ) ;
return new SmallInteger ( v ) ;
}
return parseStringValue ( v . toString ( ) ) ;
}
function parseValue ( v ) {
if ( typeof v === "number" ) {
return parseNumberValue ( v ) ;
}
if ( typeof v === "string" ) {
return parseStringValue ( v ) ;
}
if ( typeof v === "bigint" ) {
return new NativeBigInt ( v ) ;
}
return v ;
}
// Pre-define numbers in range [-999,999]
for ( var i = 0 ; i < 1000 ; i ++ ) {
Integer [ i ] = parseValue ( i ) ;
if ( i > 0 ) Integer [ - i ] = parseValue ( - i ) ;
}
// Backwards compatibility
Integer . one = Integer [ 1 ] ;
Integer . zero = Integer [ 0 ] ;
Integer . minusOne = Integer [ - 1 ] ;
Integer . max = max ;
Integer . min = min ;
Integer . gcd = gcd ;
Integer . lcm = lcm ;
Integer . isInstance = function ( x ) { return x instanceof BigInteger || x instanceof SmallInteger || x instanceof NativeBigInt ; } ;
Integer . randBetween = randBetween ;
Integer . fromArray = function ( digits , base , isNegative ) {
return parseBaseFromArray ( digits . map ( parseValue ) , parseValue ( base || 10 ) , isNegative ) ;
} ;
return Integer ;
} ) ( ) ;
// Node.js check
if ( typeof module !== "undefined" && module . hasOwnProperty ( "exports" ) ) {
module . exports = bigInt ;
}
//amd check
if ( typeof define === "function" && define . amd ) {
define ( "big-integer" , [ ] , function ( ) {
return bigInt ;
} ) ;
}
} , { } ] , 4 : [ function ( require , module , exports ) {
( function ( process ) {
/ *
Copyright 2019 0 KIMS association .
This file is part of websnark ( Web Assembly zkSnark Prover ) .
websnark is a free software : you can redistribute it and / or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation , either version 3 of the License , or
( at your option ) any later version .
websnark is distributed in the hope that it will be useful , but WITHOUT
ANY WARRANTY ; without even the implied warranty of MERCHANTABILITY
or FITNESS FOR A PARTICULAR PURPOSE . See the GNU General Public
License for more details .
You should have received a copy of the GNU General Public License
along with websnark . If not , see < https : //www.gnu.org/licenses/>.
* /
/* globals WebAssembly, Blob, Worker, navigator, Promise, window */
const bigInt = require ( "big-integer" ) ;
const groth16 _wasm = require ( "../build/groth16_wasm.js" ) ;
const assert = require ( "assert" ) ;
const inBrowser = ( typeof window !== "undefined" ) ;
let NodeWorker ;
let NodeCrypto ;
if ( ! inBrowser ) {
NodeWorker = require ( "worker_threads" ) . Worker ;
NodeCrypto = require ( "crypto" ) ;
}
class Deferred {
constructor ( ) {
this . promise = new Promise ( ( resolve , reject ) => {
this . reject = reject ;
this . resolve = resolve ;
} ) ;
}
}
/ *
function delay ( ms ) {
return new Promise ( resolve => setTimeout ( resolve , ms ) ) ;
}
* /
function thread ( self ) {
let instance ;
let memory ;
let i32 ;
async function init ( data ) {
const code = new Uint8Array ( data . code ) ;
const wasmModule = await WebAssembly . compile ( code ) ;
memory = new WebAssembly . Memory ( { initial : data . init } ) ;
i32 = new Uint32Array ( memory . buffer ) ;
instance = await WebAssembly . instantiate ( wasmModule , {
env : {
"memory" : memory
}
} ) ;
}
function alloc ( length ) {
while ( i32 [ 0 ] & 3 ) i32 [ 0 ] ++ ; // Return always aligned pointers
const res = i32 [ 0 ] ;
i32 [ 0 ] += length ;
return res ;
}
function putBin ( b ) {
const p = alloc ( b . byteLength ) ;
const s32 = new Uint32Array ( b ) ;
i32 . set ( s32 , p / 4 ) ;
return p ;
}
function getBin ( p , l ) {
return memory . buffer . slice ( p , p + l ) ;
}
self . onmessage = function ( e ) {
let data ;
if ( e . data ) {
data = e . data ;
} else {
data = e ;
}
if ( data . command == "INIT" ) {
init ( data ) . then ( function ( ) {
self . postMessage ( data . result ) ;
} ) ;
} else if ( data . command == "G1_MULTIEXP" ) {
const oldAlloc = i32 [ 0 ] ;
const pScalars = putBin ( data . scalars ) ;
const pPoints = putBin ( data . points ) ;
const pRes = alloc ( 96 ) ;
instance . exports . g1 _zero ( pRes ) ;
instance . exports . g1 _multiexp ( pScalars , pPoints , data . n , 5 , pRes ) ;
data . result = getBin ( pRes , 96 ) ;
i32 [ 0 ] = oldAlloc ;
self . postMessage ( data . result , [ data . result ] ) ;
} else if ( data . command == "G2_MULTIEXP" ) {
const oldAlloc = i32 [ 0 ] ;
const pScalars = putBin ( data . scalars ) ;
const pPoints = putBin ( data . points ) ;
const pRes = alloc ( 192 ) ;
instance . exports . g2 _zero ( pRes ) ;
instance . exports . g2 _multiexp ( pScalars , pPoints , data . n , 5 , pRes ) ;
data . result = getBin ( pRes , 192 ) ;
i32 [ 0 ] = oldAlloc ;
self . postMessage ( data . result , [ data . result ] ) ;
} else if ( data . command == "CALC_H" ) {
const oldAlloc = i32 [ 0 ] ;
const pSignals = putBin ( data . signals ) ;
const pPolsA = putBin ( data . polsA ) ;
const pPolsB = putBin ( data . polsB ) ;
const nSignals = data . nSignals ;
const domainSize = data . domainSize ;
const pSignalsM = alloc ( nSignals * 32 ) ;
const pPolA = alloc ( domainSize * 32 ) ;
const pPolB = alloc ( domainSize * 32 ) ;
const pPolA2 = alloc ( domainSize * 32 * 2 ) ;
const pPolB2 = alloc ( domainSize * 32 * 2 ) ;
instance . exports . fft _toMontgomeryN ( pSignals , pSignalsM , nSignals ) ;
instance . exports . pol _zero ( pPolA , domainSize ) ;
instance . exports . pol _zero ( pPolB , domainSize ) ;
instance . exports . pol _constructLC ( pPolsA , pSignalsM , nSignals , pPolA ) ;
instance . exports . pol _constructLC ( pPolsB , pSignalsM , nSignals , pPolB ) ;
instance . exports . fft _copyNInterleaved ( pPolA , pPolA2 , domainSize ) ;
instance . exports . fft _copyNInterleaved ( pPolB , pPolB2 , domainSize ) ;
instance . exports . fft _ifft ( pPolA , domainSize , 0 ) ;
instance . exports . fft _ifft ( pPolB , domainSize , 0 ) ;
instance . exports . fft _fft ( pPolA , domainSize , 1 ) ;
instance . exports . fft _fft ( pPolB , domainSize , 1 ) ;
instance . exports . fft _copyNInterleaved ( pPolA , pPolA2 + 32 , domainSize ) ;
instance . exports . fft _copyNInterleaved ( pPolB , pPolB2 + 32 , domainSize ) ;
instance . exports . fft _mulN ( pPolA2 , pPolB2 , domainSize * 2 , pPolA2 ) ;
instance . exports . fft _ifft ( pPolA2 , domainSize * 2 , 0 ) ;
2019-04-17 22:51:12 +03:00
instance . exports . fft _fromMontgomeryN ( pPolA2 + domainSize * 32 , pPolA2 + domainSize * 32 , domainSize ) ;
2019-04-09 22:37:39 +03:00
data . result = getBin ( pPolA2 + domainSize * 32 , domainSize * 32 ) ;
i32 [ 0 ] = oldAlloc ;
self . postMessage ( data . result , [ data . result ] ) ;
} else if ( data . command == "TERMINATE" ) {
process . exit ( ) ;
}
} ;
}
async function build ( ) {
const groth16 = new Groth16 ( ) ;
groth16 . q = bigInt ( "21888242871839275222246405745257275088696311157297823662689037894645226208583" ) ;
groth16 . r = bigInt ( "21888242871839275222246405745257275088548364400416034343698204186575808495617" ) ;
groth16 . n64 = Math . floor ( ( groth16 . q . minus ( 1 ) . bitLength ( ) - 1 ) / 64 ) + 1 ;
groth16 . n32 = groth16 . n64 * 2 ;
groth16 . n8 = groth16 . n64 * 8 ;
groth16 . memory = new WebAssembly . Memory ( { initial : 1000 } ) ;
groth16 . i32 = new Uint32Array ( groth16 . memory . buffer ) ;
const wasmModule = await WebAssembly . compile ( groth16 _wasm . code ) ;
groth16 . instance = await WebAssembly . instantiate ( wasmModule , {
env : {
"memory" : groth16 . memory
}
} ) ;
groth16 . pq = groth16 _wasm . pq ;
groth16 . pr = groth16 _wasm . pr ;
groth16 . pr0 = groth16 . alloc ( 192 ) ;
groth16 . pr1 = groth16 . alloc ( 192 ) ;
groth16 . workers = [ ] ;
groth16 . pendingDeferreds = [ ] ;
groth16 . working = [ ] ;
let concurrency ;
if ( ( typeof ( navigator ) === "object" ) && navigator . hardwareConcurrency ) {
concurrency = navigator . hardwareConcurrency ;
} else {
concurrency = 8 ;
}
function getOnMsg ( i ) {
return function ( e ) {
let data ;
if ( ( e ) && ( e . data ) ) {
data = e . data ;
} else {
data = e ;
}
groth16 . working [ i ] = false ;
groth16 . pendingDeferreds [ i ] . resolve ( data ) ;
groth16 . processWorks ( ) ;
} ;
}
for ( let i = 0 ; i < concurrency ; i ++ ) {
if ( inBrowser ) {
const blob = new Blob ( [ "(" , thread . toString ( ) , ")(self);" ] , { type : "text/javascript" } ) ;
const url = URL . createObjectURL ( blob ) ;
groth16 . workers [ i ] = new Worker ( url ) ;
groth16 . workers [ i ] . onmessage = getOnMsg ( i ) ;
} else {
groth16 . workers [ i ] = new NodeWorker ( "(" + thread . toString ( ) + ")(require('worker_threads').parentPort);" , { eval : true } ) ;
groth16 . workers [ i ] . on ( "message" , getOnMsg ( i ) ) ;
}
groth16 . working [ i ] = false ;
}
const initPromises = [ ] ;
for ( let i = 0 ; i < groth16 . workers . length ; i ++ ) {
const copyCode = groth16 _wasm . code . buffer . slice ( 0 ) ;
initPromises . push ( groth16 . postAction ( i , {
command : "INIT" ,
init : 1000 ,
code : copyCode
} , [ copyCode ] ) ) ;
}
await Promise . all ( initPromises ) ;
return groth16 ;
}
class Groth16 {
constructor ( ) {
this . actionQueue = [ ] ;
}
postAction ( workerId , e , transfers , _deferred ) {
assert ( this . working [ workerId ] == false ) ;
this . working [ workerId ] = true ;
this . pendingDeferreds [ workerId ] = _deferred ? _deferred : new Deferred ( ) ;
this . workers [ workerId ] . postMessage ( e , transfers ) ;
return this . pendingDeferreds [ workerId ] . promise ;
}
processWorks ( ) {
for ( let i = 0 ; ( i < this . workers . length ) && ( this . actionQueue . length > 0 ) ; i ++ ) {
if ( this . working [ i ] == false ) {
const work = this . actionQueue . shift ( ) ;
this . postAction ( i , work . data , work . transfers , work . deferred ) ;
}
}
}
queueAction ( actionData , transfers ) {
const d = new Deferred ( ) ;
this . actionQueue . push ( {
data : actionData ,
transfers : transfers ,
deferred : d
} ) ;
this . processWorks ( ) ;
return d . promise ;
}
alloc ( length ) {
while ( this . i32 [ 0 ] & 3 ) this . i32 [ 0 ] ++ ; // Return always aligned pointers
const res = this . i32 [ 0 ] ;
this . i32 [ 0 ] += length ;
return res ;
}
putBin ( p , b ) {
const s32 = new Uint32Array ( b ) ;
this . i32 . set ( s32 , p / 4 ) ;
}
getBin ( p , l ) {
return this . memory . buffer . slice ( p , p + l ) ;
}
bin2int ( b ) {
const i32 = new Uint32Array ( b ) ;
let acc = bigInt ( i32 [ 7 ] ) ;
for ( let i = 6 ; i >= 0 ; i -- ) {
acc = acc . shiftLeft ( 32 ) ;
acc = acc . add ( i32 [ i ] ) ;
}
return acc . toString ( ) ;
}
bin2g1 ( b ) {
return [
this . bin2int ( b . slice ( 0 , 32 ) ) ,
this . bin2int ( b . slice ( 32 , 64 ) ) ,
this . bin2int ( b . slice ( 64 , 96 ) ) ,
] ;
}
bin2g2 ( b ) {
return [
[
this . bin2int ( b . slice ( 0 , 32 ) ) ,
this . bin2int ( b . slice ( 32 , 64 ) )
] ,
[
this . bin2int ( b . slice ( 64 , 96 ) ) ,
this . bin2int ( b . slice ( 96 , 128 ) )
] ,
[
this . bin2int ( b . slice ( 128 , 160 ) ) ,
this . bin2int ( b . slice ( 160 , 192 ) )
] ,
] ;
}
async g1 _multiexp ( scalars , points ) {
const nPoints = scalars . byteLength / 32 ;
const nPointsPerThread = Math . floor ( nPoints / this . workers . length ) ;
const opPromises = [ ] ;
for ( let i = 0 ; i < this . workers . length ; i ++ ) {
const th _nPoints =
i < this . workers . length - 1 ?
nPointsPerThread :
nPoints - ( nPointsPerThread * ( this . workers . length - 1 ) ) ;
const scalars _th = scalars . slice ( i * nPointsPerThread * 32 , i * nPointsPerThread * 32 + th _nPoints * 32 ) ;
const points _th = points . slice ( i * nPointsPerThread * 64 , i * nPointsPerThread * 64 + th _nPoints * 64 ) ;
opPromises . push (
this . queueAction ( {
command : "G1_MULTIEXP" ,
scalars : scalars _th ,
points : points _th ,
n : th _nPoints
} , [ scalars _th , points _th ] )
) ;
}
const results = await Promise . all ( opPromises ) ;
this . instance . exports . g1 _zero ( this . pr0 ) ;
for ( let i = 0 ; i < results . length ; i ++ ) {
this . putBin ( this . pr1 , results [ i ] ) ;
this . instance . exports . g1 _add ( this . pr0 , this . pr1 , this . pr0 ) ;
}
return this . getBin ( this . pr0 , 96 ) ;
}
async g2 _multiexp ( scalars , points ) {
const nPoints = scalars . byteLength / 32 ;
const nPointsPerThread = Math . floor ( nPoints / this . workers . length ) ;
const opPromises = [ ] ;
for ( let i = 0 ; i < this . workers . length ; i ++ ) {
const th _nPoints =
i < this . workers . length - 1 ?
nPointsPerThread :
nPoints - ( nPointsPerThread * ( this . workers . length - 1 ) ) ;
const scalars _th = scalars . slice ( i * nPointsPerThread * 32 , i * nPointsPerThread * 32 + th _nPoints * 32 ) ;
const points _th = points . slice ( i * nPointsPerThread * 128 , i * nPointsPerThread * 128 + th _nPoints * 128 ) ;
opPromises . push (
this . queueAction ( {
command : "G2_MULTIEXP" ,
scalars : scalars _th ,
points : points _th ,
n : th _nPoints
} , [ scalars _th , points _th ] )
) ;
}
const results = await Promise . all ( opPromises ) ;
this . instance . exports . g2 _zero ( this . pr0 ) ;
for ( let i = 0 ; i < results . length ; i ++ ) {
this . putBin ( this . pr1 , results [ i ] ) ;
this . instance . exports . g2 _add ( this . pr0 , this . pr1 , this . pr0 ) ;
}
return this . getBin ( this . pr0 , 192 ) ;
}
g1 _affine ( p ) {
this . putBin ( this . pr0 , p ) ;
this . instance . exports . g1 _affine ( this . pr0 , this . pr0 ) ;
return this . getBin ( this . pr0 , 96 ) ;
}
g2 _affine ( p ) {
this . putBin ( this . pr0 , p ) ;
this . instance . exports . g2 _affine ( this . pr0 , this . pr0 ) ;
return this . getBin ( this . pr0 , 192 ) ;
}
g1 _fromMontgomery ( p ) {
this . putBin ( this . pr0 , p ) ;
this . instance . exports . g1 _fromMontgomery ( this . pr0 , this . pr0 ) ;
return this . getBin ( this . pr0 , 96 ) ;
}
g2 _fromMontgomery ( p ) {
this . putBin ( this . pr0 , p ) ;
this . instance . exports . g2 _fromMontgomery ( this . pr0 , this . pr0 ) ;
return this . getBin ( this . pr0 , 192 ) ;
}
loadPoint1 ( b ) {
const p = this . alloc ( 96 ) ;
this . putBin ( p , b ) ;
this . instance . exports . f1m _one ( p + 64 ) ;
return p ;
}
loadPoint2 ( b ) {
const p = this . alloc ( 192 ) ;
this . putBin ( p , b ) ;
this . instance . exports . f2m _one ( p + 128 ) ;
return p ;
}
terminate ( ) {
for ( let i = 0 ; i < this . workers . length ; i ++ ) {
this . workers [ i ] . postMessage ( { command : "TERMINATE" } ) ;
}
}
async calcH ( signals , polsA , polsB , nSignals , domainSize ) {
return this . queueAction ( {
command : "CALC_H" ,
signals : signals ,
polsA : polsA ,
polsB : polsB ,
nSignals : nSignals ,
domainSize : domainSize
} , [ signals , polsA , polsB ] ) ;
}
async proof ( signals , pkey ) {
const pkey32 = new Uint32Array ( pkey ) ;
const nSignals = pkey32 [ 0 ] ;
const nPublic = pkey32 [ 1 ] ;
const domainSize = pkey32 [ 2 ] ;
const pPolsA = pkey32 [ 3 ] ;
const pPolsB = pkey32 [ 4 ] ;
const pPointsA = pkey32 [ 5 ] ;
const pPointsB1 = pkey32 [ 6 ] ;
const pPointsB2 = pkey32 [ 7 ] ;
const pPointsC = pkey32 [ 8 ] ;
const pHExps = pkey32 [ 9 ] ;
const polsA = pkey . slice ( pPolsA , pPolsA + pPolsB ) ;
const polsB = pkey . slice ( pPolsB , pPolsB + pPointsA ) ;
const pointsA = pkey . slice ( pPointsA , pPointsA + nSignals * 64 ) ;
const pointsB1 = pkey . slice ( pPointsB1 , pPointsB1 + nSignals * 64 ) ;
const pointsB2 = pkey . slice ( pPointsB2 , pPointsB2 + nSignals * 128 ) ;
const pointsC = pkey . slice ( pPointsC , pPointsC + ( nSignals - nPublic - 1 ) * 64 ) ;
const pointsHExps = pkey . slice ( pHExps , pHExps + domainSize * 64 ) ;
const alfa1 = pkey . slice ( 10 * 4 , 10 * 4 + 64 ) ;
const beta1 = pkey . slice ( 10 * 4 + 64 , 10 * 4 + 128 ) ;
const delta1 = pkey . slice ( 10 * 4 + 128 , 10 * 4 + 192 ) ;
const beta2 = pkey . slice ( 10 * 4 + 192 , 10 * 4 + 320 ) ;
const delta2 = pkey . slice ( 10 * 4 + 320 , 10 * 4 + 448 ) ;
const pH = this . calcH ( signals . slice ( 0 ) , polsA , polsB , nSignals , domainSize ) . then ( ( h ) => {
2019-04-17 22:51:12 +03:00
/ * D e b u g c o d e t o p r i n t t h e r e s u l t o f h
for ( let i = 0 ; i < domainSize ; i ++ ) {
const a = this . bin2int ( h . slice ( i * 32 , i * 32 + 32 ) ) ;
console . log ( i + " -> " + a . toString ( ) ) ;
}
* /
2019-04-09 22:37:39 +03:00
return this . g1 _multiexp ( h , pointsHExps ) ;
} ) ;
const pA = this . g1 _multiexp ( signals . slice ( 0 ) , pointsA ) ;
const pB1 = this . g1 _multiexp ( signals . slice ( 0 ) , pointsB1 ) ;
const pB2 = this . g2 _multiexp ( signals . slice ( 0 ) , pointsB2 ) ;
const pC = this . g1 _multiexp ( signals . slice ( ( nPublic + 1 ) * 32 ) , pointsC ) ;
const res = await Promise . all ( [ pA , pB1 , pB2 , pC , pH ] ) ;
const pi _a = this . alloc ( 96 ) ;
const pi _b = this . alloc ( 192 ) ;
const pi _c = this . alloc ( 96 ) ;
const pib1 = this . alloc ( 96 ) ;
this . putBin ( pi _a , res [ 0 ] ) ;
this . putBin ( pib1 , res [ 1 ] ) ;
this . putBin ( pi _b , res [ 2 ] ) ;
this . putBin ( pi _c , res [ 3 ] ) ;
const pAlfa1 = this . loadPoint1 ( alfa1 ) ;
const pBeta1 = this . loadPoint1 ( beta1 ) ;
const pDelta1 = this . loadPoint1 ( delta1 ) ;
const pBeta2 = this . loadPoint2 ( beta2 ) ;
const pDelta2 = this . loadPoint2 ( delta2 ) ;
let rnd = new Uint32Array ( 8 ) ;
const aux1 = this . alloc ( 96 ) ;
const aux2 = this . alloc ( 192 ) ;
const pr = this . alloc ( 32 ) ;
const ps = this . alloc ( 32 ) ;
if ( inBrowser ) {
window . crypto . getRandomValues ( rnd ) ;
this . putBin ( pr , rnd ) ;
window . crypto . getRandomValues ( rnd ) ;
this . putBin ( ps , rnd ) ;
} else {
const br = NodeCrypto . randomBytes ( 32 ) ;
this . putBin ( pr , br ) ;
const bs = NodeCrypto . randomBytes ( 32 ) ;
this . putBin ( ps , bs ) ;
}
2019-04-17 22:51:12 +03:00
/// Uncoment it to debug and check it works
// this.instance.exports.f1m_zero(pr);
// this.instance.exports.f1m_zero(ps);
2019-04-09 22:37:39 +03:00
// pi_a = pi_a + Alfa1 + r*Delta1
this . instance . exports . g1 _add ( pAlfa1 , pi _a , pi _a ) ;
this . instance . exports . g1 _timesScalar ( pDelta1 , pr , 32 , aux1 ) ;
this . instance . exports . g1 _add ( aux1 , pi _a , pi _a ) ;
// pi_b = pi_b + Beta2 + s*Delta2
this . instance . exports . g2 _add ( pBeta2 , pi _b , pi _b ) ;
this . instance . exports . g2 _timesScalar ( pDelta2 , ps , 32 , aux2 ) ;
this . instance . exports . g2 _add ( aux2 , pi _b , pi _b ) ;
// pib1 = pib1 + Beta1 + s*Delta1
this . instance . exports . g1 _add ( pBeta1 , pib1 , pib1 ) ;
this . instance . exports . g1 _timesScalar ( pDelta1 , ps , 32 , aux1 ) ;
this . instance . exports . g1 _add ( aux1 , pib1 , pib1 ) ;
// pi_c = pi_c + pH
this . putBin ( aux1 , res [ 4 ] ) ;
this . instance . exports . g1 _add ( aux1 , pi _c , pi _c ) ;
2019-04-17 22:51:12 +03:00
2019-04-09 22:37:39 +03:00
// pi_c = pi_c + s*pi_a
this . instance . exports . g1 _timesScalar ( pi _a , ps , 32 , aux1 ) ;
this . instance . exports . g1 _add ( aux1 , pi _c , pi _c ) ;
// pi_c = pi_c + r*pib1
this . instance . exports . g1 _timesScalar ( pib1 , pr , 32 , aux1 ) ;
this . instance . exports . g1 _add ( aux1 , pi _c , pi _c ) ;
// pi_c = pi_c - r*s*delta1
const prs = this . alloc ( 64 ) ;
this . instance . exports . int _mul ( pr , ps , prs ) ;
this . instance . exports . g1 _timesScalar ( pDelta1 , prs , 64 , aux1 ) ;
this . instance . exports . g1 _neg ( aux1 , aux1 ) ;
this . instance . exports . g1 _add ( aux1 , pi _c , pi _c ) ;
this . instance . exports . g1 _affine ( pi _a , pi _a ) ;
this . instance . exports . g2 _affine ( pi _b , pi _b ) ;
this . instance . exports . g1 _affine ( pi _c , pi _c ) ;
this . instance . exports . g1 _fromMontgomery ( pi _a , pi _a ) ;
this . instance . exports . g2 _fromMontgomery ( pi _b , pi _b ) ;
this . instance . exports . g1 _fromMontgomery ( pi _c , pi _c ) ;
return {
pi _a : this . bin2g1 ( this . getBin ( pi _a , 96 ) ) ,
pi _b : this . bin2g2 ( this . getBin ( pi _b , 192 ) ) ,
pi _c : this . bin2g1 ( this . getBin ( pi _c , 96 ) ) ,
} ;
}
}
module . exports = build ;
} ) . call ( this , require ( '_process' ) )
} , { "../build/groth16_wasm.js" : 1 , "_process" : 12 , "assert" : 5 , "big-integer" : 3 , "crypto" : undefined , "worker_threads" : undefined } ] , 5 : [ function ( require , module , exports ) {
( function ( global ) {
'use strict' ;
// compare and isBuffer taken from https://github.com/feross/buffer/blob/680e9e5e488f22aac27599a57dc844a6315928dd/index.js
// original notice:
/ * !
* The buffer module from node . js , for the browser .
*
* @ author Feross Aboukhadijeh < feross @ feross . org > < http : //feross.org>
* @ license MIT
* /
function compare ( a , b ) {
if ( a === b ) {
return 0 ;
}
var x = a . length ;
var y = b . length ;
for ( var i = 0 , len = Math . min ( x , y ) ; i < len ; ++ i ) {
if ( a [ i ] !== b [ i ] ) {
x = a [ i ] ;
y = b [ i ] ;
break ;
}
}
if ( x < y ) {
return - 1 ;
}
if ( y < x ) {
return 1 ;
}
return 0 ;
}
function isBuffer ( b ) {
if ( global . Buffer && typeof global . Buffer . isBuffer === 'function' ) {
return global . Buffer . isBuffer ( b ) ;
}
return ! ! ( b != null && b . _isBuffer ) ;
}
// based on node assert, original notice:
// http://wiki.commonjs.org/wiki/Unit_Testing/1.0
//
// THIS IS NOT TESTED NOR LIKELY TO WORK OUTSIDE V8!
//
// Originally from narwhal.js (http://narwhaljs.org)
// Copyright (c) 2009 Thomas Robinson <280north.com>
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the 'Software'), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
var util = require ( 'util/' ) ;
var hasOwn = Object . prototype . hasOwnProperty ;
var pSlice = Array . prototype . slice ;
var functionsHaveNames = ( function ( ) {
return function foo ( ) { } . name === 'foo' ;
} ( ) ) ;
function pToString ( obj ) {
return Object . prototype . toString . call ( obj ) ;
}
function isView ( arrbuf ) {
if ( isBuffer ( arrbuf ) ) {
return false ;
}
if ( typeof global . ArrayBuffer !== 'function' ) {
return false ;
}
if ( typeof ArrayBuffer . isView === 'function' ) {
return ArrayBuffer . isView ( arrbuf ) ;
}
if ( ! arrbuf ) {
return false ;
}
if ( arrbuf instanceof DataView ) {
return true ;
}
if ( arrbuf . buffer && arrbuf . buffer instanceof ArrayBuffer ) {
return true ;
}
return false ;
}
// 1. The assert module provides functions that throw
// AssertionError's when particular conditions are not met. The
// assert module must conform to the following interface.
var assert = module . exports = ok ;
// 2. The AssertionError is defined in assert.
// new assert.AssertionError({ message: message,
// actual: actual,
// expected: expected })
var regex = /\s*function\s+([^\(\s]*)\s*/ ;
// based on https://github.com/ljharb/function.prototype.name/blob/adeeeec8bfcc6068b187d7d9fb3d5bb1d3a30899/implementation.js
function getName ( func ) {
if ( ! util . isFunction ( func ) ) {
return ;
}
if ( functionsHaveNames ) {
return func . name ;
}
var str = func . toString ( ) ;
var match = str . match ( regex ) ;
return match && match [ 1 ] ;
}
assert . AssertionError = function AssertionError ( options ) {
this . name = 'AssertionError' ;
this . actual = options . actual ;
this . expected = options . expected ;
this . operator = options . operator ;
if ( options . message ) {
this . message = options . message ;
this . generatedMessage = false ;
} else {
this . message = getMessage ( this ) ;
this . generatedMessage = true ;
}
var stackStartFunction = options . stackStartFunction || fail ;
if ( Error . captureStackTrace ) {
Error . captureStackTrace ( this , stackStartFunction ) ;
} else {
// non v8 browsers so we can have a stacktrace
var err = new Error ( ) ;
if ( err . stack ) {
var out = err . stack ;
// try to strip useless frames
var fn _name = getName ( stackStartFunction ) ;
var idx = out . indexOf ( '\n' + fn _name ) ;
if ( idx >= 0 ) {
// once we have located the function frame
// we need to strip out everything before it (and its line)
var next _line = out . indexOf ( '\n' , idx + 1 ) ;
out = out . substring ( next _line + 1 ) ;
}
this . stack = out ;
}
}
} ;
// assert.AssertionError instanceof Error
util . inherits ( assert . AssertionError , Error ) ;
function truncate ( s , n ) {
if ( typeof s === 'string' ) {
return s . length < n ? s : s . slice ( 0 , n ) ;
} else {
return s ;
}
}
function inspect ( something ) {
if ( functionsHaveNames || ! util . isFunction ( something ) ) {
return util . inspect ( something ) ;
}
var rawname = getName ( something ) ;
var name = rawname ? ': ' + rawname : '' ;
return '[Function' + name + ']' ;
}
function getMessage ( self ) {
return truncate ( inspect ( self . actual ) , 128 ) + ' ' +
self . operator + ' ' +
truncate ( inspect ( self . expected ) , 128 ) ;
}
// At present only the three keys mentioned above are used and
// understood by the spec. Implementations or sub modules can pass
// other keys to the AssertionError's constructor - they will be
// ignored.
// 3. All of the following functions must throw an AssertionError
// when a corresponding condition is not met, with a message that
// may be undefined if not provided. All assertion methods provide
// both the actual and expected values to the assertion error for
// display purposes.
function fail ( actual , expected , message , operator , stackStartFunction ) {
throw new assert . AssertionError ( {
message : message ,
actual : actual ,
expected : expected ,
operator : operator ,
stackStartFunction : stackStartFunction
} ) ;
}
// EXTENSION! allows for well behaved errors defined elsewhere.
assert . fail = fail ;
// 4. Pure assertion tests whether a value is truthy, as determined
// by !!guard.
// assert.ok(guard, message_opt);
// This statement is equivalent to assert.equal(true, !!guard,
// message_opt);. To test strictly for the value true, use
// assert.strictEqual(true, guard, message_opt);.
function ok ( value , message ) {
if ( ! value ) fail ( value , true , message , '==' , assert . ok ) ;
}
assert . ok = ok ;
// 5. The equality assertion tests shallow, coercive equality with
// ==.
// assert.equal(actual, expected, message_opt);
assert . equal = function equal ( actual , expected , message ) {
if ( actual != expected ) fail ( actual , expected , message , '==' , assert . equal ) ;
} ;
// 6. The non-equality assertion tests for whether two objects are not equal
// with != assert.notEqual(actual, expected, message_opt);
assert . notEqual = function notEqual ( actual , expected , message ) {
if ( actual == expected ) {
fail ( actual , expected , message , '!=' , assert . notEqual ) ;
}
} ;
// 7. The equivalence assertion tests a deep equality relation.
// assert.deepEqual(actual, expected, message_opt);
assert . deepEqual = function deepEqual ( actual , expected , message ) {
if ( ! _deepEqual ( actual , expected , false ) ) {
fail ( actual , expected , message , 'deepEqual' , assert . deepEqual ) ;
}
} ;
assert . deepStrictEqual = function deepStrictEqual ( actual , expected , message ) {
if ( ! _deepEqual ( actual , expected , true ) ) {
fail ( actual , expected , message , 'deepStrictEqual' , assert . deepStrictEqual ) ;
}
} ;
function _deepEqual ( actual , expected , strict , memos ) {
// 7.1. All identical values are equivalent, as determined by ===.
if ( actual === expected ) {
return true ;
} else if ( isBuffer ( actual ) && isBuffer ( expected ) ) {
return compare ( actual , expected ) === 0 ;
// 7.2. If the expected value is a Date object, the actual value is
// equivalent if it is also a Date object that refers to the same time.
} else if ( util . isDate ( actual ) && util . isDate ( expected ) ) {
return actual . getTime ( ) === expected . getTime ( ) ;
// 7.3 If the expected value is a RegExp object, the actual value is
// equivalent if it is also a RegExp object with the same source and
// properties (`global`, `multiline`, `lastIndex`, `ignoreCase`).
} else if ( util . isRegExp ( actual ) && util . isRegExp ( expected ) ) {
return actual . source === expected . source &&
actual . global === expected . global &&
actual . multiline === expected . multiline &&
actual . lastIndex === expected . lastIndex &&
actual . ignoreCase === expected . ignoreCase ;
// 7.4. Other pairs that do not both pass typeof value == 'object',
// equivalence is determined by ==.
} else if ( ( actual === null || typeof actual !== 'object' ) &&
( expected === null || typeof expected !== 'object' ) ) {
return strict ? actual === expected : actual == expected ;
// If both values are instances of typed arrays, wrap their underlying
// ArrayBuffers in a Buffer each to increase performance
// This optimization requires the arrays to have the same type as checked by
// Object.prototype.toString (aka pToString). Never perform binary
// comparisons for Float*Arrays, though, since e.g. +0 === -0 but their
// bit patterns are not identical.
} else if ( isView ( actual ) && isView ( expected ) &&
pToString ( actual ) === pToString ( expected ) &&
! ( actual instanceof Float32Array ||
actual instanceof Float64Array ) ) {
return compare ( new Uint8Array ( actual . buffer ) ,
new Uint8Array ( expected . buffer ) ) === 0 ;
// 7.5 For all other Object pairs, including Array objects, equivalence is
// determined by having the same number of owned properties (as verified
// with Object.prototype.hasOwnProperty.call), the same set of keys
// (although not necessarily the same order), equivalent values for every
// corresponding key, and an identical 'prototype' property. Note: this
// accounts for both named and indexed properties on Arrays.
} else if ( isBuffer ( actual ) !== isBuffer ( expected ) ) {
return false ;
} else {
memos = memos || { actual : [ ] , expected : [ ] } ;
var actualIndex = memos . actual . indexOf ( actual ) ;
if ( actualIndex !== - 1 ) {
if ( actualIndex === memos . expected . indexOf ( expected ) ) {
return true ;
}
}
memos . actual . push ( actual ) ;
memos . expected . push ( expected ) ;
return objEquiv ( actual , expected , strict , memos ) ;
}
}
function isArguments ( object ) {
return Object . prototype . toString . call ( object ) == '[object Arguments]' ;
}
function objEquiv ( a , b , strict , actualVisitedObjects ) {
if ( a === null || a === undefined || b === null || b === undefined )
return false ;
// if one is a primitive, the other must be same
if ( util . isPrimitive ( a ) || util . isPrimitive ( b ) )
return a === b ;
if ( strict && Object . getPrototypeOf ( a ) !== Object . getPrototypeOf ( b ) )
return false ;
var aIsArgs = isArguments ( a ) ;
var bIsArgs = isArguments ( b ) ;
if ( ( aIsArgs && ! bIsArgs ) || ( ! aIsArgs && bIsArgs ) )
return false ;
if ( aIsArgs ) {
a = pSlice . call ( a ) ;
b = pSlice . call ( b ) ;
return _deepEqual ( a , b , strict ) ;
}
var ka = objectKeys ( a ) ;
var kb = objectKeys ( b ) ;
var key , i ;
// having the same number of owned properties (keys incorporates
// hasOwnProperty)
if ( ka . length !== kb . length )
return false ;
//the same set of keys (although not necessarily the same order),
ka . sort ( ) ;
kb . sort ( ) ;
//~~~cheap key test
for ( i = ka . length - 1 ; i >= 0 ; i -- ) {
if ( ka [ i ] !== kb [ i ] )
return false ;
}
//equivalent values for every corresponding key, and
//~~~possibly expensive deep test
for ( i = ka . length - 1 ; i >= 0 ; i -- ) {
key = ka [ i ] ;
if ( ! _deepEqual ( a [ key ] , b [ key ] , strict , actualVisitedObjects ) )
return false ;
}
return true ;
}
// 8. The non-equivalence assertion tests for any deep inequality.
// assert.notDeepEqual(actual, expected, message_opt);
assert . notDeepEqual = function notDeepEqual ( actual , expected , message ) {
if ( _deepEqual ( actual , expected , false ) ) {
fail ( actual , expected , message , 'notDeepEqual' , assert . notDeepEqual ) ;
}
} ;
assert . notDeepStrictEqual = notDeepStrictEqual ;
function notDeepStrictEqual ( actual , expected , message ) {
if ( _deepEqual ( actual , expected , true ) ) {
fail ( actual , expected , message , 'notDeepStrictEqual' , notDeepStrictEqual ) ;
}
}
// 9. The strict equality assertion tests strict equality, as determined by ===.
// assert.strictEqual(actual, expected, message_opt);
assert . strictEqual = function strictEqual ( actual , expected , message ) {
if ( actual !== expected ) {
fail ( actual , expected , message , '===' , assert . strictEqual ) ;
}
} ;
// 10. The strict non-equality assertion tests for strict inequality, as
// determined by !==. assert.notStrictEqual(actual, expected, message_opt);
assert . notStrictEqual = function notStrictEqual ( actual , expected , message ) {
if ( actual === expected ) {
fail ( actual , expected , message , '!==' , assert . notStrictEqual ) ;
}
} ;
function expectedException ( actual , expected ) {
if ( ! actual || ! expected ) {
return false ;
}
if ( Object . prototype . toString . call ( expected ) == '[object RegExp]' ) {
return expected . test ( actual ) ;
}
try {
if ( actual instanceof expected ) {
return true ;
}
} catch ( e ) {
// Ignore. The instanceof check doesn't work for arrow functions.
}
if ( Error . isPrototypeOf ( expected ) ) {
return false ;
}
return expected . call ( { } , actual ) === true ;
}
function _tryBlock ( block ) {
var error ;
try {
block ( ) ;
} catch ( e ) {
error = e ;
}
return error ;
}
function _throws ( shouldThrow , block , expected , message ) {
var actual ;
if ( typeof block !== 'function' ) {
throw new TypeError ( '"block" argument must be a function' ) ;
}
if ( typeof expected === 'string' ) {
message = expected ;
expected = null ;
}
actual = _tryBlock ( block ) ;
message = ( expected && expected . name ? ' (' + expected . name + ').' : '.' ) +
( message ? ' ' + message : '.' ) ;
if ( shouldThrow && ! actual ) {
fail ( actual , expected , 'Missing expected exception' + message ) ;
}
var userProvidedMessage = typeof message === 'string' ;
var isUnwantedException = ! shouldThrow && util . isError ( actual ) ;
var isUnexpectedException = ! shouldThrow && actual && ! expected ;
if ( ( isUnwantedException &&
userProvidedMessage &&
expectedException ( actual , expected ) ) ||
isUnexpectedException ) {
fail ( actual , expected , 'Got unwanted exception' + message ) ;
}
if ( ( shouldThrow && actual && expected &&
! expectedException ( actual , expected ) ) || ( ! shouldThrow && actual ) ) {
throw actual ;
}
}
// 11. Expected to throw an error:
// assert.throws(block, Error_opt, message_opt);
assert . throws = function ( block , /*optional*/ error , /*optional*/ message ) {
_throws ( true , block , error , message ) ;
} ;
// EXTENSION! This is annoying to write outside this module.
assert . doesNotThrow = function ( block , /*optional*/ error , /*optional*/ message ) {
_throws ( false , block , error , message ) ;
} ;
assert . ifError = function ( err ) { if ( err ) throw err ; } ;
var objectKeys = Object . keys || function ( obj ) {
var keys = [ ] ;
for ( var key in obj ) {
if ( hasOwn . call ( obj , key ) ) keys . push ( key ) ;
}
return keys ;
} ;
} ) . call ( this , typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : { } )
} , { "util/" : 8 } ] , 6 : [ function ( require , module , exports ) {
if ( typeof Object . create === 'function' ) {
// implementation from standard node.js 'util' module
module . exports = function inherits ( ctor , superCtor ) {
ctor . super _ = superCtor
ctor . prototype = Object . create ( superCtor . prototype , {
constructor : {
value : ctor ,
enumerable : false ,
writable : true ,
configurable : true
}
} ) ;
} ;
} else {
// old school shim for old browsers
module . exports = function inherits ( ctor , superCtor ) {
ctor . super _ = superCtor
var TempCtor = function ( ) { }
TempCtor . prototype = superCtor . prototype
ctor . prototype = new TempCtor ( )
ctor . prototype . constructor = ctor
}
}
} , { } ] , 7 : [ function ( require , module , exports ) {
module . exports = function isBuffer ( arg ) {
return arg && typeof arg === 'object'
&& typeof arg . copy === 'function'
&& typeof arg . fill === 'function'
&& typeof arg . readUInt8 === 'function' ;
}
} , { } ] , 8 : [ function ( require , module , exports ) {
( function ( process , global ) {
// Copyright Joyent, Inc. and other Node contributors.
//
// Permission is hereby granted, free of charge, to any person obtaining a
// copy of this software and associated documentation files (the
// "Software"), to deal in the Software without restriction, including
// without limitation the rights to use, copy, modify, merge, publish,
// distribute, sublicense, and/or sell copies of the Software, and to permit
// persons to whom the Software is furnished to do so, subject to the
// following conditions:
//
// The above copyright notice and this permission notice shall be included
// in all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
// OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
// MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN
// NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM,
// DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR
// OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
// USE OR OTHER DEALINGS IN THE SOFTWARE.
var formatRegExp = /%[sdj%]/g ;
exports . format = function ( f ) {
if ( ! isString ( f ) ) {
var objects = [ ] ;
for ( var i = 0 ; i < arguments . length ; i ++ ) {
objects . push ( inspect ( arguments [ i ] ) ) ;
}
return objects . join ( ' ' ) ;
}
var i = 1 ;
var args = arguments ;
var len = args . length ;
var str = String ( f ) . replace ( formatRegExp , function ( x ) {
if ( x === '%%' ) return '%' ;
if ( i >= len ) return x ;
switch ( x ) {
case '%s' : return String ( args [ i ++ ] ) ;
case '%d' : return Number ( args [ i ++ ] ) ;
case '%j' :
try {
return JSON . stringify ( args [ i ++ ] ) ;
} catch ( _ ) {
return '[Circular]' ;
}
default :
return x ;
}
} ) ;
for ( var x = args [ i ] ; i < len ; x = args [ ++ i ] ) {
if ( isNull ( x ) || ! isObject ( x ) ) {
str += ' ' + x ;
} else {
str += ' ' + inspect ( x ) ;
}
}
return str ;
} ;
// Mark that a method should not be used.
// Returns a modified function which warns once by default.
// If --no-deprecation is set, then it is a no-op.
exports . deprecate = function ( fn , msg ) {
// Allow for deprecating things in the process of starting up.
if ( isUndefined ( global . process ) ) {
return function ( ) {
return exports . deprecate ( fn , msg ) . apply ( this , arguments ) ;
} ;
}
if ( process . noDeprecation === true ) {
return fn ;
}
var warned = false ;
function deprecated ( ) {
if ( ! warned ) {
if ( process . throwDeprecation ) {
throw new Error ( msg ) ;
} else if ( process . traceDeprecation ) {
console . trace ( msg ) ;
} else {
console . error ( msg ) ;
}
warned = true ;
}
return fn . apply ( this , arguments ) ;
}
return deprecated ;
} ;
var debugs = { } ;
var debugEnviron ;
exports . debuglog = function ( set ) {
if ( isUndefined ( debugEnviron ) )
debugEnviron = process . env . NODE _DEBUG || '' ;
set = set . toUpperCase ( ) ;
if ( ! debugs [ set ] ) {
if ( new RegExp ( '\\b' + set + '\\b' , 'i' ) . test ( debugEnviron ) ) {
var pid = process . pid ;
debugs [ set ] = function ( ) {
var msg = exports . format . apply ( exports , arguments ) ;
console . error ( '%s %d: %s' , set , pid , msg ) ;
} ;
} else {
debugs [ set ] = function ( ) { } ;
}
}
return debugs [ set ] ;
} ;
/ * *
* Echos the value of a value . Trys to print the value out
* in the best way possible given the different types .
*
* @ param { Object } obj The object to print out .
* @ param { Object } opts Optional options object that alters the output .
* /
/* legacy: obj, showHidden, depth, colors*/
function inspect ( obj , opts ) {
// default options
var ctx = {
seen : [ ] ,
stylize : stylizeNoColor
} ;
// legacy...
if ( arguments . length >= 3 ) ctx . depth = arguments [ 2 ] ;
if ( arguments . length >= 4 ) ctx . colors = arguments [ 3 ] ;
if ( isBoolean ( opts ) ) {
// legacy...
ctx . showHidden = opts ;
} else if ( opts ) {
// got an "options" object
exports . _extend ( ctx , opts ) ;
}
// set default options
if ( isUndefined ( ctx . showHidden ) ) ctx . showHidden = false ;
if ( isUndefined ( ctx . depth ) ) ctx . depth = 2 ;
if ( isUndefined ( ctx . colors ) ) ctx . colors = false ;
if ( isUndefined ( ctx . customInspect ) ) ctx . customInspect = true ;
if ( ctx . colors ) ctx . stylize = stylizeWithColor ;
return formatValue ( ctx , obj , ctx . depth ) ;
}
exports . inspect = inspect ;
// http://en.wikipedia.org/wiki/ANSI_escape_code#graphics
inspect . colors = {
'bold' : [ 1 , 22 ] ,
'italic' : [ 3 , 23 ] ,
'underline' : [ 4 , 24 ] ,
'inverse' : [ 7 , 27 ] ,
'white' : [ 37 , 39 ] ,
'grey' : [ 90 , 39 ] ,
'black' : [ 30 , 39 ] ,
'blue' : [ 34 , 39 ] ,
'cyan' : [ 36 , 39 ] ,
'green' : [ 32 , 39 ] ,
'magenta' : [ 35 , 39 ] ,
'red' : [ 31 , 39 ] ,
'yellow' : [ 33 , 39 ]
} ;
// Don't use 'blue' not visible on cmd.exe
inspect . styles = {
'special' : 'cyan' ,
'number' : 'yellow' ,
'boolean' : 'yellow' ,
'undefined' : 'grey' ,
'null' : 'bold' ,
'string' : 'green' ,
'date' : 'magenta' ,
// "name": intentionally not styling
'regexp' : 'red'
} ;
function stylizeWithColor ( str , styleType ) {
var style = inspect . styles [ styleType ] ;
if ( style ) {
return '\u001b[' + inspect . colors [ style ] [ 0 ] + 'm' + str +
'\u001b[' + inspect . colors [ style ] [ 1 ] + 'm' ;
} else {
return str ;
}
}
function stylizeNoColor ( str , styleType ) {
return str ;
}
function arrayToHash ( array ) {
var hash = { } ;
array . forEach ( function ( val , idx ) {
hash [ val ] = true ;
} ) ;
return hash ;
}
function formatValue ( ctx , value , recurseTimes ) {
// Provide a hook for user-specified inspect functions.
// Check that value is an object with an inspect function on it
if ( ctx . customInspect &&
value &&
isFunction ( value . inspect ) &&
// Filter out the util module, it's inspect function is special
value . inspect !== exports . inspect &&
// Also filter out any prototype objects using the circular check.
! ( value . constructor && value . constructor . prototype === value ) ) {
var ret = value . inspect ( recurseTimes , ctx ) ;
if ( ! isString ( ret ) ) {
ret = formatValue ( ctx , ret , recurseTimes ) ;
}
return ret ;
}
// Primitive types cannot have properties
var primitive = formatPrimitive ( ctx , value ) ;
if ( primitive ) {
return primitive ;
}
// Look up the keys of the object.
var keys = Object . keys ( value ) ;
var visibleKeys = arrayToHash ( keys ) ;
if ( ctx . showHidden ) {
keys = Object . getOwnPropertyNames ( value ) ;
}
// IE doesn't make error fields non-enumerable
// http://msdn.microsoft.com/en-us/library/ie/dww52sbt(v=vs.94).aspx
if ( isError ( value )
&& ( keys . indexOf ( 'message' ) >= 0 || keys . indexOf ( 'description' ) >= 0 ) ) {
return formatError ( value ) ;
}
// Some type of object without properties can be shortcutted.
if ( keys . length === 0 ) {
if ( isFunction ( value ) ) {
var name = value . name ? ': ' + value . name : '' ;
return ctx . stylize ( '[Function' + name + ']' , 'special' ) ;
}
if ( isRegExp ( value ) ) {
return ctx . stylize ( RegExp . prototype . toString . call ( value ) , 'regexp' ) ;
}
if ( isDate ( value ) ) {
return ctx . stylize ( Date . prototype . toString . call ( value ) , 'date' ) ;
}
if ( isError ( value ) ) {
return formatError ( value ) ;
}
}
var base = '' , array = false , braces = [ '{' , '}' ] ;
// Make Array say that they are Array
if ( isArray ( value ) ) {
array = true ;
braces = [ '[' , ']' ] ;
}
// Make functions say that they are functions
if ( isFunction ( value ) ) {
var n = value . name ? ': ' + value . name : '' ;
base = ' [Function' + n + ']' ;
}
// Make RegExps say that they are RegExps
if ( isRegExp ( value ) ) {
base = ' ' + RegExp . prototype . toString . call ( value ) ;
}
// Make dates with properties first say the date
if ( isDate ( value ) ) {
base = ' ' + Date . prototype . toUTCString . call ( value ) ;
}
// Make error with message first say the error
if ( isError ( value ) ) {
base = ' ' + formatError ( value ) ;
}
if ( keys . length === 0 && ( ! array || value . length == 0 ) ) {
return braces [ 0 ] + base + braces [ 1 ] ;
}
if ( recurseTimes < 0 ) {
if ( isRegExp ( value ) ) {
return ctx . stylize ( RegExp . prototype . toString . call ( value ) , 'regexp' ) ;
} else {
return ctx . stylize ( '[Object]' , 'special' ) ;
}
}
ctx . seen . push ( value ) ;
var output ;
if ( array ) {
output = formatArray ( ctx , value , recurseTimes , visibleKeys , keys ) ;
} else {
output = keys . map ( function ( key ) {
return formatProperty ( ctx , value , recurseTimes , visibleKeys , key , array ) ;
} ) ;
}
ctx . seen . pop ( ) ;
return reduceToSingleString ( output , base , braces ) ;
}
function formatPrimitive ( ctx , value ) {
if ( isUndefined ( value ) )
return ctx . stylize ( 'undefined' , 'undefined' ) ;
if ( isString ( value ) ) {
var simple = '\'' + JSON . stringify ( value ) . replace ( /^"|"$/g , '' )
. replace ( /'/g , "\\'" )
. replace ( /\\"/g , '"' ) + '\'' ;
return ctx . stylize ( simple , 'string' ) ;
}
if ( isNumber ( value ) )
return ctx . stylize ( '' + value , 'number' ) ;
if ( isBoolean ( value ) )
return ctx . stylize ( '' + value , 'boolean' ) ;
// For some reason typeof null is "object", so special case here.
if ( isNull ( value ) )
return ctx . stylize ( 'null' , 'null' ) ;
}
function formatError ( value ) {
return '[' + Error . prototype . toString . call ( value ) + ']' ;
}
function formatArray ( ctx , value , recurseTimes , visibleKeys , keys ) {
var output = [ ] ;
for ( var i = 0 , l = value . length ; i < l ; ++ i ) {
if ( hasOwnProperty ( value , String ( i ) ) ) {
output . push ( formatProperty ( ctx , value , recurseTimes , visibleKeys ,
String ( i ) , true ) ) ;
} else {
output . push ( '' ) ;
}
}
keys . forEach ( function ( key ) {
if ( ! key . match ( /^\d+$/ ) ) {
output . push ( formatProperty ( ctx , value , recurseTimes , visibleKeys ,
key , true ) ) ;
}
} ) ;
return output ;
}
function formatProperty ( ctx , value , recurseTimes , visibleKeys , key , array ) {
var name , str , desc ;
desc = Object . getOwnPropertyDescriptor ( value , key ) || { value : value [ key ] } ;
if ( desc . get ) {
if ( desc . set ) {
str = ctx . stylize ( '[Getter/Setter]' , 'special' ) ;
} else {
str = ctx . stylize ( '[Getter]' , 'special' ) ;
}
} else {
if ( desc . set ) {
str = ctx . stylize ( '[Setter]' , 'special' ) ;
}
}
if ( ! hasOwnProperty ( visibleKeys , key ) ) {
name = '[' + key + ']' ;
}
if ( ! str ) {
if ( ctx . seen . indexOf ( desc . value ) < 0 ) {
if ( isNull ( recurseTimes ) ) {
str = formatValue ( ctx , desc . value , null ) ;
} else {
str = formatValue ( ctx , desc . value , recurseTimes - 1 ) ;
}
if ( str . indexOf ( '\n' ) > - 1 ) {
if ( array ) {
str = str . split ( '\n' ) . map ( function ( line ) {
return ' ' + line ;
} ) . join ( '\n' ) . substr ( 2 ) ;
} else {
str = '\n' + str . split ( '\n' ) . map ( function ( line ) {
return ' ' + line ;
} ) . join ( '\n' ) ;
}
}
} else {
str = ctx . stylize ( '[Circular]' , 'special' ) ;
}
}
if ( isUndefined ( name ) ) {
if ( array && key . match ( /^\d+$/ ) ) {
return str ;
}
name = JSON . stringify ( '' + key ) ;
if ( name . match ( /^"([a-zA-Z_][a-zA-Z_0-9]*)"$/ ) ) {
name = name . substr ( 1 , name . length - 2 ) ;
name = ctx . stylize ( name , 'name' ) ;
} else {
name = name . replace ( /'/g , "\\'" )
. replace ( /\\"/g , '"' )
. replace ( /(^"|"$)/g , "'" ) ;
name = ctx . stylize ( name , 'string' ) ;
}
}
return name + ': ' + str ;
}
function reduceToSingleString ( output , base , braces ) {
var numLinesEst = 0 ;
var length = output . reduce ( function ( prev , cur ) {
numLinesEst ++ ;
if ( cur . indexOf ( '\n' ) >= 0 ) numLinesEst ++ ;
return prev + cur . replace ( /\u001b\[\d\d?m/g , '' ) . length + 1 ;
} , 0 ) ;
if ( length > 60 ) {
return braces [ 0 ] +
( base === '' ? '' : base + '\n ' ) +
' ' +
output . join ( ',\n ' ) +
' ' +
braces [ 1 ] ;
}
return braces [ 0 ] + base + ' ' + output . join ( ', ' ) + ' ' + braces [ 1 ] ;
}
// NOTE: These type checking functions intentionally don't use `instanceof`
// because it is fragile and can be easily faked with `Object.create()`.
function isArray ( ar ) {
return Array . isArray ( ar ) ;
}
exports . isArray = isArray ;
function isBoolean ( arg ) {
return typeof arg === 'boolean' ;
}
exports . isBoolean = isBoolean ;
function isNull ( arg ) {
return arg === null ;
}
exports . isNull = isNull ;
function isNullOrUndefined ( arg ) {
return arg == null ;
}
exports . isNullOrUndefined = isNullOrUndefined ;
function isNumber ( arg ) {
return typeof arg === 'number' ;
}
exports . isNumber = isNumber ;
function isString ( arg ) {
return typeof arg === 'string' ;
}
exports . isString = isString ;
function isSymbol ( arg ) {
return typeof arg === 'symbol' ;
}
exports . isSymbol = isSymbol ;
function isUndefined ( arg ) {
return arg === void 0 ;
}
exports . isUndefined = isUndefined ;
function isRegExp ( re ) {
return isObject ( re ) && objectToString ( re ) === '[object RegExp]' ;
}
exports . isRegExp = isRegExp ;
function isObject ( arg ) {
return typeof arg === 'object' && arg !== null ;
}
exports . isObject = isObject ;
function isDate ( d ) {
return isObject ( d ) && objectToString ( d ) === '[object Date]' ;
}
exports . isDate = isDate ;
function isError ( e ) {
return isObject ( e ) &&
( objectToString ( e ) === '[object Error]' || e instanceof Error ) ;
}
exports . isError = isError ;
function isFunction ( arg ) {
return typeof arg === 'function' ;
}
exports . isFunction = isFunction ;
function isPrimitive ( arg ) {
return arg === null ||
typeof arg === 'boolean' ||
typeof arg === 'number' ||
typeof arg === 'string' ||
typeof arg === 'symbol' || // ES6 symbol
typeof arg === 'undefined' ;
}
exports . isPrimitive = isPrimitive ;
exports . isBuffer = require ( './support/isBuffer' ) ;
function objectToString ( o ) {
return Object . prototype . toString . call ( o ) ;
}
function pad ( n ) {
return n < 10 ? '0' + n . toString ( 10 ) : n . toString ( 10 ) ;
}
var months = [ 'Jan' , 'Feb' , 'Mar' , 'Apr' , 'May' , 'Jun' , 'Jul' , 'Aug' , 'Sep' ,
'Oct' , 'Nov' , 'Dec' ] ;
// 26 Feb 16:19:34
function timestamp ( ) {
var d = new Date ( ) ;
var time = [ pad ( d . getHours ( ) ) ,
pad ( d . getMinutes ( ) ) ,
pad ( d . getSeconds ( ) ) ] . join ( ':' ) ;
return [ d . getDate ( ) , months [ d . getMonth ( ) ] , time ] . join ( ' ' ) ;
}
// log is just a thin wrapper to console.log that prepends a timestamp
exports . log = function ( ) {
console . log ( '%s - %s' , timestamp ( ) , exports . format . apply ( exports , arguments ) ) ;
} ;
/ * *
* Inherit the prototype methods from one constructor into another .
*
* The Function . prototype . inherits from lang . js rewritten as a standalone
* function ( not on Function . prototype ) . NOTE : If this file is to be loaded
* during bootstrapping this function needs to be rewritten using some native
* functions as prototype setup using normal JavaScript does not work as
* expected during bootstrapping ( see mirror . js in r114903 ) .
*
* @ param { function } ctor Constructor function which needs to inherit the
* prototype .
* @ param { function } superCtor Constructor function to inherit prototype from .
* /
exports . inherits = require ( 'inherits' ) ;
exports . _extend = function ( origin , add ) {
// Don't do anything if add isn't an object
if ( ! add || ! isObject ( add ) ) return origin ;
var keys = Object . keys ( add ) ;
var i = keys . length ;
while ( i -- ) {
origin [ keys [ i ] ] = add [ keys [ i ] ] ;
}
return origin ;
} ;
function hasOwnProperty ( obj , prop ) {
return Object . prototype . hasOwnProperty . call ( obj , prop ) ;
}
} ) . call ( this , require ( '_process' ) , typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : { } )
} , { "./support/isBuffer" : 7 , "_process" : 12 , "inherits" : 6 } ] , 9 : [ function ( require , module , exports ) {
'use strict'
exports . byteLength = byteLength
exports . toByteArray = toByteArray
exports . fromByteArray = fromByteArray
var lookup = [ ]
var revLookup = [ ]
var Arr = typeof Uint8Array !== 'undefined' ? Uint8Array : Array
var code = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'
for ( var i = 0 , len = code . length ; i < len ; ++ i ) {
lookup [ i ] = code [ i ]
revLookup [ code . charCodeAt ( i ) ] = i
}
// Support decoding URL-safe base64 strings, as Node.js does.
// See: https://en.wikipedia.org/wiki/Base64#URL_applications
revLookup [ '-' . charCodeAt ( 0 ) ] = 62
revLookup [ '_' . charCodeAt ( 0 ) ] = 63
function getLens ( b64 ) {
var len = b64 . length
if ( len % 4 > 0 ) {
throw new Error ( 'Invalid string. Length must be a multiple of 4' )
}
// Trim off extra bytes after placeholder bytes are found
// See: https://github.com/beatgammit/base64-js/issues/42
var validLen = b64 . indexOf ( '=' )
if ( validLen === - 1 ) validLen = len
var placeHoldersLen = validLen === len
? 0
: 4 - ( validLen % 4 )
return [ validLen , placeHoldersLen ]
}
// base64 is 4/3 + up to two characters of the original data
function byteLength ( b64 ) {
var lens = getLens ( b64 )
var validLen = lens [ 0 ]
var placeHoldersLen = lens [ 1 ]
return ( ( validLen + placeHoldersLen ) * 3 / 4 ) - placeHoldersLen
}
function _byteLength ( b64 , validLen , placeHoldersLen ) {
return ( ( validLen + placeHoldersLen ) * 3 / 4 ) - placeHoldersLen
}
function toByteArray ( b64 ) {
var tmp
var lens = getLens ( b64 )
var validLen = lens [ 0 ]
var placeHoldersLen = lens [ 1 ]
var arr = new Arr ( _byteLength ( b64 , validLen , placeHoldersLen ) )
var curByte = 0
// if there are placeholders, only get up to the last complete 4 chars
var len = placeHoldersLen > 0
? validLen - 4
: validLen
for ( var i = 0 ; i < len ; i += 4 ) {
tmp =
( revLookup [ b64 . charCodeAt ( i ) ] << 18 ) |
( revLookup [ b64 . charCodeAt ( i + 1 ) ] << 12 ) |
( revLookup [ b64 . charCodeAt ( i + 2 ) ] << 6 ) |
revLookup [ b64 . charCodeAt ( i + 3 ) ]
arr [ curByte ++ ] = ( tmp >> 16 ) & 0xFF
arr [ curByte ++ ] = ( tmp >> 8 ) & 0xFF
arr [ curByte ++ ] = tmp & 0xFF
}
if ( placeHoldersLen === 2 ) {
tmp =
( revLookup [ b64 . charCodeAt ( i ) ] << 2 ) |
( revLookup [ b64 . charCodeAt ( i + 1 ) ] >> 4 )
arr [ curByte ++ ] = tmp & 0xFF
}
if ( placeHoldersLen === 1 ) {
tmp =
( revLookup [ b64 . charCodeAt ( i ) ] << 10 ) |
( revLookup [ b64 . charCodeAt ( i + 1 ) ] << 4 ) |
( revLookup [ b64 . charCodeAt ( i + 2 ) ] >> 2 )
arr [ curByte ++ ] = ( tmp >> 8 ) & 0xFF
arr [ curByte ++ ] = tmp & 0xFF
}
return arr
}
function tripletToBase64 ( num ) {
return lookup [ num >> 18 & 0x3F ] +
lookup [ num >> 12 & 0x3F ] +
lookup [ num >> 6 & 0x3F ] +
lookup [ num & 0x3F ]
}
function encodeChunk ( uint8 , start , end ) {
var tmp
var output = [ ]
for ( var i = start ; i < end ; i += 3 ) {
tmp =
( ( uint8 [ i ] << 16 ) & 0xFF0000 ) +
( ( uint8 [ i + 1 ] << 8 ) & 0xFF00 ) +
( uint8 [ i + 2 ] & 0xFF )
output . push ( tripletToBase64 ( tmp ) )
}
return output . join ( '' )
}
function fromByteArray ( uint8 ) {
var tmp
var len = uint8 . length
var extraBytes = len % 3 // if we have 1 byte left, pad 2 bytes
var parts = [ ]
var maxChunkLength = 16383 // must be multiple of 3
// go through the array every three bytes, we'll deal with trailing stuff later
for ( var i = 0 , len2 = len - extraBytes ; i < len2 ; i += maxChunkLength ) {
parts . push ( encodeChunk (
uint8 , i , ( i + maxChunkLength ) > len2 ? len2 : ( i + maxChunkLength )
) )
}
// pad the end with zeros, but make sure to not forget the extra bytes
if ( extraBytes === 1 ) {
tmp = uint8 [ len - 1 ]
parts . push (
lookup [ tmp >> 2 ] +
lookup [ ( tmp << 4 ) & 0x3F ] +
'=='
)
} else if ( extraBytes === 2 ) {
tmp = ( uint8 [ len - 2 ] << 8 ) + uint8 [ len - 1 ]
parts . push (
lookup [ tmp >> 10 ] +
lookup [ ( tmp >> 4 ) & 0x3F ] +
lookup [ ( tmp << 2 ) & 0x3F ] +
'='
)
}
return parts . join ( '' )
}
} , { } ] , 10 : [ function ( require , module , exports ) {
( function ( Buffer ) {
/ * !
* The buffer module from node . js , for the browser .
*
* @ author Feross Aboukhadijeh < https : //feross.org>
* @ license MIT
* /
/* eslint-disable no-proto */
'use strict'
var base64 = require ( 'base64-js' )
var ieee754 = require ( 'ieee754' )
exports . Buffer = Buffer
exports . SlowBuffer = SlowBuffer
exports . INSPECT _MAX _BYTES = 50
var K _MAX _LENGTH = 0x7fffffff
exports . kMaxLength = K _MAX _LENGTH
/ * *
* If ` Buffer.TYPED_ARRAY_SUPPORT ` :
* === true Use Uint8Array implementation ( fastest )
* === false Print warning and recommend using ` buffer ` v4 . x which has an Object
* implementation ( most compatible , even IE6 )
*
* Browsers that support typed arrays are IE 10 + , Firefox 4 + , Chrome 7 + , Safari 5.1 + ,
* Opera 11.6 + , iOS 4.2 + .
*
* We report that the browser does not support typed arrays if the are not subclassable
* using _ _proto _ _ . Firefox 4 - 29 lacks support for adding new properties to ` Uint8Array `
* ( See : https : //bugzilla.mozilla.org/show_bug.cgi?id=695438). IE 10 lacks support
* for _ _proto _ _ and has a buggy typed array implementation .
* /
Buffer . TYPED _ARRAY _SUPPORT = typedArraySupport ( )
if ( ! Buffer . TYPED _ARRAY _SUPPORT && typeof console !== 'undefined' &&
typeof console . error === 'function' ) {
console . error (
'This browser lacks typed array (Uint8Array) support which is required by ' +
'`buffer` v5.x. Use `buffer` v4.x if you require old browser support.'
)
}
function typedArraySupport ( ) {
// Can typed array instances can be augmented?
try {
var arr = new Uint8Array ( 1 )
arr . _ _proto _ _ = { _ _proto _ _ : Uint8Array . prototype , foo : function ( ) { return 42 } }
return arr . foo ( ) === 42
} catch ( e ) {
return false
}
}
Object . defineProperty ( Buffer . prototype , 'parent' , {
enumerable : true ,
get : function ( ) {
if ( ! Buffer . isBuffer ( this ) ) return undefined
return this . buffer
}
} )
Object . defineProperty ( Buffer . prototype , 'offset' , {
enumerable : true ,
get : function ( ) {
if ( ! Buffer . isBuffer ( this ) ) return undefined
return this . byteOffset
}
} )
function createBuffer ( length ) {
if ( length > K _MAX _LENGTH ) {
throw new RangeError ( 'The value "' + length + '" is invalid for option "size"' )
}
// Return an augmented `Uint8Array` instance
var buf = new Uint8Array ( length )
buf . _ _proto _ _ = Buffer . prototype
return buf
}
/ * *
* The Buffer constructor returns instances of ` Uint8Array ` that have their
* prototype changed to ` Buffer.prototype ` . Furthermore , ` Buffer ` is a subclass of
* ` Uint8Array ` , so the returned instances will have all the node ` Buffer ` methods
* and the ` Uint8Array ` methods . Square bracket notation works as expected -- it
* returns a single octet .
*
* The ` Uint8Array ` prototype remains unmodified .
* /
function Buffer ( arg , encodingOrOffset , length ) {
// Common case.
if ( typeof arg === 'number' ) {
if ( typeof encodingOrOffset === 'string' ) {
throw new TypeError (
'The "string" argument must be of type string. Received type number'
)
}
return allocUnsafe ( arg )
}
return from ( arg , encodingOrOffset , length )
}
// Fix subarray() in ES2016. See: https://github.com/feross/buffer/pull/97
if ( typeof Symbol !== 'undefined' && Symbol . species != null &&
Buffer [ Symbol . species ] === Buffer ) {
Object . defineProperty ( Buffer , Symbol . species , {
value : null ,
configurable : true ,
enumerable : false ,
writable : false
} )
}
Buffer . poolSize = 8192 // not used by this implementation
function from ( value , encodingOrOffset , length ) {
if ( typeof value === 'string' ) {
return fromString ( value , encodingOrOffset )
}
if ( ArrayBuffer . isView ( value ) ) {
return fromArrayLike ( value )
}
if ( value == null ) {
throw TypeError (
'The first argument must be one of type string, Buffer, ArrayBuffer, Array, ' +
'or Array-like Object. Received type ' + ( typeof value )
)
}
if ( isInstance ( value , ArrayBuffer ) ||
( value && isInstance ( value . buffer , ArrayBuffer ) ) ) {
return fromArrayBuffer ( value , encodingOrOffset , length )
}
if ( typeof value === 'number' ) {
throw new TypeError (
'The "value" argument must not be of type number. Received type number'
)
}
var valueOf = value . valueOf && value . valueOf ( )
if ( valueOf != null && valueOf !== value ) {
return Buffer . from ( valueOf , encodingOrOffset , length )
}
var b = fromObject ( value )
if ( b ) return b
if ( typeof Symbol !== 'undefined' && Symbol . toPrimitive != null &&
typeof value [ Symbol . toPrimitive ] === 'function' ) {
return Buffer . from (
value [ Symbol . toPrimitive ] ( 'string' ) , encodingOrOffset , length
)
}
throw new TypeError (
'The first argument must be one of type string, Buffer, ArrayBuffer, Array, ' +
'or Array-like Object. Received type ' + ( typeof value )
)
}
/ * *
* Functionally equivalent to Buffer ( arg , encoding ) but throws a TypeError
* if value is a number .
* Buffer . from ( str [ , encoding ] )
* Buffer . from ( array )
* Buffer . from ( buffer )
* Buffer . from ( arrayBuffer [ , byteOffset [ , length ] ] )
* * /
Buffer . from = function ( value , encodingOrOffset , length ) {
return from ( value , encodingOrOffset , length )
}
// Note: Change prototype *after* Buffer.from is defined to workaround Chrome bug:
// https://github.com/feross/buffer/pull/148
Buffer . prototype . _ _proto _ _ = Uint8Array . prototype
Buffer . _ _proto _ _ = Uint8Array
function assertSize ( size ) {
if ( typeof size !== 'number' ) {
throw new TypeError ( '"size" argument must be of type number' )
} else if ( size < 0 ) {
throw new RangeError ( 'The value "' + size + '" is invalid for option "size"' )
}
}
function alloc ( size , fill , encoding ) {
assertSize ( size )
if ( size <= 0 ) {
return createBuffer ( size )
}
if ( fill !== undefined ) {
// Only pay attention to encoding if it's a string. This
// prevents accidentally sending in a number that would
// be interpretted as a start offset.
return typeof encoding === 'string'
? createBuffer ( size ) . fill ( fill , encoding )
: createBuffer ( size ) . fill ( fill )
}
return createBuffer ( size )
}
/ * *
* Creates a new filled Buffer instance .
* alloc ( size [ , fill [ , encoding ] ] )
* * /
Buffer . alloc = function ( size , fill , encoding ) {
return alloc ( size , fill , encoding )
}
function allocUnsafe ( size ) {
assertSize ( size )
return createBuffer ( size < 0 ? 0 : checked ( size ) | 0 )
}
/ * *
* Equivalent to Buffer ( num ) , by default creates a non - zero - filled Buffer instance .
* * /
Buffer . allocUnsafe = function ( size ) {
return allocUnsafe ( size )
}
/ * *
* Equivalent to SlowBuffer ( num ) , by default creates a non - zero - filled Buffer instance .
* /
Buffer . allocUnsafeSlow = function ( size ) {
return allocUnsafe ( size )
}
function fromString ( string , encoding ) {
if ( typeof encoding !== 'string' || encoding === '' ) {
encoding = 'utf8'
}
if ( ! Buffer . isEncoding ( encoding ) ) {
throw new TypeError ( 'Unknown encoding: ' + encoding )
}
var length = byteLength ( string , encoding ) | 0
var buf = createBuffer ( length )
var actual = buf . write ( string , encoding )
if ( actual !== length ) {
// Writing a hex string, for example, that contains invalid characters will
// cause everything after the first invalid character to be ignored. (e.g.
// 'abxxcd' will be treated as 'ab')
buf = buf . slice ( 0 , actual )
}
return buf
}
function fromArrayLike ( array ) {
var length = array . length < 0 ? 0 : checked ( array . length ) | 0
var buf = createBuffer ( length )
for ( var i = 0 ; i < length ; i += 1 ) {
buf [ i ] = array [ i ] & 255
}
return buf
}
function fromArrayBuffer ( array , byteOffset , length ) {
if ( byteOffset < 0 || array . byteLength < byteOffset ) {
throw new RangeError ( '"offset" is outside of buffer bounds' )
}
if ( array . byteLength < byteOffset + ( length || 0 ) ) {
throw new RangeError ( '"length" is outside of buffer bounds' )
}
var buf
if ( byteOffset === undefined && length === undefined ) {
buf = new Uint8Array ( array )
} else if ( length === undefined ) {
buf = new Uint8Array ( array , byteOffset )
} else {
buf = new Uint8Array ( array , byteOffset , length )
}
// Return an augmented `Uint8Array` instance
buf . _ _proto _ _ = Buffer . prototype
return buf
}
function fromObject ( obj ) {
if ( Buffer . isBuffer ( obj ) ) {
var len = checked ( obj . length ) | 0
var buf = createBuffer ( len )
if ( buf . length === 0 ) {
return buf
}
obj . copy ( buf , 0 , 0 , len )
return buf
}
if ( obj . length !== undefined ) {
if ( typeof obj . length !== 'number' || numberIsNaN ( obj . length ) ) {
return createBuffer ( 0 )
}
return fromArrayLike ( obj )
}
if ( obj . type === 'Buffer' && Array . isArray ( obj . data ) ) {
return fromArrayLike ( obj . data )
}
}
function checked ( length ) {
// Note: cannot use `length < K_MAX_LENGTH` here because that fails when
// length is NaN (which is otherwise coerced to zero.)
if ( length >= K _MAX _LENGTH ) {
throw new RangeError ( 'Attempt to allocate Buffer larger than maximum ' +
'size: 0x' + K _MAX _LENGTH . toString ( 16 ) + ' bytes' )
}
return length | 0
}
function SlowBuffer ( length ) {
if ( + length != length ) { // eslint-disable-line eqeqeq
length = 0
}
return Buffer . alloc ( + length )
}
Buffer . isBuffer = function isBuffer ( b ) {
return b != null && b . _isBuffer === true &&
b !== Buffer . prototype // so Buffer.isBuffer(Buffer.prototype) will be false
}
Buffer . compare = function compare ( a , b ) {
if ( isInstance ( a , Uint8Array ) ) a = Buffer . from ( a , a . offset , a . byteLength )
if ( isInstance ( b , Uint8Array ) ) b = Buffer . from ( b , b . offset , b . byteLength )
if ( ! Buffer . isBuffer ( a ) || ! Buffer . isBuffer ( b ) ) {
throw new TypeError (
'The "buf1", "buf2" arguments must be one of type Buffer or Uint8Array'
)
}
if ( a === b ) return 0
var x = a . length
var y = b . length
for ( var i = 0 , len = Math . min ( x , y ) ; i < len ; ++ i ) {
if ( a [ i ] !== b [ i ] ) {
x = a [ i ]
y = b [ i ]
break
}
}
if ( x < y ) return - 1
if ( y < x ) return 1
return 0
}
Buffer . isEncoding = function isEncoding ( encoding ) {
switch ( String ( encoding ) . toLowerCase ( ) ) {
case 'hex' :
case 'utf8' :
case 'utf-8' :
case 'ascii' :
case 'latin1' :
case 'binary' :
case 'base64' :
case 'ucs2' :
case 'ucs-2' :
case 'utf16le' :
case 'utf-16le' :
return true
default :
return false
}
}
Buffer . concat = function concat ( list , length ) {
if ( ! Array . isArray ( list ) ) {
throw new TypeError ( '"list" argument must be an Array of Buffers' )
}
if ( list . length === 0 ) {
return Buffer . alloc ( 0 )
}
var i
if ( length === undefined ) {
length = 0
for ( i = 0 ; i < list . length ; ++ i ) {
length += list [ i ] . length
}
}
var buffer = Buffer . allocUnsafe ( length )
var pos = 0
for ( i = 0 ; i < list . length ; ++ i ) {
var buf = list [ i ]
if ( isInstance ( buf , Uint8Array ) ) {
buf = Buffer . from ( buf )
}
if ( ! Buffer . isBuffer ( buf ) ) {
throw new TypeError ( '"list" argument must be an Array of Buffers' )
}
buf . copy ( buffer , pos )
pos += buf . length
}
return buffer
}
function byteLength ( string , encoding ) {
if ( Buffer . isBuffer ( string ) ) {
return string . length
}
if ( ArrayBuffer . isView ( string ) || isInstance ( string , ArrayBuffer ) ) {
return string . byteLength
}
if ( typeof string !== 'string' ) {
throw new TypeError (
'The "string" argument must be one of type string, Buffer, or ArrayBuffer. ' +
'Received type ' + typeof string
)
}
var len = string . length
var mustMatch = ( arguments . length > 2 && arguments [ 2 ] === true )
if ( ! mustMatch && len === 0 ) return 0
// Use a for loop to avoid recursion
var loweredCase = false
for ( ; ; ) {
switch ( encoding ) {
case 'ascii' :
case 'latin1' :
case 'binary' :
return len
case 'utf8' :
case 'utf-8' :
return utf8ToBytes ( string ) . length
case 'ucs2' :
case 'ucs-2' :
case 'utf16le' :
case 'utf-16le' :
return len * 2
case 'hex' :
return len >>> 1
case 'base64' :
return base64ToBytes ( string ) . length
default :
if ( loweredCase ) {
return mustMatch ? - 1 : utf8ToBytes ( string ) . length // assume utf8
}
encoding = ( '' + encoding ) . toLowerCase ( )
loweredCase = true
}
}
}
Buffer . byteLength = byteLength
function slowToString ( encoding , start , end ) {
var loweredCase = false
// No need to verify that "this.length <= MAX_UINT32" since it's a read-only
// property of a typed array.
// This behaves neither like String nor Uint8Array in that we set start/end
// to their upper/lower bounds if the value passed is out of range.
// undefined is handled specially as per ECMA-262 6th Edition,
// Section 13.3.3.7 Runtime Semantics: KeyedBindingInitialization.
if ( start === undefined || start < 0 ) {
start = 0
}
// Return early if start > this.length. Done here to prevent potential uint32
// coercion fail below.
if ( start > this . length ) {
return ''
}
if ( end === undefined || end > this . length ) {
end = this . length
}
if ( end <= 0 ) {
return ''
}
// Force coersion to uint32. This will also coerce falsey/NaN values to 0.
end >>>= 0
start >>>= 0
if ( end <= start ) {
return ''
}
if ( ! encoding ) encoding = 'utf8'
while ( true ) {
switch ( encoding ) {
case 'hex' :
return hexSlice ( this , start , end )
case 'utf8' :
case 'utf-8' :
return utf8Slice ( this , start , end )
case 'ascii' :
return asciiSlice ( this , start , end )
case 'latin1' :
case 'binary' :
return latin1Slice ( this , start , end )
case 'base64' :
return base64Slice ( this , start , end )
case 'ucs2' :
case 'ucs-2' :
case 'utf16le' :
case 'utf-16le' :
return utf16leSlice ( this , start , end )
default :
if ( loweredCase ) throw new TypeError ( 'Unknown encoding: ' + encoding )
encoding = ( encoding + '' ) . toLowerCase ( )
loweredCase = true
}
}
}
// This property is used by `Buffer.isBuffer` (and the `is-buffer` npm package)
// to detect a Buffer instance. It's not possible to use `instanceof Buffer`
// reliably in a browserify context because there could be multiple different
// copies of the 'buffer' package in use. This method works even for Buffer
// instances that were created from another copy of the `buffer` package.
// See: https://github.com/feross/buffer/issues/154
Buffer . prototype . _isBuffer = true
function swap ( b , n , m ) {
var i = b [ n ]
b [ n ] = b [ m ]
b [ m ] = i
}
Buffer . prototype . swap16 = function swap16 ( ) {
var len = this . length
if ( len % 2 !== 0 ) {
throw new RangeError ( 'Buffer size must be a multiple of 16-bits' )
}
for ( var i = 0 ; i < len ; i += 2 ) {
swap ( this , i , i + 1 )
}
return this
}
Buffer . prototype . swap32 = function swap32 ( ) {
var len = this . length
if ( len % 4 !== 0 ) {
throw new RangeError ( 'Buffer size must be a multiple of 32-bits' )
}
for ( var i = 0 ; i < len ; i += 4 ) {
swap ( this , i , i + 3 )
swap ( this , i + 1 , i + 2 )
}
return this
}
Buffer . prototype . swap64 = function swap64 ( ) {
var len = this . length
if ( len % 8 !== 0 ) {
throw new RangeError ( 'Buffer size must be a multiple of 64-bits' )
}
for ( var i = 0 ; i < len ; i += 8 ) {
swap ( this , i , i + 7 )
swap ( this , i + 1 , i + 6 )
swap ( this , i + 2 , i + 5 )
swap ( this , i + 3 , i + 4 )
}
return this
}
Buffer . prototype . toString = function toString ( ) {
var length = this . length
if ( length === 0 ) return ''
if ( arguments . length === 0 ) return utf8Slice ( this , 0 , length )
return slowToString . apply ( this , arguments )
}
Buffer . prototype . toLocaleString = Buffer . prototype . toString
Buffer . prototype . equals = function equals ( b ) {
if ( ! Buffer . isBuffer ( b ) ) throw new TypeError ( 'Argument must be a Buffer' )
if ( this === b ) return true
return Buffer . compare ( this , b ) === 0
}
Buffer . prototype . inspect = function inspect ( ) {
var str = ''
var max = exports . INSPECT _MAX _BYTES
str = this . toString ( 'hex' , 0 , max ) . replace ( /(.{2})/g , '$1 ' ) . trim ( )
if ( this . length > max ) str += ' ... '
return '<Buffer ' + str + '>'
}
Buffer . prototype . compare = function compare ( target , start , end , thisStart , thisEnd ) {
if ( isInstance ( target , Uint8Array ) ) {
target = Buffer . from ( target , target . offset , target . byteLength )
}
if ( ! Buffer . isBuffer ( target ) ) {
throw new TypeError (
'The "target" argument must be one of type Buffer or Uint8Array. ' +
'Received type ' + ( typeof target )
)
}
if ( start === undefined ) {
start = 0
}
if ( end === undefined ) {
end = target ? target . length : 0
}
if ( thisStart === undefined ) {
thisStart = 0
}
if ( thisEnd === undefined ) {
thisEnd = this . length
}
if ( start < 0 || end > target . length || thisStart < 0 || thisEnd > this . length ) {
throw new RangeError ( 'out of range index' )
}
if ( thisStart >= thisEnd && start >= end ) {
return 0
}
if ( thisStart >= thisEnd ) {
return - 1
}
if ( start >= end ) {
return 1
}
start >>>= 0
end >>>= 0
thisStart >>>= 0
thisEnd >>>= 0
if ( this === target ) return 0
var x = thisEnd - thisStart
var y = end - start
var len = Math . min ( x , y )
var thisCopy = this . slice ( thisStart , thisEnd )
var targetCopy = target . slice ( start , end )
for ( var i = 0 ; i < len ; ++ i ) {
if ( thisCopy [ i ] !== targetCopy [ i ] ) {
x = thisCopy [ i ]
y = targetCopy [ i ]
break
}
}
if ( x < y ) return - 1
if ( y < x ) return 1
return 0
}
// Finds either the first index of `val` in `buffer` at offset >= `byteOffset`,
// OR the last index of `val` in `buffer` at offset <= `byteOffset`.
//
// Arguments:
// - buffer - a Buffer to search
// - val - a string, Buffer, or number
// - byteOffset - an index into `buffer`; will be clamped to an int32
// - encoding - an optional encoding, relevant is val is a string
// - dir - true for indexOf, false for lastIndexOf
function bidirectionalIndexOf ( buffer , val , byteOffset , encoding , dir ) {
// Empty buffer means no match
if ( buffer . length === 0 ) return - 1
// Normalize byteOffset
if ( typeof byteOffset === 'string' ) {
encoding = byteOffset
byteOffset = 0
} else if ( byteOffset > 0x7fffffff ) {
byteOffset = 0x7fffffff
} else if ( byteOffset < - 0x80000000 ) {
byteOffset = - 0x80000000
}
byteOffset = + byteOffset // Coerce to Number.
if ( numberIsNaN ( byteOffset ) ) {
// byteOffset: it it's undefined, null, NaN, "foo", etc, search whole buffer
byteOffset = dir ? 0 : ( buffer . length - 1 )
}
// Normalize byteOffset: negative offsets start from the end of the buffer
if ( byteOffset < 0 ) byteOffset = buffer . length + byteOffset
if ( byteOffset >= buffer . length ) {
if ( dir ) return - 1
else byteOffset = buffer . length - 1
} else if ( byteOffset < 0 ) {
if ( dir ) byteOffset = 0
else return - 1
}
// Normalize val
if ( typeof val === 'string' ) {
val = Buffer . from ( val , encoding )
}
// Finally, search either indexOf (if dir is true) or lastIndexOf
if ( Buffer . isBuffer ( val ) ) {
// Special case: looking for empty string/buffer always fails
if ( val . length === 0 ) {
return - 1
}
return arrayIndexOf ( buffer , val , byteOffset , encoding , dir )
} else if ( typeof val === 'number' ) {
val = val & 0xFF // Search for a byte value [0-255]
if ( typeof Uint8Array . prototype . indexOf === 'function' ) {
if ( dir ) {
return Uint8Array . prototype . indexOf . call ( buffer , val , byteOffset )
} else {
return Uint8Array . prototype . lastIndexOf . call ( buffer , val , byteOffset )
}
}
return arrayIndexOf ( buffer , [ val ] , byteOffset , encoding , dir )
}
throw new TypeError ( 'val must be string, number or Buffer' )
}
function arrayIndexOf ( arr , val , byteOffset , encoding , dir ) {
var indexSize = 1
var arrLength = arr . length
var valLength = val . length
if ( encoding !== undefined ) {
encoding = String ( encoding ) . toLowerCase ( )
if ( encoding === 'ucs2' || encoding === 'ucs-2' ||
encoding === 'utf16le' || encoding === 'utf-16le' ) {
if ( arr . length < 2 || val . length < 2 ) {
return - 1
}
indexSize = 2
arrLength /= 2
valLength /= 2
byteOffset /= 2
}
}
function read ( buf , i ) {
if ( indexSize === 1 ) {
return buf [ i ]
} else {
return buf . readUInt16BE ( i * indexSize )
}
}
var i
if ( dir ) {
var foundIndex = - 1
for ( i = byteOffset ; i < arrLength ; i ++ ) {
if ( read ( arr , i ) === read ( val , foundIndex === - 1 ? 0 : i - foundIndex ) ) {
if ( foundIndex === - 1 ) foundIndex = i
if ( i - foundIndex + 1 === valLength ) return foundIndex * indexSize
} else {
if ( foundIndex !== - 1 ) i -= i - foundIndex
foundIndex = - 1
}
}
} else {
if ( byteOffset + valLength > arrLength ) byteOffset = arrLength - valLength
for ( i = byteOffset ; i >= 0 ; i -- ) {
var found = true
for ( var j = 0 ; j < valLength ; j ++ ) {
if ( read ( arr , i + j ) !== read ( val , j ) ) {
found = false
break
}
}
if ( found ) return i
}
}
return - 1
}
Buffer . prototype . includes = function includes ( val , byteOffset , encoding ) {
return this . indexOf ( val , byteOffset , encoding ) !== - 1
}
Buffer . prototype . indexOf = function indexOf ( val , byteOffset , encoding ) {
return bidirectionalIndexOf ( this , val , byteOffset , encoding , true )
}
Buffer . prototype . lastIndexOf = function lastIndexOf ( val , byteOffset , encoding ) {
return bidirectionalIndexOf ( this , val , byteOffset , encoding , false )
}
function hexWrite ( buf , string , offset , length ) {
offset = Number ( offset ) || 0
var remaining = buf . length - offset
if ( ! length ) {
length = remaining
} else {
length = Number ( length )
if ( length > remaining ) {
length = remaining
}
}
var strLen = string . length
if ( length > strLen / 2 ) {
length = strLen / 2
}
for ( var i = 0 ; i < length ; ++ i ) {
var parsed = parseInt ( string . substr ( i * 2 , 2 ) , 16 )
if ( numberIsNaN ( parsed ) ) return i
buf [ offset + i ] = parsed
}
return i
}
function utf8Write ( buf , string , offset , length ) {
return blitBuffer ( utf8ToBytes ( string , buf . length - offset ) , buf , offset , length )
}
function asciiWrite ( buf , string , offset , length ) {
return blitBuffer ( asciiToBytes ( string ) , buf , offset , length )
}
function latin1Write ( buf , string , offset , length ) {
return asciiWrite ( buf , string , offset , length )
}
function base64Write ( buf , string , offset , length ) {
return blitBuffer ( base64ToBytes ( string ) , buf , offset , length )
}
function ucs2Write ( buf , string , offset , length ) {
return blitBuffer ( utf16leToBytes ( string , buf . length - offset ) , buf , offset , length )
}
Buffer . prototype . write = function write ( string , offset , length , encoding ) {
// Buffer#write(string)
if ( offset === undefined ) {
encoding = 'utf8'
length = this . length
offset = 0
// Buffer#write(string, encoding)
} else if ( length === undefined && typeof offset === 'string' ) {
encoding = offset
length = this . length
offset = 0
// Buffer#write(string, offset[, length][, encoding])
} else if ( isFinite ( offset ) ) {
offset = offset >>> 0
if ( isFinite ( length ) ) {
length = length >>> 0
if ( encoding === undefined ) encoding = 'utf8'
} else {
encoding = length
length = undefined
}
} else {
throw new Error (
'Buffer.write(string, encoding, offset[, length]) is no longer supported'
)
}
var remaining = this . length - offset
if ( length === undefined || length > remaining ) length = remaining
if ( ( string . length > 0 && ( length < 0 || offset < 0 ) ) || offset > this . length ) {
throw new RangeError ( 'Attempt to write outside buffer bounds' )
}
if ( ! encoding ) encoding = 'utf8'
var loweredCase = false
for ( ; ; ) {
switch ( encoding ) {
case 'hex' :
return hexWrite ( this , string , offset , length )
case 'utf8' :
case 'utf-8' :
return utf8Write ( this , string , offset , length )
case 'ascii' :
return asciiWrite ( this , string , offset , length )
case 'latin1' :
case 'binary' :
return latin1Write ( this , string , offset , length )
case 'base64' :
// Warning: maxLength not taken into account in base64Write
return base64Write ( this , string , offset , length )
case 'ucs2' :
case 'ucs-2' :
case 'utf16le' :
case 'utf-16le' :
return ucs2Write ( this , string , offset , length )
default :
if ( loweredCase ) throw new TypeError ( 'Unknown encoding: ' + encoding )
encoding = ( '' + encoding ) . toLowerCase ( )
loweredCase = true
}
}
}
Buffer . prototype . toJSON = function toJSON ( ) {
return {
type : 'Buffer' ,
data : Array . prototype . slice . call ( this . _arr || this , 0 )
}
}
function base64Slice ( buf , start , end ) {
if ( start === 0 && end === buf . length ) {
return base64 . fromByteArray ( buf )
} else {
return base64 . fromByteArray ( buf . slice ( start , end ) )
}
}
function utf8Slice ( buf , start , end ) {
end = Math . min ( buf . length , end )
var res = [ ]
var i = start
while ( i < end ) {
var firstByte = buf [ i ]
var codePoint = null
var bytesPerSequence = ( firstByte > 0xEF ) ? 4
: ( firstByte > 0xDF ) ? 3
: ( firstByte > 0xBF ) ? 2
: 1
if ( i + bytesPerSequence <= end ) {
var secondByte , thirdByte , fourthByte , tempCodePoint
switch ( bytesPerSequence ) {
case 1 :
if ( firstByte < 0x80 ) {
codePoint = firstByte
}
break
case 2 :
secondByte = buf [ i + 1 ]
if ( ( secondByte & 0xC0 ) === 0x80 ) {
tempCodePoint = ( firstByte & 0x1F ) << 0x6 | ( secondByte & 0x3F )
if ( tempCodePoint > 0x7F ) {
codePoint = tempCodePoint
}
}
break
case 3 :
secondByte = buf [ i + 1 ]
thirdByte = buf [ i + 2 ]
if ( ( secondByte & 0xC0 ) === 0x80 && ( thirdByte & 0xC0 ) === 0x80 ) {
tempCodePoint = ( firstByte & 0xF ) << 0xC | ( secondByte & 0x3F ) << 0x6 | ( thirdByte & 0x3F )
if ( tempCodePoint > 0x7FF && ( tempCodePoint < 0xD800 || tempCodePoint > 0xDFFF ) ) {
codePoint = tempCodePoint
}
}
break
case 4 :
secondByte = buf [ i + 1 ]
thirdByte = buf [ i + 2 ]
fourthByte = buf [ i + 3 ]
if ( ( secondByte & 0xC0 ) === 0x80 && ( thirdByte & 0xC0 ) === 0x80 && ( fourthByte & 0xC0 ) === 0x80 ) {
tempCodePoint = ( firstByte & 0xF ) << 0x12 | ( secondByte & 0x3F ) << 0xC | ( thirdByte & 0x3F ) << 0x6 | ( fourthByte & 0x3F )
if ( tempCodePoint > 0xFFFF && tempCodePoint < 0x110000 ) {
codePoint = tempCodePoint
}
}
}
}
if ( codePoint === null ) {
// we did not generate a valid codePoint so insert a
// replacement char (U+FFFD) and advance only 1 byte
codePoint = 0xFFFD
bytesPerSequence = 1
} else if ( codePoint > 0xFFFF ) {
// encode to utf16 (surrogate pair dance)
codePoint -= 0x10000
res . push ( codePoint >>> 10 & 0x3FF | 0xD800 )
codePoint = 0xDC00 | codePoint & 0x3FF
}
res . push ( codePoint )
i += bytesPerSequence
}
return decodeCodePointsArray ( res )
}
// Based on http://stackoverflow.com/a/22747272/680742, the browser with
// the lowest limit is Chrome, with 0x10000 args.
// We go 1 magnitude less, for safety
var MAX _ARGUMENTS _LENGTH = 0x1000
function decodeCodePointsArray ( codePoints ) {
var len = codePoints . length
if ( len <= MAX _ARGUMENTS _LENGTH ) {
return String . fromCharCode . apply ( String , codePoints ) // avoid extra slice()
}
// Decode in chunks to avoid "call stack size exceeded".
var res = ''
var i = 0
while ( i < len ) {
res += String . fromCharCode . apply (
String ,
codePoints . slice ( i , i += MAX _ARGUMENTS _LENGTH )
)
}
return res
}
function asciiSlice ( buf , start , end ) {
var ret = ''
end = Math . min ( buf . length , end )
for ( var i = start ; i < end ; ++ i ) {
ret += String . fromCharCode ( buf [ i ] & 0x7F )
}
return ret
}
function latin1Slice ( buf , start , end ) {
var ret = ''
end = Math . min ( buf . length , end )
for ( var i = start ; i < end ; ++ i ) {
ret += String . fromCharCode ( buf [ i ] )
}
return ret
}
function hexSlice ( buf , start , end ) {
var len = buf . length
if ( ! start || start < 0 ) start = 0
if ( ! end || end < 0 || end > len ) end = len
var out = ''
for ( var i = start ; i < end ; ++ i ) {
out += toHex ( buf [ i ] )
}
return out
}
function utf16leSlice ( buf , start , end ) {
var bytes = buf . slice ( start , end )
var res = ''
for ( var i = 0 ; i < bytes . length ; i += 2 ) {
res += String . fromCharCode ( bytes [ i ] + ( bytes [ i + 1 ] * 256 ) )
}
return res
}
Buffer . prototype . slice = function slice ( start , end ) {
var len = this . length
start = ~ ~ start
end = end === undefined ? len : ~ ~ end
if ( start < 0 ) {
start += len
if ( start < 0 ) start = 0
} else if ( start > len ) {
start = len
}
if ( end < 0 ) {
end += len
if ( end < 0 ) end = 0
} else if ( end > len ) {
end = len
}
if ( end < start ) end = start
var newBuf = this . subarray ( start , end )
// Return an augmented `Uint8Array` instance
newBuf . _ _proto _ _ = Buffer . prototype
return newBuf
}
/ *
* Need to make sure that buffer isn ' t trying to write out of bounds .
* /
function checkOffset ( offset , ext , length ) {
if ( ( offset % 1 ) !== 0 || offset < 0 ) throw new RangeError ( 'offset is not uint' )
if ( offset + ext > length ) throw new RangeError ( 'Trying to access beyond buffer length' )
}
Buffer . prototype . readUIntLE = function readUIntLE ( offset , byteLength , noAssert ) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if ( ! noAssert ) checkOffset ( offset , byteLength , this . length )
var val = this [ offset ]
var mul = 1
var i = 0
while ( ++ i < byteLength && ( mul *= 0x100 ) ) {
val += this [ offset + i ] * mul
}
return val
}
Buffer . prototype . readUIntBE = function readUIntBE ( offset , byteLength , noAssert ) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if ( ! noAssert ) {
checkOffset ( offset , byteLength , this . length )
}
var val = this [ offset + -- byteLength ]
var mul = 1
while ( byteLength > 0 && ( mul *= 0x100 ) ) {
val += this [ offset + -- byteLength ] * mul
}
return val
}
Buffer . prototype . readUInt8 = function readUInt8 ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 1 , this . length )
return this [ offset ]
}
Buffer . prototype . readUInt16LE = function readUInt16LE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 2 , this . length )
return this [ offset ] | ( this [ offset + 1 ] << 8 )
}
Buffer . prototype . readUInt16BE = function readUInt16BE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 2 , this . length )
return ( this [ offset ] << 8 ) | this [ offset + 1 ]
}
Buffer . prototype . readUInt32LE = function readUInt32LE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 4 , this . length )
return ( ( this [ offset ] ) |
( this [ offset + 1 ] << 8 ) |
( this [ offset + 2 ] << 16 ) ) +
( this [ offset + 3 ] * 0x1000000 )
}
Buffer . prototype . readUInt32BE = function readUInt32BE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 4 , this . length )
return ( this [ offset ] * 0x1000000 ) +
( ( this [ offset + 1 ] << 16 ) |
( this [ offset + 2 ] << 8 ) |
this [ offset + 3 ] )
}
Buffer . prototype . readIntLE = function readIntLE ( offset , byteLength , noAssert ) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if ( ! noAssert ) checkOffset ( offset , byteLength , this . length )
var val = this [ offset ]
var mul = 1
var i = 0
while ( ++ i < byteLength && ( mul *= 0x100 ) ) {
val += this [ offset + i ] * mul
}
mul *= 0x80
if ( val >= mul ) val -= Math . pow ( 2 , 8 * byteLength )
return val
}
Buffer . prototype . readIntBE = function readIntBE ( offset , byteLength , noAssert ) {
offset = offset >>> 0
byteLength = byteLength >>> 0
if ( ! noAssert ) checkOffset ( offset , byteLength , this . length )
var i = byteLength
var mul = 1
var val = this [ offset + -- i ]
while ( i > 0 && ( mul *= 0x100 ) ) {
val += this [ offset + -- i ] * mul
}
mul *= 0x80
if ( val >= mul ) val -= Math . pow ( 2 , 8 * byteLength )
return val
}
Buffer . prototype . readInt8 = function readInt8 ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 1 , this . length )
if ( ! ( this [ offset ] & 0x80 ) ) return ( this [ offset ] )
return ( ( 0xff - this [ offset ] + 1 ) * - 1 )
}
Buffer . prototype . readInt16LE = function readInt16LE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 2 , this . length )
var val = this [ offset ] | ( this [ offset + 1 ] << 8 )
return ( val & 0x8000 ) ? val | 0xFFFF0000 : val
}
Buffer . prototype . readInt16BE = function readInt16BE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 2 , this . length )
var val = this [ offset + 1 ] | ( this [ offset ] << 8 )
return ( val & 0x8000 ) ? val | 0xFFFF0000 : val
}
Buffer . prototype . readInt32LE = function readInt32LE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 4 , this . length )
return ( this [ offset ] ) |
( this [ offset + 1 ] << 8 ) |
( this [ offset + 2 ] << 16 ) |
( this [ offset + 3 ] << 24 )
}
Buffer . prototype . readInt32BE = function readInt32BE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 4 , this . length )
return ( this [ offset ] << 24 ) |
( this [ offset + 1 ] << 16 ) |
( this [ offset + 2 ] << 8 ) |
( this [ offset + 3 ] )
}
Buffer . prototype . readFloatLE = function readFloatLE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 4 , this . length )
return ieee754 . read ( this , offset , true , 23 , 4 )
}
Buffer . prototype . readFloatBE = function readFloatBE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 4 , this . length )
return ieee754 . read ( this , offset , false , 23 , 4 )
}
Buffer . prototype . readDoubleLE = function readDoubleLE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 8 , this . length )
return ieee754 . read ( this , offset , true , 52 , 8 )
}
Buffer . prototype . readDoubleBE = function readDoubleBE ( offset , noAssert ) {
offset = offset >>> 0
if ( ! noAssert ) checkOffset ( offset , 8 , this . length )
return ieee754 . read ( this , offset , false , 52 , 8 )
}
function checkInt ( buf , value , offset , ext , max , min ) {
if ( ! Buffer . isBuffer ( buf ) ) throw new TypeError ( '"buffer" argument must be a Buffer instance' )
if ( value > max || value < min ) throw new RangeError ( '"value" argument is out of bounds' )
if ( offset + ext > buf . length ) throw new RangeError ( 'Index out of range' )
}
Buffer . prototype . writeUIntLE = function writeUIntLE ( value , offset , byteLength , noAssert ) {
value = + value
offset = offset >>> 0
byteLength = byteLength >>> 0
if ( ! noAssert ) {
var maxBytes = Math . pow ( 2 , 8 * byteLength ) - 1
checkInt ( this , value , offset , byteLength , maxBytes , 0 )
}
var mul = 1
var i = 0
this [ offset ] = value & 0xFF
while ( ++ i < byteLength && ( mul *= 0x100 ) ) {
this [ offset + i ] = ( value / mul ) & 0xFF
}
return offset + byteLength
}
Buffer . prototype . writeUIntBE = function writeUIntBE ( value , offset , byteLength , noAssert ) {
value = + value
offset = offset >>> 0
byteLength = byteLength >>> 0
if ( ! noAssert ) {
var maxBytes = Math . pow ( 2 , 8 * byteLength ) - 1
checkInt ( this , value , offset , byteLength , maxBytes , 0 )
}
var i = byteLength - 1
var mul = 1
this [ offset + i ] = value & 0xFF
while ( -- i >= 0 && ( mul *= 0x100 ) ) {
this [ offset + i ] = ( value / mul ) & 0xFF
}
return offset + byteLength
}
Buffer . prototype . writeUInt8 = function writeUInt8 ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 1 , 0xff , 0 )
this [ offset ] = ( value & 0xff )
return offset + 1
}
Buffer . prototype . writeUInt16LE = function writeUInt16LE ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 2 , 0xffff , 0 )
this [ offset ] = ( value & 0xff )
this [ offset + 1 ] = ( value >>> 8 )
return offset + 2
}
Buffer . prototype . writeUInt16BE = function writeUInt16BE ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 2 , 0xffff , 0 )
this [ offset ] = ( value >>> 8 )
this [ offset + 1 ] = ( value & 0xff )
return offset + 2
}
Buffer . prototype . writeUInt32LE = function writeUInt32LE ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 4 , 0xffffffff , 0 )
this [ offset + 3 ] = ( value >>> 24 )
this [ offset + 2 ] = ( value >>> 16 )
this [ offset + 1 ] = ( value >>> 8 )
this [ offset ] = ( value & 0xff )
return offset + 4
}
Buffer . prototype . writeUInt32BE = function writeUInt32BE ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 4 , 0xffffffff , 0 )
this [ offset ] = ( value >>> 24 )
this [ offset + 1 ] = ( value >>> 16 )
this [ offset + 2 ] = ( value >>> 8 )
this [ offset + 3 ] = ( value & 0xff )
return offset + 4
}
Buffer . prototype . writeIntLE = function writeIntLE ( value , offset , byteLength , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) {
var limit = Math . pow ( 2 , ( 8 * byteLength ) - 1 )
checkInt ( this , value , offset , byteLength , limit - 1 , - limit )
}
var i = 0
var mul = 1
var sub = 0
this [ offset ] = value & 0xFF
while ( ++ i < byteLength && ( mul *= 0x100 ) ) {
if ( value < 0 && sub === 0 && this [ offset + i - 1 ] !== 0 ) {
sub = 1
}
this [ offset + i ] = ( ( value / mul ) >> 0 ) - sub & 0xFF
}
return offset + byteLength
}
Buffer . prototype . writeIntBE = function writeIntBE ( value , offset , byteLength , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) {
var limit = Math . pow ( 2 , ( 8 * byteLength ) - 1 )
checkInt ( this , value , offset , byteLength , limit - 1 , - limit )
}
var i = byteLength - 1
var mul = 1
var sub = 0
this [ offset + i ] = value & 0xFF
while ( -- i >= 0 && ( mul *= 0x100 ) ) {
if ( value < 0 && sub === 0 && this [ offset + i + 1 ] !== 0 ) {
sub = 1
}
this [ offset + i ] = ( ( value / mul ) >> 0 ) - sub & 0xFF
}
return offset + byteLength
}
Buffer . prototype . writeInt8 = function writeInt8 ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 1 , 0x7f , - 0x80 )
if ( value < 0 ) value = 0xff + value + 1
this [ offset ] = ( value & 0xff )
return offset + 1
}
Buffer . prototype . writeInt16LE = function writeInt16LE ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 2 , 0x7fff , - 0x8000 )
this [ offset ] = ( value & 0xff )
this [ offset + 1 ] = ( value >>> 8 )
return offset + 2
}
Buffer . prototype . writeInt16BE = function writeInt16BE ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 2 , 0x7fff , - 0x8000 )
this [ offset ] = ( value >>> 8 )
this [ offset + 1 ] = ( value & 0xff )
return offset + 2
}
Buffer . prototype . writeInt32LE = function writeInt32LE ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 4 , 0x7fffffff , - 0x80000000 )
this [ offset ] = ( value & 0xff )
this [ offset + 1 ] = ( value >>> 8 )
this [ offset + 2 ] = ( value >>> 16 )
this [ offset + 3 ] = ( value >>> 24 )
return offset + 4
}
Buffer . prototype . writeInt32BE = function writeInt32BE ( value , offset , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) checkInt ( this , value , offset , 4 , 0x7fffffff , - 0x80000000 )
if ( value < 0 ) value = 0xffffffff + value + 1
this [ offset ] = ( value >>> 24 )
this [ offset + 1 ] = ( value >>> 16 )
this [ offset + 2 ] = ( value >>> 8 )
this [ offset + 3 ] = ( value & 0xff )
return offset + 4
}
function checkIEEE754 ( buf , value , offset , ext , max , min ) {
if ( offset + ext > buf . length ) throw new RangeError ( 'Index out of range' )
if ( offset < 0 ) throw new RangeError ( 'Index out of range' )
}
function writeFloat ( buf , value , offset , littleEndian , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) {
checkIEEE754 ( buf , value , offset , 4 , 3.4028234663852886 e + 38 , - 3.4028234663852886 e + 38 )
}
ieee754 . write ( buf , value , offset , littleEndian , 23 , 4 )
return offset + 4
}
Buffer . prototype . writeFloatLE = function writeFloatLE ( value , offset , noAssert ) {
return writeFloat ( this , value , offset , true , noAssert )
}
Buffer . prototype . writeFloatBE = function writeFloatBE ( value , offset , noAssert ) {
return writeFloat ( this , value , offset , false , noAssert )
}
function writeDouble ( buf , value , offset , littleEndian , noAssert ) {
value = + value
offset = offset >>> 0
if ( ! noAssert ) {
checkIEEE754 ( buf , value , offset , 8 , 1.7976931348623157 E + 308 , - 1.7976931348623157 E + 308 )
}
ieee754 . write ( buf , value , offset , littleEndian , 52 , 8 )
return offset + 8
}
Buffer . prototype . writeDoubleLE = function writeDoubleLE ( value , offset , noAssert ) {
return writeDouble ( this , value , offset , true , noAssert )
}
Buffer . prototype . writeDoubleBE = function writeDoubleBE ( value , offset , noAssert ) {
return writeDouble ( this , value , offset , false , noAssert )
}
// copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length)
Buffer . prototype . copy = function copy ( target , targetStart , start , end ) {
if ( ! Buffer . isBuffer ( target ) ) throw new TypeError ( 'argument should be a Buffer' )
if ( ! start ) start = 0
if ( ! end && end !== 0 ) end = this . length
if ( targetStart >= target . length ) targetStart = target . length
if ( ! targetStart ) targetStart = 0
if ( end > 0 && end < start ) end = start
// Copy 0 bytes; we're done
if ( end === start ) return 0
if ( target . length === 0 || this . length === 0 ) return 0
// Fatal error conditions
if ( targetStart < 0 ) {
throw new RangeError ( 'targetStart out of bounds' )
}
if ( start < 0 || start >= this . length ) throw new RangeError ( 'Index out of range' )
if ( end < 0 ) throw new RangeError ( 'sourceEnd out of bounds' )
// Are we oob?
if ( end > this . length ) end = this . length
if ( target . length - targetStart < end - start ) {
end = target . length - targetStart + start
}
var len = end - start
if ( this === target && typeof Uint8Array . prototype . copyWithin === 'function' ) {
// Use built-in when available, missing from IE11
this . copyWithin ( targetStart , start , end )
} else if ( this === target && start < targetStart && targetStart < end ) {
// descending copy from end
for ( var i = len - 1 ; i >= 0 ; -- i ) {
target [ i + targetStart ] = this [ i + start ]
}
} else {
Uint8Array . prototype . set . call (
target ,
this . subarray ( start , end ) ,
targetStart
)
}
return len
}
// Usage:
// buffer.fill(number[, offset[, end]])
// buffer.fill(buffer[, offset[, end]])
// buffer.fill(string[, offset[, end]][, encoding])
Buffer . prototype . fill = function fill ( val , start , end , encoding ) {
// Handle string cases:
if ( typeof val === 'string' ) {
if ( typeof start === 'string' ) {
encoding = start
start = 0
end = this . length
} else if ( typeof end === 'string' ) {
encoding = end
end = this . length
}
if ( encoding !== undefined && typeof encoding !== 'string' ) {
throw new TypeError ( 'encoding must be a string' )
}
if ( typeof encoding === 'string' && ! Buffer . isEncoding ( encoding ) ) {
throw new TypeError ( 'Unknown encoding: ' + encoding )
}
if ( val . length === 1 ) {
var code = val . charCodeAt ( 0 )
if ( ( encoding === 'utf8' && code < 128 ) ||
encoding === 'latin1' ) {
// Fast path: If `val` fits into a single byte, use that numeric value.
val = code
}
}
} else if ( typeof val === 'number' ) {
val = val & 255
}
// Invalid ranges are not set to a default, so can range check early.
if ( start < 0 || this . length < start || this . length < end ) {
throw new RangeError ( 'Out of range index' )
}
if ( end <= start ) {
return this
}
start = start >>> 0
end = end === undefined ? this . length : end >>> 0
if ( ! val ) val = 0
var i
if ( typeof val === 'number' ) {
for ( i = start ; i < end ; ++ i ) {
this [ i ] = val
}
} else {
var bytes = Buffer . isBuffer ( val )
? val
: Buffer . from ( val , encoding )
var len = bytes . length
if ( len === 0 ) {
throw new TypeError ( 'The value "' + val +
'" is invalid for argument "value"' )
}
for ( i = 0 ; i < end - start ; ++ i ) {
this [ i + start ] = bytes [ i % len ]
}
}
return this
}
// HELPER FUNCTIONS
// ================
var INVALID _BASE64 _RE = /[^+/0-9A-Za-z-_]/g
function base64clean ( str ) {
// Node takes equal signs as end of the Base64 encoding
str = str . split ( '=' ) [ 0 ]
// Node strips out invalid characters like \n and \t from the string, base64-js does not
str = str . trim ( ) . replace ( INVALID _BASE64 _RE , '' )
// Node converts strings with length < 2 to ''
if ( str . length < 2 ) return ''
// Node allows for non-padded base64 strings (missing trailing ===), base64-js does not
while ( str . length % 4 !== 0 ) {
str = str + '='
}
return str
}
function toHex ( n ) {
if ( n < 16 ) return '0' + n . toString ( 16 )
return n . toString ( 16 )
}
function utf8ToBytes ( string , units ) {
units = units || Infinity
var codePoint
var length = string . length
var leadSurrogate = null
var bytes = [ ]
for ( var i = 0 ; i < length ; ++ i ) {
codePoint = string . charCodeAt ( i )
// is surrogate component
if ( codePoint > 0xD7FF && codePoint < 0xE000 ) {
// last char was a lead
if ( ! leadSurrogate ) {
// no lead yet
if ( codePoint > 0xDBFF ) {
// unexpected trail
if ( ( units -= 3 ) > - 1 ) bytes . push ( 0xEF , 0xBF , 0xBD )
continue
} else if ( i + 1 === length ) {
// unpaired lead
if ( ( units -= 3 ) > - 1 ) bytes . push ( 0xEF , 0xBF , 0xBD )
continue
}
// valid lead
leadSurrogate = codePoint
continue
}
// 2 leads in a row
if ( codePoint < 0xDC00 ) {
if ( ( units -= 3 ) > - 1 ) bytes . push ( 0xEF , 0xBF , 0xBD )
leadSurrogate = codePoint
continue
}
// valid surrogate pair
codePoint = ( leadSurrogate - 0xD800 << 10 | codePoint - 0xDC00 ) + 0x10000
} else if ( leadSurrogate ) {
// valid bmp char, but last char was a lead
if ( ( units -= 3 ) > - 1 ) bytes . push ( 0xEF , 0xBF , 0xBD )
}
leadSurrogate = null
// encode utf8
if ( codePoint < 0x80 ) {
if ( ( units -= 1 ) < 0 ) break
bytes . push ( codePoint )
} else if ( codePoint < 0x800 ) {
if ( ( units -= 2 ) < 0 ) break
bytes . push (
codePoint >> 0x6 | 0xC0 ,
codePoint & 0x3F | 0x80
)
} else if ( codePoint < 0x10000 ) {
if ( ( units -= 3 ) < 0 ) break
bytes . push (
codePoint >> 0xC | 0xE0 ,
codePoint >> 0x6 & 0x3F | 0x80 ,
codePoint & 0x3F | 0x80
)
} else if ( codePoint < 0x110000 ) {
if ( ( units -= 4 ) < 0 ) break
bytes . push (
codePoint >> 0x12 | 0xF0 ,
codePoint >> 0xC & 0x3F | 0x80 ,
codePoint >> 0x6 & 0x3F | 0x80 ,
codePoint & 0x3F | 0x80
)
} else {
throw new Error ( 'Invalid code point' )
}
}
return bytes
}
function asciiToBytes ( str ) {
var byteArray = [ ]
for ( var i = 0 ; i < str . length ; ++ i ) {
// Node's code seems to be doing this and not & 0x7F..
byteArray . push ( str . charCodeAt ( i ) & 0xFF )
}
return byteArray
}
function utf16leToBytes ( str , units ) {
var c , hi , lo
var byteArray = [ ]
for ( var i = 0 ; i < str . length ; ++ i ) {
if ( ( units -= 2 ) < 0 ) break
c = str . charCodeAt ( i )
hi = c >> 8
lo = c % 256
byteArray . push ( lo )
byteArray . push ( hi )
}
return byteArray
}
function base64ToBytes ( str ) {
return base64 . toByteArray ( base64clean ( str ) )
}
function blitBuffer ( src , dst , offset , length ) {
for ( var i = 0 ; i < length ; ++ i ) {
if ( ( i + offset >= dst . length ) || ( i >= src . length ) ) break
dst [ i + offset ] = src [ i ]
}
return i
}
// ArrayBuffer or Uint8Array objects from other contexts (i.e. iframes) do not pass
// the `instanceof` check but they should be treated as of that type.
// See: https://github.com/feross/buffer/issues/166
function isInstance ( obj , type ) {
return obj instanceof type ||
( obj != null && obj . constructor != null && obj . constructor . name != null &&
obj . constructor . name === type . name )
}
function numberIsNaN ( obj ) {
// For IE11 support
return obj !== obj // eslint-disable-line no-self-compare
}
} ) . call ( this , require ( "buffer" ) . Buffer )
} , { "base64-js" : 9 , "buffer" : 10 , "ieee754" : 11 } ] , 11 : [ function ( require , module , exports ) {
exports . read = function ( buffer , offset , isLE , mLen , nBytes ) {
var e , m
var eLen = ( nBytes * 8 ) - mLen - 1
var eMax = ( 1 << eLen ) - 1
var eBias = eMax >> 1
var nBits = - 7
var i = isLE ? ( nBytes - 1 ) : 0
var d = isLE ? - 1 : 1
var s = buffer [ offset + i ]
i += d
e = s & ( ( 1 << ( - nBits ) ) - 1 )
s >>= ( - nBits )
nBits += eLen
for ( ; nBits > 0 ; e = ( e * 256 ) + buffer [ offset + i ] , i += d , nBits -= 8 ) { }
m = e & ( ( 1 << ( - nBits ) ) - 1 )
e >>= ( - nBits )
nBits += mLen
for ( ; nBits > 0 ; m = ( m * 256 ) + buffer [ offset + i ] , i += d , nBits -= 8 ) { }
if ( e === 0 ) {
e = 1 - eBias
} else if ( e === eMax ) {
return m ? NaN : ( ( s ? - 1 : 1 ) * Infinity )
} else {
m = m + Math . pow ( 2 , mLen )
e = e - eBias
}
return ( s ? - 1 : 1 ) * m * Math . pow ( 2 , e - mLen )
}
exports . write = function ( buffer , value , offset , isLE , mLen , nBytes ) {
var e , m , c
var eLen = ( nBytes * 8 ) - mLen - 1
var eMax = ( 1 << eLen ) - 1
var eBias = eMax >> 1
var rt = ( mLen === 23 ? Math . pow ( 2 , - 24 ) - Math . pow ( 2 , - 77 ) : 0 )
var i = isLE ? 0 : ( nBytes - 1 )
var d = isLE ? 1 : - 1
var s = value < 0 || ( value === 0 && 1 / value < 0 ) ? 1 : 0
value = Math . abs ( value )
if ( isNaN ( value ) || value === Infinity ) {
m = isNaN ( value ) ? 1 : 0
e = eMax
} else {
e = Math . floor ( Math . log ( value ) / Math . LN2 )
if ( value * ( c = Math . pow ( 2 , - e ) ) < 1 ) {
e --
c *= 2
}
if ( e + eBias >= 1 ) {
value += rt / c
} else {
value += rt * Math . pow ( 2 , 1 - eBias )
}
if ( value * c >= 2 ) {
e ++
c /= 2
}
if ( e + eBias >= eMax ) {
m = 0
e = eMax
} else if ( e + eBias >= 1 ) {
m = ( ( value * c ) - 1 ) * Math . pow ( 2 , mLen )
e = e + eBias
} else {
m = value * Math . pow ( 2 , eBias - 1 ) * Math . pow ( 2 , mLen )
e = 0
}
}
for ( ; mLen >= 8 ; buffer [ offset + i ] = m & 0xff , i += d , m /= 256 , mLen -= 8 ) { }
e = ( e << mLen ) | m
eLen += mLen
for ( ; eLen > 0 ; buffer [ offset + i ] = e & 0xff , i += d , e /= 256 , eLen -= 8 ) { }
buffer [ offset + i - d ] |= s * 128
}
} , { } ] , 12 : [ function ( require , module , exports ) {
// shim for using process in browser
var process = module . exports = { } ;
// cached from whatever global is present so that test runners that stub it
// don't break things. But we need to wrap it in a try catch in case it is
// wrapped in strict mode code which doesn't define any globals. It's inside a
// function because try/catches deoptimize in certain engines.
var cachedSetTimeout ;
var cachedClearTimeout ;
function defaultSetTimout ( ) {
throw new Error ( 'setTimeout has not been defined' ) ;
}
function defaultClearTimeout ( ) {
throw new Error ( 'clearTimeout has not been defined' ) ;
}
( function ( ) {
try {
if ( typeof setTimeout === 'function' ) {
cachedSetTimeout = setTimeout ;
} else {
cachedSetTimeout = defaultSetTimout ;
}
} catch ( e ) {
cachedSetTimeout = defaultSetTimout ;
}
try {
if ( typeof clearTimeout === 'function' ) {
cachedClearTimeout = clearTimeout ;
} else {
cachedClearTimeout = defaultClearTimeout ;
}
} catch ( e ) {
cachedClearTimeout = defaultClearTimeout ;
}
} ( ) )
function runTimeout ( fun ) {
if ( cachedSetTimeout === setTimeout ) {
//normal enviroments in sane situations
return setTimeout ( fun , 0 ) ;
}
// if setTimeout wasn't available but was latter defined
if ( ( cachedSetTimeout === defaultSetTimout || ! cachedSetTimeout ) && setTimeout ) {
cachedSetTimeout = setTimeout ;
return setTimeout ( fun , 0 ) ;
}
try {
// when when somebody has screwed with setTimeout but no I.E. maddness
return cachedSetTimeout ( fun , 0 ) ;
} catch ( e ) {
try {
// When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally
return cachedSetTimeout . call ( null , fun , 0 ) ;
} catch ( e ) {
// same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error
return cachedSetTimeout . call ( this , fun , 0 ) ;
}
}
}
function runClearTimeout ( marker ) {
if ( cachedClearTimeout === clearTimeout ) {
//normal enviroments in sane situations
return clearTimeout ( marker ) ;
}
// if clearTimeout wasn't available but was latter defined
if ( ( cachedClearTimeout === defaultClearTimeout || ! cachedClearTimeout ) && clearTimeout ) {
cachedClearTimeout = clearTimeout ;
return clearTimeout ( marker ) ;
}
try {
// when when somebody has screwed with setTimeout but no I.E. maddness
return cachedClearTimeout ( marker ) ;
} catch ( e ) {
try {
// When we are in I.E. but the script has been evaled so I.E. doesn't trust the global object when called normally
return cachedClearTimeout . call ( null , marker ) ;
} catch ( e ) {
// same as above but when it's a version of I.E. that must have the global object for 'this', hopfully our context correct otherwise it will throw a global error.
// Some versions of I.E. have different rules for clearTimeout vs setTimeout
return cachedClearTimeout . call ( this , marker ) ;
}
}
}
var queue = [ ] ;
var draining = false ;
var currentQueue ;
var queueIndex = - 1 ;
function cleanUpNextTick ( ) {
if ( ! draining || ! currentQueue ) {
return ;
}
draining = false ;
if ( currentQueue . length ) {
queue = currentQueue . concat ( queue ) ;
} else {
queueIndex = - 1 ;
}
if ( queue . length ) {
drainQueue ( ) ;
}
}
function drainQueue ( ) {
if ( draining ) {
return ;
}
var timeout = runTimeout ( cleanUpNextTick ) ;
draining = true ;
var len = queue . length ;
while ( len ) {
currentQueue = queue ;
queue = [ ] ;
while ( ++ queueIndex < len ) {
if ( currentQueue ) {
currentQueue [ queueIndex ] . run ( ) ;
}
}
queueIndex = - 1 ;
len = queue . length ;
}
currentQueue = null ;
draining = false ;
runClearTimeout ( timeout ) ;
}
process . nextTick = function ( fun ) {
var args = new Array ( arguments . length - 1 ) ;
if ( arguments . length > 1 ) {
for ( var i = 1 ; i < arguments . length ; i ++ ) {
args [ i - 1 ] = arguments [ i ] ;
}
}
queue . push ( new Item ( fun , args ) ) ;
if ( queue . length === 1 && ! draining ) {
runTimeout ( drainQueue ) ;
}
} ;
// v8 likes predictible objects
function Item ( fun , array ) {
this . fun = fun ;
this . array = array ;
}
Item . prototype . run = function ( ) {
this . fun . apply ( null , this . array ) ;
} ;
process . title = 'browser' ;
process . browser = true ;
process . env = { } ;
process . argv = [ ] ;
process . version = '' ; // empty string to avoid regexp issues
process . versions = { } ;
function noop ( ) { }
process . on = noop ;
process . addListener = noop ;
process . once = noop ;
process . off = noop ;
process . removeListener = noop ;
process . removeAllListeners = noop ;
process . emit = noop ;
process . prependListener = noop ;
process . prependOnceListener = noop ;
process . listeners = function ( name ) { return [ ] }
process . binding = function ( name ) {
throw new Error ( 'process.binding is not supported' ) ;
} ;
process . cwd = function ( ) { return '/' } ;
process . chdir = function ( dir ) {
throw new Error ( 'process.chdir is not supported' ) ;
} ;
process . umask = function ( ) { return 0 ; } ;
} , { } ] } , { } , [ 2 ] ) ;