2023-12-24 01:10:40 +08:00
// Author Maasea Build: 2023/12/14 22:12:09
2023-02-17 17:12:19 +08:00
( ( ) => {
2023-12-24 01:10:40 +08:00
( function ( i ) {
function e ( ) {
}
function t ( ) {
}
var r = String . fromCharCode , n = { } . toString , s = n . call ( i . SharedArrayBuffer ) , o = n ( ) , a = i . Uint8Array ,
f = a || Array , l = a ? ArrayBuffer : f , h = l . isView || function ( b ) {
return b && "length" in b
} , y = n . call ( l . prototype ) ;
l = t . prototype ;
var p = i . TextEncoder , c = new ( a ? Uint16Array : f ) ( 32 ) ;
e . prototype . decode = function ( b ) {
if ( ! h ( b ) ) {
var A = n . call ( b ) ;
if ( A !== y && A !== s && A !== o ) throw TypeError ( "Failed to execute 'decode' on 'TextDecoder': The provided value is not of type '(ArrayBuffer or ArrayBufferView)'" ) ;
b = a ? new f ( b ) : b || [ ]
}
for ( var N = A = "" , d = 0 , I = b . length | 0 , G = I - 32 | 0 , B , x , E = 0 , J = 0 , V , U = 0 , D = - 1 ; d < I ; ) {
for ( B = d <= G ? 32 : I - d | 0 ; U < B ; d = d + 1 | 0 , U = U + 1 | 0 ) {
switch ( x = b [ d ] & 255 , x >> 4 ) {
case 15 :
if ( V = b [ d = d + 1 | 0 ] & 255 , V >> 6 !== 2 || 247 < x ) {
d = d - 1 | 0 ;
break
}
E = ( x & 7 ) << 6 | V & 63 , J = 5 , x = 256 ;
case 14 :
V = b [ d = d + 1 | 0 ] & 255 , E <<= 6 , E |= ( x & 15 ) << 6 | V & 63 , J = V >> 6 === 2 ? J + 4 | 0 : 24 , x = x + 256 & 768 ;
case 13 :
case 12 :
V = b [ d = d + 1 | 0 ] & 255 , E <<= 6 , E |= ( x & 31 ) << 6 | V & 63 , J = J + 7 | 0 , d < I && V >> 6 === 2 && E >> J && 1114112 > E ? ( x = E , E = E - 65536 | 0 , 0 <= E && ( D = ( E >> 10 ) + 55296 | 0 , x = ( E & 1023 ) + 56320 | 0 , 31 > U ? ( c [ U ] = D , U = U + 1 | 0 , D = - 1 ) : ( V = D , D = x , x = V ) ) ) : ( x >>= 8 , d = d - x - 1 | 0 , x = 65533 ) , E = J = 0 , B = d <= G ? 32 : I - d | 0 ;
default :
c [ U ] = x ;
continue ;
case 11 :
case 10 :
case 9 :
case 8 :
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
c [ U ] = 65533
}
if ( N += r ( c [ 0 ] , c [ 1 ] , c [ 2 ] , c [ 3 ] , c [ 4 ] , c [ 5 ] , c [ 6 ] , c [ 7 ] , c [ 8 ] , c [ 9 ] , c [ 10 ] , c [ 11 ] , c [ 12 ] , c [ 13 ] , c [ 14 ] , c [ 15 ] , c [ 16 ] , c [ 17 ] , c [ 18 ] , c [ 19 ] , c [ 20 ] , c [ 21 ] , c [ 22 ] , c [ 23 ] , c [ 24 ] , c [ 25 ] , c [ 26 ] , c [ 27 ] , c [ 28 ] , c [ 29 ] , c [ 30 ] , c [ 31 ] ) , 32 > U && ( N = N . slice ( 0 , U - 32 | 0 ) ) , d < I ) {
if ( c [ 0 ] = D , U = ~ D >>> 31 , D = - 1 , N . length < A . length ) continue
} else D !== - 1 && ( N += r ( D ) ) ;
A += N , N = ""
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
return A
} , l . encode = function ( b ) {
b = b === void 0 ? "" : "" + b ;
var A = b . length | 0 , N = new f ( ( A << 1 ) + 8 | 0 ) , d , I = 0 , G = ! a ;
for ( d = 0 ; d < A ; d = d + 1 | 0 , I = I + 1 | 0 ) {
var B = b . charCodeAt ( d ) | 0 ;
if ( 127 >= B ) N [ I ] = B ; else {
if ( 2047 >= B ) N [ I ] = 192 | B >> 6 ; else {
e : {
if ( 55296 <= B ) if ( 56319 >= B ) {
var x = b . charCodeAt ( d = d + 1 | 0 ) | 0 ;
if ( 56320 <= x && 57343 >= x ) {
if ( B = ( B << 10 ) + x - 56613888 | 0 , 65535 < B ) {
N [ I ] = 240 | B >> 18 , N [ I = I + 1 | 0 ] = 128 | B >> 12 & 63 , N [ I = I + 1 | 0 ] = 128 | B >> 6 & 63 , N [ I = I + 1 | 0 ] = 128 | B & 63 ;
continue
}
break e
}
B = 65533
} else 57343 >= B && ( B = 65533 ) ;
! G && d << 1 < I && d << 1 < ( I - 7 | 0 ) && ( G = ! 0 , x = new f ( 3 * A ) , x . set ( N ) , N = x )
}
N [ I ] = 224 | B >> 12 , N [ I = I + 1 | 0 ] = 128 | B >> 6 & 63
}
N [ I = I + 1 | 0 ] = 128 | B & 63
}
}
return a ? N . subarray ( 0 , I ) : N . slice ( 0 , I )
} , p || ( i . TextDecoder = e , i . TextEncoder = t )
} ) ( globalThis ) ;
function Z ( i ) {
let e = typeof i ;
if ( e == "object" ) {
if ( Array . isArray ( i ) ) return "array" ;
if ( i === null ) return "null"
}
return e
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function Be ( i ) {
return i !== null && typeof i == "object" && ! Array . isArray ( i )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var L = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/" . split ( "" ) , z = [ ] ;
for ( let i = 0 ; i < L . length ; i ++ ) z [ L [ i ] . charCodeAt ( 0 ) ] = i ;
z [ "-" . charCodeAt ( 0 ) ] = L . indexOf ( "+" ) ;
z [ "_" . charCodeAt ( 0 ) ] = L . indexOf ( "/" ) ;
function Oe ( i ) {
let e = i . length * 3 / 4 ;
i [ i . length - 2 ] == "=" ? e -= 2 : i [ i . length - 1 ] == "=" && ( e -= 1 ) ;
let t = new Uint8Array ( e ) , r = 0 , n = 0 , s , o = 0 ;
for ( let a = 0 ; a < i . length ; a ++ ) {
if ( s = z [ i . charCodeAt ( a ) ] , s === void 0 ) switch ( i [ a ] ) {
case "=" :
n = 0 ;
case `
2023-02-17 17:12:19 +08:00
` :
2023-12-24 01:10:40 +08:00
case "\r" :
case " " :
case " " :
continue ;
default :
throw Error ( "invalid base64 string." )
}
switch ( n ) {
case 0 :
o = s , n = 1 ;
break ;
case 1 :
t [ r ++ ] = o << 2 | ( s & 48 ) >> 4 , o = s , n = 2 ;
break ;
case 2 :
t [ r ++ ] = ( o & 15 ) << 4 | ( s & 60 ) >> 2 , o = s , n = 3 ;
break ;
case 3 :
t [ r ++ ] = ( o & 3 ) << 6 | s , n = 0 ;
break
}
}
if ( n == 1 ) throw Error ( "invalid base64 string." ) ;
return t . subarray ( 0 , r )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function Fe ( i ) {
let e = "" , t = 0 , r , n = 0 ;
for ( let s = 0 ; s < i . length ; s ++ ) switch ( r = i [ s ] , t ) {
case 0 :
e += L [ r >> 2 ] , n = ( r & 3 ) << 4 , t = 1 ;
break ;
case 1 :
e += L [ n | r >> 4 ] , n = ( r & 15 ) << 2 , t = 2 ;
break ;
case 2 :
e += L [ n | r >> 6 ] , e += L [ r & 63 ] , t = 0 ;
break
}
return t && ( e += L [ n ] , e += "=" , t == 1 && ( e += "=" ) ) , e
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var O ;
( function ( i ) {
i . symbol = Symbol . for ( "protobuf-ts/unknown" ) , i . onRead = ( t , r , n , s , o ) => {
( e ( r ) ? r [ i . symbol ] : r [ i . symbol ] = [ ] ) . push ( { no : n , wireType : s , data : o } )
} , i . onWrite = ( t , r , n ) => {
for ( let { no : s , wireType : o , data : a } of i . list ( r ) ) n . tag ( s , o ) . raw ( a )
} , i . list = ( t , r ) => {
if ( e ( t ) ) {
let n = t [ i . symbol ] ;
return r ? n . filter ( s => s . no == r ) : n
}
return [ ]
} , i . last = ( t , r ) => i . list ( t , r ) . slice ( - 1 ) [ 0 ] ;
let e = t => t && Array . isArray ( t [ i . symbol ] )
} ) ( O || ( O = { } ) ) ;
var g ;
( function ( i ) {
i [ i . Varint = 0 ] = "Varint" , i [ i . Bit64 = 1 ] = "Bit64" , i [ i . LengthDelimited = 2 ] = "LengthDelimited" , i [ i . StartGroup = 3 ] = "StartGroup" , i [ i . EndGroup = 4 ] = "EndGroup" , i [ i . Bit32 = 5 ] = "Bit32"
} ) ( g || ( g = { } ) ) ;
function Ee ( ) {
let i = 0 , e = 0 ;
for ( let r = 0 ; r < 28 ; r += 7 ) {
let n = this . buf [ this . pos ++ ] ;
if ( i |= ( n & 127 ) << r , ! ( n & 128 ) ) return this . assertBounds ( ) , [ i , e ]
}
let t = this . buf [ this . pos ++ ] ;
if ( i |= ( t & 15 ) << 28 , e = ( t & 112 ) >> 4 , ! ( t & 128 ) ) return this . assertBounds ( ) , [ i , e ] ;
for ( let r = 3 ; r <= 31 ; r += 7 ) {
let n = this . buf [ this . pos ++ ] ;
if ( e |= ( n & 127 ) << r , ! ( n & 128 ) ) return this . assertBounds ( ) , [ i , e ]
}
throw new Error ( "invalid varint" )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function H ( i , e , t ) {
for ( let s = 0 ; s < 28 ; s = s + 7 ) {
let o = i >>> s , a = ! ( ! ( o >>> 7 ) && e == 0 ) , f = ( a ? o | 128 : o ) & 255 ;
if ( t . push ( f ) , ! a ) return
}
let r = i >>> 28 & 15 | ( e & 7 ) << 4 , n = ! ! ( e >> 3 ) ;
if ( t . push ( ( n ? r | 128 : r ) & 255 ) , ! ! n ) {
for ( let s = 3 ; s < 31 ; s = s + 7 ) {
let o = e >>> s , a = ! ! ( o >>> 7 ) , f = ( a ? o | 128 : o ) & 255 ;
if ( t . push ( f ) , ! a ) return
}
t . push ( e >>> 31 & 1 )
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var Q = ( 1 << 16 ) * ( 1 << 16 ) ;
function de ( i ) {
let e = i [ 0 ] == "-" ;
e && ( i = i . slice ( 1 ) ) ;
let t = 1e6 , r = 0 , n = 0 ;
function s ( o , a ) {
let f = Number ( i . slice ( o , a ) ) ;
n *= t , r = r * t + f , r >= Q && ( n = n + ( r / Q | 0 ) , r = r % Q )
}
return s ( - 24 , - 18 ) , s ( - 18 , - 12 ) , s ( - 12 , - 6 ) , s ( - 6 ) , [ e , r , n ]
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function ee ( i , e ) {
if ( e <= 2097151 ) return "" + ( Q * e + ( i >>> 0 ) ) ;
let t = i & 16777215 , r = ( i >>> 24 | e << 8 ) >>> 0 & 16777215 , n = e >> 16 & 65535 ,
s = t + r * 6777216 + n * 6710656 , o = r + n * 8147497 , a = n * 2 , f = 1e7 ;
s >= f && ( o += Math . floor ( s / f ) , s %= f ) , o >= f && ( a += Math . floor ( o / f ) , o %= f ) ;
function l ( h , y ) {
let p = h ? String ( h ) : "" ;
return y ? "0000000" . slice ( p . length ) + p : p
}
return l ( a , 0 ) + l ( o , a ) + l ( s , 1 )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function me ( i , e ) {
if ( i >= 0 ) {
for ( ; i > 127 ; ) e . push ( i & 127 | 128 ) , i = i >>> 7 ;
e . push ( i )
} else {
for ( let t = 0 ; t < 9 ; t ++ ) e . push ( i & 127 | 128 ) , i = i >> 7 ;
e . push ( 1 )
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function Re ( ) {
let i = this . buf [ this . pos ++ ] , e = i & 127 ;
if ( ! ( i & 128 ) ) return this . assertBounds ( ) , e ;
if ( i = this . buf [ this . pos ++ ] , e |= ( i & 127 ) << 7 , ! ( i & 128 ) ) return this . assertBounds ( ) , e ;
if ( i = this . buf [ this . pos ++ ] , e |= ( i & 127 ) << 14 , ! ( i & 128 ) ) return this . assertBounds ( ) , e ;
if ( i = this . buf [ this . pos ++ ] , e |= ( i & 127 ) << 21 , ! ( i & 128 ) ) return this . assertBounds ( ) , e ;
i = this . buf [ this . pos ++ ] , e |= ( i & 15 ) << 28 ;
for ( let t = 5 ; i & 128 && t < 10 ; t ++ ) i = this . buf [ this . pos ++ ] ;
if ( i & 128 ) throw new Error ( "invalid varint" ) ;
return this . assertBounds ( ) , e >>> 0
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function _e ( ) {
let i = new DataView ( new ArrayBuffer ( 8 ) ) ;
return globalThis . BigInt !== void 0 && typeof i . getBigInt64 == "function" && typeof i . getBigUint64 == "function" && typeof i . setBigInt64 == "function" && typeof i . setBigUint64 == "function" ? {
MIN : BigInt ( "-9223372036854775808" ) ,
MAX : BigInt ( "9223372036854775807" ) ,
UMIN : BigInt ( "0" ) ,
UMAX : BigInt ( "18446744073709551615" ) ,
C : BigInt ,
V : i
} : void 0
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var k = _e ( ) ;
function Ae ( i ) {
if ( ! i ) throw new Error ( "BigInt unavailable, see https://github.com/timostamm/protobuf-ts/blob/v1.0.8/MANUAL.md#bigint-support" )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var Se = /^-?[0-9]+$/ , te = ( 1 << 16 ) * ( 1 << 16 ) , re = class {
constructor ( e , t ) {
this . lo = e | 0 , this . hi = t | 0
}
isZero ( ) {
return this . lo == 0 && this . hi == 0
}
toNumber ( ) {
let e = this . hi * te + ( this . lo >>> 0 ) ;
if ( ! Number . isSafeInteger ( e ) ) throw new Error ( "cannot convert to safe number" ) ;
return e
}
} , T = class extends re {
static from ( e ) {
if ( k ) switch ( typeof e ) {
case "string" :
if ( e == "0" ) return this . ZERO ;
if ( e == "" ) throw new Error ( "string is no integer" ) ;
e = k . C ( e ) ;
case "number" :
if ( e === 0 ) return this . ZERO ;
e = k . C ( e ) ;
case "bigint" :
if ( ! e ) return this . ZERO ;
if ( e < k . UMIN ) throw new Error ( "signed value for ulong" ) ;
if ( e > k . UMAX ) throw new Error ( "ulong too large" ) ;
return k . V . setBigUint64 ( 0 , e , ! 0 ) , new T ( k . V . getInt32 ( 0 , ! 0 ) , k . V . getInt32 ( 4 , ! 0 ) )
} else switch ( typeof e ) {
case "string" :
if ( e == "0" ) return this . ZERO ;
if ( e = e . trim ( ) , ! Se . test ( e ) ) throw new Error ( "string is no integer" ) ;
let [ t , r , n ] = de ( e ) ;
if ( t ) throw new Error ( "signed value" ) ;
return new T ( r , n ) ;
case "number" :
if ( e == 0 ) return this . ZERO ;
if ( ! Number . isSafeInteger ( e ) ) throw new Error ( "number is no integer" ) ;
if ( e < 0 ) throw new Error ( "signed value for ulong" ) ;
return new T ( e , e / te )
}
throw new Error ( "unknown value " + typeof e )
}
toString ( ) {
return k ? this . toBigInt ( ) . toString ( ) : ee ( this . lo , this . hi )
}
toBigInt ( ) {
return Ae ( k ) , k . V . setInt32 ( 0 , this . lo , ! 0 ) , k . V . setInt32 ( 4 , this . hi , ! 0 ) , k . V . getBigUint64 ( 0 , ! 0 )
}
} ;
T . ZERO = new T ( 0 , 0 ) ;
var w = class extends re {
static from ( e ) {
if ( k ) switch ( typeof e ) {
case "string" :
if ( e == "0" ) return this . ZERO ;
if ( e == "" ) throw new Error ( "string is no integer" ) ;
e = k . C ( e ) ;
case "number" :
if ( e === 0 ) return this . ZERO ;
e = k . C ( e ) ;
case "bigint" :
if ( ! e ) return this . ZERO ;
if ( e < k . MIN ) throw new Error ( "ulong too small" ) ;
if ( e > k . MAX ) throw new Error ( "ulong too large" ) ;
return k . V . setBigInt64 ( 0 , e , ! 0 ) , new w ( k . V . getInt32 ( 0 , ! 0 ) , k . V . getInt32 ( 4 , ! 0 ) )
} else switch ( typeof e ) {
case "string" :
if ( e == "0" ) return this . ZERO ;
if ( e = e . trim ( ) , ! Se . test ( e ) ) throw new Error ( "string is no integer" ) ;
let [ t , r , n ] = de ( e ) , s = new w ( r , n ) ;
return t ? s . negate ( ) : s ;
case "number" :
if ( e == 0 ) return this . ZERO ;
if ( ! Number . isSafeInteger ( e ) ) throw new Error ( "number is no integer" ) ;
return e > 0 ? new w ( e , e / te ) : new w ( - e , - e / te ) . negate ( )
}
throw new Error ( "unknown value " + typeof e )
}
isNegative ( ) {
return ( this . hi & 2147483648 ) !== 0
}
negate ( ) {
let e = ~ this . hi , t = this . lo ;
return t ? t = ~ t + 1 : e += 1 , new w ( t , e )
}
toString ( ) {
if ( k ) return this . toBigInt ( ) . toString ( ) ;
if ( this . isNegative ( ) ) {
let e = this . negate ( ) ;
return "-" + ee ( e . lo , e . hi )
}
return ee ( this . lo , this . hi )
}
toBigInt ( ) {
return Ae ( k ) , k . V . setInt32 ( 0 , this . lo , ! 0 ) , k . V . setInt32 ( 4 , this . hi , ! 0 ) , k . V . getBigInt64 ( 0 , ! 0 )
}
} ;
w . ZERO = new w ( 0 , 0 ) ;
var Ue = { readUnknownField : ! 0 , readerFactory : i => new pe ( i ) } ;
function Ve ( i ) {
return i ? Object . assign ( Object . assign ( { } , Ue ) , i ) : Ue
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var pe = class {
constructor ( e , t ) {
this . varint64 = Ee , this . uint32 = Re , this . buf = e , this . len = e . length , this . pos = 0 , this . view = new DataView ( e . buffer , e . byteOffset , e . byteLength ) , this . textDecoder = t ? ? new TextDecoder ( "utf-8" , {
fatal : ! 0 ,
ignoreBOM : ! 0
} )
}
tag ( ) {
let e = this . uint32 ( ) , t = e >>> 3 , r = e & 7 ;
if ( t <= 0 || r < 0 || r > 5 ) throw new Error ( "illegal tag: field no " + t + " wire type " + r ) ;
return [ t , r ]
}
skip ( e ) {
let t = this . pos ;
switch ( e ) {
case g . Varint :
for ( ; this . buf [ this . pos ++ ] & 128 ; ) ;
break ;
case g . Bit64 :
this . pos += 4 ;
case g . Bit32 :
this . pos += 4 ;
break ;
case g . LengthDelimited :
let r = this . uint32 ( ) ;
this . pos += r ;
break ;
case g . StartGroup :
let n ;
for ( ; ( n = this . tag ( ) [ 1 ] ) !== g . EndGroup ; ) this . skip ( n ) ;
break ;
default :
throw new Error ( "cant skip wire type " + e )
}
return this . assertBounds ( ) , this . buf . subarray ( t , this . pos )
}
assertBounds ( ) {
if ( this . pos > this . len ) throw new RangeError ( "premature EOF" )
}
int32 ( ) {
return this . uint32 ( ) | 0
}
sint32 ( ) {
let e = this . uint32 ( ) ;
return e >>> 1 ^ - ( e & 1 )
}
int64 ( ) {
return new w ( ... this . varint64 ( ) )
}
uint64 ( ) {
return new T ( ... this . varint64 ( ) )
}
sint64 ( ) {
let [ e , t ] = this . varint64 ( ) , r = - ( e & 1 ) ;
return e = ( e >>> 1 | ( t & 1 ) << 31 ) ^ r , t = t >>> 1 ^ r , new w ( e , t )
}
bool ( ) {
let [ e , t ] = this . varint64 ( ) ;
return e !== 0 || t !== 0
}
fixed32 ( ) {
return this . view . getUint32 ( ( this . pos += 4 ) - 4 , ! 0 )
}
sfixed32 ( ) {
return this . view . getInt32 ( ( this . pos += 4 ) - 4 , ! 0 )
}
fixed64 ( ) {
return new T ( this . sfixed32 ( ) , this . sfixed32 ( ) )
}
sfixed64 ( ) {
return new w ( this . sfixed32 ( ) , this . sfixed32 ( ) )
}
float ( ) {
return this . view . getFloat32 ( ( this . pos += 4 ) - 4 , ! 0 )
}
double ( ) {
return this . view . getFloat64 ( ( this . pos += 8 ) - 8 , ! 0 )
}
bytes ( ) {
let e = this . uint32 ( ) , t = this . pos ;
return this . pos += e , this . assertBounds ( ) , this . buf . subarray ( t , t + e )
}
string ( ) {
return this . textDecoder . decode ( this . bytes ( ) )
}
} ;
function m ( i , e ) {
if ( ! i ) throw new Error ( e )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var Ye = 34028234663852886e22 , Ze = - 34028234663852886e22 , ze = 4294967295 , Qe = 2147483647 , He = - 2147483648 ;
function M ( i ) {
if ( typeof i != "number" ) throw new Error ( "invalid int 32: " + typeof i ) ;
if ( ! Number . isInteger ( i ) || i > Qe || i < He ) throw new Error ( "invalid int 32: " + i )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function W ( i ) {
if ( typeof i != "number" ) throw new Error ( "invalid uint 32: " + typeof i ) ;
if ( ! Number . isInteger ( i ) || i > ze || i < 0 ) throw new Error ( "invalid uint 32: " + i )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function j ( i ) {
if ( typeof i != "number" ) throw new Error ( "invalid float 32: " + typeof i ) ;
if ( Number . isFinite ( i ) && ( i > Ye || i < Ze ) ) throw new Error ( "invalid float 32: " + i )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var De = { writeUnknownFields : ! 0 , writerFactory : ( ) => new ge } ;
function Ce ( i ) {
return i ? Object . assign ( Object . assign ( { } , De ) , i ) : De
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var ge = class {
constructor ( e ) {
this . stack = [ ] , this . textEncoder = e ? ? new TextEncoder , this . chunks = [ ] , this . buf = [ ]
}
finish ( ) {
this . chunks . push ( new Uint8Array ( this . buf ) ) ;
let e = 0 ;
for ( let n = 0 ; n < this . chunks . length ; n ++ ) e += this . chunks [ n ] . length ;
let t = new Uint8Array ( e ) , r = 0 ;
for ( let n = 0 ; n < this . chunks . length ; n ++ ) t . set ( this . chunks [ n ] , r ) , r += this . chunks [ n ] . length ;
return this . chunks = [ ] , t
}
fork ( ) {
return this . stack . push ( { chunks : this . chunks , buf : this . buf } ) , this . chunks = [ ] , this . buf = [ ] , this
}
join ( ) {
let e = this . finish ( ) , t = this . stack . pop ( ) ;
if ( ! t ) throw new Error ( "invalid state, fork stack empty" ) ;
return this . chunks = t . chunks , this . buf = t . buf , this . uint32 ( e . byteLength ) , this . raw ( e )
}
tag ( e , t ) {
return this . uint32 ( ( e << 3 | t ) >>> 0 )
}
raw ( e ) {
return this . buf . length && ( this . chunks . push ( new Uint8Array ( this . buf ) ) , this . buf = [ ] ) , this . chunks . push ( e ) , this
}
uint32 ( e ) {
for ( W ( e ) ; e > 127 ; ) this . buf . push ( e & 127 | 128 ) , e = e >>> 7 ;
return this . buf . push ( e ) , this
}
int32 ( e ) {
return M ( e ) , me ( e , this . buf ) , this
}
bool ( e ) {
return this . buf . push ( e ? 1 : 0 ) , this
}
bytes ( e ) {
return this . uint32 ( e . byteLength ) , this . raw ( e )
}
string ( e ) {
let t = this . textEncoder . encode ( e ) ;
return this . uint32 ( t . byteLength ) , this . raw ( t )
}
float ( e ) {
j ( e ) ;
let t = new Uint8Array ( 4 ) ;
return new DataView ( t . buffer ) . setFloat32 ( 0 , e , ! 0 ) , this . raw ( t )
}
double ( e ) {
let t = new Uint8Array ( 8 ) ;
return new DataView ( t . buffer ) . setFloat64 ( 0 , e , ! 0 ) , this . raw ( t )
}
fixed32 ( e ) {
W ( e ) ;
let t = new Uint8Array ( 4 ) ;
return new DataView ( t . buffer ) . setUint32 ( 0 , e , ! 0 ) , this . raw ( t )
}
sfixed32 ( e ) {
M ( e ) ;
let t = new Uint8Array ( 4 ) ;
return new DataView ( t . buffer ) . setInt32 ( 0 , e , ! 0 ) , this . raw ( t )
}
sint32 ( e ) {
return M ( e ) , e = ( e << 1 ^ e >> 31 ) >>> 0 , me ( e , this . buf ) , this
}
sfixed64 ( e ) {
let t = new Uint8Array ( 8 ) , r = new DataView ( t . buffer ) , n = w . from ( e ) ;
return r . setInt32 ( 0 , n . lo , ! 0 ) , r . setInt32 ( 4 , n . hi , ! 0 ) , this . raw ( t )
}
fixed64 ( e ) {
let t = new Uint8Array ( 8 ) , r = new DataView ( t . buffer ) , n = T . from ( e ) ;
return r . setInt32 ( 0 , n . lo , ! 0 ) , r . setInt32 ( 4 , n . hi , ! 0 ) , this . raw ( t )
}
int64 ( e ) {
let t = w . from ( e ) ;
return H ( t . lo , t . hi , this . buf ) , this
}
sint64 ( e ) {
let t = w . from ( e ) , r = t . hi >> 31 , n = t . lo << 1 ^ r , s = ( t . hi << 1 | t . lo >>> 31 ) ^ r ;
return H ( n , s , this . buf ) , this
}
uint64 ( e ) {
let t = T . from ( e ) ;
return H ( t . lo , t . hi , this . buf ) , this
}
} ;
var Le = { emitDefaultValues : ! 1 , enumAsInteger : ! 1 , useProtoFieldName : ! 1 , prettySpaces : 0 } ,
Pe = { ignoreUnknownFields : ! 1 } ;
function $e ( i ) {
return i ? Object . assign ( Object . assign ( { } , Pe ) , i ) : Pe
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function Me ( i ) {
return i ? Object . assign ( Object . assign ( { } , Le ) , i ) : Le
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var K = Symbol . for ( "protobuf-ts/message-type" ) ;
function be ( i ) {
let e = ! 1 , t = [ ] ;
for ( let r = 0 ; r < i . length ; r ++ ) {
let n = i . charAt ( r ) ;
n == "_" ? e = ! 0 : /\d/ . test ( n ) ? ( t . push ( n ) , e = ! 0 ) : e ? ( t . push ( n . toUpperCase ( ) ) , e = ! 1 ) : r == 0 ? t . push ( n . toLowerCase ( ) ) : t . push ( n )
}
return t . join ( "" )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var u ;
( function ( i ) {
i [ i . DOUBLE = 1 ] = "DOUBLE" , i [ i . FLOAT = 2 ] = "FLOAT" , i [ i . INT64 = 3 ] = "INT64" , i [ i . UINT64 = 4 ] = "UINT64" , i [ i . INT32 = 5 ] = "INT32" , i [ i . FIXED64 = 6 ] = "FIXED64" , i [ i . FIXED32 = 7 ] = "FIXED32" , i [ i . BOOL = 8 ] = "BOOL" , i [ i . STRING = 9 ] = "STRING" , i [ i . BYTES = 12 ] = "BYTES" , i [ i . UINT32 = 13 ] = "UINT32" , i [ i . SFIXED32 = 15 ] = "SFIXED32" , i [ i . SFIXED64 = 16 ] = "SFIXED64" , i [ i . SINT32 = 17 ] = "SINT32" , i [ i . SINT64 = 18 ] = "SINT64"
} ) ( u || ( u = { } ) ) ;
var F ;
( function ( i ) {
i [ i . BIGINT = 0 ] = "BIGINT" , i [ i . STRING = 1 ] = "STRING" , i [ i . NUMBER = 2 ] = "NUMBER"
} ) ( F || ( F = { } ) ) ;
var v ;
( function ( i ) {
i [ i . NO = 0 ] = "NO" , i [ i . PACKED = 1 ] = "PACKED" , i [ i . UNPACKED = 2 ] = "UNPACKED"
} ) ( v || ( v = { } ) ) ;
function Ke ( i ) {
var e , t , r , n ;
return i . localName = ( e = i . localName ) !== null && e !== void 0 ? e : be ( i . name ) , i . jsonName = ( t = i . jsonName ) !== null && t !== void 0 ? t : be ( i . name ) , i . repeat = ( r = i . repeat ) !== null && r !== void 0 ? r : v . NO , i . opt = ( n = i . opt ) !== null && n !== void 0 ? n : i . repeat || i . oneof ? ! 1 : i . kind == "message" , i
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function qe ( i ) {
if ( typeof i != "object" || i === null || ! i . hasOwnProperty ( "oneofKind" ) ) return ! 1 ;
switch ( typeof i . oneofKind ) {
case "string" :
return i [ i . oneofKind ] === void 0 ? ! 1 : Object . keys ( i ) . length == 2 ;
case "undefined" :
return Object . keys ( i ) . length == 1 ;
2023-02-17 17:12:19 +08:00
default :
2023-12-24 01:10:40 +08:00
return ! 1
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var ne = class {
constructor ( e ) {
var t ;
this . fields = ( t = e . fields ) !== null && t !== void 0 ? t : [ ]
}
prepare ( ) {
if ( this . data ) return ;
let e = [ ] , t = [ ] , r = [ ] ;
for ( let n of this . fields ) if ( n . oneof ) r . includes ( n . oneof ) || ( r . push ( n . oneof ) , e . push ( n . oneof ) , t . push ( n . oneof ) ) ; else switch ( t . push ( n . localName ) , n . kind ) {
case "scalar" :
case "enum" :
( ! n . opt || n . repeat ) && e . push ( n . localName ) ;
break ;
case "message" :
n . repeat && e . push ( n . localName ) ;
break ;
case "map" :
e . push ( n . localName ) ;
break
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
this . data = { req : e , known : t , oneofs : Object . values ( r ) }
}
is ( e , t , r = ! 1 ) {
if ( t < 0 ) return ! 0 ;
if ( e == null || typeof e != "object" ) return ! 1 ;
this . prepare ( ) ;
let n = Object . keys ( e ) , s = this . data ;
if ( n . length < s . req . length || s . req . some ( o => ! n . includes ( o ) ) || ! r && n . some ( o => ! s . known . includes ( o ) ) ) return ! 1 ;
if ( t < 1 ) return ! 0 ;
for ( let o of s . oneofs ) {
let a = e [ o ] ;
if ( ! qe ( a ) ) return ! 1 ;
if ( a . oneofKind === void 0 ) continue ;
let f = this . fields . find ( l => l . localName === a . oneofKind ) ;
if ( ! f || ! this . field ( a [ a . oneofKind ] , f , r , t ) ) return ! 1
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
for ( let o of this . fields ) if ( o . oneof === void 0 && ! this . field ( e [ o . localName ] , o , r , t ) ) return ! 1 ;
return ! 0
}
field ( e , t , r , n ) {
let s = t . repeat ;
switch ( t . kind ) {
case "scalar" :
return e === void 0 ? t . opt : s ? this . scalars ( e , t . T , n , t . L ) : this . scalar ( e , t . T , t . L ) ;
case "enum" :
return e === void 0 ? t . opt : s ? this . scalars ( e , u . INT32 , n ) : this . scalar ( e , u . INT32 ) ;
case "message" :
return e === void 0 ? ! 0 : s ? this . messages ( e , t . T ( ) , r , n ) : this . message ( e , t . T ( ) , r , n ) ;
case "map" :
if ( typeof e != "object" || e === null ) return ! 1 ;
if ( n < 2 ) return ! 0 ;
if ( ! this . mapKeys ( e , t . K , n ) ) return ! 1 ;
switch ( t . V . kind ) {
case "scalar" :
return this . scalars ( Object . values ( e ) , t . V . T , n , t . V . L ) ;
case "enum" :
return this . scalars ( Object . values ( e ) , u . INT32 , n ) ;
case "message" :
return this . messages ( Object . values ( e ) , t . V . T ( ) , r , n )
}
break
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
return ! 0
}
message ( e , t , r , n ) {
return r ? t . isAssignable ( e , n ) : t . is ( e , n )
}
messages ( e , t , r , n ) {
if ( ! Array . isArray ( e ) ) return ! 1 ;
if ( n < 2 ) return ! 0 ;
if ( r ) {
for ( let s = 0 ; s < e . length && s < n ; s ++ ) if ( ! t . isAssignable ( e [ s ] , n - 1 ) ) return ! 1
} else for ( let s = 0 ; s < e . length && s < n ; s ++ ) if ( ! t . is ( e [ s ] , n - 1 ) ) return ! 1 ;
return ! 0
}
scalar ( e , t , r ) {
let n = typeof e ;
switch ( t ) {
case u . UINT64 :
case u . FIXED64 :
case u . INT64 :
case u . SFIXED64 :
case u . SINT64 :
switch ( r ) {
case F . BIGINT :
return n == "bigint" ;
case F . NUMBER :
return n == "number" && ! isNaN ( e ) ;
default :
return n == "string"
}
case u . BOOL :
return n == "boolean" ;
case u . STRING :
return n == "string" ;
case u . BYTES :
return e instanceof Uint8Array ;
case u . DOUBLE :
case u . FLOAT :
return n == "number" && ! isNaN ( e ) ;
default :
return n == "number" && Number . isInteger ( e )
}
}
scalars ( e , t , r , n ) {
if ( ! Array . isArray ( e ) ) return ! 1 ;
if ( r < 2 ) return ! 0 ;
if ( Array . isArray ( e ) ) {
for ( let s = 0 ; s < e . length && s < r ; s ++ ) if ( ! this . scalar ( e [ s ] , t , n ) ) return ! 1
}
return ! 0
}
mapKeys ( e , t , r ) {
let n = Object . keys ( e ) ;
switch ( t ) {
case u . INT32 :
case u . FIXED32 :
case u . SFIXED32 :
case u . SINT32 :
case u . UINT32 :
return this . scalars ( n . slice ( 0 , r ) . map ( s => parseInt ( s ) ) , t , r ) ;
case u . BOOL :
return this . scalars ( n . slice ( 0 , r ) . map ( s => s == "true" ? ! 0 : s == "false" ? ! 1 : s ) , t , r ) ;
default :
return this . scalars ( n , t , r , F . STRING )
}
}
} ;
function R ( i , e ) {
switch ( e ) {
case F . BIGINT :
return i . toBigInt ( ) ;
case F . NUMBER :
return i . toNumber ( ) ;
default :
return i . toString ( )
}
}
var ie = class {
constructor ( e ) {
this . info = e
}
prepare ( ) {
var e ;
if ( this . fMap === void 0 ) {
this . fMap = { } ;
let t = ( e = this . info . fields ) !== null && e !== void 0 ? e : [ ] ;
for ( let r of t ) this . fMap [ r . name ] = r , this . fMap [ r . jsonName ] = r , this . fMap [ r . localName ] = r
}
}
assert ( e , t , r ) {
if ( ! e ) {
let n = Z ( r ) ;
throw ( n == "number" || n == "boolean" ) && ( n = r . toString ( ) ) , new Error ( ` Cannot parse JSON ${ n } for ${ this . info . typeName } # ${ t } ` )
}
}
read ( e , t , r ) {
this . prepare ( ) ;
let n = [ ] ;
for ( let [ s , o ] of Object . entries ( e ) ) {
let a = this . fMap [ s ] ;
if ( ! a ) {
if ( ! r . ignoreUnknownFields ) throw new Error ( ` Found unknown field while reading ${ this . info . typeName } from JSON format. JSON key: ${ s } ` ) ;
continue
}
let f = a . localName , l ;
if ( a . oneof ) {
if ( n . includes ( a . oneof ) ) throw new Error ( ` Multiple members of the oneof group " ${ a . oneof } " of ${ this . info . typeName } are present in JSON. ` ) ;
n . push ( a . oneof ) , l = t [ a . oneof ] = { oneofKind : f }
} else l = t ;
if ( a . kind == "map" ) {
if ( o === null ) continue ;
this . assert ( Be ( o ) , a . name , o ) ;
let h = l [ f ] ;
for ( let [ y , p ] of Object . entries ( o ) ) {
this . assert ( p !== null , a . name + " map value" , null ) ;
let c ;
switch ( a . V . kind ) {
case "message" :
c = a . V . T ( ) . internalJsonRead ( p , r ) ;
break ;
case "enum" :
if ( c = this . enum ( a . V . T ( ) , p , a . name , r . ignoreUnknownFields ) , c === ! 1 ) continue ;
break ;
case "scalar" :
c = this . scalar ( p , a . V . T , a . V . L , a . name ) ;
break
}
this . assert ( c !== void 0 , a . name + " map value" , p ) ;
let b = y ;
a . K == u . BOOL && ( b = b == "true" ? ! 0 : b == "false" ? ! 1 : b ) , b = this . scalar ( b , a . K , F . STRING , a . name ) . toString ( ) , h [ b ] = c
}
} else if ( a . repeat ) {
if ( o === null ) continue ;
this . assert ( Array . isArray ( o ) , a . name , o ) ;
let h = l [ f ] ;
for ( let y of o ) {
this . assert ( y !== null , a . name , null ) ;
let p ;
switch ( a . kind ) {
case "message" :
p = a . T ( ) . internalJsonRead ( y , r ) ;
break ;
case "enum" :
if ( p = this . enum ( a . T ( ) , y , a . name , r . ignoreUnknownFields ) , p === ! 1 ) continue ;
break ;
case "scalar" :
p = this . scalar ( y , a . T , a . L , a . name ) ;
break
}
this . assert ( p !== void 0 , a . name , o ) , h . push ( p )
}
} else switch ( a . kind ) {
case "message" :
if ( o === null && a . T ( ) . typeName != "google.protobuf.Value" ) {
this . assert ( a . oneof === void 0 , a . name + " (oneof member)" , null ) ;
continue
}
l [ f ] = a . T ( ) . internalJsonRead ( o , r , l [ f ] ) ;
break ;
case "enum" :
let h = this . enum ( a . T ( ) , o , a . name , r . ignoreUnknownFields ) ;
if ( h === ! 1 ) continue ;
l [ f ] = h ;
break ;
case "scalar" :
l [ f ] = this . scalar ( o , a . T , a . L , a . name ) ;
break
}
}
}
enum ( e , t , r , n ) {
if ( e [ 0 ] == "google.protobuf.NullValue" && m ( t === null , ` Unable to parse field ${ this . info . typeName } # ${ r } , enum ${ e [ 0 ] } only accepts null. ` ) , t === null ) return 0 ;
switch ( typeof t ) {
case "number" :
return m ( Number . isInteger ( t ) , ` Unable to parse field ${ this . info . typeName } # ${ r } , enum can only be integral number, got ${ t } . ` ) , t ;
case "string" :
let s = t ;
e [ 2 ] && t . substring ( 0 , e [ 2 ] . length ) === e [ 2 ] && ( s = t . substring ( e [ 2 ] . length ) ) ;
let o = e [ 1 ] [ s ] ;
return typeof o > "u" && n ? ! 1 : ( m ( typeof o == "number" , ` Unable to parse field ${ this . info . typeName } # ${ r } , enum ${ e [ 0 ] } has no value for " ${ t } ". ` ) , o )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
m ( ! 1 , ` Unable to parse field ${ this . info . typeName } # ${ r } , cannot parse enum value from ${ typeof t } ". ` )
}
scalar ( e , t , r , n ) {
let s ;
2023-02-17 17:12:19 +08:00
try {
2023-12-24 01:10:40 +08:00
switch ( t ) {
case u . DOUBLE :
case u . FLOAT :
if ( e === null ) return 0 ;
if ( e === "NaN" ) return Number . NaN ;
if ( e === "Infinity" ) return Number . POSITIVE _INFINITY ;
if ( e === "-Infinity" ) return Number . NEGATIVE _INFINITY ;
if ( e === "" ) {
s = "empty string" ;
break
}
if ( typeof e == "string" && e . trim ( ) . length !== e . length ) {
s = "extra whitespace" ;
break
}
if ( typeof e != "string" && typeof e != "number" ) break ;
let o = Number ( e ) ;
if ( Number . isNaN ( o ) ) {
s = "not a number" ;
break
}
if ( ! Number . isFinite ( o ) ) {
s = "too large or small" ;
break
}
return t == u . FLOAT && j ( o ) , o ;
case u . INT32 :
case u . FIXED32 :
case u . SFIXED32 :
case u . SINT32 :
case u . UINT32 :
if ( e === null ) return 0 ;
let a ;
if ( typeof e == "number" ? a = e : e === "" ? s = "empty string" : typeof e == "string" && ( e . trim ( ) . length !== e . length ? s = "extra whitespace" : a = Number ( e ) ) , a === void 0 ) break ;
return t == u . UINT32 ? W ( a ) : M ( a ) , a ;
case u . INT64 :
case u . SFIXED64 :
case u . SINT64 :
if ( e === null ) return R ( w . ZERO , r ) ;
if ( typeof e != "number" && typeof e != "string" ) break ;
return R ( w . from ( e ) , r ) ;
case u . FIXED64 :
case u . UINT64 :
if ( e === null ) return R ( T . ZERO , r ) ;
if ( typeof e != "number" && typeof e != "string" ) break ;
return R ( T . from ( e ) , r ) ;
case u . BOOL :
if ( e === null ) return ! 1 ;
if ( typeof e != "boolean" ) break ;
return e ;
case u . STRING :
if ( e === null ) return "" ;
if ( typeof e != "string" ) {
s = "extra whitespace" ;
break
}
try {
encodeURIComponent ( e )
} catch ( f ) {
f = "invalid UTF8" ;
break
}
return e ;
case u . BYTES :
if ( e === null || e === "" ) return new Uint8Array ( 0 ) ;
if ( typeof e != "string" ) break ;
return Oe ( e )
}
2023-02-17 17:12:19 +08:00
} catch ( o ) {
2023-12-24 01:10:40 +08:00
s = o . message
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
this . assert ( ! 1 , n + ( s ? " - " + s : "" ) , e )
}
} ;
var se = class {
constructor ( e ) {
var t ;
this . fields = ( t = e . fields ) !== null && t !== void 0 ? t : [ ]
}
write ( e , t ) {
let r = { } , n = e ;
for ( let s of this . fields ) {
if ( ! s . oneof ) {
let l = this . field ( s , n [ s . localName ] , t ) ;
l !== void 0 && ( r [ t . useProtoFieldName ? s . name : s . jsonName ] = l ) ;
continue
}
let o = n [ s . oneof ] ;
if ( o . oneofKind !== s . localName ) continue ;
let a = s . kind == "scalar" || s . kind == "enum" ? Object . assign ( Object . assign ( { } , t ) , { emitDefaultValues : ! 0 } ) : t ,
f = this . field ( s , o [ s . localName ] , a ) ;
m ( f !== void 0 ) , r [ t . useProtoFieldName ? s . name : s . jsonName ] = f
}
return r
}
field ( e , t , r ) {
let n ;
if ( e . kind == "map" ) {
m ( typeof t == "object" && t !== null ) ;
let s = { } ;
switch ( e . V . kind ) {
case "scalar" :
for ( let [ f , l ] of Object . entries ( t ) ) {
let h = this . scalar ( e . V . T , l , e . name , ! 1 , ! 0 ) ;
m ( h !== void 0 ) , s [ f . toString ( ) ] = h
}
break ;
case "message" :
let o = e . V . T ( ) ;
for ( let [ f , l ] of Object . entries ( t ) ) {
let h = this . message ( o , l , e . name , r ) ;
m ( h !== void 0 ) , s [ f . toString ( ) ] = h
}
break ;
case "enum" :
let a = e . V . T ( ) ;
for ( let [ f , l ] of Object . entries ( t ) ) {
m ( l === void 0 || typeof l == "number" ) ;
let h = this . enum ( a , l , e . name , ! 1 , ! 0 , r . enumAsInteger ) ;
m ( h !== void 0 ) , s [ f . toString ( ) ] = h
}
break
}
( r . emitDefaultValues || Object . keys ( s ) . length > 0 ) && ( n = s )
} else if ( e . repeat ) {
m ( Array . isArray ( t ) ) ;
let s = [ ] ;
switch ( e . kind ) {
case "scalar" :
for ( let f = 0 ; f < t . length ; f ++ ) {
let l = this . scalar ( e . T , t [ f ] , e . name , e . opt , ! 0 ) ;
m ( l !== void 0 ) , s . push ( l )
}
break ;
case "enum" :
let o = e . T ( ) ;
for ( let f = 0 ; f < t . length ; f ++ ) {
m ( t [ f ] === void 0 || typeof t [ f ] == "number" ) ;
let l = this . enum ( o , t [ f ] , e . name , e . opt , ! 0 , r . enumAsInteger ) ;
m ( l !== void 0 ) , s . push ( l )
}
break ;
case "message" :
let a = e . T ( ) ;
for ( let f = 0 ; f < t . length ; f ++ ) {
let l = this . message ( a , t [ f ] , e . name , r ) ;
m ( l !== void 0 ) , s . push ( l )
}
break
}
( r . emitDefaultValues || s . length > 0 || r . emitDefaultValues ) && ( n = s )
} else switch ( e . kind ) {
case "scalar" :
n = this . scalar ( e . T , t , e . name , e . opt , r . emitDefaultValues ) ;
break ;
case "enum" :
n = this . enum ( e . T ( ) , t , e . name , e . opt , r . emitDefaultValues , r . enumAsInteger ) ;
break ;
case "message" :
n = this . message ( e . T ( ) , t , e . name , r ) ;
break
}
return n
}
enum ( e , t , r , n , s , o ) {
if ( e [ 0 ] == "google.protobuf.NullValue" ) return null ;
if ( t === void 0 ) {
m ( n ) ;
return
}
if ( ! ( t === 0 && ! s && ! n ) ) return m ( typeof t == "number" ) , m ( Number . isInteger ( t ) ) , o || ! e [ 1 ] . hasOwnProperty ( t ) ? t : e [ 2 ] ? e [ 2 ] + e [ 1 ] [ t ] : e [ 1 ] [ t ]
}
message ( e , t , r , n ) {
return t === void 0 ? n . emitDefaultValues ? null : void 0 : e . internalJsonWrite ( t , n )
}
scalar ( e , t , r , n , s ) {
if ( t === void 0 ) {
m ( n ) ;
return
}
let o = s || n ;
switch ( e ) {
case u . INT32 :
case u . SFIXED32 :
case u . SINT32 :
return t === 0 ? o ? 0 : void 0 : ( M ( t ) , t ) ;
case u . FIXED32 :
case u . UINT32 :
return t === 0 ? o ? 0 : void 0 : ( W ( t ) , t ) ;
case u . FLOAT :
j ( t ) ;
case u . DOUBLE :
return t === 0 ? o ? 0 : void 0 : ( m ( typeof t == "number" ) , Number . isNaN ( t ) ? "NaN" : t === Number . POSITIVE _INFINITY ? "Infinity" : t === Number . NEGATIVE _INFINITY ? "-Infinity" : t ) ;
case u . STRING :
return t === "" ? o ? "" : void 0 : ( m ( typeof t == "string" ) , t ) ;
case u . BOOL :
return t === ! 1 ? o ? ! 1 : void 0 : ( m ( typeof t == "boolean" ) , t ) ;
case u . UINT64 :
case u . FIXED64 :
m ( typeof t == "number" || typeof t == "string" || typeof t == "bigint" ) ;
let a = T . from ( t ) ;
return a . isZero ( ) && ! o ? void 0 : a . toString ( ) ;
case u . INT64 :
case u . SFIXED64 :
case u . SINT64 :
m ( typeof t == "number" || typeof t == "string" || typeof t == "bigint" ) ;
let f = w . from ( t ) ;
return f . isZero ( ) && ! o ? void 0 : f . toString ( ) ;
case u . BYTES :
return m ( t instanceof Uint8Array ) , t . byteLength ? Fe ( t ) : o ? "" : void 0
}
}
} ;
function _ ( i , e = F . STRING ) {
switch ( i ) {
case u . BOOL :
return ! 1 ;
case u . UINT64 :
case u . FIXED64 :
return R ( T . ZERO , e ) ;
case u . INT64 :
case u . SFIXED64 :
case u . SINT64 :
return R ( w . ZERO , e ) ;
case u . DOUBLE :
case u . FLOAT :
return 0 ;
case u . BYTES :
return new Uint8Array ( 0 ) ;
case u . STRING :
return "" ;
default :
return 0
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var oe = class {
constructor ( e ) {
this . info = e
}
prepare ( ) {
var e ;
if ( ! this . fieldNoToField ) {
let t = ( e = this . info . fields ) !== null && e !== void 0 ? e : [ ] ;
this . fieldNoToField = new Map ( t . map ( r => [ r . no , r ] ) )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
}
read ( e , t , r , n ) {
this . prepare ( ) ;
let s = n === void 0 ? e . len : e . pos + n ;
for ( ; e . pos < s ; ) {
let [ o , a ] = e . tag ( ) , f = this . fieldNoToField . get ( o ) ;
if ( ! f ) {
let p = r . readUnknownField ;
if ( p == "throw" ) throw new Error ( ` Unknown field ${ o } (wire type ${ a } ) for ${ this . info . typeName } ` ) ;
let c = e . skip ( a ) ;
p !== ! 1 && ( p === ! 0 ? O . onRead : p ) ( this . info . typeName , t , o , a , c ) ;
continue
}
let l = t , h = f . repeat , y = f . localName ;
switch ( f . oneof && ( l = l [ f . oneof ] , l . oneofKind !== y && ( l = t [ f . oneof ] = { oneofKind : y } ) ) , f . kind ) {
case "scalar" :
case "enum" :
let p = f . kind == "enum" ? u . INT32 : f . T , c = f . kind == "scalar" ? f . L : void 0 ;
if ( h ) {
let N = l [ y ] ;
if ( a == g . LengthDelimited && p != u . STRING && p != u . BYTES ) {
let d = e . uint32 ( ) + e . pos ;
for ( ; e . pos < d ; ) N . push ( this . scalar ( e , p , c ) )
} else N . push ( this . scalar ( e , p , c ) )
} else l [ y ] = this . scalar ( e , p , c ) ;
break ;
case "message" :
if ( h ) {
let N = l [ y ] , d = f . T ( ) . internalBinaryRead ( e , e . uint32 ( ) , r ) ;
N . push ( d )
} else l [ y ] = f . T ( ) . internalBinaryRead ( e , e . uint32 ( ) , r , l [ y ] ) ;
break ;
case "map" :
let [ b , A ] = this . mapEntry ( f , e , r ) ;
l [ y ] [ b ] = A ;
break
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
}
mapEntry ( e , t , r ) {
let n = t . uint32 ( ) , s = t . pos + n , o , a ;
for ( ; t . pos < s ; ) {
let [ f , l ] = t . tag ( ) ;
switch ( f ) {
case 1 :
e . K == u . BOOL ? o = t . bool ( ) . toString ( ) : o = this . scalar ( t , e . K , F . STRING ) ;
break ;
case 2 :
switch ( e . V . kind ) {
case "scalar" :
a = this . scalar ( t , e . V . T , e . V . L ) ;
break ;
case "enum" :
a = t . int32 ( ) ;
break ;
case "message" :
a = e . V . T ( ) . internalBinaryRead ( t , t . uint32 ( ) , r ) ;
break
}
break ;
default :
throw new Error ( ` Unknown field ${ f } (wire type ${ l } ) in map entry for ${ this . info . typeName } # ${ e . name } ` )
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
if ( o === void 0 ) {
let f = _ ( e . K ) ;
o = e . K == u . BOOL ? f . toString ( ) : f
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
if ( a === void 0 ) switch ( e . V . kind ) {
case "scalar" :
a = _ ( e . V . T , e . V . L ) ;
break ;
case "enum" :
a = 0 ;
break ;
case "message" :
a = e . V . T ( ) . create ( ) ;
break
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
return [ o , a ]
}
scalar ( e , t , r ) {
switch ( t ) {
case u . INT32 :
return e . int32 ( ) ;
case u . STRING :
return e . string ( ) ;
case u . BOOL :
return e . bool ( ) ;
case u . DOUBLE :
return e . double ( ) ;
case u . FLOAT :
return e . float ( ) ;
case u . INT64 :
return R ( e . int64 ( ) , r ) ;
case u . UINT64 :
return R ( e . uint64 ( ) , r ) ;
case u . FIXED64 :
return R ( e . fixed64 ( ) , r ) ;
case u . FIXED32 :
return e . fixed32 ( ) ;
case u . BYTES :
return e . bytes ( ) ;
case u . UINT32 :
return e . uint32 ( ) ;
case u . SFIXED32 :
return e . sfixed32 ( ) ;
case u . SFIXED64 :
return R ( e . sfixed64 ( ) , r ) ;
case u . SINT32 :
return e . sint32 ( ) ;
case u . SINT64 :
return R ( e . sint64 ( ) , r )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
}
} ;
var ae = class {
constructor ( e ) {
this . info = e
}
prepare ( ) {
if ( ! this . fields ) {
let e = this . info . fields ? this . info . fields . concat ( ) : [ ] ;
this . fields = e . sort ( ( t , r ) => t . no - r . no )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
}
write ( e , t , r ) {
this . prepare ( ) ;
for ( let s of this . fields ) {
let o , a , f = s . repeat , l = s . localName ;
if ( s . oneof ) {
let h = e [ s . oneof ] ;
if ( h . oneofKind !== l ) continue ;
o = h [ l ] , a = ! 0
} else o = e [ l ] , a = ! 1 ;
switch ( s . kind ) {
case "scalar" :
case "enum" :
let h = s . kind == "enum" ? u . INT32 : s . T ;
if ( f ) if ( m ( Array . isArray ( o ) ) , f == v . PACKED ) this . packed ( t , h , s . no , o ) ; else for ( let y of o ) this . scalar ( t , h , s . no , y , ! 0 ) ; else o === void 0 ? m ( s . opt ) : this . scalar ( t , h , s . no , o , a || s . opt ) ;
break ;
case "message" :
if ( f ) {
m ( Array . isArray ( o ) ) ;
for ( let y of o ) this . message ( t , r , s . T ( ) , s . no , y )
} else this . message ( t , r , s . T ( ) , s . no , o ) ;
break ;
case "map" :
m ( typeof o == "object" && o !== null ) ;
for ( let [ y , p ] of Object . entries ( o ) ) this . mapEntry ( t , r , s , y , p ) ;
break
}
}
let n = r . writeUnknownFields ;
n !== ! 1 && ( n === ! 0 ? O . onWrite : n ) ( this . info . typeName , e , t )
}
mapEntry ( e , t , r , n , s ) {
e . tag ( r . no , g . LengthDelimited ) , e . fork ( ) ;
let o = n ;
switch ( r . K ) {
case u . INT32 :
case u . FIXED32 :
case u . UINT32 :
case u . SFIXED32 :
case u . SINT32 :
o = Number . parseInt ( n ) ;
break ;
case u . BOOL :
m ( n == "true" || n == "false" ) , o = n == "true" ;
break
}
switch ( this . scalar ( e , r . K , 1 , o , ! 0 ) , r . V . kind ) {
case "scalar" :
this . scalar ( e , r . V . T , 2 , s , ! 0 ) ;
break ;
case "enum" :
this . scalar ( e , u . INT32 , 2 , s , ! 0 ) ;
break ;
case "message" :
this . message ( e , t , r . V . T ( ) , 2 , s ) ;
break
}
e . join ( )
}
message ( e , t , r , n , s ) {
s !== void 0 && ( r . internalBinaryWrite ( s , e . tag ( n , g . LengthDelimited ) . fork ( ) , t ) , e . join ( ) )
}
scalar ( e , t , r , n , s ) {
let [ o , a , f ] = this . scalarInfo ( t , n ) ;
( ! f || s ) && ( e . tag ( r , o ) , e [ a ] ( n ) )
}
packed ( e , t , r , n ) {
if ( ! n . length ) return ;
m ( t !== u . BYTES && t !== u . STRING ) , e . tag ( r , g . LengthDelimited ) , e . fork ( ) ;
let [ , s ] = this . scalarInfo ( t ) ;
for ( let o = 0 ; o < n . length ; o ++ ) e [ s ] ( n [ o ] ) ;
e . join ( )
}
scalarInfo ( e , t ) {
let r = g . Varint , n , s = t === void 0 , o = t === 0 ;
switch ( e ) {
case u . INT32 :
n = "int32" ;
break ;
case u . STRING :
o = s || ! t . length , r = g . LengthDelimited , n = "string" ;
break ;
case u . BOOL :
o = t === ! 1 , n = "bool" ;
break ;
case u . UINT32 :
n = "uint32" ;
break ;
case u . DOUBLE :
r = g . Bit64 , n = "double" ;
break ;
case u . FLOAT :
r = g . Bit32 , n = "float" ;
break ;
case u . INT64 :
o = s || w . from ( t ) . isZero ( ) , n = "int64" ;
break ;
case u . UINT64 :
o = s || T . from ( t ) . isZero ( ) , n = "uint64" ;
break ;
case u . FIXED64 :
o = s || T . from ( t ) . isZero ( ) , r = g . Bit64 , n = "fixed64" ;
break ;
case u . BYTES :
o = s || ! t . byteLength , r = g . LengthDelimited , n = "bytes" ;
break ;
case u . FIXED32 :
r = g . Bit32 , n = "fixed32" ;
break ;
case u . SFIXED32 :
r = g . Bit32 , n = "sfixed32" ;
break ;
case u . SFIXED64 :
o = s || w . from ( t ) . isZero ( ) , r = g . Bit64 , n = "sfixed64" ;
break ;
case u . SINT32 :
n = "sint32" ;
break ;
case u . SINT64 :
o = s || w . from ( t ) . isZero ( ) , n = "sint64" ;
break
}
return [ r , n , s || o ]
}
} ;
function Je ( i ) {
let e = { } ;
Object . defineProperty ( e , K , { enumerable : ! 1 , value : i } ) ;
for ( let t of i . fields ) {
let r = t . localName ;
if ( ! t . opt ) if ( t . oneof ) e [ t . oneof ] = { oneofKind : void 0 } ; else if ( t . repeat ) e [ r ] = [ ] ; else switch ( t . kind ) {
case "scalar" :
e [ r ] = _ ( t . T , t . L ) ;
break ;
case "enum" :
e [ r ] = 0 ;
break ;
case "map" :
e [ r ] = { } ;
break
}
}
return e
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function C ( i , e , t ) {
let r , n = t , s ;
for ( let o of i . fields ) {
let a = o . localName ;
if ( o . oneof ) {
let f = n [ o . oneof ] ;
if ( f ? . oneofKind == null ) continue ;
if ( r = f [ a ] , s = e [ o . oneof ] , s . oneofKind = f . oneofKind , r == null ) {
delete s [ a ] ;
continue
}
} else if ( r = n [ a ] , s = e , r == null ) continue ;
switch ( o . repeat && ( s [ a ] . length = r . length ) , o . kind ) {
case "scalar" :
case "enum" :
if ( o . repeat ) for ( let l = 0 ; l < r . length ; l ++ ) s [ a ] [ l ] = r [ l ] ; else s [ a ] = r ;
break ;
case "message" :
let f = o . T ( ) ;
if ( o . repeat ) for ( let l = 0 ; l < r . length ; l ++ ) s [ a ] [ l ] = f . create ( r [ l ] ) ; else s [ a ] === void 0 ? s [ a ] = f . create ( r ) : f . mergePartial ( s [ a ] , r ) ;
break ;
case "map" :
switch ( o . V . kind ) {
case "scalar" :
case "enum" :
Object . assign ( s [ a ] , r ) ;
break ;
case "message" :
let l = o . V . T ( ) ;
for ( let h of Object . keys ( r ) ) s [ a ] [ h ] = l . create ( r [ h ] ) ;
break
}
break
}
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function Xe ( i , e , t ) {
if ( e === t ) return ! 0 ;
if ( ! e || ! t ) return ! 1 ;
for ( let r of i . fields ) {
let n = r . localName , s = r . oneof ? e [ r . oneof ] [ n ] : e [ n ] , o = r . oneof ? t [ r . oneof ] [ n ] : t [ n ] ;
switch ( r . kind ) {
case "enum" :
case "scalar" :
let a = r . kind == "enum" ? u . INT32 : r . T ;
if ( ! ( r . repeat ? We ( a , s , o ) : Ge ( a , s , o ) ) ) return ! 1 ;
break ;
case "map" :
if ( ! ( r . V . kind == "message" ? je ( r . V . T ( ) , fe ( s ) , fe ( o ) ) : We ( r . V . kind == "enum" ? u . INT32 : r . V . T , fe ( s ) , fe ( o ) ) ) ) return ! 1 ;
break ;
case "message" :
let f = r . T ( ) ;
if ( ! ( r . repeat ? je ( f , s , o ) : f . equals ( s , o ) ) ) return ! 1 ;
break
}
}
return ! 0
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var fe = Object . values ;
function Ge ( i , e , t ) {
if ( e === t ) return ! 0 ;
if ( i !== u . BYTES ) return ! 1 ;
let r = e , n = t ;
if ( r . length !== n . length ) return ! 1 ;
for ( let s = 0 ; s < r . length ; s ++ ) if ( r [ s ] != n [ s ] ) return ! 1 ;
return ! 0
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function We ( i , e , t ) {
if ( e . length !== t . length ) return ! 1 ;
for ( let r = 0 ; r < e . length ; r ++ ) if ( ! Ge ( i , e [ r ] , t [ r ] ) ) return ! 1 ;
return ! 0
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
function je ( i , e , t ) {
if ( e . length !== t . length ) return ! 1 ;
for ( let r = 0 ; r < e . length ; r ++ ) if ( ! i . equals ( e [ r ] , t [ r ] ) ) return ! 1 ;
return ! 0
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
var q = class {
constructor ( e , t , r ) {
this . defaultCheckDepth = 16 , this . typeName = e , this . fields = t . map ( Ke ) , this . options = r ? ? { } , this . refTypeCheck = new ne ( this ) , this . refJsonReader = new ie ( this ) , this . refJsonWriter = new se ( this ) , this . refBinReader = new oe ( this ) , this . refBinWriter = new ae ( this )
}
create ( e ) {
let t = Je ( this ) ;
return e !== void 0 && C ( this , t , e ) , t
}
clone ( e ) {
let t = this . create ( ) ;
return C ( this , t , e ) , t
}
equals ( e , t ) {
return Xe ( this , e , t )
}
is ( e , t = this . defaultCheckDepth ) {
return this . refTypeCheck . is ( e , t , ! 1 )
}
isAssignable ( e , t = this . defaultCheckDepth ) {
return this . refTypeCheck . is ( e , t , ! 0 )
}
mergePartial ( e , t ) {
C ( this , e , t )
}
fromBinary ( e , t ) {
let r = Ve ( t ) ;
return this . internalBinaryRead ( r . readerFactory ( e ) , e . byteLength , r )
}
fromJson ( e , t ) {
return this . internalJsonRead ( e , $e ( t ) )
}
fromJsonString ( e , t ) {
let r = JSON . parse ( e ) ;
return this . fromJson ( r , t )
}
toJson ( e , t ) {
return this . internalJsonWrite ( e , Me ( t ) )
}
toJsonString ( e , t ) {
var r ;
let n = this . toJson ( e , t ) ;
return JSON . stringify ( n , null , ( r = t ? . prettySpaces ) !== null && r !== void 0 ? r : 0 )
}
toBinary ( e , t ) {
let r = Ce ( t ) ;
return this . internalBinaryWrite ( e , r . writerFactory ( ) , r ) . finish ( )
}
internalJsonRead ( e , t , r ) {
if ( e !== null && typeof e == "object" && ! Array . isArray ( e ) ) {
let n = r ? ? this . create ( ) ;
return this . refJsonReader . read ( e , n , t ) , n
}
throw new Error ( ` Unable to parse message ${ this . typeName } from JSON ${ Z ( e ) } . ` )
}
internalJsonWrite ( e , t ) {
return this . refJsonWriter . write ( e , t )
}
internalBinaryWrite ( e , t , r ) {
return this . refBinWriter . write ( e , t , r ) , t
}
internalBinaryRead ( e , t , r , n ) {
let s = n ? ? this . create ( ) ;
return this . refBinReader . read ( e , s , r , t ) , s
}
} ;
var Ne = class extends q {
constructor ( ) {
super ( "Request" , [ { no : 1 , name : "context" , kind : "message" , T : ( ) => ye } , {
no : 2 ,
name : "browseId" ,
kind : "scalar" ,
T : 9
} ] )
}
create ( e ) {
let t = { browseId : "" } ;
return globalThis . Object . defineProperty ( t , K , {
enumerable : ! 1 ,
value : this
} ) , e !== void 0 && C ( this , t , e ) , t
}
internalBinaryRead ( e , t , r , n ) {
let s = n ? ? this . create ( ) , o = e . pos + t ;
for ( ; e . pos < o ; ) {
let [ a , f ] = e . tag ( ) ;
switch ( a ) {
case 1 :
s . context = ye . internalBinaryRead ( e , e . uint32 ( ) , r , s . context ) ;
break ;
case 2 :
s . browseId = e . string ( ) ;
break ;
default :
let l = r . readUnknownField ;
if ( l === "throw" ) throw new globalThis . Error ( ` Unknown field ${ a } (wire type ${ f } ) for ${ this . typeName } ` ) ;
let h = e . skip ( f ) ;
l !== ! 1 && ( l === ! 0 ? O . onRead : l ) ( this . typeName , s , a , f , h )
}
}
return s
}
internalBinaryWrite ( e , t , r ) {
e . context && ye . internalBinaryWrite ( e . context , t . tag ( 1 , g . LengthDelimited ) . fork ( ) , r ) . join ( ) , e . browseId !== "" && t . tag ( 2 , g . LengthDelimited ) . string ( e . browseId ) ;
let n = r . writeUnknownFields ;
return n !== ! 1 && ( n == ! 0 ? O . onWrite : n ) ( this . typeName , e , t ) , t
}
} , ve = new Ne , ke = class extends q {
constructor ( ) {
super ( "Context" , [ { no : 9 , name : "adSignalsInfo" , kind : "message" , T : ( ) => we } ] )
}
create ( e ) {
let t = { } ;
return globalThis . Object . defineProperty ( t , K , {
enumerable : ! 1 ,
value : this
} ) , e !== void 0 && C ( this , t , e ) , t
}
internalBinaryRead ( e , t , r , n ) {
let s = n ? ? this . create ( ) , o = e . pos + t ;
for ( ; e . pos < o ; ) {
let [ a , f ] = e . tag ( ) ;
switch ( a ) {
case 9 :
s . adSignalsInfo = we . internalBinaryRead ( e , e . uint32 ( ) , r , s . adSignalsInfo ) ;
break ;
default :
let l = r . readUnknownField ;
if ( l === "throw" ) throw new globalThis . Error ( ` Unknown field ${ a } (wire type ${ f } ) for ${ this . typeName } ` ) ;
let h = e . skip ( f ) ;
l !== ! 1 && ( l === ! 0 ? O . onRead : l ) ( this . typeName , s , a , f , h )
}
}
return s
}
internalBinaryWrite ( e , t , r ) {
e . adSignalsInfo && we . internalBinaryWrite ( e . adSignalsInfo , t . tag ( 9 , g . LengthDelimited ) . fork ( ) , r ) . join ( ) ;
let n = r . writeUnknownFields ;
return n !== ! 1 && ( n == ! 0 ? O . onWrite : n ) ( this . typeName , e , t ) , t
}
} , ye = new ke , xe = class extends q {
constructor ( ) {
super ( "AdSignalsInfo" , [ { no : 1 , name : "params" , kind : "message" , repeat : 1 , T : ( ) => Ie } ] )
}
create ( e ) {
let t = { params : [ ] } ;
return globalThis . Object . defineProperty ( t , K , {
enumerable : ! 1 ,
value : this
} ) , e !== void 0 && C ( this , t , e ) , t
}
internalBinaryRead ( e , t , r , n ) {
let s = n ? ? this . create ( ) , o = e . pos + t ;
for ( ; e . pos < o ; ) {
let [ a , f ] = e . tag ( ) ;
switch ( a ) {
case 1 :
s . params . push ( Ie . internalBinaryRead ( e , e . uint32 ( ) , r ) ) ;
break ;
default :
let l = r . readUnknownField ;
if ( l === "throw" ) throw new globalThis . Error ( ` Unknown field ${ a } (wire type ${ f } ) for ${ this . typeName } ` ) ;
let h = e . skip ( f ) ;
l !== ! 1 && ( l === ! 0 ? O . onRead : l ) ( this . typeName , s , a , f , h )
}
}
return s
}
internalBinaryWrite ( e , t , r ) {
for ( let s = 0 ; s < e . params . length ; s ++ ) Ie . internalBinaryWrite ( e . params [ s ] , t . tag ( 1 , g . LengthDelimited ) . fork ( ) , r ) . join ( ) ;
let n = r . writeUnknownFields ;
return n !== ! 1 && ( n == ! 0 ? O . onWrite : n ) ( this . typeName , e , t ) , t
}
} , we = new xe , Te = class extends q {
constructor ( ) {
super ( "Params" , [ { no : 1 , name : "key" , kind : "scalar" , T : 9 } , { no : 2 , name : "value" , kind : "scalar" , T : 9 } ] )
}
create ( e ) {
let t = { key : "" , value : "" } ;
return globalThis . Object . defineProperty ( t , K , {
enumerable : ! 1 ,
value : this
} ) , e !== void 0 && C ( this , t , e ) , t
}
internalBinaryRead ( e , t , r , n ) {
let s = n ? ? this . create ( ) , o = e . pos + t ;
for ( ; e . pos < o ; ) {
let [ a , f ] = e . tag ( ) ;
switch ( a ) {
case 1 :
s . key = e . string ( ) ;
break ;
case 2 :
s . value = e . string ( ) ;
break ;
default :
let l = r . readUnknownField ;
if ( l === "throw" ) throw new globalThis . Error ( ` Unknown field ${ a } (wire type ${ f } ) for ${ this . typeName } ` ) ;
let h = e . skip ( f ) ;
l !== ! 1 && ( l === ! 0 ? O . onRead : l ) ( this . typeName , s , a , f , h )
}
}
return s
}
internalBinaryWrite ( e , t , r ) {
e . key !== "" && t . tag ( 1 , g . LengthDelimited ) . string ( e . key ) , e . value !== "" && t . tag ( 2 , g . LengthDelimited ) . string ( e . value ) ;
let n = r . writeUnknownFields ;
return n !== ! 1 && ( n == ! 0 ? O . onWrite : n ) ( this . typeName , e , t ) , t
}
} , Ie = new Te ;
var X = class {
constructor ( e , t , r ) {
this . _times = new Map ;
this . name = e ? ? "" , this . debug = r ? . debug ? ? ! 1 , e && this . log ( ` ${ e } Start ` ) , this . className = t ? ? "" , this . init ( )
}
static getInstance ( e , t ) {
let r = typeof $task < "u" ? "QuanX" : "Surge" ;
return X . instances [ r ] || ( X . instances [ r ] = X . classNames [ r ] ( e , r , t ) ) , X . instances [ r ]
}
createProxy ( e ) {
return new Proxy ( e , { get : this . getFn , set : this . setFn } )
}
getFn ( e , t , r ) {
return e [ t ]
}
setFn ( e , t , r , n ) {
return e [ t ] = r , ! 0
}
getJSON ( e , t = { } ) {
let r = this . getVal ( e ) ;
return r ? JSON . parse ( r ) : t
}
setJSON ( e , t ) {
this . setVal ( JSON . stringify ( e ) , t )
}
msg ( e = this . name , t = "" , r = "" , n ) {
}
log ( e ) {
this . debug && ( typeof e == "object" && ( e = JSON . stringify ( e ) ) , console . log ( e ) )
}
timeStart ( e ) {
this . _times = this . _times || { } , this . _times [ e ] = Date . now ( )
}
timeEnd ( e ) {
if ( this . _times ? . has ( e ) ) {
let t = Date . now ( ) - this . _times [ e ] ;
this . log ( ` ${ e } : ${ t } ms ` ) , this . _times . delete ( e )
} else this . log ( ` Timer with label ${ e } does not exist. ` )
}
exit ( ) {
$done ( { } )
}
reject ( ) {
$done ( )
}
} , $ = X ;
$ . instances = { } , $ . classNames = { QuanX : ( e , t , r ) => new le ( e , t , r ) , Surge : ( e , t , r ) => new ue ( e , t , r ) } ;
var ce = class extends $ { getFn ( e , t , r ) { let n = ce . clientAdapter [ t ] || t ; return super . getFn ( e , n , r ) } setFn ( e , t , r , n ) {
let
s = ce . clientAdapter [ t ] || t ;
return
super
.
setFn ( e , s , r , n )
}
init ( )
{
try {
this . request = this . createProxy ( $request ) , this . response = this . createProxy ( $response )
} catch ( e ) {
this . log ( e . toString ( ) )
}
}
getVal ( e )
{
return $persistentStore . read ( e )
}
setVal ( e , t )
{
$persistentStore . write ( e , t )
}
msg ( e = this . name , t = "" , r = "" , n )
{
$notification . post ( e , t , r , { url : n ? ? "" } )
}
async
fetch ( e )
{
return await new Promise ( ( t , r ) => {
let { method : n , body : s , bodyBytes : o , ... a } = e , f = o ? ? s , l = f instanceof Uint8Array ;
$httpClient [ n . toLowerCase ( ) ] ( { ... a , body : f , "binary-mode" : l } , ( h , y , p ) => {
h && r ( h ) ;
let c = l ? "bodyBytes" : "body" ;
t ( { status : y . status || y . statusCode , headers : y . headers , [ c ] : p } )
} )
} )
}
done ( e )
{
let t = e . response ? ? e , r , n ;
t . bodyBytes ? ( r = t . bodyBytes , delete t . bodyBytes , n = { ... e } , n . response ? n . response . body = r : n . body = r ) : n = e , $done ( n )
}
} , ue = ce ;
ue . clientAdapter = { bodyBytes : "body" } ;
var P = class extends $ { static transferBodyBytes ( e , t ) { return e instanceof ArrayBuffer ? t === "Uint8Array" ? new Uint8Array ( e ) : e : e instanceof Uint8Array && t === "ArrayBuffer" ? e . buffer . slice ( e . byteOffset , e . byteLength + e . byteOffset ) : e } init ( ) {
try {
this
.
request = this . createProxy ( $request )
,
this
.
response = this . createProxy ( $response )
}
catch
( e )
{
this . log ( e . toString ( ) )
}
}
getFn ( e , t , r )
{
let n = P . clientAdapter [ t ] || t , s = super . getFn ( e , n , r ) ;
return t === "bodyBytes" && ( s = P . transferBodyBytes ( s , "Uint8Array" ) ) , s
}
setFn ( e , t , r , n )
{
let s = P . clientAdapter [ t ] || t , o = r ;
return t === "bodyBytes" && ( o = P . transferBodyBytes ( o , "Uint8Array" ) ) , super . setFn ( e , s , o , n )
}
getVal ( e )
{
return $prefs . valueForKey ( e ) ? . replace ( /\0/g , "" )
}
setVal ( e , t )
{
$prefs . setValueForKey ( e , t )
}
msg ( e = this . name , t = "" , r = "" , n )
{
$notify ( e , t , r , { "open-url" : n ? ? "" } )
}
async
fetch ( e )
{
return await new Promise ( t => {
let r = { url : "" , method : "GET" } ;
for ( let [ n , s ] of Object . entries ( e ) ) n === "id" ? r . sessionIndex = s : n === "bodyBytes" ? r . bodyBytes = P . transferBodyBytes ( s , "ArrayBuffer" ) : r [ n ] = s ;
e . bodyBytes && delete r . body , $task . fetch ( r ) . then ( n => {
let s = { status : 200 , headers : { } } ;
for ( let [ o , a ] of Object . entries ( n ) ) o === "sessionIndex" ? s . id = a : o === "bodyBytes" ? s . bodyBytes = P . transferBodyBytes ( a , "Uint8Array" ) : o === "statusCode" ? s . status = a : s [ o ] = a ;
t ( s )
} )
} )
}
done ( e )
{
let t = e . response ? ? e , r = { } ;
for ( let [ n , s ] of Object . entries ( t ) ) n === "status" ? r . status = ` HTTP/1.1 ${ s } ` : n === "bodyBytes" ? r . bodyBytes = P . transferBodyBytes ( s , "ArrayBuffer" ) : r [ n ] = s ;
$done ( r )
}
} ,
le = P ;
le . clientAdapter = { id : "sessionIndex" , status : "statusCode" } ;
var S = $ . getInstance ( "YouTube" , { debug : ! 1 } ) ;
var he = class {
constructor ( e , t ) {
this . decoder = new TextDecoder ( "utf-8" , { fatal : ! 1 , ignoreBOM : ! 0 } ) ;
S . log ( t ) , this . msgType = e , Object . assign ( this , S . getJSON ( "YouTubeAdvertiseInfo" , {
whiteNo : [ ] ,
blackNo : [ ] ,
whiteEml : [ ] ,
blackEml : [ "cell_divider.eml" ]
} ) )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
fromBinary ( e ) {
return this . message = this . msgType . fromBinary ( e ) , this
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
toBinary ( ) {
return this . msgType . toBinary ( this . message )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
save ( ) {
if ( this . needSave ) {
S . log ( "Update Config" ) ;
let e = { whiteNo : this . whiteNo , blackNo : this . blackNo , whiteEml : this . whiteEml , blackEml : this . blackEml } ;
S . setJSON ( e , "YouTubeAdvertiseInfo" )
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
done ( e ) {
this . save ( ) ;
let t = e . bodyBytes ;
this . needProcess && ( t = this . toBinary ( ) ) , e . headers [ "Content-Encoding" ] = "identity" , e . headers [ "Content-Length" ] = ( t ? . length ? ? 0 ) ? . toString ( ) , S . done ( {
response : {
... e ,
bodyBytes : t
}
} )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
doneResponse ( ) {
this . save ( ) , this . needProcess && S . done ( { bodyBytes : this . toBinary ( ) } ) , S . exit ( )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
iterate ( e = { } , t , r , n ) {
let s = [ ] ;
for ( s . push ( e ) ; s . length ; ) {
let o = s . pop ( ) , a = Object . keys ( o ) ;
for ( ; a . length ; ) {
let f = a . pop ( ) ;
f === t ? r ( o , s ) : typeof o [ f ] == "object" && ( s . push ( o [ f ] ) , typeof n == "function" && n ( o , s ) )
}
}
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
isAdvertise ( e ) {
let t = O . list ( e ) [ 0 ] , r = t ? this . handleFieldNo ( t ) : this . handleFieldEml ( e ) ;
return r && ( this . needProcess = ! 0 ) , r
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
handleFieldNo ( e ) {
let t = e . no ;
if ( this . whiteNo . includes ( t ) ) return ! 1 ;
if ( this . blackNo . includes ( t ) ) return ! 0 ;
let n = this . decoder . decode ( e . data ) . includes ( "pagead" ) ;
return n ? this . blackNo . push ( t ) : this . whiteNo . push ( t ) , this . needSave = ! 0 , n
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
handleFieldEml ( e ) {
let t = ! 1 , r = ! 0 , n = "" ;
return this . iterate ( e , "type" , ( s , o ) => {
n = s . type . split ( "|" ) [ 0 ] , this . whiteEml . includes ( n ) ? t = ! 1 : this . blackEml . includes ( n ) || /shorts(?!_pivot_item)/ . test ( n ) ? t = ! 0 : r = ! 1 , r && ( o . length = 0 )
} ) , r || ( this . iterate ( e , "type" , ( ) => {
} , ( s , o ) => {
let a = O . list ( s ) ;
for ( let f of a ) if ( f . data . length > 1e3 && ( t = this . decoder . decode ( f . data ) . includes ( "pagead" ) , t ) ) {
o . length = 0 ;
break
}
} ) , t ? this . blackEml . push ( n ) : this . whiteEml . push ( n ) , this . needSave = ! 0 ) , t
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
} ;
var Y = class extends he {
constructor ( e = ve , t = "Request" ) {
super ( e , t )
2023-02-17 17:12:19 +08:00
}
2023-12-24 01:10:40 +08:00
pure ( ) {
return this . message . context . adSignalsInfo . params . length = 0 , this . needProcess = ! 0 , this
}
} ;
var et = new Y ;
try {
let i = et . fromBinary ( S . request . bodyBytes ) . pure ( ) . toBinary ( ) ;
S . done ( { bodyBytes : i } )
} catch ( i ) {
S . log ( i . toString ( ) ) , S . exit ( )
}
} )
( ) ;