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"use strict" ;
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/ * *
* About frgaments ...
*
* @ _subsection api / abi / abi - coder : Fragments
* /
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Object . defineProperty ( exports , "__esModule" , { value : true } ) ;
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exports . StructFragment = exports . FunctionFragment = exports . ConstructorFragment = exports . EventFragment = exports . ErrorFragment = exports . NamedFragment = exports . Fragment = exports . ParamType = void 0 ;
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const index _js _1 = require ( "../utils/index.js" ) ;
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const index _js _2 = require ( "../hash/index.js" ) ;
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;
// [ "a", "b" ] => { "a": 1, "b": 1 }
function setify ( items ) {
const result = new Set ( ) ;
items . forEach ( ( k ) => result . add ( k ) ) ;
return Object . freeze ( result ) ;
}
// Visibility Keywords
const _kwVisib = "constant external internal payable private public pure view" ;
const KwVisib = setify ( _kwVisib . split ( " " ) ) ;
const _kwTypes = "constructor error event function struct" ;
const KwTypes = setify ( _kwTypes . split ( " " ) ) ;
const _kwModifiers = "calldata memory storage payable indexed" ;
const KwModifiers = setify ( _kwModifiers . split ( " " ) ) ;
const _kwOther = "tuple returns" ;
// All Keywords
const _keywords = [ _kwTypes , _kwModifiers , _kwOther , _kwVisib ] . join ( " " ) ;
const Keywords = setify ( _keywords . split ( " " ) ) ;
// Single character tokens
const SimpleTokens = {
"(" : "OPEN_PAREN" , ")" : "CLOSE_PAREN" ,
"[" : "OPEN_BRACKET" , "]" : "CLOSE_BRACKET" ,
"," : "COMMA" , "@" : "AT"
} ;
// Parser regexes to consume the next token
const regexWhitespace = new RegExp ( "^(\\s*)" ) ;
const regexNumber = new RegExp ( "^([0-9]+)" ) ;
const regexIdentifier = new RegExp ( "^([a-zA-Z$_][a-zA-Z0-9$_]*)" ) ;
const regexType = new RegExp ( "^(address|bool|bytes([0-9]*)|string|u?int([0-9]*))" ) ;
class TokenString {
# offset ;
# tokens ;
get offset ( ) { return this . # offset ; }
get length ( ) { return this . # tokens . length - this . # offset ; }
constructor ( tokens ) {
this . # offset = 0 ;
this . # tokens = tokens . slice ( ) ;
}
clone ( ) { return new TokenString ( this . # tokens ) ; }
reset ( ) { this . # offset = 0 ; }
# subTokenString ( from = 0 , to = 0 ) {
return new TokenString ( this . # tokens . slice ( from , to ) . map ( ( t ) => {
return Object . freeze ( Object . assign ( { } , t , {
match : ( t . match - from ) ,
linkBack : ( t . linkBack - from ) ,
linkNext : ( t . linkNext - from ) ,
} ) ) ;
return t ;
} ) ) ;
}
// Pops and returns the value of the next token, if it is a keyword in allowed; throws if out of tokens
popKeyword ( allowed ) {
const top = this . peek ( ) ;
if ( top . type !== "KEYWORD" || ! allowed . has ( top . text ) ) {
throw new Error ( ` expected keyword ${ top . text } ` ) ;
}
return this . pop ( ) . text ;
}
// Pops and returns the value of the next token if it is `type`; throws if out of tokens
popType ( type ) {
if ( this . peek ( ) . type !== type ) {
throw new Error ( ` expected ${ type } ; got ${ JSON . stringify ( this . peek ( ) ) } ` ) ;
}
return this . pop ( ) . text ;
}
// Pops and returns a "(" TOKENS ")"
popParen ( ) {
const top = this . peek ( ) ;
if ( top . type !== "OPEN_PAREN" ) {
throw new Error ( "bad start" ) ;
}
const result = this . # subTokenString ( this . # offset + 1 , top . match + 1 ) ;
this . # offset = top . match + 1 ;
return result ;
}
// Pops and returns the items within "(" ITEM1 "," ITEM2 "," ... ")"
popParams ( ) {
const top = this . peek ( ) ;
if ( top . type !== "OPEN_PAREN" ) {
throw new Error ( "bad start" ) ;
}
const result = [ ] ;
while ( this . # offset < top . match - 1 ) {
const link = this . peek ( ) . linkNext ;
result . push ( this . # subTokenString ( this . # offset + 1 , link ) ) ;
this . # offset = link ;
}
this . # offset = top . match + 1 ;
return result ;
}
// Returns the top Token, throwing if out of tokens
peek ( ) {
if ( this . # offset >= this . # tokens . length ) {
throw new Error ( "out-of-bounds" ) ;
}
return this . # tokens [ this . # offset ] ;
}
// Returns the next value, if it is a keyword in `allowed`
peekKeyword ( allowed ) {
const top = this . peekType ( "KEYWORD" ) ;
return ( top != null && allowed . has ( top ) ) ? top : null ;
}
// Returns the value of the next token if it is `type`
peekType ( type ) {
if ( this . length === 0 ) {
return null ;
}
const top = this . peek ( ) ;
return ( top . type === type ) ? top . text : null ;
}
// Returns the next token; throws if out of tokens
pop ( ) {
const result = this . peek ( ) ;
this . # offset ++ ;
return result ;
}
toString ( ) {
const tokens = [ ] ;
for ( let i = this . # offset ; i < this . # tokens . length ; i ++ ) {
const token = this . # tokens [ i ] ;
tokens . push ( ` ${ token . type } : ${ token . text } ` ) ;
}
return ` <TokenString ${ tokens . join ( " " ) } > ` ;
}
}
function lex ( text ) {
const tokens = [ ] ;
const throwError = ( message ) => {
const token = ( offset < text . length ) ? JSON . stringify ( text [ offset ] ) : "$EOI" ;
throw new Error ( ` invalid token ${ token } at ${ offset } : ${ message } ` ) ;
} ;
let brackets = [ ] ;
let commas = [ ] ;
let offset = 0 ;
while ( offset < text . length ) {
// Strip off any leading whitespace
let cur = text . substring ( offset ) ;
let match = cur . match ( regexWhitespace ) ;
if ( match ) {
offset += match [ 1 ] . length ;
cur = text . substring ( offset ) ;
}
const token = { depth : brackets . length , linkBack : - 1 , linkNext : - 1 , match : - 1 , type : "" , text : "" , offset , value : - 1 } ;
tokens . push ( token ) ;
let type = ( SimpleTokens [ cur [ 0 ] ] || "" ) ;
if ( type ) {
token . type = type ;
token . text = cur [ 0 ] ;
offset ++ ;
if ( type === "OPEN_PAREN" ) {
brackets . push ( tokens . length - 1 ) ;
commas . push ( tokens . length - 1 ) ;
}
else if ( type == "CLOSE_PAREN" ) {
if ( brackets . length === 0 ) {
throwError ( "no matching open bracket" ) ;
}
token . match = brackets . pop ( ) ;
( tokens [ token . match ] ) . match = tokens . length - 1 ;
token . depth -- ;
token . linkBack = commas . pop ( ) ;
( tokens [ token . linkBack ] ) . linkNext = tokens . length - 1 ;
}
else if ( type === "COMMA" ) {
token . linkBack = commas . pop ( ) ;
( tokens [ token . linkBack ] ) . linkNext = tokens . length - 1 ;
commas . push ( tokens . length - 1 ) ;
}
else if ( type === "OPEN_BRACKET" ) {
token . type = "BRACKET" ;
}
else if ( type === "CLOSE_BRACKET" ) {
// Remove the CLOSE_BRACKET
let suffix = tokens . pop ( ) . text ;
if ( tokens . length > 0 && tokens [ tokens . length - 1 ] . type === "NUMBER" ) {
const value = tokens . pop ( ) . text ;
suffix = value + suffix ;
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( tokens [ tokens . length - 1 ] ) . value = ( 0 , index _js _1 . getNumber ) ( value ) ;
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}
if ( tokens . length === 0 || tokens [ tokens . length - 1 ] . type !== "BRACKET" ) {
throw new Error ( "missing opening bracket" ) ;
}
( tokens [ tokens . length - 1 ] ) . text += suffix ;
}
continue ;
}
match = cur . match ( regexIdentifier ) ;
if ( match ) {
token . text = match [ 1 ] ;
offset += token . text . length ;
if ( Keywords . has ( token . text ) ) {
token . type = "KEYWORD" ;
continue ;
}
if ( token . text . match ( regexType ) ) {
token . type = "TYPE" ;
continue ;
}
token . type = "ID" ;
continue ;
}
match = cur . match ( regexNumber ) ;
if ( match ) {
token . text = match [ 1 ] ;
token . type = "NUMBER" ;
offset += token . text . length ;
continue ;
}
throw new Error ( ` unexpected token ${ JSON . stringify ( cur [ 0 ] ) } at position ${ offset } ` ) ;
}
return new TokenString ( tokens . map ( ( t ) => Object . freeze ( t ) ) ) ;
}
// Check only one of `allowed` is in `set`
function allowSingle ( set , allowed ) {
let included = [ ] ;
for ( const key in allowed . keys ( ) ) {
if ( set . has ( key ) ) {
included . push ( key ) ;
}
}
if ( included . length > 1 ) {
throw new Error ( ` conflicting types: ${ included . join ( ", " ) } ` ) ;
}
}
// Functions to process a Solidity Signature TokenString from left-to-right for...
// ...the name with an optional type, returning the name
function consumeName ( type , tokens ) {
if ( tokens . peekKeyword ( KwTypes ) ) {
const keyword = tokens . pop ( ) . text ;
if ( keyword !== type ) {
throw new Error ( ` expected ${ type } , got ${ keyword } ` ) ;
}
}
return tokens . popType ( "ID" ) ;
}
// ...all keywords matching allowed, returning the keywords
function consumeKeywords ( tokens , allowed ) {
const keywords = new Set ( ) ;
while ( true ) {
const keyword = tokens . peekType ( "KEYWORD" ) ;
if ( keyword == null || ( allowed && ! allowed . has ( keyword ) ) ) {
break ;
}
tokens . pop ( ) ;
if ( keywords . has ( keyword ) ) {
throw new Error ( ` duplicate keywords: ${ JSON . stringify ( keyword ) } ` ) ;
}
keywords . add ( keyword ) ;
}
return Object . freeze ( keywords ) ;
}
// ...all visibility keywords, returning the coalesced mutability
function consumeMutability ( tokens ) {
let modifiers = consumeKeywords ( tokens , KwVisib ) ;
// Detect conflicting modifiers
allowSingle ( modifiers , setify ( "constant payable nonpayable" . split ( " " ) ) ) ;
allowSingle ( modifiers , setify ( "pure view payable nonpayable" . split ( " " ) ) ) ;
// Process mutability states
if ( modifiers . has ( "view" ) ) {
return "view" ;
}
if ( modifiers . has ( "pure" ) ) {
return "pure" ;
}
if ( modifiers . has ( "payable" ) ) {
return "payable" ;
}
if ( modifiers . has ( "nonpayable" ) ) {
return "nonpayable" ;
}
// Process legacy `constant` last
if ( modifiers . has ( "constant" ) ) {
return "view" ;
}
return "nonpayable" ;
}
// ...a parameter list, returning the ParamType list
function consumeParams ( tokens , allowIndexed ) {
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return tokens . popParams ( ) . map ( ( t ) => ParamType . from ( t , allowIndexed ) ) ;
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}
// ...a gas limit, returning a BigNumber or null if none
function consumeGas ( tokens ) {
if ( tokens . peekType ( "AT" ) ) {
tokens . pop ( ) ;
if ( tokens . peekType ( "NUMBER" ) ) {
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return ( 0 , index _js _1 . getBigInt ) ( tokens . pop ( ) . text ) ;
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}
throw new Error ( "invalid gas" ) ;
}
return null ;
}
function consumeEoi ( tokens ) {
if ( tokens . length ) {
throw new Error ( ` unexpected tokens: ${ tokens . toString ( ) } ` ) ;
}
}
const regexArrayType = new RegExp ( /^(.*)\[([0-9]*)\]$/ ) ;
function verifyBasicType ( type ) {
const match = type . match ( regexType ) ;
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( 0 , index _js _1 . assertArgument ) ( match , "invalid type" , "type" , type ) ;
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if ( type === "uint" ) {
return "uint256" ;
}
if ( type === "int" ) {
return "int256" ;
}
if ( match [ 2 ] ) {
// bytesXX
const length = parseInt ( match [ 2 ] ) ;
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( 0 , index _js _1 . assertArgument ) ( length !== 0 && length <= 32 , "invalid bytes length" , "type" , type ) ;
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}
else if ( match [ 3 ] ) {
// intXX or uintXX
const size = parseInt ( match [ 3 ] ) ;
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( 0 , index _js _1 . assertArgument ) ( size !== 0 && size <= 256 && ( size % 8 ) === 0 , "invalid numeric width" , "type" , type ) ;
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}
return type ;
}
// Make the Fragment constructors effectively private
const _guard = { } ;
const internal = Symbol . for ( "_ethers_internal" ) ;
const ParamTypeInternal = "_ParamTypeInternal" ;
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const ErrorFragmentInternal = "_ErrorInternal" ;
const EventFragmentInternal = "_EventInternal" ;
const ConstructorFragmentInternal = "_ConstructorInternal" ;
const FunctionFragmentInternal = "_FunctionInternal" ;
const StructFragmentInternal = "_StructInternal" ;
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/ * *
* Each input and output of a [ [ Fragment ] ] is an Array of * * PAramType * * .
* /
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class ParamType {
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/ * *
* The local name of the parameter ( or ` ` "" ` ` if unbound )
* /
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name ;
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/ * *
* The fully qualified type ( e . g . ` ` "address" ` ` , ` ` "tuple(address)" ` ` ,
* ` ` "uint256[3][]" ` ` )
* /
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type ;
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/ * *
* The base type ( e . g . ` ` "address" ` ` , ` ` "tuple" ` ` , ` ` "array" ` ` )
* /
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baseType ;
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/ * *
* True if the parameters is indexed .
*
* For non - indexable types ( see [ [ ParamType _isIndexable ] ] ) this
* is ` ` null ` ` .
* /
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indexed ;
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/ * *
* The components for the tuple .
*
* For non - tuple types ( see [ [ ParamType _isTuple ] ] ) this is ` ` null ` ` .
* /
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components ;
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/ * *
* The array length , or ` ` - 1 ` ` for dynamic - lengthed arrays .
*
* For non - array types ( see [ [ ParamType _isArray ] ] ) this is ` ` null ` ` .
* /
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arrayLength ;
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/ * *
* The type of each child in the array .
*
* For non - array types ( see [ [ ParamType _isArray ] ] ) this is ` ` null ` ` .
* /
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arrayChildren ;
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/ * *
* @ private
* /
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constructor ( guard , name , type , baseType , indexed , components , arrayLength , arrayChildren ) {
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( 0 , index _js _1 . assertPrivate ) ( guard , _guard , "ParamType" ) ;
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Object . defineProperty ( this , internal , { value : ParamTypeInternal } ) ;
if ( components ) {
components = Object . freeze ( components . slice ( ) ) ;
}
if ( baseType === "array" ) {
if ( arrayLength == null || arrayChildren == null ) {
throw new Error ( "" ) ;
}
}
else if ( arrayLength != null || arrayChildren != null ) {
throw new Error ( "" ) ;
}
if ( baseType === "tuple" ) {
if ( components == null ) {
throw new Error ( "" ) ;
}
}
else if ( components != null ) {
throw new Error ( "" ) ;
}
( 0 , index _js _1 . defineProperties ) ( this , {
name , type , baseType , indexed , components , arrayLength , arrayChildren
} ) ;
}
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/ * *
* Return a string representation of this type .
*
* For example ,
*
* ` ` sighash " => " ( uint256 , address ) " ` `
*
* ` ` "minimal" => "tuple(uint256,address) indexed" ` `
*
* ` ` "full" => "tuple(uint256 foo, address bar) indexed baz" ` `
* /
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format ( format ) {
if ( format == null ) {
format = "sighash" ;
}
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if ( format === "json" ) {
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let result = {
type : ( ( this . baseType === "tuple" ) ? "tuple" : this . type ) ,
name : ( this . name || undefined )
} ;
if ( typeof ( this . indexed ) === "boolean" ) {
result . indexed = this . indexed ;
}
if ( this . isTuple ( ) ) {
result . components = this . components . map ( ( c ) => JSON . parse ( c . format ( format ) ) ) ;
}
return JSON . stringify ( result ) ;
}
let result = "" ;
// Array
if ( this . isArray ( ) ) {
result += this . arrayChildren . format ( format ) ;
result += ` [ ${ ( this . arrayLength < 0 ? "" : String ( this . arrayLength ) ) } ] ` ;
}
else {
if ( this . isTuple ( ) ) {
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if ( format !== "sighash" ) {
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result += this . type ;
}
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result += "(" + this . components . map ( ( comp ) => comp . format ( format ) ) . join ( ( format === "full" ) ? ", " : "," ) + ")" ;
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}
else {
result += this . type ;
}
}
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if ( format !== "sighash" ) {
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if ( this . indexed === true ) {
result += " indexed" ;
}
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if ( format === "full" && this . name ) {
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result += " " + this . name ;
}
}
return result ;
}
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/ *
* Returns true if % % value % % is an Array type .
*
* This provides a type gaurd ensuring that the
* [ [ arrayChildren ] ] and [ [ arrayLength ] ] are non - null .
* /
//static isArray(value: any): value is { arrayChildren: ParamType, arrayLength: number } {
// return value && (value.baseType === "array")
//}
/ * *
* Returns true if % % this % % is an Array type .
*
* This provides a type gaurd ensuring that [ [ arrayChildren ] ]
* and [ [ arrayLength ] ] are non - null .
* /
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isArray ( ) {
return ( this . baseType === "array" ) ;
}
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/ * *
* Returns true if % % this % % is a Tuple type .
*
* This provides a type gaurd ensuring that [ [ components ] ]
* is non - null .
* /
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isTuple ( ) {
return ( this . baseType === "tuple" ) ;
}
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/ * *
* Returns true if % % this % % is an Indexable type .
*
* This provides a type gaurd ensuring that [ [ indexed ] ]
* is non - null .
* /
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isIndexable ( ) {
return ( this . indexed != null ) ;
}
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/ * *
* Walks the * * ParamType * * with % % value % % , calling % % process % %
* on each type , destructing the % % value % % recursively .
* /
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walk ( value , process ) {
if ( this . isArray ( ) ) {
if ( ! Array . isArray ( value ) ) {
throw new Error ( "invlaid array value" ) ;
}
if ( this . arrayLength !== - 1 && value . length !== this . arrayLength ) {
throw new Error ( "array is wrong length" ) ;
}
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const _this = this ;
return value . map ( ( v ) => ( _this . arrayChildren . walk ( v , process ) ) ) ;
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}
if ( this . isTuple ( ) ) {
if ( ! Array . isArray ( value ) ) {
throw new Error ( "invlaid tuple value" ) ;
}
if ( value . length !== this . components . length ) {
throw new Error ( "array is wrong length" ) ;
}
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const _this = this ;
return value . map ( ( v , i ) => ( _this . components [ i ] . walk ( v , process ) ) ) ;
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}
return process ( this . type , value ) ;
}
# walkAsync ( promises , value , process , setValue ) {
if ( this . isArray ( ) ) {
if ( ! Array . isArray ( value ) ) {
throw new Error ( "invlaid array value" ) ;
}
if ( this . arrayLength !== - 1 && value . length !== this . arrayLength ) {
throw new Error ( "array is wrong length" ) ;
}
const childType = this . arrayChildren ;
const result = value . slice ( ) ;
result . forEach ( ( value , index ) => {
childType . # walkAsync ( promises , value , process , ( value ) => {
result [ index ] = value ;
} ) ;
} ) ;
setValue ( result ) ;
return ;
}
if ( this . isTuple ( ) ) {
const components = this . components ;
// Convert the object into an array
let result ;
if ( Array . isArray ( value ) ) {
result = value . slice ( ) ;
}
else {
if ( value == null || typeof ( value ) !== "object" ) {
throw new Error ( "invlaid tuple value" ) ;
}
result = components . map ( ( param ) => {
if ( ! param . name ) {
throw new Error ( "cannot use object value with unnamed components" ) ;
}
if ( ! ( param . name in value ) ) {
throw new Error ( ` missing value for component ${ param . name } ` ) ;
}
return value [ param . name ] ;
} ) ;
}
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if ( result . length !== this . components . length ) {
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throw new Error ( "array is wrong length" ) ;
}
result . forEach ( ( value , index ) => {
components [ index ] . # walkAsync ( promises , value , process , ( value ) => {
result [ index ] = value ;
} ) ;
} ) ;
setValue ( result ) ;
return ;
}
const result = process ( this . type , value ) ;
if ( result . then ) {
promises . push ( ( async function ( ) { setValue ( await result ) ; } ) ( ) ) ;
}
else {
setValue ( result ) ;
}
}
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/ * *
* Walks the * * ParamType * * with % % value % % , asynchronously calling
* % % process % % on each type , destructing the % % value % % recursively .
*
* This can be used to resolve ENS naes by walking and resolving each
* ` ` "address" ` ` type .
* /
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async walkAsync ( value , process ) {
const promises = [ ] ;
const result = [ value ] ;
this . # walkAsync ( promises , value , process , ( value ) => {
result [ 0 ] = value ;
} ) ;
if ( promises . length ) {
await Promise . all ( promises ) ;
}
return result [ 0 ] ;
}
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/ * *
* Creates a new * * ParamType * * for % % obj % % .
*
* If % % allowIndexed % % then the ` ` indexed ` ` keyword is permitted ,
* otherwise the ` ` indexed ` ` keyword will throw an error .
* /
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static from ( obj , allowIndexed ) {
if ( ParamType . isParamType ( obj ) ) {
return obj ;
}
if ( typeof ( obj ) === "string" ) {
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return ParamType . from ( lex ( obj ) , allowIndexed ) ;
}
else if ( obj instanceof TokenString ) {
let type = "" , baseType = "" ;
let comps = null ;
if ( consumeKeywords ( obj , setify ( [ "tuple" ] ) ) . has ( "tuple" ) || obj . peekType ( "OPEN_PAREN" ) ) {
// Tuple
baseType = "tuple" ;
comps = obj . popParams ( ) . map ( ( t ) => ParamType . from ( t ) ) ;
type = ` tuple( ${ comps . map ( ( c ) => c . format ( ) ) . join ( "," ) } ) ` ;
}
else {
// Normal
type = verifyBasicType ( obj . popType ( "TYPE" ) ) ;
baseType = type ;
}
// Check for Array
let arrayChildren = null ;
let arrayLength = null ;
while ( obj . length && obj . peekType ( "BRACKET" ) ) {
const bracket = obj . pop ( ) ; //arrays[i];
arrayChildren = new ParamType ( _guard , "" , type , baseType , null , comps , arrayLength , arrayChildren ) ;
arrayLength = bracket . value ;
type += bracket . text ;
baseType = "array" ;
comps = null ;
}
let indexed = null ;
const keywords = consumeKeywords ( obj , KwModifiers ) ;
if ( keywords . has ( "indexed" ) ) {
if ( ! allowIndexed ) {
throw new Error ( "" ) ;
}
indexed = true ;
}
const name = ( obj . peekType ( "ID" ) ? obj . pop ( ) . text : "" ) ;
if ( obj . length ) {
throw new Error ( "leftover tokens" ) ;
}
return new ParamType ( _guard , name , type , baseType , indexed , comps , arrayLength , arrayChildren ) ;
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}
const name = obj . name ;
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( 0 , index _js _1 . assertArgument ) ( ! name || ( typeof ( name ) === "string" && name . match ( regexIdentifier ) ) , "invalid name" , "obj.name" , name ) ;
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let indexed = obj . indexed ;
if ( indexed != null ) {
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( 0 , index _js _1 . assertArgument ) ( allowIndexed , "parameter cannot be indexed" , "obj.indexed" , obj . indexed ) ;
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indexed = ! ! indexed ;
}
let type = obj . type ;
let arrayMatch = type . match ( regexArrayType ) ;
if ( arrayMatch ) {
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const arrayLength = parseInt ( arrayMatch [ 2 ] || "-1" ) ;
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const arrayChildren = ParamType . from ( {
type : arrayMatch [ 1 ] ,
components : obj . components
} ) ;
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return new ParamType ( _guard , name || "" , type , "array" , indexed , null , arrayLength , arrayChildren ) ;
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}
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if ( type === "tuple" || type . substring ( 0 , 5 ) === "tuple(" || type [ 0 ] === "(" ) {
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const comps = ( obj . components != null ) ? obj . components . map ( ( c ) => ParamType . from ( c ) ) : null ;
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const tuple = new ParamType ( _guard , name || "" , type , "tuple" , indexed , comps , null , null ) ;
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// @TODO: use lexer to validate and normalize type
return tuple ;
}
type = verifyBasicType ( obj . type ) ;
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return new ParamType ( _guard , name || "" , type , type , indexed , null , null , null ) ;
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}
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/ * *
* Returns true if % % value % % is a * * ParamType * * .
* /
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static isParamType ( value ) {
return ( value && value [ internal ] === ParamTypeInternal ) ;
}
}
exports . ParamType = ParamType ;
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/ * *
* An abstract class to represent An individual fragment from a parse ABI .
* /
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class Fragment {
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/ * *
* The type of the fragment .
* /
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type ;
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/ * *
* The inputs for the fragment .
* /
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inputs ;
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/ * *
* @ private
* /
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constructor ( guard , type , inputs ) {
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( 0 , index _js _1 . assertPrivate ) ( guard , _guard , "Fragment" ) ;
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inputs = Object . freeze ( inputs . slice ( ) ) ;
( 0 , index _js _1 . defineProperties ) ( this , { type , inputs } ) ;
}
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/ * *
* Creates a new * * Fragment * * for % % obj % % , wich can be any supported
* ABI frgament type .
* /
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static from ( obj ) {
if ( typeof ( obj ) === "string" ) {
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try {
Fragment . from ( JSON . parse ( obj ) ) ;
}
catch ( e ) { }
return Fragment . from ( lex ( obj ) ) ;
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}
if ( obj instanceof TokenString ) {
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const type = obj . popKeyword ( KwTypes ) ;
switch ( type ) {
case "constructor" : return ConstructorFragment . from ( obj ) ;
case "error" : return ErrorFragment . from ( obj ) ;
case "event" : return EventFragment . from ( obj ) ;
case "function" : return FunctionFragment . from ( obj ) ;
case "struct" : return StructFragment . from ( obj ) ;
}
throw new Error ( ` unsupported type: ${ type } ` ) ;
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}
if ( typeof ( obj ) === "object" ) {
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switch ( obj . type ) {
case "constructor" : return ConstructorFragment . from ( obj ) ;
case "error" : return ErrorFragment . from ( obj ) ;
case "event" : return EventFragment . from ( obj ) ;
case "function" : return FunctionFragment . from ( obj ) ;
case "struct" : return StructFragment . from ( obj ) ;
}
throw new Error ( ` not implemented yet: ${ obj . type } ` ) ;
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}
throw new Error ( ` unsupported type: ${ obj } ` ) ;
}
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/ * *
* Returns true if % % value % % is a [ [ ConstructorFragment ] ] .
* /
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static isConstructor ( value ) {
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return ConstructorFragment . isFragment ( value ) ;
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}
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/ * *
* Returns true if % % value % % is an [ [ ErrorFragment ] ] .
* /
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static isError ( value ) {
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return ErrorFragment . isFragment ( value ) ;
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}
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/ * *
* Returns true if % % value % % is an [ [ EventFragment ] ] .
* /
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static isEvent ( value ) {
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return EventFragment . isFragment ( value ) ;
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}
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/ * *
* Returns true if % % value % % is a [ [ FunctionFragment ] ] .
* /
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static isFunction ( value ) {
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return FunctionFragment . isFragment ( value ) ;
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}
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/ * *
* Returns true if % % value % % is a [ [ StructFragment ] ] .
* /
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static isStruct ( value ) {
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return StructFragment . isFragment ( value ) ;
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}
}
exports . Fragment = Fragment ;
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/ * *
* An abstract class to represent An individual fragment
* which has a name from a parse ABI .
* /
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class NamedFragment extends Fragment {
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/ * *
* The name of the fragment .
* /
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name ;
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/ * *
* @ private
* /
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constructor ( guard , type , name , inputs ) {
super ( guard , type , inputs ) ;
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( 0 , index _js _1 . assertArgument ) ( typeof ( name ) === "string" && name . match ( regexIdentifier ) , "invalid identifier" , "name" , name ) ;
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inputs = Object . freeze ( inputs . slice ( ) ) ;
( 0 , index _js _1 . defineProperties ) ( this , { name } ) ;
}
}
exports . NamedFragment = NamedFragment ;
function joinParams ( format , params ) {
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return "(" + params . map ( ( p ) => p . format ( format ) ) . join ( ( format === "full" ) ? ", " : "," ) + ")" ;
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}
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/ * *
* A Fragment which represents a //Custom Error//.
* /
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class ErrorFragment extends NamedFragment {
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/ * *
* @ private
* /
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constructor ( guard , name , inputs ) {
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super ( guard , "error" , name , inputs ) ;
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Object . defineProperty ( this , internal , { value : ErrorFragmentInternal } ) ;
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}
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/ * *
* The Custom Error selector .
* /
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get selector ( ) {
return ( 0 , index _js _2 . id ) ( this . format ( "sighash" ) ) . substring ( 0 , 10 ) ;
}
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format ( format ) {
if ( format == null ) {
format = "sighash" ;
}
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if ( format === "json" ) {
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return JSON . stringify ( {
type : "error" ,
name : this . name ,
inputs : this . inputs . map ( ( input ) => JSON . parse ( input . format ( format ) ) ) ,
} ) ;
}
const result = [ ] ;
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if ( format !== "sighash" ) {
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result . push ( "error" ) ;
}
result . push ( this . name + joinParams ( format , this . inputs ) ) ;
return result . join ( " " ) ;
}
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static from ( obj ) {
if ( ErrorFragment . isFragment ( obj ) ) {
return obj ;
}
if ( typeof ( obj ) === "string" ) {
return ErrorFragment . from ( lex ( obj ) ) ;
}
else if ( obj instanceof TokenString ) {
const name = consumeName ( "error" , obj ) ;
const inputs = consumeParams ( obj ) ;
consumeEoi ( obj ) ;
return new ErrorFragment ( _guard , name , inputs ) ;
}
return new ErrorFragment ( _guard , obj . name , obj . inputs ? obj . inputs . map ( ParamType . from ) : [ ] ) ;
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}
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static isFragment ( value ) {
return ( value && value [ internal ] === ErrorFragmentInternal ) ;
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}
}
exports . ErrorFragment = ErrorFragment ;
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/ * *
* A Fragment which represents an Event .
* /
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class EventFragment extends NamedFragment {
anonymous ;
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/ * *
* @ private
* /
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constructor ( guard , name , inputs , anonymous ) {
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super ( guard , "event" , name , inputs ) ;
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Object . defineProperty ( this , internal , { value : EventFragmentInternal } ) ;
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( 0 , index _js _1 . defineProperties ) ( this , { anonymous } ) ;
}
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/ * *
* The Event topic hash .
* /
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get topicHash ( ) {
return ( 0 , index _js _2 . id ) ( this . format ( "sighash" ) ) ;
}
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format ( format ) {
if ( format == null ) {
format = "sighash" ;
}
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if ( format === "json" ) {
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return JSON . stringify ( {
type : "event" ,
anonymous : this . anonymous ,
name : this . name ,
inputs : this . inputs . map ( ( i ) => JSON . parse ( i . format ( format ) ) )
} ) ;
}
const result = [ ] ;
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if ( format !== "sighash" ) {
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result . push ( "event" ) ;
}
result . push ( this . name + joinParams ( format , this . inputs ) ) ;
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if ( format !== "sighash" && this . anonymous ) {
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result . push ( "anonymous" ) ;
}
return result . join ( " " ) ;
}
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static from ( obj ) {
if ( EventFragment . isFragment ( obj ) ) {
return obj ;
}
if ( typeof ( obj ) === "string" ) {
return EventFragment . from ( lex ( obj ) ) ;
}
else if ( obj instanceof TokenString ) {
const name = consumeName ( "event" , obj ) ;
const inputs = consumeParams ( obj , true ) ;
const anonymous = ! ! consumeKeywords ( obj , setify ( [ "anonymous" ] ) ) . has ( "anonymous" ) ;
consumeEoi ( obj ) ;
return new EventFragment ( _guard , name , inputs , anonymous ) ;
}
return new EventFragment ( _guard , obj . name , obj . inputs ? obj . inputs . map ( ( p ) => ParamType . from ( p , true ) ) : [ ] , ! ! obj . anonymous ) ;
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}
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static isFragment ( value ) {
return ( value && value [ internal ] === EventFragmentInternal ) ;
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}
}
exports . EventFragment = EventFragment ;
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/ * *
* A Fragment which represents a constructor .
* /
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class ConstructorFragment extends Fragment {
payable ;
gas ;
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/ * *
* @ private
* /
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constructor ( guard , type , inputs , payable , gas ) {
super ( guard , type , inputs ) ;
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Object . defineProperty ( this , internal , { value : ConstructorFragmentInternal } ) ;
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( 0 , index _js _1 . defineProperties ) ( this , { payable , gas } ) ;
}
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format ( format ) {
( 0 , index _js _1 . assert ) ( format != null && format !== "sighash" , "cannot format a constructor for sighash" , "UNSUPPORTED_OPERATION" , { operation : "format(sighash)" } ) ;
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if ( format === "json" ) {
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return JSON . stringify ( {
type : "constructor" ,
stateMutability : ( this . payable ? "payable" : "undefined" ) ,
payable : this . payable ,
gas : ( ( this . gas != null ) ? this . gas : undefined ) ,
inputs : this . inputs . map ( ( i ) => JSON . parse ( i . format ( format ) ) )
} ) ;
}
const result = [ ` constructor ${ joinParams ( format , this . inputs ) } ` ] ;
result . push ( ( this . payable ) ? "payable" : "nonpayable" ) ;
if ( this . gas != null ) {
result . push ( ` @ ${ this . gas . toString ( ) } ` ) ;
}
return result . join ( " " ) ;
}
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static from ( obj ) {
if ( ConstructorFragment . isFragment ( obj ) ) {
return obj ;
}
if ( typeof ( obj ) === "string" ) {
return ConstructorFragment . from ( lex ( obj ) ) ;
}
else if ( obj instanceof TokenString ) {
consumeKeywords ( obj , setify ( [ "constructor" ] ) ) ;
const inputs = consumeParams ( obj ) ;
const payable = ! ! consumeKeywords ( obj , setify ( [ "payable" ] ) ) . has ( "payable" ) ;
const gas = consumeGas ( obj ) ;
consumeEoi ( obj ) ;
return new ConstructorFragment ( _guard , "constructor" , inputs , payable , gas ) ;
}
return new ConstructorFragment ( _guard , "constructor" , obj . inputs ? obj . inputs . map ( ParamType . from ) : [ ] , ! ! obj . payable , ( obj . gas != null ) ? obj . gas : null ) ;
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}
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static isFragment ( value ) {
return ( value && value [ internal ] === ConstructorFragmentInternal ) ;
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}
}
exports . ConstructorFragment = ConstructorFragment ;
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/ * *
* A Fragment which represents a method .
* /
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class FunctionFragment extends NamedFragment {
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/ * *
* If the function is constant ( e . g . ` ` pure ` ` or ` ` view ` ` functions ) .
* /
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constant ;
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/ * *
* The returned types for the result of calling this function .
* /
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outputs ;
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/ * *
* The state mutability ( e . g . ` ` payable ` ` , ` ` nonpayable ` ` , ` ` view ` `
* or ` ` pure ` ` )
* /
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stateMutability ;
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/ * *
* If the function can be send a value during invocation .
* /
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payable ;
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/ * *
* The amount of gas to send when calling this function
* /
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gas ;
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/ * *
* @ private
* /
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constructor ( guard , name , stateMutability , inputs , outputs , gas ) {
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super ( guard , "function" , name , inputs ) ;
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Object . defineProperty ( this , internal , { value : FunctionFragmentInternal } ) ;
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outputs = Object . freeze ( outputs . slice ( ) ) ;
const constant = ( stateMutability === "view" || stateMutability === "pure" ) ;
const payable = ( stateMutability === "payable" ) ;
( 0 , index _js _1 . defineProperties ) ( this , { constant , gas , outputs , payable , stateMutability } ) ;
}
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/ * *
* The Function selector .
* /
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get selector ( ) {
return ( 0 , index _js _2 . id ) ( this . format ( "sighash" ) ) . substring ( 0 , 10 ) ;
}
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format ( format ) {
if ( format == null ) {
format = "sighash" ;
}
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if ( format === "json" ) {
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return JSON . stringify ( {
type : "function" ,
name : this . name ,
constant : this . constant ,
stateMutability : ( ( this . stateMutability !== "nonpayable" ) ? this . stateMutability : undefined ) ,
payable : this . payable ,
gas : ( ( this . gas != null ) ? this . gas : undefined ) ,
inputs : this . inputs . map ( ( i ) => JSON . parse ( i . format ( format ) ) ) ,
outputs : this . outputs . map ( ( o ) => JSON . parse ( o . format ( format ) ) ) ,
} ) ;
}
const result = [ ] ;
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if ( format !== "sighash" ) {
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result . push ( "function" ) ;
}
result . push ( this . name + joinParams ( format , this . inputs ) ) ;
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if ( format !== "sighash" ) {
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if ( this . stateMutability !== "nonpayable" ) {
result . push ( this . stateMutability ) ;
}
if ( this . outputs && this . outputs . length ) {
result . push ( "returns" ) ;
result . push ( joinParams ( format , this . outputs ) ) ;
}
if ( this . gas != null ) {
result . push ( ` @ ${ this . gas . toString ( ) } ` ) ;
}
}
return result . join ( " " ) ;
}
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static from ( obj ) {
if ( FunctionFragment . isFragment ( obj ) ) {
return obj ;
}
if ( typeof ( obj ) === "string" ) {
return FunctionFragment . from ( lex ( obj ) ) ;
}
else if ( obj instanceof TokenString ) {
const name = consumeName ( "function" , obj ) ;
const inputs = consumeParams ( obj ) ;
const mutability = consumeMutability ( obj ) ;
let outputs = [ ] ;
if ( consumeKeywords ( obj , setify ( [ "returns" ] ) ) . has ( "returns" ) ) {
outputs = consumeParams ( obj ) ;
}
const gas = consumeGas ( obj ) ;
consumeEoi ( obj ) ;
return new FunctionFragment ( _guard , name , mutability , inputs , outputs , gas ) ;
}
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// @TODO: verifyState for stateMutability
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return new FunctionFragment ( _guard , obj . name , obj . stateMutability , obj . inputs ? obj . inputs . map ( ParamType . from ) : [ ] , obj . outputs ? obj . outputs . map ( ParamType . from ) : [ ] , ( obj . gas != null ) ? obj . gas : null ) ;
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}
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static isFragment ( value ) {
return ( value && value [ internal ] === FunctionFragmentInternal ) ;
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}
}
exports . FunctionFragment = FunctionFragment ;
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/ * *
* A Fragment which represents a structure .
* /
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class StructFragment extends NamedFragment {
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/ * *
* @ private
* /
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constructor ( guard , name , inputs ) {
super ( guard , "struct" , name , inputs ) ;
Object . defineProperty ( this , internal , { value : StructFragmentInternal } ) ;
}
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format ( ) {
throw new Error ( "@TODO" ) ;
}
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static from ( obj ) {
if ( typeof ( obj ) === "string" ) {
return StructFragment . from ( lex ( obj ) ) ;
}
else if ( obj instanceof TokenString ) {
const name = consumeName ( "struct" , obj ) ;
const inputs = consumeParams ( obj ) ;
consumeEoi ( obj ) ;
return new StructFragment ( _guard , name , inputs ) ;
}
return new StructFragment ( _guard , obj . name , obj . inputs ? obj . inputs . map ( ParamType . from ) : [ ] ) ;
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}
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static isFragment ( value ) {
return ( value && value [ internal ] === StructFragmentInternal ) ;
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}
}
exports . StructFragment = StructFragment ;
//# sourceMappingURL=fragments.js.map