ethers.js/lib.commonjs/abi/fragments.js

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"use strict";
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/**
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* A fragment is a single item from an ABI, which may represent any of:
*
* - [Functions](FunctionFragment)
* - [Events](EventFragment)
* - [Constructors](ConstructorFragment)
* - Custom [Errors](ErrorFragment)
* - [Fallback or Receive](FallbackFragment) functions
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*
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* @_subsection api/abi/abi-coder:Fragments [about-fragments]
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*/
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Object.defineProperty(exports, "__esModule", { value: true });
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exports.StructFragment = exports.FunctionFragment = exports.FallbackFragment = 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(" "));
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const _kwTypes = "constructor error event fallback function receive struct";
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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
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const regexWhitespacePrefix = new RegExp("^(\\s*)");
const regexNumberPrefix = new RegExp("^([0-9]+)");
const regexIdPrefix = new RegExp("^([a-zA-Z$_][a-zA-Z0-9$_]*)");
// Parser regexs to check validity
const regexId = new RegExp("^([a-zA-Z$_][a-zA-Z0-9$_]*)$");
const regexType = new RegExp("^(address|bool|bytes([0-9]*)|string|u?int([0-9]*))$");
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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),
}));
}));
}
// 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);
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let match = cur.match(regexWhitespacePrefix);
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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;
}
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match = cur.match(regexIdPrefix);
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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;
}
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match = cur.match(regexNumberPrefix);
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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";
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const FallbackFragmentInternal = "_FallbackInternal";
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const FunctionFragmentInternal = "_FunctionInternal";
const StructFragmentInternal = "_StructInternal";
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/**
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* Each input and output of a [[Fragment]] is an Array of **ParamType**.
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*/
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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.
*
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* For non-indexable types this is ``null``.
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*/
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indexed;
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/**
* The components for the tuple.
*
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* For non-tuple types this is ``null``.
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*/
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components;
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/**
* The array length, or ``-1`` for dynamic-lengthed arrays.
*
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* For non-array types this is ``null``.
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*/
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arrayLength;
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/**
* The type of each child in the array.
*
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* For non-array types this is ``null``.
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*/
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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 %%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)) {
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throw new Error("invalid array value");
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}
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)) {
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throw new Error("invalid tuple value");
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}
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)) {
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throw new Error("invalid array value");
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}
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") {
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throw new Error("invalid tuple value");
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}
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(regexId)), "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.startsWith("tuple(" /* fix: ) */) || type.startsWith("(" /* fix: ) */)) {
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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 parsing JSON...
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try {
Fragment.from(JSON.parse(obj));
}
catch (e) { }
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// ...otherwise, use the human-readable lexer
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return Fragment.from(lex(obj));
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}
if (obj instanceof TokenString) {
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// Human-readable ABI (already lexed)
const type = obj.peekKeyword(KwTypes);
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switch (type) {
case "constructor": return ConstructorFragment.from(obj);
case "error": return ErrorFragment.from(obj);
case "event": return EventFragment.from(obj);
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case "fallback":
case "receive":
return FallbackFragment.from(obj);
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case "function": return FunctionFragment.from(obj);
case "struct": return StructFragment.from(obj);
}
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}
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else if (typeof (obj) === "object") {
// JSON ABI
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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);
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case "fallback":
case "receive":
return FallbackFragment.from(obj);
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case "function": return FunctionFragment.from(obj);
case "struct": return StructFragment.from(obj);
}
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(0, index_js_1.assert)(false, `unsupported type: ${obj.type}`, "UNSUPPORTED_OPERATION", {
operation: "Fragment.from"
});
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}
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(0, index_js_1.assertArgument)(false, "unsupported frgament object", "obj", obj);
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}
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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(regexId), "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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/**
* Returns a string representation of this fragment as %%format%%.
*/
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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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/**
* Returns a new **ErrorFragment** for %%obj%%.
*/
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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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/**
* Returns ``true`` and provides a type guard if %%value%% is an
* **ErrorFragment**.
*/
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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 {
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/**
* Whether this event is anonymous.
*/
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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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/**
* Returns a string representation of this event as %%format%%.
*/
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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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/**
* Return the topic hash for an event with %%name%% and %%params%%.
*/
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static getTopicHash(name, params) {
params = (params || []).map((p) => ParamType.from(p));
const fragment = new EventFragment(_guard, name, params, false);
return fragment.topicHash;
}
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/**
* Returns a new **EventFragment** for %%obj%%.
*/
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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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/**
* Returns ``true`` and provides a type guard if %%value%% is an
* **EventFragment**.
*/
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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 {
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/**
* Whether the constructor can receive an endowment.
*/
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payable;
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/**
* The recommended gas limit for deployment or ``null``.
*/
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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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/**
* Returns a string representation of this constructor as %%format%%.
*/
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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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/**
* Returns a new **ConstructorFragment** for %%obj%%.
*/
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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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/**
* Returns ``true`` and provides a type guard if %%value%% is a
* **ConstructorFragment**.
*/
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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.
*/
class FallbackFragment extends Fragment {
/**
* If the function can be sent value during invocation.
*/
payable;
constructor(guard, inputs, payable) {
super(guard, "fallback", inputs);
Object.defineProperty(this, internal, { value: FallbackFragmentInternal });
(0, index_js_1.defineProperties)(this, { payable });
}
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/**
* Returns a string representation of this fallback as %%format%%.
*/
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format(format) {
const type = ((this.inputs.length === 0) ? "receive" : "fallback");
if (format === "json") {
const stateMutability = (this.payable ? "payable" : "nonpayable");
return JSON.stringify({ type, stateMutability });
}
return `${type}()${this.payable ? " payable" : ""}`;
}
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/**
* Returns a new **FallbackFragment** for %%obj%%.
*/
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static from(obj) {
if (FallbackFragment.isFragment(obj)) {
return obj;
}
if (typeof (obj) === "string") {
return FallbackFragment.from(lex(obj));
}
else if (obj instanceof TokenString) {
const errorObj = obj.toString();
const topIsValid = obj.peekKeyword(setify(["fallback", "receive"]));
(0, index_js_1.assertArgument)(topIsValid, "type must be fallback or receive", "obj", errorObj);
const type = obj.popKeyword(setify(["fallback", "receive"]));
// receive()
if (type === "receive") {
const inputs = consumeParams(obj);
(0, index_js_1.assertArgument)(inputs.length === 0, `receive cannot have arguments`, "obj.inputs", inputs);
consumeKeywords(obj, setify(["payable"]));
consumeEoi(obj);
return new FallbackFragment(_guard, [], true);
}
// fallback() [payable]
// fallback(bytes) [payable] returns (bytes)
let inputs = consumeParams(obj);
if (inputs.length) {
(0, index_js_1.assertArgument)(inputs.length === 1 && inputs[0].type === "bytes", "invalid fallback inputs", "obj.inputs", inputs.map((i) => i.format("minimal")).join(", "));
}
else {
inputs = [ParamType.from("bytes")];
}
const mutability = consumeMutability(obj);
(0, index_js_1.assertArgument)(mutability === "nonpayable" || mutability === "payable", "fallback cannot be constants", "obj.stateMutability", mutability);
if (consumeKeywords(obj, setify(["returns"])).has("returns")) {
const outputs = consumeParams(obj);
(0, index_js_1.assertArgument)(outputs.length === 1 && outputs[0].type === "bytes", "invalid fallback outputs", "obj.outputs", outputs.map((i) => i.format("minimal")).join(", "));
}
consumeEoi(obj);
return new FallbackFragment(_guard, inputs, mutability === "payable");
}
if (obj.type === "receive") {
return new FallbackFragment(_guard, [], true);
}
if (obj.type === "fallback") {
const inputs = [ParamType.from("bytes")];
const payable = (obj.stateMutability === "payable");
return new FallbackFragment(_guard, inputs, payable);
}
(0, index_js_1.assertArgument)(false, "invalid fallback description", "obj", obj);
}
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/**
* Returns ``true`` and provides a type guard if %%value%% is a
* **FallbackFragment**.
*/
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static isFragment(value) {
return (value && value[internal] === FallbackFragmentInternal);
}
}
exports.FallbackFragment = FallbackFragment;
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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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/**
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* If the function can be sent value during invocation.
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*/
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payable;
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/**
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* The recommended gas limit to send when calling this function.
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*/
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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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/**
* Returns a string representation of this function as %%format%%.
*/
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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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/**
* Return the selector for a function with %%name%% and %%params%%.
*/
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static getSelector(name, params) {
params = (params || []).map((p) => ParamType.from(p));
const fragment = new FunctionFragment(_guard, name, "view", params, [], null);
return fragment.selector;
}
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/**
* Returns a new **FunctionFragment** for %%obj%%.
*/
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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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let stateMutability = obj.stateMutability;
// Use legacy Solidity ABI logic if stateMutability is missing
if (stateMutability == null) {
stateMutability = "payable";
if (typeof (obj.constant) === "boolean") {
stateMutability = "view";
if (!obj.constant) {
stateMutability = "payable";
if (typeof (obj.payable) === "boolean" && !obj.payable) {
stateMutability = "nonpayable";
}
}
}
else if (typeof (obj.payable) === "boolean" && !obj.payable) {
stateMutability = "nonpayable";
}
}
// @TODO: verifyState for stateMutability (e.g. throw if
// payable: false but stateMutability is "nonpayable")
return new FunctionFragment(_guard, obj.name, 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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/**
* Returns ``true`` and provides a type guard if %%value%% is a
* **FunctionFragment**.
*/
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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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/**
* Returns a string representation of this struct as %%format%%.
*/
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format() {
throw new Error("@TODO");
}
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/**
* Returns a new **StructFragment** for %%obj%%.
*/
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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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// @TODO: fix this return type
/**
* Returns ``true`` and provides a type guard if %%value%% is a
* **StructFragment**.
*/
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static isFragment(value) {
return (value && value[internal] === StructFragmentInternal);
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}
}
exports.StructFragment = StructFragment;
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