ethers.js/packages/abi/src.ts/interface.ts

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"use strict";
import { getAddress } from "@ethersproject/address";
import { BigNumber, BigNumberish } from "@ethersproject/bignumber";
import { arrayify, BytesLike, concat, hexDataSlice, hexlify, hexZeroPad, isHexString } from "@ethersproject/bytes";
import { id } from "@ethersproject/hash";
import { keccak256 } from "@ethersproject/keccak256"
import { defineReadOnly, Description, getStatic } from "@ethersproject/properties";
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import { AbiCoder, defaultAbiCoder } from "./abi-coder";
import { checkResultErrors, Result } from "./coders/abstract-coder";
import { ConstructorFragment, EventFragment, FormatTypes, Fragment, FunctionFragment, JsonFragment, ParamType } from "./fragments";
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import { Logger } from "@ethersproject/logger";
import { version } from "./_version";
const logger = new Logger(version);
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export { checkResultErrors, Result };
export class LogDescription extends Description<LogDescription> {
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readonly eventFragment: EventFragment;
readonly name: string;
readonly signature: string;
readonly topic: string;
readonly args: Result
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}
export class TransactionDescription extends Description<TransactionDescription> {
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readonly functionFragment: FunctionFragment;
readonly name: string;
readonly args: Result;
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readonly signature: string;
readonly sighash: string;
readonly value: BigNumber;
}
export class Indexed extends Description<Indexed> {
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readonly hash: string;
readonly _isIndexed: boolean;
static isIndexed(value: any): value is Indexed {
return !!(value && value._isIndexed);
}
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}
function wrapAccessError(property: string, error: Error): Error {
const wrap = new Error(`deferred error during ABI decoding triggered accessing ${ property }`);
(<any>wrap).error = error;
return wrap;
}
/*
function checkNames(fragment: Fragment, type: "input" | "output", params: Array<ParamType>): void {
params.reduce((accum, param) => {
if (param.name) {
if (accum[param.name]) {
logger.throwArgumentError(`duplicate ${ type } parameter ${ JSON.stringify(param.name) } in ${ fragment.format("full") }`, "fragment", fragment);
}
accum[param.name] = true;
}
return accum;
}, <{ [ name: string ]: boolean }>{ });
}
*/
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export class Interface {
readonly fragments: ReadonlyArray<Fragment>;
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readonly errors: { [ name: string ]: any };
readonly events: { [ name: string ]: EventFragment };
readonly functions: { [ name: string ]: FunctionFragment };
readonly structs: { [ name: string ]: any };
readonly deploy: ConstructorFragment;
readonly _abiCoder: AbiCoder;
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readonly _isInterface: boolean;
constructor(fragments: string | ReadonlyArray<Fragment | JsonFragment | string>) {
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logger.checkNew(new.target, Interface);
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let abi: ReadonlyArray<Fragment | JsonFragment | string> = [ ];
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if (typeof(fragments) === "string") {
abi = JSON.parse(fragments);
} else {
abi = fragments;
}
defineReadOnly(this, "fragments", abi.map((fragment) => {
return Fragment.from(fragment);
}).filter((fragment) => (fragment != null)));
defineReadOnly(this, "_abiCoder", getStatic<() => AbiCoder>(new.target, "getAbiCoder")());
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defineReadOnly(this, "functions", { });
defineReadOnly(this, "errors", { });
defineReadOnly(this, "events", { });
defineReadOnly(this, "structs", { });
// Add all fragments by their signature
this.fragments.forEach((fragment) => {
let bucket: { [ name: string ]: Fragment } = null;
switch (fragment.type) {
case "constructor":
if (this.deploy) {
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logger.warn("duplicate definition - constructor");
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return;
}
//checkNames(fragment, "input", fragment.inputs);
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defineReadOnly(this, "deploy", <ConstructorFragment>fragment);
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return;
case "function":
//checkNames(fragment, "input", fragment.inputs);
//checkNames(fragment, "output", (<FunctionFragment>fragment).outputs);
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bucket = this.functions;
break;
case "event":
//checkNames(fragment, "input", fragment.inputs);
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bucket = this.events;
break;
default:
return;
}
let signature = fragment.format();
if (bucket[signature]) {
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logger.warn("duplicate definition - " + signature);
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return;
}
bucket[signature] = fragment;
});
// If we do not have a constructor add a default
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if (!this.deploy) {
defineReadOnly(this, "deploy", ConstructorFragment.from({
payable: false,
type: "constructor"
}));
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}
defineReadOnly(this, "_isInterface", true);
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}
format(format?: string): string | Array<string> {
if (!format) { format = FormatTypes.full; }
if (format === FormatTypes.sighash) {
logger.throwArgumentError("interface does not support formatting sighash", "format", format);
}
const abi = this.fragments.map((fragment) => fragment.format(format));
// We need to re-bundle the JSON fragments a bit
if (format === FormatTypes.json) {
return JSON.stringify(abi.map((j) => JSON.parse(j)));
}
return abi;
}
// Sub-classes can override these to handle other blockchains
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static getAbiCoder(): AbiCoder {
return defaultAbiCoder;
}
static getAddress(address: string): string {
return getAddress(address);
}
static getSighash(functionFragment: FunctionFragment): string {
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return hexDataSlice(id(functionFragment.format()), 0, 4);
}
static getEventTopic(eventFragment: EventFragment): string {
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return id(eventFragment.format());
}
// Find a function definition by any means necessary (unless it is ambiguous)
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getFunction(nameOrSignatureOrSighash: string): FunctionFragment {
if (isHexString(nameOrSignatureOrSighash)) {
for (const name in this.functions) {
if (nameOrSignatureOrSighash === this.getSighash(name)) {
return this.functions[name];
}
}
logger.throwArgumentError("no matching function", "sighash", nameOrSignatureOrSighash);
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}
// It is a bare name, look up the function (will return null if ambiguous)
if (nameOrSignatureOrSighash.indexOf("(") === -1) {
const name = nameOrSignatureOrSighash.trim();
const matching = Object.keys(this.functions).filter((f) => (f.split("("/* fix:) */)[0] === name));
if (matching.length === 0) {
logger.throwArgumentError("no matching function", "name", name);
} else if (matching.length > 1) {
logger.throwArgumentError("multiple matching functions", "name", name);
}
return this.functions[matching[0]];
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}
// Normlize the signature and lookup the function
const result = this.functions[FunctionFragment.fromString(nameOrSignatureOrSighash).format()];
if (!result) {
logger.throwArgumentError("no matching function", "signature", nameOrSignatureOrSighash);
}
return result;
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}
// Find an event definition by any means necessary (unless it is ambiguous)
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getEvent(nameOrSignatureOrTopic: string): EventFragment {
if (isHexString(nameOrSignatureOrTopic)) {
const topichash = nameOrSignatureOrTopic.toLowerCase();
for (const name in this.events) {
if (topichash === this.getEventTopic(name)) {
return this.events[name];
}
}
logger.throwArgumentError("no matching event", "topichash", topichash);
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}
// It is a bare name, look up the function (will return null if ambiguous)
if (nameOrSignatureOrTopic.indexOf("(") === -1) {
const name = nameOrSignatureOrTopic.trim();
const matching = Object.keys(this.events).filter((f) => (f.split("("/* fix:) */)[0] === name));
if (matching.length === 0) {
logger.throwArgumentError("no matching event", "name", name);
} else if (matching.length > 1) {
logger.throwArgumentError("multiple matching events", "name", name);
}
return this.events[matching[0]];
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}
// Normlize the signature and lookup the function
const result = this.events[EventFragment.fromString(nameOrSignatureOrTopic).format()];
if (!result) {
logger.throwArgumentError("no matching event", "signature", nameOrSignatureOrTopic);
}
return result;
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}
// Get the sighash (the bytes4 selector) used by Solidity to identify a function
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getSighash(functionFragment: FunctionFragment | string): string {
if (typeof(functionFragment) === "string") {
functionFragment = this.getFunction(functionFragment);
}
return getStatic<(f: FunctionFragment) => string>(this.constructor, "getSighash")(functionFragment);
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}
// Get the topic (the bytes32 hash) used by Solidity to identify an event
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getEventTopic(eventFragment: EventFragment | string): string {
if (typeof(eventFragment) === "string") {
eventFragment = this.getEvent(eventFragment);
}
return getStatic<(e: EventFragment) => string>(this.constructor, "getEventTopic")(eventFragment);
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}
_decodeParams(params: ReadonlyArray<ParamType>, data: BytesLike): Result {
return this._abiCoder.decode(params, data)
}
_encodeParams(params: ReadonlyArray<ParamType>, values: ReadonlyArray<any>): string {
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return this._abiCoder.encode(params, values)
}
encodeDeploy(values?: ReadonlyArray<any>): string {
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return this._encodeParams(this.deploy.inputs, values || [ ]);
}
// Decode the data for a function call (e.g. tx.data)
decodeFunctionData(functionFragment: FunctionFragment | string, data: BytesLike): Result {
if (typeof(functionFragment) === "string") {
functionFragment = this.getFunction(functionFragment);
}
const bytes = arrayify(data);
if (hexlify(bytes.slice(0, 4)) !== this.getSighash(functionFragment)) {
logger.throwArgumentError(`data signature does not match function ${ functionFragment.name }.`, "data", hexlify(bytes));
}
return this._decodeParams(functionFragment.inputs, bytes.slice(4));
}
// Encode the data for a function call (e.g. tx.data)
encodeFunctionData(functionFragment: FunctionFragment | string, values?: ReadonlyArray<any>): string {
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if (typeof(functionFragment) === "string") {
functionFragment = this.getFunction(functionFragment);
}
return hexlify(concat([
this.getSighash(functionFragment),
this._encodeParams(functionFragment.inputs, values || [ ])
]));
}
// Decode the result from a function call (e.g. from eth_call)
decodeFunctionResult(functionFragment: FunctionFragment | string, data: BytesLike): Result {
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if (typeof(functionFragment) === "string") {
functionFragment = this.getFunction(functionFragment);
}
let bytes = arrayify(data);
let reason: string = null;
let errorSignature: string = null;
switch (bytes.length % this._abiCoder._getWordSize()) {
case 0:
try {
return this._abiCoder.decode(functionFragment.outputs, bytes);
} catch (error) { }
break;
case 4:
if (hexlify(bytes.slice(0, 4)) === "0x08c379a0") {
errorSignature = "Error(string)";
reason = this._abiCoder.decode([ "string" ], bytes.slice(4))[0];
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}
break;
}
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return logger.throwError("call revert exception", Logger.errors.CALL_EXCEPTION, {
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method: functionFragment.format(),
errorSignature: errorSignature,
errorArgs: [ reason ],
reason: reason
});
}
// Encode the result for a function call (e.g. for eth_call)
encodeFunctionResult(functionFragment: FunctionFragment | string, values?: ReadonlyArray<any>): string {
if (typeof(functionFragment) === "string") {
functionFragment = this.getFunction(functionFragment);
}
return hexlify(this._abiCoder.encode(functionFragment.outputs, values || [ ]));
}
// Create the filter for the event with search criteria (e.g. for eth_filterLog)
encodeFilterTopics(eventFragment: EventFragment, values: ReadonlyArray<any>): Array<string | Array<string>> {
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if (typeof(eventFragment) === "string") {
eventFragment = this.getEvent(eventFragment);
}
if (values.length > eventFragment.inputs.length) {
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logger.throwError("too many arguments for " + eventFragment.format(), Logger.errors.UNEXPECTED_ARGUMENT, {
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argument: "values",
value: values
})
}
let topics: Array<string | Array<string>> = [];
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if (!eventFragment.anonymous) { topics.push(this.getEventTopic(eventFragment)); }
const encodeTopic = (param: ParamType, value: any): string => {
if (param.type === "string") {
return id(value);
} else if (param.type === "bytes") {
return keccak256(hexlify(value));
}
// Check addresses are valid
if (param.type === "address") { this._abiCoder.encode( [ "address" ], [ value ]); }
return hexZeroPad(hexlify(value), 32);
};
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values.forEach((value, index) => {
let param = eventFragment.inputs[index];
if (!param.indexed) {
if (value != null) {
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logger.throwArgumentError("cannot filter non-indexed parameters; must be null", ("contract." + param.name), value);
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}
return;
}
if (value == null) {
topics.push(null);
} else if (param.baseType === "array" || param.baseType === "tuple") {
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logger.throwArgumentError("filtering with tuples or arrays not supported", ("contract." + param.name), value);
} else if (Array.isArray(value)) {
topics.push(value.map((value) => encodeTopic(param, value)));
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} else {
topics.push(encodeTopic(param, value));
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}
});
// Trim off trailing nulls
while (topics.length && topics[topics.length - 1] === null) {
topics.pop();
}
return topics;
}
encodeEventLog(eventFragment: EventFragment, values: ReadonlyArray<any>): { data: string, topics: Array<string> } {
if (typeof(eventFragment) === "string") {
eventFragment = this.getEvent(eventFragment);
}
const topics: Array<string> = [ ];
const dataTypes: Array<ParamType> = [ ];
const dataValues: Array<string> = [ ];
if (!eventFragment.anonymous) {
topics.push(this.getEventTopic(eventFragment));
}
if (values.length !== eventFragment.inputs.length) {
logger.throwArgumentError("event arguments/values mismatch", "values", values);
}
eventFragment.inputs.forEach((param, index) => {
const value = values[index];
if (param.indexed) {
if (param.type === "string") {
topics.push(id(value))
} else if (param.type === "bytes") {
topics.push(keccak256(value))
} else if (param.baseType === "tuple" || param.baseType === "array") {
// @TOOD
throw new Error("not implemented");
} else {
topics.push(this._abiCoder.encode([ param.type] , [ value ]));
}
} else {
dataTypes.push(param);
dataValues.push(value);
}
});
return {
data: this._abiCoder.encode(dataTypes , dataValues),
topics: topics
};
}
// Decode a filter for the event and the search criteria
decodeEventLog(eventFragment: EventFragment | string, data: BytesLike, topics?: ReadonlyArray<string>): Result {
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if (typeof(eventFragment) === "string") {
eventFragment = this.getEvent(eventFragment);
}
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if (topics != null && !eventFragment.anonymous) {
let topicHash = this.getEventTopic(eventFragment);
if (!isHexString(topics[0], 32) || topics[0].toLowerCase() !== topicHash) {
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logger.throwError("fragment/topic mismatch", Logger.errors.INVALID_ARGUMENT, { argument: "topics[0]", expected: topicHash, value: topics[0] });
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}
topics = topics.slice(1);
}
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let indexed: Array<ParamType> = [];
let nonIndexed: Array<ParamType> = [];
let dynamic: Array<boolean> = [];
eventFragment.inputs.forEach((param, index) => {
if (param.indexed) {
if (param.type === "string" || param.type === "bytes" || param.baseType === "tuple" || param.baseType === "array") {
indexed.push(ParamType.fromObject({ type: "bytes32", name: param.name }));
dynamic.push(true);
} else {
indexed.push(param);
dynamic.push(false);
}
} else {
nonIndexed.push(param);
dynamic.push(false);
}
});
let resultIndexed = (topics != null) ? this._abiCoder.decode(indexed, concat(topics)): null;
let resultNonIndexed = this._abiCoder.decode(nonIndexed, data, true);
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let result: (Array<any> & { [ key: string ]: any }) = [ ];
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let nonIndexedIndex = 0, indexedIndex = 0;
eventFragment.inputs.forEach((param, index) => {
if (param.indexed) {
if (resultIndexed == null) {
result[index] = new Indexed({ _isIndexed: true, hash: null });
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} else if (dynamic[index]) {
result[index] = new Indexed({ _isIndexed: true, hash: resultIndexed[indexedIndex++] });
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} else {
try {
result[index] = resultIndexed[indexedIndex++];
} catch (error) {
result[index] = error;
}
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}
} else {
try {
result[index] = resultNonIndexed[nonIndexedIndex++];
} catch (error) {
result[index] = error;
}
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}
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// Add the keyword argument if named and safe
if (param.name && result[param.name] == null) {
const value = result[index];
// Make error named values throw on access
if (value instanceof Error) {
Object.defineProperty(result, param.name, {
get: () => { throw wrapAccessError(`property ${ JSON.stringify(param.name) }`, value); }
});
} else {
result[param.name] = value;
}
}
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});
// Make all error indexed values throw on access
for (let i = 0; i < result.length; i++) {
const value = result[i];
if (value instanceof Error) {
Object.defineProperty(result, i, {
get: () => { throw wrapAccessError(`index ${ i }`, value); }
});
}
}
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return Object.freeze(result);
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}
// Given a transaction, find the matching function fragment (if any) and
// determine all its properties and call parameters
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parseTransaction(tx: { data: string, value?: BigNumberish }): TransactionDescription {
let fragment = this.getFunction(tx.data.substring(0, 10).toLowerCase())
if (!fragment) { return null; }
return new TransactionDescription({
args: this._abiCoder.decode(fragment.inputs, "0x" + tx.data.substring(10)),
functionFragment: fragment,
name: fragment.name,
signature: fragment.format(),
sighash: this.getSighash(fragment),
value: BigNumber.from(tx.value || "0"),
});
}
// Given an event log, find the matching event fragment (if any) and
// determine all its properties and values
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parseLog(log: { topics: Array<string>, data: string}): LogDescription {
let fragment = this.getEvent(log.topics[0]);
if (!fragment || fragment.anonymous) { return null; }
// @TODO: If anonymous, and the only method, and the input count matches, should we parse?
// Probably not, because just because it is the only event in the ABI does
// not mean we have the full ABI; maybe jsut a fragment?
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return new LogDescription({
eventFragment: fragment,
name: fragment.name,
signature: fragment.format(),
topic: this.getEventTopic(fragment),
args: this.decodeEventLog(fragment, log.data, log.topics)
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});
}
/*
static from(value: Array<Fragment | string | JsonAbi> | string | Interface) {
if (Interface.isInterface(value)) {
return value;
}
if (typeof(value) === "string") {
return new Interface(JSON.parse(value));
}
return new Interface(value);
}
*/
static isInterface(value: any): value is Interface {
return !!(value && value._isInterface);
}
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}