ethers.js/lib.commonjs/contract/factory.js
2023-06-13 21:47:44 -04:00

116 lines
4.4 KiB
JavaScript

"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.ContractFactory = void 0;
const index_js_1 = require("../abi/index.js");
const index_js_2 = require("../address/index.js");
const index_js_3 = require("../utils/index.js");
const contract_js_1 = require("./contract.js");
// A = Arguments to the constructor
// I = Interface of deployed contracts
/**
* A **ContractFactory** is used to deploy a Contract to the blockchain.
*/
class ContractFactory {
/**
* The Contract Interface.
*/
interface;
/**
* The Contract deployment bytecode. Often called the initcode.
*/
bytecode;
/**
* The ContractRunner to deploy the Contract as.
*/
runner;
/**
* Create a new **ContractFactory** with %%abi%% and %%bytecode%%,
* optionally connected to %%runner%%.
*
* The %%bytecode%% may be the ``bytecode`` property within the
* standard Solidity JSON output.
*/
constructor(abi, bytecode, runner) {
const iface = index_js_1.Interface.from(abi);
// Dereference Solidity bytecode objects and allow a missing `0x`-prefix
if (bytecode instanceof Uint8Array) {
bytecode = (0, index_js_3.hexlify)((0, index_js_3.getBytes)(bytecode));
}
else {
if (typeof (bytecode) === "object") {
bytecode = bytecode.object;
}
if (!bytecode.startsWith("0x")) {
bytecode = "0x" + bytecode;
}
bytecode = (0, index_js_3.hexlify)((0, index_js_3.getBytes)(bytecode));
}
(0, index_js_3.defineProperties)(this, {
bytecode, interface: iface, runner: (runner || null)
});
}
attach(target) {
return new contract_js_1.BaseContract(target, this.interface, this.runner);
}
/**
* Resolves to the transaction to deploy the contract, passing %%args%%
* into the constructor.
*/
async getDeployTransaction(...args) {
let overrides = {};
const fragment = this.interface.deploy;
if (fragment.inputs.length + 1 === args.length) {
overrides = await (0, contract_js_1.copyOverrides)(args.pop());
}
if (fragment.inputs.length !== args.length) {
throw new Error("incorrect number of arguments to constructor");
}
const resolvedArgs = await (0, contract_js_1.resolveArgs)(this.runner, fragment.inputs, args);
const data = (0, index_js_3.concat)([this.bytecode, this.interface.encodeDeploy(resolvedArgs)]);
return Object.assign({}, overrides, { data });
}
/**
* Resolves to the Contract deployed by passing %%args%% into the
* constructor.
*
* This will resovle to the Contract before it has been deployed to the
* network, so the [[BaseContract-waitForDeployment]] should be used before
* sending any transactions to it.
*/
async deploy(...args) {
const tx = await this.getDeployTransaction(...args);
(0, index_js_3.assert)(this.runner && typeof (this.runner.sendTransaction) === "function", "factory runner does not support sending transactions", "UNSUPPORTED_OPERATION", {
operation: "sendTransaction"
});
const sentTx = await this.runner.sendTransaction(tx);
const address = (0, index_js_2.getCreateAddress)(sentTx);
return new contract_js_1.BaseContract(address, this.interface, this.runner, sentTx);
}
/**
* Return a new **ContractFactory** with the same ABI and bytecode,
* but connected to %%runner%%.
*/
connect(runner) {
return new ContractFactory(this.interface, this.bytecode, runner);
}
/**
* Create a new **ContractFactory** from the standard Solidity JSON output.
*/
static fromSolidity(output, runner) {
(0, index_js_3.assertArgument)(output != null, "bad compiler output", "output", output);
if (typeof (output) === "string") {
output = JSON.parse(output);
}
const abi = output.abi;
let bytecode = "";
if (output.bytecode) {
bytecode = output.bytecode;
}
else if (output.evm && output.evm.bytecode) {
bytecode = output.evm.bytecode;
}
return new this(abi, bytecode, runner);
}
}
exports.ContractFactory = ContractFactory;
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