Javascript SDK of WoopChain protocol
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sdk/examples/testContract.js

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// This example shows how you extract a contract's ABI
// And how to use `Contract.deploy().send()` to deploy the contract
// Then we can use `Contract.methods.call()` to call a method
// Import Main Class
const { Harmony } = require('@harmony/core');
// You can import BN from `@harmony/crypto` or use `Harmony.utils.BN`instead
const { BN } = require('@harmony/crypto');
// import more utils
const { isArray, ChainType, ChainID } = require('@harmony/utils');
// contract specific utils
const { toUtf8String, toUtf8Bytes } = require('@harmony/contract');
// we import `fs` and `solc` to complile the contract. you can do it in another js file
// but we show it here anyway.
const fs = require('fs');
const solc = require('solc');
// consturct the input function, here the solidity file lives in `./contracts/`
// we just type the file name as inpnut
function constructInput(file) {
const content = fs.readFileSync(`./contracts/${file}`, { encoding: 'utf8' });
const input = {
language: 'Solidity',
sources: {},
settings: {
outputSelection: {
'*': {
'*': ['*'],
},
},
},
};
input.sources[file] = { content };
return JSON.stringify(input);
}
// we try to comple this solidty file
const fileName = 'MyContract.sol';
// now we get the output
const output = JSON.parse(solc.compile(constructInput(fileName)));
let abi;
let bin;
// `output` here contains the JSON output as specified in the documentation
for (var contractName in output.contracts[fileName]) {
let contractAbi = output.contracts[fileName][contractName].abi;
let contractBin =
output.contracts[fileName][contractName].evm.bytecode.object;
if (contractAbi) {
abi = contractAbi;
}
if (contractBin) {
bin = contractBin;
}
}
// To test with different settings, here is some config.
const Settings = {
Ropsten: {
http: 'https://ropsten.infura.io/v3/4f3be7f5bbe644b7a8d95c151c8f52ec',
ws: 'wss://ropsten.infura.io/ws/v3/4f3be7f5bbe644b7a8d95c151c8f52ec',
type: ChainType.Ethereum,
id: ChainID.Ropsten,
},
Rinkeby: {
http: 'https://rinkeby.infura.io/v3/4f3be7f5bbe644b7a8d95c151c8f52ec',
ws: 'wss://rinkeby.infura.io/ws/v3/4f3be7f5bbe644b7a8d95c151c8f52ec',
type: ChainType.Ethereum,
id: ChainID.Ropsten,
},
Ganache: {
http: 'http://localhost:18545',
ws: 'ws://localhost:18545',
type: ChainType.Ethereum,
id: ChainID.Ganache,
},
};
// a function that will map the setting to harmony class constructor inputs
function useSetting(setting, providerType) {
return [setting[providerType], setting.type, setting.id];
}
// simply change `Ropsten` to `Rinkeby` to test with different testnet
// and switch `ws` or `http` as RPC provider
const harmony = new Harmony(...useSetting(Settings.Ropsten, 'ws'));
// import our preset mnes
const mne =
'food response winner warfare indicate visual hundred toilet jealous okay relief tornado';
// now we have the mnes added to wallet
const acc1 = harmony.wallet.addByMnemonic(mne, 0);
// now we create contract using extracted abi
const myContract = harmony.contracts.createContract(abi);
// first we get the account's balance to see if we have enough token on the testnet
acc1.getBalance().then((res) => {
console.log(`-- hint: account balance of ${acc1.address}`);
console.log(``);
console.log({ account: res });
console.log(``);
console.log(``);
});
// a deploy contract function
const deployContract = async () => {
//`Contract.deploy().send()`
const deployed = await myContract
.deploy({
// the data key puts in the bin file with `0x` prefix
data: `0x${bin}`,
// we don't have any initial arguments to put in of this contract, so we leave blank
arguments: [],
})
.send({
// gasLimit defines the max value that blockchain will consume
// here we show that you can use Unit as calculator
// because we use BN as our save integer as default input
// use Unit converter is much safer
gasLimit: new harmony.utils.Unit('1000000').asWei().toWei(),
// gasPrice defines how many weis should be consumed each gas
// you can use `new BN(string)` directly,
// if you are sure about the amount is calculated in `wei`
gasPrice: new harmony.crypto.BN('10000'),
})
// we use event emitter to listen the result when event happen
// here comes in the `transactionHash`
.on('transactionHash', (transactionHash) => {
console.log(`-- hint: we got Transaction Hash`);
console.log(``);
console.log(`${transactionHash}`);
console.log(``);
console.log(``);
harmony.blockchain
.getTransactionByHash({
txnHash: transactionHash,
})
.then((res) => {
console.log(`-- hint: we got transaction detail`);
console.log(``);
console.log(res);
console.log(``);
console.log(``);
});
})
// when we get receipt, it will emmit
.on('receipt', (receipt) => {
console.log(`-- hint: we got transaction receipt`);
console.log(``);
console.log(receipt);
console.log(``);
console.log(``);
})
// the http and websocket provider will be poll result and try get confirmation from time to time.
// when `confirmation` comes in, it will be emitted
.on('confirmation', (confirmation) => {
console.log(`-- hint: the transaction is`);
console.log(``);
console.log(confirmation);
console.log(``);
console.log(``);
})
// if something wrong happens, the error will be emitted
.on('error', (error) => {
console.log(`-- hint: something wrong happens`);
console.log(``);
console.log(error);
console.log(``);
console.log(``);
});
return deployed;
};
// now we call our deploy contract function
deployContract().then((deployed) => {
// after the contract is deployed ,we can get contract information
// first we can get the contract Code
harmony.blockchain.getCode({ address: deployed.address }).then((res) => {
if (res.result) {
console.log(`--hint: contract :${deployed.address}--`);
console.log(``);
console.log(`${res.result}`);
console.log(``);
console.log(``);
console.log(toUtf8String(res.result));
deployed.methods
.myFunction()
.call()
.then((result) => {
console.log(`--hint: we got contract called, this is result`);
console.log(``);
console.log(result);
console.log(``);
console.log(``);
});
}
});
});