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981 lines
33 KiB
Markdown
981 lines
33 KiB
Markdown
---
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language: Solidity
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filename: learnSolidity.sol
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contributors:
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- ["Nemil Dalal", "https://www.nemil.com"]
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- ["Joseph Chow", ""]
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- ["Bhoomtawath Plinsut", "https://github.com/varshard"]
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- ["Shooter", "https://github.com/liushooter"]
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- ["Patrick Collins", "https://gist.github.com/PatrickAlphaC"]
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---
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Solidity lets you program on [Ethereum](https://www.ethereum.org/), a
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blockchain-based virtual machine that allows the creation and
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execution of smart contracts, without requiring centralized or trusted parties.
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Solidity is a statically typed, contract programming language that has
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similarities to Javascript and C. Like objects in OOP, each contract contains
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state variables, functions, and common data types. Contract-specific features
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include modifier (guard) clauses, event notifiers for listeners, and custom
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global variables.
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Some Ethereum contract examples include crowdfunding, voting, [decentralized finance](https://defipulse.com/), and blind auctions.
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There is a high risk and high cost of errors in Solidity code, so you must be very careful to test
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and slowly rollout. WITH THE RAPID CHANGES IN ETHEREUM, THIS DOCUMENT IS UNLIKELY TO STAY UP TO
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DATE, SO YOU SHOULD FOLLOW THE SOLIDITY CHAT ROOM AND ETHEREUM BLOG FOR THE LATEST. ALL CODE HERE IS
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PROVIDED AS IS, WITH SUBSTANTIAL RISK OF ERRORS OR DEPRECATED CODE PATTERNS.
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Unlike other code, you may also need to add in design patterns like pausing, deprecation, and
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throttling usage to reduce risk. This document primarily discusses syntax, and so excludes many
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popular design patterns.
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As Solidity and Ethereum are under active development, experimental or beta
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features are typically marked, and subject to change. Pull requests welcome.
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# Working with Remix and Metamask
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One of the easiest ways to build, deploy, and test solidity code is by using the:
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1. [Remix Web IDE](https://remix.ethereum.org/)
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2. [Metamask wallet](https://metamask.io/).
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To get started, [download the Metamask Browser Extension](https://metamask.io/).
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Once installed, we will be working with Remix. The below code will be pre-loaded, but before we head over there, let's look at a few tips to get started with remix. Load it all by [hitting this link](https://remix.ethereum.org/#version=soljson-v0.6.6+commit.6c089d02.js&optimize=false&evmVersion=null&gist=f490c0d51141dd0515244db40bbd0c17&runs=200).
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1. Choose the Solidity compiler
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![Solidity-in-remix](images/solidity/remix-solidity.png)
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2. Open the file loaded by that link
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![Solidity-choose-file](images/solidity/remix-choose-file.png)
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3. Compile the file
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![Solidity-compile](images/solidity/remix-compile.png)
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4. Deploy
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![Solidity-deploy](images/solidity/remix-deploy.png)
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5. Play with contracts
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![Solidity-deploy](images/solidity/remix-interact.png)
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You've deployed your first contract! Congrats!
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You can test out and play with the functions defined. Check out the comments to learn about what each does.
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## Working on a testnet
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Deploying and testing on a testnet is the most accurate way to test your smart contracts in solidity.
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To do this let's first get some testnet ETH from the Kovan testnet.
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[Pop into this Gitter Channel](https://gitter.im/kovan-testnet/faucet) and drop your metamask address in.
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In your metamask, you'll want to change to the `Kovan` testnet.
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![Solidity-in-remix](images/solidity/metamask-kovan.png)
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You'll be given some free test Ethereum. Ethereum is needed to deploy smart contracts when working with a testnet.
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In the previous example, we didn't use a testnet, we deployed to a fake virtual environment.
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When working with a testnet, we can actually see and interact with our contracts in a persistent manner.
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To deploy to a testnet, on the `#4 Deploy` step, change your `environment` to `injected web3`.
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This will use whatever network is currently selected in your metamask as the network to deploy to.
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![Solidity-in-remix](images/solidity/remix-testnet.png)
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For now, please continue to use the `Javascript VM` unless instructed otherwise. When you deploy to a testnet, metamask will pop up to ask you to "confirm" the transaction. Hit yes, and after a delay, you'll get the same contract interface at the bottom of your screen.
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```javascript
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// First, a simple Bank contract
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// Allows deposits, withdrawals, and balance checks
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// simple_bank.sol (note .sol extension)
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/* **** START EXAMPLE **** */
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// Declare the source file compiler version
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pragma solidity ^0.6.6;
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// Start with Natspec comment (the three slashes)
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// used for documentation - and as descriptive data for UI elements/actions
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/// @title SimpleBank
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/// @author nemild
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/* 'contract' has similarities to 'class' in other languages (class variables,
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inheritance, etc.) */
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contract SimpleBank { // CapWords
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// Declare state variables outside function, persist through life of contract
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// dictionary that maps addresses to balances
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// always be careful about overflow attacks with numbers
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mapping (address => uint) private balances;
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// "private" means that other contracts can't directly query balances
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// but data is still viewable to other parties on blockchain
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address public owner;
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// 'public' makes externally readable (not writeable) by users or contracts
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// Events - publicize actions to external listeners
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event LogDepositMade(address accountAddress, uint amount);
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// Constructor, can receive one or many variables here; only one allowed
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constructor() public {
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// msg provides details about the message that's sent to the contract
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// msg.sender is contract caller (address of contract creator)
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owner = msg.sender;
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}
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/// @notice Deposit ether into bank
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/// @return The balance of the user after the deposit is made
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function deposit() public payable returns (uint) {
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// Use 'require' to test user inputs, 'assert' for internal invariants
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// Here we are making sure that there isn't an overflow issue
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require((balances[msg.sender] + msg.value) >= balances[msg.sender]);
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balances[msg.sender] += msg.value;
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// no "this." or "self." required with state variable
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// all values set to data type's initial value by default
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emit LogDepositMade(msg.sender, msg.value); // fire event
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return balances[msg.sender];
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}
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/// @notice Withdraw ether from bank
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/// @dev This does not return any excess ether sent to it
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/// @param withdrawAmount amount you want to withdraw
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/// @return remainingBal
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function withdraw(uint withdrawAmount) public returns (uint remainingBal) {
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require(withdrawAmount <= balances[msg.sender]);
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// Note the way we deduct the balance right away, before sending
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// Every .transfer/.send from this contract can call an external function
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// This may allow the caller to request an amount greater
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// than their balance using a recursive call
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// Aim to commit state before calling external functions, including .transfer/.send
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balances[msg.sender] -= withdrawAmount;
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// this automatically throws on a failure, which means the updated balance is reverted
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msg.sender.transfer(withdrawAmount);
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return balances[msg.sender];
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}
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/// @notice Get balance
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/// @return The balance of the user
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// 'view' (ex: constant) prevents function from editing state variables;
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// allows function to run locally/off blockchain
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function balance() view public returns (uint) {
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return balances[msg.sender];
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}
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}
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// ** END EXAMPLE **
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// Now, the basics of Solidity
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// 1. DATA TYPES AND ASSOCIATED METHODS
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// uint used for currency amount (there are no doubles
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// or floats) and for dates (in unix time)
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uint x;
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// int of 256 bits, cannot be changed after instantiation
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int constant a = 8;
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int256 constant a = 8; // same effect as line above, here the 256 is explicit
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uint constant VERSION_ID = 0x123A1; // A hex constant
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// with 'constant', compiler replaces each occurrence with actual value
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// All state variables (those outside a function)
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// are by default 'internal' and accessible inside contract
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// and in all contracts that inherit ONLY
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// Need to explicitly set to 'public' to allow external contracts to access
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int256 public a = 8;
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// For int and uint, can explicitly set space in steps of 8 up to 256
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// e.g., int8, int16, int24
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uint8 b;
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int64 c;
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uint248 e;
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// Be careful that you don't overflow, and protect against attacks that do
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// For example, for an addition, you'd do:
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uint256 c = a + b;
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assert(c >= a); // assert tests for internal invariants; require is used for user inputs
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// For more examples of common arithmetic issues, see Zeppelin's SafeMath library
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// https://github.com/OpenZeppelin/zeppelin-solidity/blob/master/contracts/math/SafeMath.sol
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// No random functions built in, you can get a pseduo-random number by hashing the current blockhash, or get a truely random number using something like Chainlink VRF.
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// https://docs.chain.link/docs/get-a-random-number
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// Type casting
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int x = int(b);
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bool b = true; // or do 'var b = true;' for inferred typing
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// Addresses - holds 20 byte/160 bit Ethereum addresses
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// No arithmetic allowed
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address public owner;
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// Types of accounts:
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// Contract account: address set on create (func of creator address, num transactions sent)
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// External Account: (person/external entity): address created from public key
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// Add 'public' field to indicate publicly/externally accessible
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// a getter is automatically created, but NOT a setter
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// All addresses can be sent ether
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owner.transfer(SOME_BALANCE); // fails and reverts on failure
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// Can also do a lower level .send call, which returns a false if it failed
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if (owner.send) {} // REMEMBER: wrap send in 'if', as contract addresses have
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// functions executed on send and these can fail
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// Also, make sure to deduct balances BEFORE attempting a send, as there is a risk of a recursive
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// call that can drain the contract
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// Can check balance
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owner.balance; // the balance of the owner (user or contract)
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// Bytes available from 1 to 32
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byte a; // byte is same as bytes1
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bytes2 b;
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bytes32 c;
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// Dynamically sized bytes
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bytes m; // A special array, same as byte[] array (but packed tightly)
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// More expensive than byte1-byte32, so use those when possible
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// same as bytes, but does not allow length or index access (for now)
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string n = "hello"; // stored in UTF8, note double quotes, not single
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// string utility functions to be added in future
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// prefer bytes32/bytes, as UTF8 uses more storage
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// Type inference
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// var does inferred typing based on first assignment,
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// can't be used in functions parameters
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var a = true;
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// use carefully, inference may provide wrong type
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// e.g., an int8, when a counter needs to be int16
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// var can be used to assign function to variable
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function a(uint x) returns (uint) {
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return x * 2;
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}
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var f = a;
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f(22); // call
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// by default, all values are set to 0 on instantiation
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// Delete can be called on most types
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// (does NOT destroy value, but sets value to 0, the initial value)
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uint x = 5;
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// Destructuring/Tuples
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(x, y) = (2, 7); // assign/swap multiple values
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// 2. DATA STRUCTURES
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// Arrays
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bytes32[5] nicknames; // static array
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bytes32[] names; // dynamic array
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uint newLength = names.push("John"); // adding returns new length of the array
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// Length
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names.length; // get length
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names.length = 1; // lengths can be set (for dynamic arrays in storage only)
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// multidimensional array
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uint[][5] x; // arr with 5 dynamic array elements (opp order of most languages)
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// Dictionaries (any type to any other type)
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mapping (string => uint) public balances;
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balances["charles"] = 1;
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// balances["ada"] result is 0, all non-set key values return zeroes
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// 'public' allows following from another contract
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contractName.balances("charles"); // returns 1
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// 'public' created a getter (but not setter) like the following:
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function balances(string _account) returns (uint balance) {
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return balances[_account];
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}
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// Nested mappings
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mapping (address => mapping (address => uint)) public custodians;
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// To delete
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delete balances["John"];
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delete balances; // sets all elements to 0
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// Unlike other languages, CANNOT iterate through all elements in
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// mapping, without knowing source keys - can build data structure
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// on top to do this
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// Structs
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struct Bank {
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address owner;
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uint balance;
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}
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Bank b = Bank({
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owner: msg.sender,
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balance: 5
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});
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// or
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Bank c = Bank(msg.sender, 5);
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c.balance = 5; // set to new value
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delete b;
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// sets to initial value, set all variables in struct to 0, except mappings
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// Enums
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enum State { Created, Locked, Inactive }; // often used for state machine
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State public state; // Declare variable from enum
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state = State.Created;
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// enums can be explicitly converted to ints
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uint createdState = uint(State.Created); // 0
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// Data locations: Memory vs. storage vs. calldata - all complex types (arrays,
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// structs) have a data location
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// 'memory' does not persist, 'storage' does
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// Default is 'storage' for local and state variables; 'memory' for func params
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// stack holds small local variables
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// for most types, can explicitly set which data location to use
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// 3. Simple operators
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// Comparisons, bit operators and arithmetic operators are provided
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// exponentiation: **
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// exclusive or: ^
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// bitwise negation: ~
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// 4. Global Variables of note
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// ** this **
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this; // address of contract
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// often used at end of contract life to transfer remaining balance to party
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this.balance;
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this.someFunction(); // calls func externally via call, not via internal jump
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// ** msg - Current message received by the contract ** **
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msg.sender; // address of sender
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msg.value; // amount of ether provided to this contract in wei, the function should be marked "payable"
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msg.data; // bytes, complete call data
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msg.gas; // remaining gas
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// ** tx - This transaction **
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tx.origin; // address of sender of the transaction
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tx.gasprice; // gas price of the transaction
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// ** block - Information about current block **
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now; // current time (approximately), alias for block.timestamp (uses Unix time)
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// Note that this can be manipulated by miners, so use carefully
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block.number; // current block number
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block.difficulty; // current block difficulty
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block.blockhash(1); // returns bytes32, only works for most recent 256 blocks
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block.gasLimit();
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// ** storage - Persistent storage hash **
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storage['abc'] = 'def'; // maps 256 bit words to 256 bit words
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// 4. FUNCTIONS AND MORE
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// A. Functions
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// Simple function
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function increment(uint x) returns (uint) {
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x += 1;
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return x;
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}
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// Functions can return many arguments, and by specifying returned arguments
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// name don't need to explicitly return
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function increment(uint x, uint y) returns (uint x, uint y) {
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x += 1;
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y += 1;
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}
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// Call previous functon
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uint (a,b) = increment(1,1);
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// 'view' (alias for 'constant')
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// indicates that function does not/cannot change persistent vars
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// View function execute locally, not on blockchain
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// Noted: constant keyword will soon be deprecated.
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uint y = 1;
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function increment(uint x) view returns (uint x) {
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x += 1;
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y += 1; // this line would fail
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// y is a state variable, and can't be changed in a view function
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}
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// 'pure' is more strict than 'view' or 'constant', and does not
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// even allow reading of state vars
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// The exact rules are more complicated, so see more about
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// view/pure:
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// http://solidity.readthedocs.io/en/develop/contracts.html#view-functions
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// 'Function Visibility specifiers'
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// These can be placed where 'view' is, including:
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// public - visible externally and internally (default for function)
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// external - only visible externally (including a call made with this.)
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// private - only visible in the current contract
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// internal - only visible in current contract, and those deriving from it
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// Generally, a good idea to mark each function explicitly
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// Functions hoisted - and can assign a function to a variable
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function a() {
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var z = b;
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b();
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}
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function b() {
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}
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// All functions that receive ether must be marked 'payable'
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function depositEther() public payable {
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balances[msg.sender] += msg.value;
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}
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// Prefer loops to recursion (max call stack depth is 1024)
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// Also, don't setup loops that you haven't bounded,
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// as this can hit the gas limit
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// B. Events
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// Events are notify external parties; easy to search and
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// access events from outside blockchain (with lightweight clients)
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// typically declare after contract parameters
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// Typically, capitalized - and add Log in front to be explicit and prevent confusion
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// with a function call
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// Declare
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event LogSent(address indexed from, address indexed to, uint amount); // note capital first letter
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// Call
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LogSent(from, to, amount);
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/**
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For an external party (a contract or external entity), to watch using
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the Web3 Javascript library:
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// The following is Javascript code, not Solidity code
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Coin.LogSent().watch({}, '', function(error, result) {
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if (!error) {
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console.log("Coin transfer: " + result.args.amount +
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" coins were sent from " + result.args.from +
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" to " + result.args.to + ".");
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console.log("Balances now:\n" +
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"Sender: " + Coin.balances.call(result.args.from) +
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"Receiver: " + Coin.balances.call(result.args.to));
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}
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}
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**/
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// Common paradigm for one contract to depend on another (e.g., a
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// contract that depends on current exchange rate provided by another)
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// C. Modifiers
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// Modifiers validate inputs to functions such as minimal balance or user auth;
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// similar to guard clause in other languages
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// '_' (underscore) often included as last line in body, and indicates
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// function being called should be placed there
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modifier onlyAfter(uint _time) { require (now >= _time); _; }
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modifier onlyOwner { require(msg.sender == owner) _; }
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// commonly used with state machines
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modifier onlyIfStateA (State currState) { require(currState == State.A) _; }
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// Append right after function declaration
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function changeOwner(newOwner)
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onlyAfter(someTime)
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onlyOwner()
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onlyIfState(State.A)
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{
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owner = newOwner;
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}
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// underscore can be included before end of body,
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// but explicitly returning will skip, so use carefully
|
|
modifier checkValue(uint amount) {
|
|
_;
|
|
if (msg.value > amount) {
|
|
uint amountToRefund = amount - msg.value;
|
|
msg.sender.transfer(amountToRefund);
|
|
}
|
|
}
|
|
|
|
|
|
// 6. BRANCHING AND LOOPS
|
|
|
|
// All basic logic blocks work - including if/else, for, while, break, continue
|
|
// return - but no switch
|
|
|
|
// Syntax same as javascript, but no type conversion from non-boolean
|
|
// to boolean (comparison operators must be used to get the boolean val)
|
|
|
|
// For loops that are determined by user behavior, be careful - as contracts have a maximal
|
|
// amount of gas for a block of code - and will fail if that is exceeded
|
|
// For example:
|
|
for(uint x = 0; x < refundAddressList.length; x++) {
|
|
refundAddressList[x].transfer(SOME_AMOUNT);
|
|
}
|
|
|
|
// Two errors above:
|
|
// 1. A failure on transfer stops the loop from completing, tying up money
|
|
// 2. This loop could be arbitrarily long (based on the amount of users who need refunds), and
|
|
// therefore may always fail as it exceeds the max gas for a block
|
|
// Instead, you should let people withdraw individually from their subaccount, and mark withdrawn
|
|
// e.g., favor pull payments over push payments
|
|
|
|
|
|
// 7. OBJECTS/CONTRACTS
|
|
|
|
// A. Calling external contract
|
|
contract InfoFeed {
|
|
function info() payable returns (uint ret) { return 42; }
|
|
}
|
|
|
|
contract Consumer {
|
|
InfoFeed feed; // points to contract on blockchain
|
|
|
|
// Set feed to existing contract instance
|
|
function setFeed(address addr) {
|
|
// automatically cast, be careful; constructor is not called
|
|
feed = InfoFeed(addr);
|
|
}
|
|
|
|
// Set feed to new instance of contract
|
|
function createNewFeed() {
|
|
feed = new InfoFeed(); // new instance created; constructor called
|
|
}
|
|
|
|
function callFeed() {
|
|
// final parentheses call contract, can optionally add
|
|
// custom ether value or gas
|
|
feed.info.value(10).gas(800)();
|
|
}
|
|
}
|
|
|
|
// B. Inheritance
|
|
|
|
// Order matters, last inherited contract (i.e., 'def') can override parts of
|
|
// previously inherited contracts
|
|
contract MyContract is abc, def("a custom argument to def") {
|
|
|
|
// Override function
|
|
function z() {
|
|
if (msg.sender == owner) {
|
|
def.z(); // call overridden function from def
|
|
super.z(); // call immediate parent overridden function
|
|
}
|
|
}
|
|
}
|
|
|
|
// abstract function
|
|
function someAbstractFunction(uint x);
|
|
// cannot be compiled, so used in base/abstract contracts
|
|
// that are then implemented
|
|
|
|
// C. Import
|
|
|
|
import "filename";
|
|
import "github.com/ethereum/dapp-bin/library/iterable_mapping.sol";
|
|
|
|
|
|
// 8. OTHER KEYWORDS
|
|
|
|
// A. Selfdestruct
|
|
// selfdestruct current contract, sending funds to address (often creator)
|
|
selfdestruct(SOME_ADDRESS);
|
|
|
|
// removes storage/code from current/future blocks
|
|
// helps thin clients, but previous data persists in blockchain
|
|
|
|
// Common pattern, lets owner end the contract and receive remaining funds
|
|
function remove() {
|
|
if(msg.sender == creator) { // Only let the contract creator do this
|
|
selfdestruct(creator); // Makes contract inactive, returns funds
|
|
}
|
|
}
|
|
|
|
// May want to deactivate contract manually, rather than selfdestruct
|
|
// (ether sent to selfdestructed contract is lost)
|
|
|
|
|
|
// 9. CONTRACT DESIGN NOTES
|
|
|
|
// A. Obfuscation
|
|
// All variables are publicly viewable on blockchain, so anything
|
|
// that is private needs to be obfuscated (e.g., hashed w/secret)
|
|
|
|
// Steps: 1. Commit to something, 2. Reveal commitment
|
|
keccak256("some_bid_amount", "some secret"); // commit
|
|
|
|
// call contract's reveal function in the future
|
|
// showing bid plus secret that hashes to SHA3
|
|
reveal(100, "mySecret");
|
|
|
|
// B. Storage optimization
|
|
// Writing to blockchain can be expensive, as data stored forever; encourages
|
|
// smart ways to use memory (eventually, compilation will be better, but for now
|
|
// benefits to planning data structures - and storing min amount in blockchain)
|
|
|
|
// Cost can often be high for items like multidimensional arrays
|
|
// (cost is for storing data - not declaring unfilled variables)
|
|
|
|
// C. Data access in blockchain
|
|
// Cannot restrict human or computer from reading contents of
|
|
// transaction or transaction's state
|
|
|
|
// While 'private' prevents other *contracts* from reading data
|
|
// directly - any other party can still read data in blockchain
|
|
|
|
// All data to start of time is stored in blockchain, so
|
|
// anyone can observe all previous data and changes
|
|
|
|
// E. Oracles and External Data
|
|
// Oracles are ways to interact with your smart contracts outside the blockchain.
|
|
// They are used to get data from the real world, send post requests, to the real world
|
|
// or vise versa.
|
|
|
|
// Time-based implementations of contracts are also done through oracles, as
|
|
// contracts need to be directly called and can not "subscribe" to a time.
|
|
// Due to smart contracts being decentralized, you also want to get your data
|
|
// in a decentralized manner, other your run into the centralized risk that
|
|
// smart contract design matter prevents.
|
|
|
|
// To easiest way get and use pre-boxed decentralized data is with Chainlink Data Feeds
|
|
// https://docs.chain.link/docs/get-the-latest-price
|
|
// We can reference on-chain reference points that have already been aggregated by
|
|
// multiple sources and delivered on-chain, and we can use it as a "data bank"
|
|
// of sources.
|
|
|
|
// You can see other examples making API calls here:
|
|
// https://docs.chain.link/docs/make-a-http-get-request
|
|
|
|
// And you can of course build your own oracle network, just be sure to know
|
|
// how centralized vs decentralized your application is.
|
|
|
|
// Setting up oracle networks yourself
|
|
|
|
// D. Cron Job
|
|
// Contracts must be manually called to handle time-based scheduling; can create external
|
|
// code to regularly ping, or provide incentives (ether) for others to
|
|
//
|
|
|
|
// E. Observer Pattern
|
|
// An Observer Pattern lets you register as a subscriber and
|
|
// register a function which is called by the oracle (note, the oracle pays
|
|
// for this action to be run)
|
|
// Some similarities to subscription in Pub/sub
|
|
|
|
// This is an abstract contract, both client and server classes import
|
|
// the client should implement
|
|
contract SomeOracleCallback {
|
|
function oracleCallback(int _value, uint _time, bytes32 info) external;
|
|
}
|
|
|
|
contract SomeOracle {
|
|
SomeOracleCallback[] callbacks; // array of all subscribers
|
|
|
|
// Register subscriber
|
|
function addSubscriber(SomeOracleCallback a) {
|
|
callbacks.push(a);
|
|
}
|
|
|
|
function notify(value, time, info) private {
|
|
for(uint i = 0;i < callbacks.length; i++) {
|
|
// all called subscribers must implement the oracleCallback
|
|
callbacks[i].oracleCallback(value, time, info);
|
|
}
|
|
}
|
|
|
|
function doSomething() public {
|
|
// Code to do something
|
|
|
|
// Notify all subscribers
|
|
notify(_value, _time, _info);
|
|
}
|
|
}
|
|
|
|
// Now, your client contract can addSubscriber by importing SomeOracleCallback
|
|
// and registering with Some Oracle
|
|
|
|
// F. State machines
|
|
// see example below for State enum and inState modifier
|
|
```
|
|
|
|
Work with the full example below using the [`Javascript VM` in remix here.](https://remix.ethereum.org/#version=soljson-v0.6.6+commit.6c089d02.js&optimize=false&evmVersion=null&gist=3d12cd503dcedfcdd715ef61f786be0b&runs=200)
|
|
|
|
```javascript
|
|
// *** EXAMPLE: A crowdfunding example (broadly similar to Kickstarter) ***
|
|
// ** START EXAMPLE **
|
|
|
|
// CrowdFunder.sol
|
|
pragma solidity ^0.6.6;
|
|
|
|
/// @title CrowdFunder
|
|
/// @author nemild
|
|
contract CrowdFunder {
|
|
// Variables set on create by creator
|
|
address public creator;
|
|
address payable public fundRecipient; // creator may be different than recipient, and must be payable
|
|
uint public minimumToRaise; // required to tip, else everyone gets refund
|
|
string campaignUrl;
|
|
byte version = "1";
|
|
|
|
// Data structures
|
|
enum State {
|
|
Fundraising,
|
|
ExpiredRefund,
|
|
Successful
|
|
}
|
|
struct Contribution {
|
|
uint amount;
|
|
address payable contributor;
|
|
}
|
|
|
|
// State variables
|
|
State public state = State.Fundraising; // initialize on create
|
|
uint public totalRaised;
|
|
uint public raiseBy;
|
|
uint public completeAt;
|
|
Contribution[] contributions;
|
|
|
|
event LogFundingReceived(address addr, uint amount, uint currentTotal);
|
|
event LogWinnerPaid(address winnerAddress);
|
|
|
|
modifier inState(State _state) {
|
|
require(state == _state);
|
|
_;
|
|
}
|
|
|
|
modifier isCreator() {
|
|
require(msg.sender == creator);
|
|
_;
|
|
}
|
|
|
|
// Wait 24 weeks after final contract state before allowing contract destruction
|
|
modifier atEndOfLifecycle() {
|
|
require(((state == State.ExpiredRefund || state == State.Successful) &&
|
|
completeAt + 24 weeks < now));
|
|
_;
|
|
}
|
|
|
|
function crowdFund(
|
|
uint timeInHoursForFundraising,
|
|
string memory _campaignUrl,
|
|
address payable _fundRecipient,
|
|
uint _minimumToRaise)
|
|
public
|
|
{
|
|
creator = msg.sender;
|
|
fundRecipient = _fundRecipient;
|
|
campaignUrl = _campaignUrl;
|
|
minimumToRaise = _minimumToRaise;
|
|
raiseBy = now + (timeInHoursForFundraising * 1 hours);
|
|
}
|
|
|
|
function contribute()
|
|
public
|
|
payable
|
|
inState(State.Fundraising)
|
|
returns(uint256 id)
|
|
{
|
|
contributions.push(
|
|
Contribution({
|
|
amount: msg.value,
|
|
contributor: msg.sender
|
|
}) // use array, so can iterate
|
|
);
|
|
totalRaised += msg.value;
|
|
|
|
emit LogFundingReceived(msg.sender, msg.value, totalRaised);
|
|
|
|
checkIfFundingCompleteOrExpired();
|
|
return contributions.length - 1; // return id
|
|
}
|
|
|
|
function checkIfFundingCompleteOrExpired()
|
|
public
|
|
{
|
|
if (totalRaised > minimumToRaise) {
|
|
state = State.Successful;
|
|
payOut();
|
|
|
|
// could incentivize sender who initiated state change here
|
|
} else if ( now > raiseBy ) {
|
|
state = State.ExpiredRefund; // backers can now collect refunds by calling getRefund(id)
|
|
}
|
|
completeAt = now;
|
|
}
|
|
|
|
function payOut()
|
|
public
|
|
inState(State.Successful)
|
|
{
|
|
fundRecipient.transfer(address(this).balance);
|
|
LogWinnerPaid(fundRecipient);
|
|
}
|
|
|
|
function getRefund(uint256 id)
|
|
inState(State.ExpiredRefund)
|
|
public
|
|
returns(bool)
|
|
{
|
|
require(contributions.length > id && id >= 0 && contributions[id].amount != 0 );
|
|
|
|
uint256 amountToRefund = contributions[id].amount;
|
|
contributions[id].amount = 0;
|
|
|
|
contributions[id].contributor.transfer(amountToRefund);
|
|
|
|
return true;
|
|
}
|
|
|
|
function removeContract()
|
|
public
|
|
isCreator()
|
|
atEndOfLifecycle()
|
|
{
|
|
selfdestruct(msg.sender);
|
|
// creator gets all money that hasn't be claimed
|
|
}
|
|
}
|
|
// ** END EXAMPLE **
|
|
|
|
```
|
|
|
|
Some more functions.
|
|
|
|
```javascript
|
|
// 10. OTHER NATIVE FUNCTIONS
|
|
|
|
// Currency units
|
|
// Currency is defined using wei, smallest unit of Ether
|
|
uint minAmount = 1 wei;
|
|
uint a = 1 finney; // 1 ether == 1000 finney
|
|
// Other units, see: http://ether.fund/tool/converter
|
|
|
|
// Time units
|
|
1 == 1 second
|
|
1 minutes == 60 seconds
|
|
|
|
// Can multiply a variable times unit, as units are not stored in a variable
|
|
uint x = 5;
|
|
(x * 1 days); // 5 days
|
|
|
|
// Careful about leap seconds/years with equality statements for time
|
|
// (instead, prefer greater than/less than)
|
|
|
|
// Cryptography
|
|
// All strings passed are concatenated before hash action
|
|
sha3("ab", "cd");
|
|
ripemd160("abc");
|
|
sha256("def");
|
|
|
|
// 11. SECURITY
|
|
|
|
// Bugs can be disastrous in Ethereum contracts - and even popular patterns in Solidity,
|
|
// may be found to be antipatterns
|
|
|
|
// See security links at the end of this doc
|
|
|
|
// 12. LOW LEVEL FUNCTIONS
|
|
// call - low level, not often used, does not provide type safety
|
|
successBoolean = someContractAddress.call('function_name', 'arg1', 'arg2');
|
|
|
|
// callcode - Code at target address executed in *context* of calling contract
|
|
// provides library functionality
|
|
someContractAddress.callcode('function_name');
|
|
|
|
|
|
// 13. STYLE NOTES
|
|
// Based on Python's PEP8 style guide
|
|
// Full Style guide: http://solidity.readthedocs.io/en/develop/style-guide.html
|
|
|
|
// Quick summary:
|
|
// 4 spaces for indentation
|
|
// Two lines separate contract declarations (and other top level declarations)
|
|
// Avoid extraneous spaces in parentheses
|
|
// Can omit curly braces for one line statement (if, for, etc)
|
|
// else should be placed on own line
|
|
|
|
|
|
// 14. NATSPEC COMMENTS
|
|
// used for documentation, commenting, and external UIs
|
|
|
|
// Contract natspec - always above contract definition
|
|
/// @title Contract title
|
|
/// @author Author name
|
|
|
|
// Function natspec
|
|
/// @notice information about what function does; shown when function to execute
|
|
/// @dev Function documentation for developer
|
|
|
|
// Function parameter/return value natspec
|
|
/// @param someParam Some description of what the param does
|
|
/// @return Description of the return value
|
|
```
|
|
|
|
## Additional resources
|
|
- [Solidity Docs](https://solidity.readthedocs.org/en/latest/)
|
|
- [Chainlink Beginner Tutorials](https://docs.chain.link/docs/beginners-tutorial)
|
|
- [Smart Contract Best Practices](https://github.com/ConsenSys/smart-contract-best-practices)
|
|
- [Superblocks Lab - Browser based IDE for Solidity](https://lab.superblocks.com/)
|
|
- [EthFiddle - The JsFiddle for Solidity](https://ethfiddle.com/)
|
|
- [Browser-based Solidity Editor](https://remix.ethereum.org/)
|
|
- [Gitter Solidity Chat room](https://gitter.im/ethereum/solidity)
|
|
- [Modular design strategies for Ethereum Contracts](https://docs.erisindustries.com/tutorials/solidity/)
|
|
- [Chainlink Documentation](https://docs.chain.link/docs/getting-started)
|
|
|
|
## Smart Contract Development Frameworks
|
|
- [Hardhat](https://hardhat.org/)
|
|
- [Brownie](https://github.com/eth-brownie/brownie)
|
|
- [Truffle](https://www.trufflesuite.com/)
|
|
|
|
## Important libraries
|
|
- [Zeppelin](https://github.com/OpenZeppelin/openzeppelin-contracts): Libraries that provide common contract patterns (crowdfuding, safemath, etc)
|
|
- [Chainlink](https://github.com/smartcontractkit/chainlink): Code that allows you to interact with external data
|
|
|
|
## Sample contracts
|
|
- [Dapp Bin](https://github.com/ethereum/dapp-bin)
|
|
- [Defi Example](https://github.com/PatrickAlphaC/chainlink_defi)
|
|
- [Solidity Baby Step Contracts](https://github.com/fivedogit/solidity-baby-steps/tree/master/contracts)
|
|
- [ConsenSys Contracts](https://github.com/ConsenSys/dapp-store-contracts)
|
|
- [State of Dapps](http://dapps.ethercasts.com/)
|
|
|
|
## Security
|
|
- [Thinking About Smart Contract Security](https://blog.ethereum.org/2016/06/19/thinking-smart-contract-security/)
|
|
- [Smart Contract Security](https://blog.ethereum.org/2016/06/10/smart-contract-security/)
|
|
- [Hacking Distributed Blog](http://hackingdistributed.com/)
|
|
|
|
## Style
|
|
- [Solidity Style Guide](http://solidity.readthedocs.io/en/latest/style-guide.html): Ethereum's style guide is heavily derived from Python's [PEP 8](https://www.python.org/dev/peps/pep-0008/) style guide.
|
|
|
|
## Editors
|
|
- [Remix](https://remix.ethereum.org/)
|
|
- [Emacs Solidity Mode](https://github.com/ethereum/emacs-solidity)
|
|
- [Vim Solidity](https://github.com/tomlion/vim-solidity)
|
|
- Editor Snippets ([Ultisnips format](https://gist.github.com/nemild/98343ce6b16b747788bc))
|
|
|
|
## Future To Dos
|
|
- New keywords: protected, inheritable
|
|
- List of common design patterns (throttling, RNG, version upgrade)
|
|
- Common security anti patterns
|
|
|
|
Feel free to send a pull request with any edits - or email nemild -/at-/ gmail
|