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ERC-721 Non-Fungible Token Standard

Laatst bewerkt: @corwintines(opens in a new tab), 19 november 2023

Introduction

What is a Non-Fungible Token?

A Non-Fungible Token (NFT) is used to identify something or someone in a unique way. This type of Token is perfect to be used on platforms that offer collectible items, access keys, lottery tickets, numbered seats for concerts and sports matches, etc. This special type of Token has amazing possibilities so it deserves a proper Standard, the ERC-721 came to solve that!

What is ERC-721?

The ERC-721 introduces a standard for NFT, in other words, this type of Token is unique and can have different value than another Token from the same Smart Contract, maybe due to its age, rarity or even something else like its visual. Wait, visual?

Yes! All NFTs have a uint256 variable called tokenId, so for any ERC-721 Contract, the pair contract address, uint256 tokenId must be globally unique. That said, a dapp can have a "converter" that uses the tokenId as input and outputs an image of something cool, like zombies, weapons, skills or amazing kitties!

Prerequisites

  • Accounts
  • Smart Contracts
  • Token standards

Body

The ERC-721 (Ethereum Request for Comments 721), proposed by William Entriken, Dieter Shirley, Jacob Evans, Nastassia Sachs in January 2018, is a Non-Fungible Token Standard that implements an API for tokens within Smart Contracts.

It provides functionalities like to transfer tokens from one account to another, to get the current token balance of an account, to get the owner of a specific token and also the total supply of the token available on the network. Besides these it also has some other functionalities like to approve that an amount of token from an account can be moved by a third party account.

If a Smart Contract implements the following methods and events it can be called an ERC-721 Non-Fungible Token Contract and, once deployed, it will be responsible to keep track of the created tokens on Ethereum.

From EIP-721(opens in a new tab):

Methods

1 function balanceOf(address _owner) external view returns (uint256);
2 function ownerOf(uint256 _tokenId) external view returns (address);
3 function safeTransferFrom(address _from, address _to, uint256 _tokenId, bytes data) external payable;
4 function safeTransferFrom(address _from, address _to, uint256 _tokenId) external payable;
5 function transferFrom(address _from, address _to, uint256 _tokenId) external payable;
6 function approve(address _approved, uint256 _tokenId) external payable;
7 function setApprovalForAll(address _operator, bool _approved) external;
8 function getApproved(uint256 _tokenId) external view returns (address);
9 function isApprovedForAll(address _owner, address _operator) external view returns (bool);
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Events

1 event Transfer(address indexed _from, address indexed _to, uint256 indexed _tokenId);
2 event Approval(address indexed _owner, address indexed _approved, uint256 indexed _tokenId);
3 event ApprovalForAll(address indexed _owner, address indexed _operator, bool _approved);
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Examples

Let's see how a Standard is so important to make things simple for us to inspect any ERC-721 Token Contract on Ethereum. We just need the Contract Application Binary Interface (ABI) to create an interface to any ERC-721 Token. As you can see below we will use a simplified ABI, to make it a low friction example.

Web3.py Example

First, make sure you have installed Web3.py(opens in a new tab) Python library:

1pip install web3
1from web3 import Web3
2from web3._utils.events import get_event_data
3
4
5w3 = Web3(Web3.HTTPProvider("https://cloudflare-eth.com"))
6
7ck_token_addr = "0x06012c8cf97BEaD5deAe237070F9587f8E7A266d" # CryptoKitties Contract
8
9acc_address = "0xb1690C08E213a35Ed9bAb7B318DE14420FB57d8C" # CryptoKitties Sales Auction
10
11# This is a simplified Contract Application Binary Interface (ABI) of an ERC-721 NFT Contract.
12# It will expose only the methods: balanceOf(address), name(), ownerOf(tokenId), symbol(), totalSupply()
13simplified_abi = [
14 {
15 'inputs': [{'internalType': 'address', 'name': 'owner', 'type': 'address'}],
16 'name': 'balanceOf',
17 'outputs': [{'internalType': 'uint256', 'name': '', 'type': 'uint256'}],
18 'payable': False, 'stateMutability': 'view', 'type': 'function', 'constant': True
19 },
20 {
21 'inputs': [],
22 'name': 'name',
23 'outputs': [{'internalType': 'string', 'name': '', 'type': 'string'}],
24 'stateMutability': 'view', 'type': 'function', 'constant': True
25 },
26 {
27 'inputs': [{'internalType': 'uint256', 'name': 'tokenId', 'type': 'uint256'}],
28 'name': 'ownerOf',
29 'outputs': [{'internalType': 'address', 'name': '', 'type': 'address'}],
30 'payable': False, 'stateMutability': 'view', 'type': 'function', 'constant': True
31 },
32 {
33 'inputs': [],
34 'name': 'symbol',
35 'outputs': [{'internalType': 'string', 'name': '', 'type': 'string'}],
36 'stateMutability': 'view', 'type': 'function', 'constant': True
37 },
38 {
39 'inputs': [],
40 'name': 'totalSupply',
41 'outputs': [{'internalType': 'uint256', 'name': '', 'type': 'uint256'}],
42 'stateMutability': 'view', 'type': 'function', 'constant': True
43 },
44]
45
46ck_extra_abi = [
47 {
48 'inputs': [],
49 'name': 'pregnantKitties',
50 'outputs': [{'name': '', 'type': 'uint256'}],
51 'payable': False, 'stateMutability': 'view', 'type': 'function', 'constant': True
52 },
53 {
54 'inputs': [{'name': '_kittyId', 'type': 'uint256'}],
55 'name': 'isPregnant',
56 'outputs': [{'name': '', 'type': 'bool'}],
57 'payable': False, 'stateMutability': 'view', 'type': 'function', 'constant': True
58 }
59]
60
61ck_contract = w3.eth.contract(address=w3.to_checksum_address(ck_token_addr), abi=simplified_abi+ck_extra_abi)
62name = ck_contract.functions.name().call()
63symbol = ck_contract.functions.symbol().call()
64kitties_auctions = ck_contract.functions.balanceOf(acc_address).call()
65print(f"{name} [{symbol}] NFTs in Auctions: {kitties_auctions}")
66
67pregnant_kitties = ck_contract.functions.pregnantKitties().call()
68print(f"{name} [{symbol}] NFTs Pregnants: {pregnant_kitties}")
69
70# Using the Transfer Event ABI to get info about transferred Kitties.
71tx_event_abi = {
72 'anonymous': False,
73 'inputs': [
74 {'indexed': False, 'name': 'from', 'type': 'address'},
75 {'indexed': False, 'name': 'to', 'type': 'address'},
76 {'indexed': False, 'name': 'tokenId', 'type': 'uint256'}],
77 'name': 'Transfer',
78 'type': 'event'
79}
80
81# We need the event's signature to filter the logs
82event_signature = w3.keccak(text="Transfer(address,address,uint256)").hex()
83
84logs = w3.eth.get_logs({
85 "fromBlock": w3.eth.block_number - 120,
86 "address": w3.to_checksum_address(ck_token_addr),
87 "topics": [event_signature]
88})
89
90# Notes:
91# - Increase the number of blocks up from 120 if no Transfer event is returned.
92# - If you didn't find any Transfer event you can also try to get a tokenId at:
93# https://etherscan.io/address/0x06012c8cf97BEaD5deAe237070F9587f8E7A266d#events
94# Click to expand the event's logs and copy its "tokenId" argument
95recent_tx = [get_event_data(w3.codec, tx_event_abi, log)["args"] for log in logs]
96
97if recent_tx:
98 kitty_id = recent_tx[0]['tokenId'] # Paste the "tokenId" here from the link above
99 is_pregnant = ck_contract.functions.isPregnant(kitty_id).call()
100 print(f"{name} [{symbol}] NFTs {kitty_id} is pregnant: {is_pregnant}")
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CryptoKitties Contract has some interesting Events other than the Standard ones.

Let's check two of them, Pregnant and Birth.

1# Using the Pregnant and Birth Events ABI to get info about new Kitties.
2ck_extra_events_abi = [
3 {
4 'anonymous': False,
5 'inputs': [
6 {'indexed': False, 'name': 'owner', 'type': 'address'},
7 {'indexed': False, 'name': 'matronId', 'type': 'uint256'},
8 {'indexed': False, 'name': 'sireId', 'type': 'uint256'},
9 {'indexed': False, 'name': 'cooldownEndBlock', 'type': 'uint256'}],
10 'name': 'Pregnant',
11 'type': 'event'
12 },
13 {
14 'anonymous': False,
15 'inputs': [
16 {'indexed': False, 'name': 'owner', 'type': 'address'},
17 {'indexed': False, 'name': 'kittyId', 'type': 'uint256'},
18 {'indexed': False, 'name': 'matronId', 'type': 'uint256'},
19 {'indexed': False, 'name': 'sireId', 'type': 'uint256'},
20 {'indexed': False, 'name': 'genes', 'type': 'uint256'}],
21 'name': 'Birth',
22 'type': 'event'
23 }]
24
25# We need the event's signature to filter the logs
26ck_event_signatures = [
27 w3.keccak(text="Pregnant(address,uint256,uint256,uint256)").hex(),
28 w3.keccak(text="Birth(address,uint256,uint256,uint256,uint256)").hex(),
29]
30
31# Here is a Pregnant Event:
32# - https://etherscan.io/tx/0xc97eb514a41004acc447ac9d0d6a27ea6da305ac8b877dff37e49db42e1f8cef#eventlog
33pregnant_logs = w3.eth.get_logs({
34 "fromBlock": w3.eth.block_number - 120,
35 "address": w3.to_checksum_address(ck_token_addr),
36 "topics": [ck_event_signatures[0]]
37})
38
39recent_pregnants = [get_event_data(w3.codec, ck_extra_events_abi[0], log)["args"] for log in pregnant_logs]
40
41# Here is a Birth Event:
42# - https://etherscan.io/tx/0x3978028e08a25bb4c44f7877eb3573b9644309c044bf087e335397f16356340a
43birth_logs = w3.eth.get_logs({
44 "fromBlock": w3.eth.block_number - 120,
45 "address": w3.to_checksum_address(ck_token_addr),
46 "topics": [ck_event_signatures[1]]
47})
48
49recent_births = [get_event_data(w3.codec, ck_extra_events_abi[1], log)["args"] for log in birth_logs]
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Further reading

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