Moonbeam is a smart contract parachain built on the Substrate framework, aiming to bridge the gap between the Ethereum and Polkadot ecosystems. Moonbeam offers developers a seamless channel to migrate their decentralized applications (DApps) from Ethereum to the Polkadot network, leveraging the high performance, low cost, and cross-chain capabilities of the Polkadot network.
According to data from NFTScan, as of January 20th, the Moonbeam network has accumulated a total of 1,340,776 NFT assets, 4,391 NFT collections, generated 3,618,635 interaction records, had 404,316 wallet addresses with interactions, and recorded a total trading volume of 950,974.06 GLMR.
Moonbeam NFTScan: https://moonbeam.nftscan.com/
Create an NFTScan Developer Account Before using the NFTScan API, you need to visit the developer’s website and create an account. Go to the NFTScan official website and click the “Sign Up” button for the NFTScan API to register.
https://developer.nftscan.com/user/signup
After logging in, find your unique API KEY on the Dashboard. Visit the API documentation and enter your API KEY in the appropriate location. Follow the instructions in the documentation to start using the API service. In the API documentation, developers can find various interface modes to choose from and select the most suitable one based on their needs.
In the Dashboard, developers can also view statistical data on their API usage, which helps track historical usage data. Additionally, NFTScan provides 1M CU of API call service to all registered developers for requesting all NFT API interfaces, and the CU never expires until it is used up!
Review the MoonbeamNFT API Documentation
After successfully registering a developer account and obtaining an API Key, you need to review the NFTScan API documentation. The API documentation contains all the available API endpoints and parameters, as well as detailed information on how to construct requests and handle responses. Read the API documentation carefully and ensure that you understand how to use the API to retrieve the data you need. The NFTScan API service is designed to help developers improve their experience of obtaining NFT data analysis.
NFTScan currently has the largest and most comprehensive NFT Collection library in the entire network. It supports full data of NFTs from Ethereum, Solana, BNBChain, Bitcoin, TON, Polygon, zkSync, Aptos, Linea, Base, Avalanche, Arbitrum, OP Mainnet, Starknet, Scroll, Viction, Fantom, Moonbeam, PlatON, Cronos, and Gnosis. It covers a wide range of NFT data and provides a set of interfaces to obtain ERC721 and ERC1155 assets, transactions, projects, market statistics, and more. It now supports over 60 public interfaces for EVM-compatible chains, as well as a set of interfaces for Solana, Aptos, Bitcoin, and TON with the same model, which largely meets the needs of developers to index various types of NFT data.
Moonbeam NFT API Models
These include the following three model interfaces, which provide an overall introduction and explanation of the core fields of these API models. This helps developers understand how to retrieve data and use this information to serve their own Dapp services.
Assets API: “Assets” are the most critical data fields in NFTs, used to uniquely identify and describe digital assets. Developers can extract the “Assets” data of NFTs on the Fantom blockchain to gain a comprehensive understanding and build related applications. The “Assets” object provides the unique identifier of the digital asset and data on its entire lifecycle, providing a foundation for developers to understand and apply NFTs.
Transactions API: The transaction model represents the full transaction data of an NFT asset on the blockchain, providing developers with complete transaction information for the lifecycle of an NFT. This includes minting, transfers, sales, and other transaction activities of NFTs, providing developers with opportunities to understand the flow and evolution of NFT assets in the Fantom ecosystem. NFTScan continuously aggregates the NFT trading market and related transaction contract information from various blockchain networks. Currently, NFTScan has collected dynamic NFT market tracking and understanding information, which also helps developers build NFT-based applications and tools.
Collections API: NFTScan retrieves off-chain data related to NFT collections, such as descriptions, social media, and other basic information, by leveraging popular NFT market APIs from various blockchain networks. Additionally, the current floor price information is based on centralized data from the NFT market and is accessible via API.
Moonbeam NFT API Retrieval
1/Retrieve Assets Series
- Get NFTs by account (Retrieve NFTs using a wallet address)
- Get all NFTs by account (Retrieve all NFTs associated with a wallet address and group them by contract address. If the total number of NFTs owned by the account exceeds 2000, the returned NFTs will be limited to 2000 or less. In such cases, developers and users can use pagination queries to retrieve all NFTs owned by the account.)
- Get minted NFTs by account (Retrieve NFTs minted by a specific wallet address)
- Get NFTs by contract (Retrieve NFTs using a contract address, sorted by token_id in ascending order)
- Get single NFT (Retrieve details of a single NFT)
- Get multiple NFTs (Retrieve details of multiple NFTs from different contract addresses simultaneously)
- Search NFTs (This interface returns a list of NFT assets by applying search filters in the request body. Assets are sorted by nftscan_id in ascending order.)
- Get NFTs by attributes (This interface returns a set of NFTs belonging to contract addresses with specific attributes. NFTs are sorted by token_id in ascending order.)
- Get all multi-chain NFTs by account (This interface returns all multi-chain NFTs owned by a specific wallet address, grouped by contract address.)
Here, we retrieve NFTs using a wallet address through the “Get NFTs by account” API:
/v2/account/own/{account_address}. In this case, we are requesting the address:
0xaf3c20498ff9ab190af36764428fce9017c54758, which holds all ERC721 NFTs on the Moonbeam chain. Click “Try it” to see the data response. The result shows that this address holds a total of 77 items. For instance, we can provide basic details and descriptions of the NFT collections this address holds, among other information.
2/ Retrieve Transactions Series
- Get transactions by account (This interface returns a list of NFT transactions for a wallet address)
- Get transactions by contract (This interface returns a list of NFT transactions for an NFT contract address
- Get transactions by NFT (This interface returns a list of NFT transactions for a single NFT)
- Search transactions (This interface returns a list of NFT transactions by applying search filters in the request body)
- Get transactions by address (This interface returns a list of NFT transactions filtered by transaction parameters)
- Get transactions by hash (This interface returns transaction records based on a list of transaction hashes)
- Here, we use the “Get transactions by account” API to retrieve transaction records for a specific address. You can select the NFT event types (Mint/Transfer/Sale/Burn) as your query parameters, separated by ‘;’. Here, we select “Transfer” as the event type and input our API key. The response data contains all the key data for NFT transfers under that address, including transaction hash, block information, from and to addresses, contract address, and transaction timestamp. In addition to basic data, the response data also contains characteristic information for NFT transactions, such as Token ID and transaction amount.
3/ Retrieve Collections Series
- Get an NFT collection (Retrieve details based on the contract address of the collection, including an overview and classification of items based on descriptions, distribution of holders, average prices, floor prices, and other basic summary information)
- Search NFT collections (This interface returns information about collections by applying search filters in the request body, and the collections are sorted in ascending order based on the deployment block number)
- Get NFT collections by account (This interface returns a list of projects with the given account address, and the collections are sorted from high to low based on the floor price)
- Get NFT collections by ranking (This interface returns a list of projects with the given sorting field, and the collections are sorted based on the specified sorting field and direction)
Here, we use the API “Get an NFT collection” (“/v2/collections/{contract_address}”) to retrieve the details of an NFT collection with the contract address of 0xcb13945ca8104f813992e4315f8ffefe64ac49ca and the name of “GLMR JUNGLE”. Each item in the returned data contains 32 pieces of information.
4/ Collection Statistics: Statistical Analysis for Collection
- Collection Statistics (This interface provides an analytical overview of NFT Collection statistics)
- Collection Trade Distribution (This interface primarily provides the distribution of project trades)
- Collection Trending Statistics (Mainly returns trading statistics ranking for a project)
- Collection Holding Amount Distribution (This interface can provide information on the distribution of NFT project holdings)
- Collection Holding Period Distribution (Data returns information about the distribution of NFT project holding periods)
- Collection Blue Chip Statistics (Overview statistics for blue-chip projects)
- Collection Blue Chip List (List of blue-chip projects associated with the project, referring to NFTScan Blue Chip Collection)
- Collection Top Holder (Distribution of the top holders of the Collection) Here, we use the API “Collection Holding Amount Distribution” (“/v2/statistics/amount/distribution/{contract_address}”) to retrieve the statistical description of the holding time for an NFT collection. The returned data can be referred to at:
https://moonbeam.nftscan.com/0xcb13945ca8104f813992e4315f8ffefe64ac49ca?module=Holders
5/ Account Statistics Series
- Account Overview Statistics (This interface returns an overview of statistical information for an account address, refer to NFTScan Overview)
- Account Holding Distribution (This interface returns statistical information on the distribution of NFT holdings for an account address, refer to NFTScan Portfolio)
- Account Holding NFT Trending (This interface returns statistical information on the trending NFT holdings or quantities for an account address, refer to NFTScan Portfolio)
6/ Analytic Statistics Series
These series of APIs are typically used to retrieve information related to data analysis and statistics on NFTScan Fantom. APIs like “Trade Ranking,” “Mint Amount,” and “Gas Ranking” allow developers or users to query, analyze, and retrieve statistical data related to specific datasets or metrics. These APIs can be used for various purposes, including market analysis, trend tracking, investment decisions, and understanding the nature of specific data.
Reference: https://moonbeam.nftscan.com/analytics
7/ Refresh Metadata
- Refresh NFT metadata
- Refresh NFT metadata by contract Interfaces like Refresh Metadata can assist developers or users in submitting backend tasks to refresh metadata. Once reviewed, these tasks will refresh the specified item or the entire contract metadata.
8/ Other
- Get the latest block number (Returns the latest block number reached by NFTScan)
- Get NFT amount by account (Returns information on the quantity of ERC721 and ERC1155 NFTs owned by the account address specified in the request body)
- Get NFT owners by contract (Returns a list of owners for the specified ERC721 NFT contract address, with NFTs sorted by token_id)
- Get owners by an NFT (Returns a list of owners for the specified ERC1155 NFT, with NFTs sorted by account_address)
Building Relevant NFT API Requests
Developers can find the required Fantom API interface and parameters in the NFTScan API documentation. They can then use their chosen programming language, such as Python, Java, JavaScript, etc., to write the API request code.
Here, we use the API “Collection Blue Chip Statistics” (“/v2/statistics/blue/chip/{contract_address}”) to retrieve the statistical overview data for blue chip projects. We make an HTTP GET request to NFTScan’s API using the Python requests library. The request can be constructed like this:
import requests
# NFTScan API Endpoint
api_url = "https://api.nftscan.io/v2/statistics/blue/chip/"
# Replace with the smart contract address of the blue chip project you are interested in
contract_address = "0xYourContractAddress"
# Build the complete request URL
full_url = api_url + contract_address
# Send an HTTP GET request
response = requests.get(full_url)
# Check if the request was successful
if response.status_code == 200:
# Get the returned JSON data
data = response.json()
# Process the data here, you can print, analyze, or perform other operations
print(data)
else:
# Print the error message
print(f"Error: {response.status_code}, {response.text}")
In this example, developers need to replace the value of the variable contract_address with the smart contract address of the blue-chip project of interest. Then, using response.json(), they can retrieve the returned JSON data and further process it in their code.
NFTScan is the world’s largest NFT data infrastructure, including a professional NFT explorer and NFT developer platform, supporting the complete amount of NFT data for 20 blockchains including Ethereum, Solana, BNBChain, Arbitrum, Optimism, and other major networks, providing NFT API for developers on various blockchains.
Official Links:
NFTScan: https://nftscan.com
Developer: https://developer.nftscan.com
Twitter: https://twitter.com/nftscan_com
Discord: https://discord.gg/nftscan
Top comments (0)