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Hands-On Blockchain for Python Developers

You're reading from   Hands-On Blockchain for Python Developers Empowering Python developers in the world of blockchain and smart contracts

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Product type Paperback
Published in Jun 2024
Publisher Packt
ISBN-13 9781805121367
Length 436 pages
Edition 2nd Edition
Languages
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Author (1):
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Arjuna Sky Kok Arjuna Sky Kok
Author Profile Icon Arjuna Sky Kok
Arjuna Sky Kok
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Toc

Table of Contents (27) Chapters Close

Preface 1. Part 1:Blockchain and Smart Contract FREE CHAPTER
2. Chapter 1: Introduction to Blockchain Programming 3. Chapter 2: Smart Contract Fundamentals 4. Chapter 3: Using Vyper to Implement a Smart Contract 5. Part 2: Web3 and Ape Framework
6. Chapter 4: Using Web3.py to Interact with Smart Contracts 7. Chapter 5: Ape Framework 8. Chapter 6: Building a Practical Decentralized Application 9. Part 3: Graphical User Interface Applications
10. Chapter 7: Front-End Decentralized Application 11. Chapter 8: Cryptocurrency Wallet 12. Part 4: Related Technologies
13. Chapter 9: InterPlanetary: A Brave New File System 14. Chapter 10: Implementing a Decentralized Application Using IPFS 15. Chapter 11: Exploring Layer 2 16. Part 5: Cryptocurrency and NFT
17. Chapter 12: Creating Tokens on Ethereum 18. Chapter 13: How to Create an NFT 19. Part 6: Writing Complex Smart Contracts
20. Chapter 14: Writing NFT Marketplace Smart Contracts 21. Chapter 15: Writing a Lending Vault Smart Contract 22. Chapter 16: Decentralized Exchange 23. Part 7: Building a Full-Stack Web3 Application
24. Chapter 17: Token-Gated Applications 25. Index 26. Other Books You May Enjoy

The ERC-4626 standard

In the beginning, people created vault smart contracts. These smart contracts at the time have different functions and mechanisms. For illustration, in a vault smart contract, the function to deposit assets is named put_asset but in another vault smart contract, the function to deposit assets can be named differently such as deposit. This makes it hard for composability. Suppose you want to deposit assets programmatically to many vault smart contracts – you have to find out what the method name is one by one.

However, what if every vault smart contract adheres to a standard? They agree that for a method that deposits assets, the method should be named deposit. That way, you don’t have to worry about this naming issue when depositing assets into many vault smart contracts.

Fortunately, there is the ERC-4626 tokenized vault standard. The full specification of the standard can be read at this URL: https://eips.ethereum.org/EIPS/eip-4626.

There...

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