VeChain Docs
  • Welcome to VeChain
  • Blockchain Basics
    • Introduction to blockchain
    • Introduction to digital property
    • The evolution of the internet
  • Introduction to VeChain
    • About the VeChain blockchain
      • Consensus Deep Dive
      • Governance
    • Dual-Token Economic Model
      • VeChain (VET)
      • VeThor (VTHO)
    • Acquire VeChain Assets
    • Sustainability
  • Core Concepts
    • Networks
      • Thor Solo Node
      • Testnet
      • Mainnet
    • Nodes
      • Node Rewards Programme
    • Blocks
      • Block Model
    • Transactions
      • Transaction Model
      • Transaction Fees
      • Transaction Calculation
      • Meta Transaction Features
        • Transaction Uniqueness
        • Controllable Transaction Lifecycle
        • Clauses (Multi-Task Transaction)
        • Fee Delegation
          • Multi-Party Payment (MPP)
          • Designated Gas Payer (VIP-191)
        • Transaction Dependency
    • Block Explorers
    • Wallets
      • VeWorld
        • User Guide
          • Setup
          • Wallet
          • Signing
          • Activities
          • Settings
        • FAQ
      • Sync2
        • User Guide
          • Setup
          • Wallet
          • Signing
          • Activities
          • Settings
        • FAQ
      • Sync
        • User Guide
          • Wallet
          • Ledger Device
          • Browser dApps and web
          • Interact with dApps
          • Activities
          • Settings
          • Report an Issue
          • Contributing
        • FAQ
    • EVM Compatibility
      • VeChain Modifications
      • Methodology
      • Test Coverage
        • Gas model
        • Raw transaction
        • hardhat specific
          • Ganache failures
          • evm_increaseTime
        • Failures in constructor
        • eth_sign
        • Contract address prediction
        • BadBeacon proxy address at 0x1
      • How to Recreate
      • Additional Information
        • Using Governance Contracts
        • ERC1820/ERC777 Testnet
        • Delegate Options
    • Account Abstraction
      • UserOperation
      • Bundler
      • EntryPoint Contract
      • Account Factory Contract
      • Paymaster Contract
    • Token Bound Accounts
  • How to run a node
    • Nodes
    • How to run a Thor Solo Node
    • Custom Network
    • Connect Sync2 to a Thor Solo Node
  • Developer Resources
    • Getting Started
    • How to build on VeChain
      • Connect to the Network
      • Read Data
        • Read Blocks
        • Read Transactions
        • Read Accounts
        • States & Views
        • Events & Logs
        • VET Transfers
      • Write Data
        • Transactions
        • Fee Delegation
      • Listen to Changes
        • Events
        • VET Transfers
        • Transactions
        • Blocks
        • Beats
      • Build with Hardhat
      • Utilities
        • BigInt and Unit-Handling
        • Name Service Lookups
    • Example dApps
      • Buy me a Coffee
      • Token Bound Accounts
      • PWA with Privy and Account Abstraction
    • EVM Compatibility for Developers
      • Key Architectural Differences and Optimizations
      • Practical Implications for Developers: Key Considerations
      • RPC Methods (Detailed Breakdown)
      • Frequently Asked Questions (FAQs)
      • VeChain Blockchain Specifications
      • Key Differences Between VeChain and Ethereum (Summary)
      • Best Practices for Developing on VeChainThor
    • How to verify Address-Ownership
      • Next.js Session Verification
    • Debug Reverted Transactions
    • Account Abstraction
    • VIP-191: Designated Gas Payer
      • How to Integrate VIP-191 (I)
      • How to Integrate VIP-191 (II)
      • How to Integrate VIP-191 (III)
    • Index with Graph Node
      • Setup with Docker
      • Index with OpenZeppelin
        • Create Subgraph Project
        • Configure Contracts
        • Deploy Subgraph and start Indexing
        • Track Subgraph Indexing
        • Access Subgraph
        • Update Subgraph
    • SDKs & Providers
      • SDK
        • Architecture
        • Accounts
        • Bloom Filter
        • Certificates
        • Contracts
        • Cryptography
        • Debug
        • Encoding
        • Polls
        • Subscriptions
        • Thor Client
        • Transactions
      • Thor DevKit
        • Installation
        • Usage
          • Cryptography
          • Accounts
          • Encoding
          • Transactions
          • Certificates
          • Bloom Filter
      • DApp Kit
        • v2
          • Installation
          • React
            • Installation
            • Usage
          • Vanilla JS
            • Installation
            • Usage
          • Core
            • Installation
            • Usage
          • Theme Variables
          • i18n
        • v1
          • Installation
          • React
            • Installation
            • Usage
          • Vanilla JS
            • Installation
            • Usage
          • Core
            • Installation
            • Usage
          • Theme Variables
          • i18n
          • Node Polyfills
          • V0 to V1
        • v0
          • Installation
          • Usage
          • React
            • Installation
            • Usage
          • Vanilla (UI)
            • Installation
            • Usage
          • Styles (UI)
          • i18n
      • DevPal
      • Web3-Providers-Connex
        • Installation
        • Usage
      • Connex
        • Installation
        • API Specification
    • Frameworks & IDEs
      • Hardhat
      • Remix
    • Built-in Contracts
    • VORJ
    • Useful Links
  • How to contribute
Powered by GitBook
  1. Developer Resources
  2. SDKs & Providers
  3. Thor DevKit

Usage

Usage of library with practical code examples.

Last updated 11 months ago

Was this helpful?

In the subsequent sections, we will adopt a "Learn by Doing" approach to delve into the main functionalities of thor-devkit.js, a powerful library designed for interacting with the VeChainThor blockchain. We believe that practical examples, supplemented with relevant theoretical explanations, will enable a more comprehensive grasp of the library's capabilities.

Each section will not only showcase code snippets but also incorporate essential theoretical notions to help you better comprehend the underlying concepts and principles. These theoretical explanations will lay the foundation for a deeper understanding of how thor-devkit.js operates and how it can be effectively utilised in real-world applications.

For every topic covered, we will provide illustrative examples, ensuring that you gain hands-on experience in using thor-devkit.js effectively. These examples will demonstrate the implementation of various features and functionalities offered by the library.

Cryptography

Accounts

Encoding

Transactions

Certifications

Bloom Filter