This version of the book is being released with the public alpha. There will be a lot of features that are missing in this version, however the syntax and the feel of the language will mostly be completed.
What is Noir?
Noir is a Domain Specific Language for SNARK proving systems. It has been designed to use any ACIR compatible proving system.
It's design choices are influenced heavily by Rust and focuses on a simple, familiar syntax.
Who is Noir for?
Noir can be used for a variety of purposes.
Noir currently includes a command to create a Solidity contract which verifies your Noir program. This will
be modularised in the future; however, as of the alpha, you can use the
nargo codegen-verifier command to create
a verifier contract.
As a protocol developer, you may not want to use the Aztec backend due to it not being a fit for your stack, or maybe you simply want to use a different proving system. Since Noir does not compile to a specific proof system, it is possible for protocol developers to replace the PLONK-based proving system with a different proving system altogether.
As a blockchain developer, you will be constrained by parameters set by your blockchain (for example, the proving system and smart contract language has been pre-defined). In order for you to use Noir in your blockchain, a proving system backend and a smart contract interface must be implemented for it.
What's new about Noir?
Noir is simple and flexible in its design, as it does not compile immediately to a fixed NP-complete language. Instead, Noir compiles to an intermediate language (ACIR), which itself can be compiled to an arithmetic circuit (if choosing to target Aztec's barretenberg backend) or a rank-1 constraint system (if choosing to target an R1CS backend like Arkwork's Marlin backend, or others).
This in itself brings up a few challenges within the design process, but allows one to decouple the programming language completely from the backend. This is similar in theory to LLVM.
- Module System
- For expressions
- Bit Operations
- Binary operations (<, <=, >, >=, +, -, *, /, %) [See documentation for an extensive list]
- Unsigned integers
- If statements
- Structures and Tuples
ACIR Supported OPCODES:
- Schnorr signature verification
Noir does not currently have an official package manager. You can find a list of available Noir libraries in the awesome-noir repo here.
Some libraries that are available today include:
- Standard Library - the Noir Standard Library
- Ethereum Storage Proof Verification - a library that contains the primitives necessary for RLP decoding (in the form of look-up table construction) and Ethereum state and storage proof verification (or verification of any trie proof involving 32-byte long keys)
- BigInt - a library that provides a custom BigUint56 data type, allowing for computations on large unsigned integers
- ECrecover - a library to verify an ECDSA signature and return the source Ethereum address
- Sparse Merkle Tree Verifier - a library for verification of sparse Merkle trees
- Signed Int - a library for accessing a custom Signed Integer data type, allowing access to negative numbers on Noir
- Fraction - a library for accessing fractional number data type in Noir, allowing results that aren't whole numbers
See the section on dependencies for more information.