Skip to content

danielepusceddu/lean4-amm

Repository files navigation

Automated Market Makers in the Lean 4 Theorem Prover

This repository contains a formalization of Automated Market Makers in the Lean 4 Theorem Prover. The formalization is based on the work of Bartoletti, Chiang and Lluch-Lafuente in A theory of Automated Market Makers in DeFi.

State definitions and properties

In AMMLib/State we give the fundamental definitions to model the state of a system of AMMs as well as to model several properties of a state, such as the price and the supply of minted tokens.

Tokens and accounts

Token.lean contains definitions for the two most basic underlying types: Account and Token. Both are defined as wrappers to the natural numbers, which renders equality decidable.

Wallets

Wallets are split into two types.

  • AtomicWall.lean contains definitions for wallets of atomic token types W₀. They are modeled as finitely supported functions from Token to non-negative reals.
  • MintedWall.lean contains definitions for wallets of minted token types W₁. They are modeled as constrained finitely supported functions from pairs of Token to non-negative reals. Then, AtomicWallSet.lean and MintedWallSet.lean define sets of atomic token wallets S₀ and sets of minted token wallets S₁ as finitely supported functions from Account to W₀ and from Account to W₁ respectively.

Automated Market Makers

We do not define a type for a singular AMM, instead we directly define sets of AMMs AMMs in AMMs.lean. Similarly to minted token type wallets, they are modeled as constrained finitely supported functions from pairs of Token to non-negative reals. The constraints on a set f of AMMs are:

  • f t0 t1 ≠ 0 ↔ f t1 t0 ≠ 0
  • f t t = 0 The intuition is that f t0 t1 and f t1 t0 will be the amount of token t0 and of token t1 respectively in the liquidity pool of the t0 - t1 decentralized exchange.

State

In State.lean we define the state type Γ as a triple of sets of atomic type wallets, sets of minted type wallets and sets of AMMs. In Networth.lean we define the price of a unit of a minted token type and the wealth of a user. In Supply.lean we define the supply of tokens in a state.

Transactions

In AMMLib/Transaction we define the various types of transactions and prove some of their effects on the state and on the users' wealth, giving particular attention to the swap transaction, to which we dedicate multiple files in the Swap directory. There we define several properties a swap rate function may have and their consequences on the results of the swap transactions. In Constprod.lean we define the constant product swap rate function and prove some of its properties and economic features.

Reachable States

In Trace.lean we define valid sequences of transactions starting from a state, which we use to define reachable states as valid sequences of transactions starting from the initial state. We then prove that the existence of an AMM Implies the circulation of its associated minted token type.

About

Formalizing AMMs in Lean 4

Resources

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages