4 releases
0.4.1 | Jan 5, 2024 |
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0.4.0 | Jan 4, 2024 |
0.3.3 | Oct 11, 2023 |
0.3.2 | Oct 11, 2023 |
0.3.1 |
|
#168 in Finance
48 downloads per month
175KB
3.5K
SLoC
What is Alator?
Alator is the front-end for Rotala, a backtesting library built with Rust.
Rotala contains all the back-end exchange code. Alator demonstrates how this back-end code can be used to run backtests. Rotala is built to run as a JSON service but exchanges can be imported as a library, Alator uses the latter feature.
Alator started out as a backtesting library used in another application. Over time it became clear that backtesting was a standalone application, and then it moved towards developing something cross-language that could run on a server. This transition is still at an early stage and this isn't a production application.
lib.rs
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What is Alator?
Alator is a financial simulation library that can be used with Rotala to perform backtests of trading strategies.
Alator used to be a standalone package but is being transitioned towards an implementation of the frontend of a backtest that uses a Rotala exchange backend. Versions after v0.4 implement Rotala.
A backtest is composed of: * Strategy - generates new orders * Broker - within Alator this overlaps with a portfolio containing position calculations (i.e. position/profit), routes new orders to exchange, embeds costs. * Exchange - executes new orders, may embed further cost and latency. * Data source - data source used by strategy/exchange to determine new orders/fills. * Clock - synchronizes times between components.
Alator contains code for Strategy and Broker. You do not need to use this code when backtesting a strategy and, as some exchange implementations work across a network, you do not even need to use Rust. The code within this package represents common functionality and, as explained above, was already built so is included here.
Current exchange implementations do not contain any logic to determine the correctness of trades. For example, if a client places an order for 100 units @ $1 and gets filled with a cash balance of $50 then this should be blocked by the Broker.
Synchronization
State is synchronized between components through the exchange. The exchange holds the clock and should be the only source of price data.
In terms of performance, this may seem like a non-optimal choice. In initial versions of the library, when the library was a backend to another simulation application, synchronization was split with each component sharing the clock and price source. By splitting synchronization, the number of messages to the exchange is amplified as, for example, the strategy needs to get an update on recent prices.
But by keeping state in one place we can offer good guarantees about the correctness of the backtest - by making it harder to introduce lookahead bias - and by enforcing separation of concerns the front-end becomes simpler/replicates production environment.
To repeat, some backtesting libraries have instant trade execution: you create an order at epoch 100 and it gets executed immediately on the same epoch. This isn't possible in Alator and backtests should have no lookahead bias.
As a result, it is not advisable to use low-frequency data as orders won't execute until the next available tick (or you can fill next tick).
Equally, strategies that constantly trigger liquidations, whilst usually representing a bug in the front-end, will also replicate performance poorly because the Broker implementations in Alator will try to rebalance to regain solvency. As that rebalancing won't occur until the next tick you can end up with persistent shortfalls under some conditions (i.e. trending prices).
Dependencies
~24–38MB
~659K SLoC