- It has two three methods to be created:
- new: where the user can pass any custom StrategyEncoder
- tycho_router: where the default SplitSwapStrategyEncoder with Tycho Router will be used
- direct_execution: where the user can encode only the execution data and integrate this into their workflow.
- This replaces StrategyEncoderRegistry
- EVMTychoEncoder holds directly the StrategyEncoder and not the registry (per one init of the EVMTychoEncoder there is only one possible StrategyEncoder)
- Update quickstart
- Update bin (add subcommands to bin to create a different instance of EVMEncoderBuilder)
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ENG-4246 Took 33 minutes
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- In preparation for also using this for the executor encoder.
This also make test setup much easier for swap grouping - not having to init the encoder every time.
As far as we know, Uniswap V4 has no support for optimizing split swaps - only sequential swaps. We must make sure we don't accidentally group split swaps too - as this will likely revert due to mismatched input and output values.
To achieve this, a small refactor was necessary with the introduction of a SwapGroup object, and a separate method to create a vec of these objects. This then separates all logic related to combining protocol data nicely and cleanly into its own method with its own tests.
TODO:
- Deal with split swaps and add test for split swap scenario
- Clean up all existing PR comments
We use the same validation for both SplitSwapStrategy and UniswapV4Strategy - so, instead, put the validation into a Validator trait that gets initialized in both swap strategies in order to avoid duplication.
- To keep any knowledge of USV4 separate from regular splits, I've made a new USV4 encoding strategy that will be used only if we detect sequential USV4 swaps.
- For single USV4 swaps without necessary optimizations, the regular split swap strategy can be used
- No need to change the swap struct interface to take multiple swaps - this concatenation can be done at the swap strategy level.
TODO:
- test
- deduplicate code from split strategy
- UniswapV4SwapEncoder
Return selector in the StrategyEncoder. This is needed for the ExecutorStrategyEncoder
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ENG-4088 Took 12 minutes
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This is unnecessary since we already have the executor address loaded at build time
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ENG-4088 Took 8 minutes
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This way we don't have issues with paths and trying to read files that are at other locations after compile time
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ENG-4088 Took 44 seconds
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- This way this chain object contains everything we need, we don't need to worry about doing any transformation or calling any supplementary functions inside any of the encoders
- Needed to move our new Chain object to a higher level since this is used in the higher-level encoder traits. This required some weird default values in the constants in order to avoid using alloy's hex literal. I could have instead opted to make Bytes parse a string I think, though this would mean possibly returning an error at the constants level, which is not nice either.
Question:
- Do we want the user to be in charge of passing the native and wrapped token every single time? This may be a bit annoying for the user. For now, I have defaulted to those in constants.rs, this would take 5 mins to remove though if you don't like it, and it would get rid of this complicated bytes initialization.
- Tried not to leave a single public function undocumented, though did not double-document public function with obvious names
- Remove all mentions of the strategy selector in favour of the strategy registry (to avoid confusion)
Interface changes:
- Rename StrategySelector to StrategyEncoderRegistry
- Implement clone for SwapEncoder
The StrategyEncoderRegistry needs to be initialised at the highest level and the passed to the TychoEncoder.
The TychoEncoder doesn't hold the chain nor the signer_pk as attributes anymore
The StrategyEncoderRegistry does:
- Initialises the SwapEncoderRegistry
- Initialises all the strategies and saves them in a HashMap
- Later, the TychoEncoder only reads from this hashmap
The StrategyEncoder now each holds a SwapEncoderRegistry as an attribute and they use this to get the correct SwapEncoder instead of reading from the global SWAP_ENCODER_REGISTRY
Simplified the SwapEncoderRegistry to not need a Config (everything is done inside itself)
All SwapEncoders implement clone
Took 2 hours 29 minutes
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