Solidity docs can be generated with nix develop --command forge doc -b.
Rust docs with nix develop --command cargo doc.
Standard libraries and interfaces defining and working with InterpeterState including:
- the standard
evalloop - source compilation from opcodes
- state (de)serialization (more gas efficient than abi encoding)
Interpreters are designed to be highly moddable behind the IInterpreterV1
interface, but pretty much any interpreter that uses InterpreterState will
need these low level facilities verbatim. Further, these facilities
(with possible exception of debugging logic), while relatively short in terms
of lines of code, are surprisingly fragile to maintain in a gas efficient way
so we don't recommend reinventing this wheel.
Stability and versioning is achieved at the interface level. All interfaces and types exposed externally by an interface are versioned.
The most obvious place this fails is when a breaking change cannot be expressed in Solidity's type system.
For example, the ordering of "top to bottom" of a stack returned by an
interpreter, represented as a uint256[] was reversed between eval and
eval2. The compiler cannot protect downstream contracts from such a change,
even if we were to scream it in the code comments, so such changes are considered
dangerous and justify a version number at the method level
(e.g. eval and eval2).
The goal is to intentionally loudly break things at the compiler level, or at least reliably at runtime (i.e. unconditionally erroring every call to X). We do NOT want to make silent subtle changes on the hope that nobody was relying on the old behaviours.
An unstable interface MAY be used by a current implementation in this repo as the goal is always to move unstable interfaces to stability.
The practical challenge for achieving stability is that it has to be informed by usage, or at least attempted usage.
Stability is therefore observed in some interface, based on some (subjective) amount of usage in a concrete implementation without the kind of feedback that necessitates a modification.
Deprecated interfaces are those that were completely stable, with deployed concrete implementations, then replaced by a new implementation of an unstable interface.
As there are immutable concrete implementations in production of these ex-stable interfaces, we keep the interfaces so that third party contracts can continue to consume existing deployments.
This is important for existing deployments to leverage their "lindy", as often the old battletested thing can be much safer than the new shiny thing.
We do NOT use semver because it requires us to make subjective assessments with imperfect information about concepts like "breaking" or "bug".
main includes the latest implementations of the latest interfaces, including
unstable interfaces.
While we keep deprecated interfaces around for a long time, we try to avoid cruft of deprecated concrete implementations, libs and tests. This cruft can really hinder the ability to move through necessary refactors, so it has to be culled often.
As every commit is deployed to a testnet by CI, and is immutable onchain and can be cross deployed to other chains, there's no need to try to couple what's happening in this repo with onchain realities, other than at the interface level.
There are some branches that were forked from main for historical reasons, that
MAY be of interest situationally, but otherwise should be ignored.
main-np: Forked from the last commit usingevalbeforeeval2was the primary interface into the interpreter. No longer actively developed.