This changes ensure that we only compile modules from dependencies
that are used (or transitively used) in the project. This allows to
discard entire compilation steps at a module level, for modules that
we do not use.
The main goal of this change isn't performances. It's about making
dependencies management slightly easier in the time we decide whether
and how we want to manage transitive dependencies in Aiken.
A concrete case here is aiken-lang/stdlib, which will soon depend on
aiken-lang/fuzz. However, we do not want to require every single
project depending on stdlib to also require fuzz. So instead, we want
to seggregate fuzz API from stdlib in separate module, and only
compile those if they appear in the pruned dependency graph.
While the goal isn't performances, here are some benchmarks analyzing
the performances of deps pruning on a simple project depends on a few
modules from stdlib:
Benchmark 1: ./aiken-without-deps-pruning check scratchpad
Time (mean ± σ): 190.3 ms ± 101.1 ms [User: 584.5 ms, System: 14.2 ms]
Range (min … max): 153.0 ms … 477.7 ms 10 runs
Benchmark 2: ./aiken-with-deps-pruning check scratchpad
Time (mean ± σ): 162.3 ms ± 46.3 ms [User: 572.6 ms, System: 14.0 ms]
Range (min … max): 142.8 ms … 293.7 ms 10 runs
As we can see, this change seems to have an overall positive impact on
the compilation time.
It might be slightly cleaner and more extensible to change to return a summary, potentially even making track the tests, coverage, etc. so it can be serialized to JSON. But, for now, this is much simpler, and the approach that KtorZ suggested.
We'll piggyback on the tracing capabilities of the VM to provide labelling for prop tests. To ensure we do not interfere with normal traces, we only count traces that starts with a NUL byte as label. That convention is assumed to be known of the companion fuzz library that should then provide the labelling capabilities as a dedicated function.
I've been benchmarking that through the shrink of 'large' lists, and the cache brings about 1.5x speed increase. For small and simple cases, the cache as no visible effects (positive or negative).
Before this commit, we would always show the 'declared form' of type aliases, with their generic, non-instantiated parameters. This now tries to unify the annotation with the underlying inferred type to provide even better alias pretty printing.
Using ByteArrays as vectors on-chain is a lot more efficient than relying on actul Data's list of values. From the Rust end, it doesn't change much as we were already manipulating vectors anyway.
KtorZ