Skip to content

Commit

Permalink
update proof tree chapter (#2054)
Browse files Browse the repository at this point in the history
* update proof tree chapter

* uwu

* cool beans
  • Loading branch information
lcnr authored Sep 17, 2024
1 parent 1c83da8 commit 8990c68
Showing 1 changed file with 35 additions and 38 deletions.
73 changes: 35 additions & 38 deletions src/solve/proof-trees.md
Original file line number Diff line number Diff line change
@@ -1,25 +1,16 @@
# Proof trees

The trait solver can optionally emit a "proof tree", a tree representation of what
happened while trying to prove a goal.

The used datastructures for which are currently stored in
[`rustc_middle::traits::solve::inspect`].

## What are they used for

There are 3 intended uses for proof trees. These uses are not yet implemented as
the representation of proof trees itself is currently still unstable.

They should be used by type system diagnostics to get information about
why a goal failed or remained ambiguous. They should be used by rustdoc to get the
auto-trait implementations for user-defined types, and they should be usable to
vastly improve the debugging experience of the trait solver.

For debugging you can use `-Zdump-solver-proof-tree` which dumps the proof tree
for all goals proven by the trait solver in the current session.

## Requirements and design constraints for proof trees
While the trait solver itself only returns whether a goal holds and the necessary
constraints, we sometimes also want to know what happened while trying to prove
it. While the trait solver should generally be treated as a black box by the rest
of the compiler, we cannot completely ignore its internals and provide "proof trees"
as an interface for this. To use them you implement the [`ProofTreeVisitor`] trait,
see its existing implementations for examples. The most notable uses are to compute
the [intercrate ambiguity causes for coherence errors][intercrate-ambig],
[improving trait solver errors][solver-errors], and
[eagerly inferring closure signatures][closure-sig].

## Computing proof trees

The trait solver uses [Canonicalization] and uses completely separate `InferCtxt` for
each nested goal. Both diagnostics and auto-traits in rustdoc need to correctly
Expand All @@ -29,22 +20,28 @@ canonicalize to `exists<T0> Vec<Vec<T0>>: Debug`, instantiate that goal as
`exists<T0> Vec<T0>: Debug`, instantiate this as `Vec<?0>: Debug` which then results
in a nested `?0: Debug` goal which is ambiguous.

We need to be able to figure out that `?x` corresponds to `?0` in the nested queries.

The debug output should also accurately represent the state at each point in the solver.
This means that even though a goal like `fn(?0): FnOnce(i32)` infers `?0` to `i32`, the
proof tree should still store `fn(<some infer var>): FnOnce(i32)` instead of
`fn(i32): FnOnce(i32)` until we actually infer `?0` to `i32`.

## The current implementation and how to extract information from proof trees.

Proof trees will be quite involved as they should accurately represent everything the
trait solver does, which includes fixpoint iterations and performance optimizations.

We intend to provide a lossy user interface for all usecases.

TODO: implement this user interface and explain how it can be used here.


[`rustc_middle::traits::solve::inspect`]: https://doc.rust-lang.org/nightly/nightly-rustc/rustc_middle/traits/solve/inspect/index.html
We compute proof trees by passing a [`ProofTreeBuilder`] to the search graph which is
converting the evaluation steps of the trait solver into a tree. When storing any
data using inference variables or placeholders, the data is canonicalized together
with the list of all unconstrained inference variables created during this computation.
This [`CanonicalState`] is then instantiated in the parent inference context while
walking the proof tree, using the list of inference variables to connect all the
canonicalized values created during this evaluation.

## Debugging the solver

We previously also tried to use proof trees to debug the solver implementation. This
has different design requirements than analyzing it programmatically. The recommended
way to debug the trait solver is by using `tracing`. The trait solver only uses the
`debug` tracing level for its general 'shape' and `trace` for additional detail.
`RUSTC_LOG=rustc_next_trait_solver=debug` therefore gives you a general outline
and `RUSTC_LOG=rustc_next_trait_solver=trace` can then be used if more precise
information is required.

[`ProofTreeVisitor`]: https://github.com/rust-lang/rust/blob/d6c8169c186ab16a3404cd0d0866674018e8a19e/compiler/rustc_trait_selection/src/solve/inspect/analyse.rs#L403
[`ProofTreeBuilder`]: https://github.com/rust-lang/rust/blob/d6c8169c186ab16a3404cd0d0866674018e8a19e/compiler/rustc_next_trait_solver/src/solve/inspect/build.rs#L40
[`CanonicalState`]: https://github.com/rust-lang/rust/blob/d6c8169c186ab16a3404cd0d0866674018e8a19e/compiler/rustc_type_ir/src/solve/inspect.rs#L31-L47
[intercrate-ambig]: https://github.com/rust-lang/rust/blob/d6c8169c186ab16a3404cd0d0866674018e8a19e/compiler/rustc_trait_selection/src/traits/coherence.rs#L742-L748
[solver-errors]: https://github.com/rust-lang/rust/blob/d6c8169c186ab16a3404cd0d0866674018e8a19e/compiler/rustc_trait_selection/src/solve/fulfill.rs#L343-L356
[closure-sig]: https://github.com/rust-lang/rust/blob/d6c8169c186ab16a3404cd0d0866674018e8a19e/compiler/rustc_hir_typeck/src/closure.rs#L333-L339
[Canonicalization]: ./canonicalization.md

0 comments on commit 8990c68

Please sign in to comment.