This PR adds lemmas about `UIntX.toBitVec` and `UIntX.ofBitVec` and `^`.
These match the existing lemas for `*`.
After #7887 these can be made true by `rfl`.
This PR ensures `ite` and `dite` are to selected as E-matching patterns.
They are bad patterns because the then/else branches are only
internalized after `grind` decided whether the condition is
`True`/`False`.
The issue reported by #9572 has been fixed, but the fix exposed another
issue. The patterns for `List.Pairwise` produce an unbounded number of
E-matching instances.
```lean
example (l : List α) : l.Pairwise R := by
grind
```
This PR fixes an issue in `grind`'s disequality proof construction. The
issue occurs when an equality is merged with the `False` equivalence
class, but it is not the root of its congruence class, and its
congruence root has not yet been merged into the `False` equivalence
class yet.
closes#9562
This PR optimizes the proof terms generated by `grind ring`. For
example, before this PR, the kernel took 2.22 seconds (on a M4 Max) to
type-check the proof in the benchmark `grind_ring_5.lean`; it now takes
only 0.63 seconds.
This PR generalizes `Process.output` and `Process.run` with an optional
`String` argument that can be piped to `stdin`.
To date we have been using shims `Process.runCmdWithInput` in Batteries.
This PR fixes a bug introduced in #7830 where if the cursor is at the
indicated position
```lean
example (as bs : List Nat) : (as.append bs).length = as.length + bs.length := by
induction as with
| nil => -- cursor
| cons b bs ih =>
```
then the Infoview would show "no goals" rather than the `nil` goal. The
PR also fixes a separate bug where placing the cursor on the next line
after the `induction`/`cases` tactics like in
```lean
induction as with
| nil => sorry
| cons b bs ih => sorry
I -- < cursor
```
would report the original goal in the goal list. Furthermore, there are
numerous improvements to error recovery (including `allGoals`-type logic
for pre-tactics) and the visible tactic states when there are errors.
Adds `Tactic.throwOrLogErrorAt`/`Tactic.throwOrLogError` for throwing or
logging errors depending on the recovery state.
This PR restores the feature where in `induction`/`cases` for `Nat`, the
`zero` and `succ` labels are hoverable. This was added in #1660, but
broken in #3629 and #3655 when custom eliminators were added. In
general, if a custom eliminator `T.elim` for an inductive type `T` has
an alternative `foo`, and `T.foo` is a constant, then the `foo` label
will have `T.foo` hover information.
This PR consolidates common attribute-related error messages into
reusable functions and updates the wording and formatting of relevant
error messages.
This extends the specialization behavior of functions taking instance
implicits to ordinary implicit arguments that are of instance type. The
choice between the two is often made for subtle inference-related
reasons. It also affects visibility of these functions, because the
module system makes template-like decls visible to the compiler in other
modules.
This PR makes the second instance of the `inferVisibility` pass run
after the `saveMono` pass. As the comment above the first instance of
the pass indicates, this needs to be after `saveMono` in order to see
all decls with their updated bodies.
This PR upstreams some helper instances for `NameSet` from Batteries.
(These could be generalized to an arbitrary TreeSet, but I'll leave that
for someone else.)
This PR changes `Lean.Grind.NoNatZeroDivisors` so that it is
parametrised by a `NatModule` instance rather than just a `HMul`
instance. This is sufficiently general for our purposes, and is a
band-aid (~40% improvement) for the performance problems we've been
seeing coming from inference here. The problems observed in Mathlib may
not see much improvement, however.
This PR lets the equation compiler unfold abstracted proofs again if
they would otherwise hide recursive calls.
This fixes#8939.
---------
Co-authored-by: Sebastian Ullrich <sebasti@nullri.ch>
This PR fixes Lake's handling of a module system `import all`.
Previously, Lake treated `import all` the same a non-module `import`,
importing all private data in the transitive import tree. Lake now
distinguishes the two, with `import all M` just importing the private
data of `M`. The direct private imports of `M` are followed, but they
are not promoted.
This also fixes some other Lake bugs with module system imports that
were discovered in the process.
In the early days of the new compiler, it was common to make tests that
manually compiled a definition with the new compiler. The arity
reduction pass in LCNF deliberately does not compute a fixed point to
find a minimal set of used parameters for performance reasons, but
running it a second time can lead to different decisions being made and
a decl arity mismatch. This has been an issue for multiple people during
development. Removing the tests fixes the problem.
Fixes#9186.
This PR uses `withAbstractAtoms` to prevent the kernel from accidentally
reducing the atoms in the arith normlizer while typechecking. This PR
also sets `implicitDefEqProofs := false` in the `grind` normalizer
