This PR ensures the the log error position is properly preserved when
prepending stray log entries to the job log. It also adds comparison
support for `Log.Pos`.
This PR uses Lean.RArray in bv_decide's reflection proofs. Giving
speedups on problems with lots of variables.
Implement like #6068, speedup:
```
# before
λ hyperfine "lean +nightly-2024-12-02 tests/lean/run/bv_reflection_stress.lean"
Benchmark 1: lean +nightly-2024-12-02 tests/lean/run/bv_reflection_stress.lean
Time (mean ± σ): 1.939 s ± 0.007 s [User: 1.549 s, System: 0.104 s]
Range (min … max): 1.928 s … 1.947 s 10 runs
# after
λ hyperfine "lean tests/lean/run/bv_reflection_stress.lean"
Benchmark 1: lean tests/lean/run/bv_reflection_stress.lean
Time (mean ± σ): 1.409 s ± 0.006 s [User: 1.058 s, System: 0.073 s]
Range (min … max): 1.401 s … 1.419 s 10 runs
```
This PR changes Lake's build process to no longer use `leanc` for
compiling C files or linking shared libraries and executables. Instead,
it directly invokes the bundled compiler (or the native compiler if
none) using the necessary flags.
This PR runs all linters for a single command (together) on a separate
thread from further elaboration, making a first step towards
parallelizing the elaborator.
This PR ensure `bv_decide` uses definitional equality in its reflection
procedure as much as possible. Previously it would build up explicit
congruence proofs for the kernel to check. This reduces the size of
proof terms passed to kernel speeds up checking of large reflection
proofs.
This PR reduces the import closure of `Std.Time` such that it doesn't
have to be rebuilt on every change in `Init.Data`.
Noticed while working on `Init` refactorings.
This PR fixes a bug in structure instance field completion that caused
it to not function correctly for bracketed structure instances written
in Mathlib style.
This PR completes the `toNat` theorems for the bitwise operations
(`and`, `or`, `xor`, `shiftLeft`, `shiftRight`) of the UInt types and
adds `toBitVec` theorems as well. It also renames `and_toNat` to
`toNat_and` to fit with the current naming convention.
This PR fixes a bug that could cause the `injectivity` tactic to fail in
reducible mode, which could cause unfolding lemma generation to fail
(used by tactics such as `unfold`). In particular,
`Lean.Meta.isConstructorApp'?` was not aware that `n + 1` is equivalent
to `Nat.succ n`.
Closes#5064
This PR introduces the basic theory of permutations of `Array`s and
proves `Array.swap_perm`.
The API falls well short of what is available for `List` at this point.
This PR refactors `Array.qsort` to remove runtime array bounds checks,
and avoids the use of `partial`. We use the `Vector` API, along with
auto_params, to avoid having to write any proofs. The new code
benchmarks indistinguishably from the old.
This PR puts code in terms of syntax quotations now that there has been
a stage0 update. Fixes a lingering bug in StructInst where some
intermediate syntax was malformed, but this had no observable effects
outside of some debug messages.
This PR modifies structure instance notation and `where` notation to use
the same notation for fields. Structure instance notation now admits
binders, type ascriptions, and equations, and `where` notation admits
full structure lvals. Examples of these for structure instance notation:
```lean
structure PosFun where
f : Nat → Nat
pos : ∀ n, 0 < f n
def p : PosFun :=
{ f n := n + 1
pos := by simp }
def p' : PosFun :=
{ f | 0 => 1
| n + 1 => n + 1
pos := by rintro (_|_) <;> simp }
```
Just like for the structure `where` notation, a field `f x y z : ty :=
val` expands to `f := fun x y z => (val : ty)`. The type ascription is
optional.
The PR also is setting things up for future expansion. Pending some
discussion, in the future structure/`where` notation could have have
embedded `where` clauses; rather than `{ a := { x := 1, y := z } }` one
could write `{ a where x := 1; y := z }`.
This PR implements `Simp.Config.implicitDefEqsProofs`. When `true`
(default: `true`), `simp` will **not** create a proof term for a
rewriting rule associated with an `rfl`-theorem. Rewriting rules are
provided by users by annotating theorems with the attribute `@[simp]`.
If the proof of the theorem is just `rfl` (reflexivity), and
`implicitDefEqProofs := true`, `simp` will **not** create a proof term
which is an application of the annotated theorem.
The default setting does change the existing behavior. Users can use
`simp -implicitDefEqProofs` to force `simp` to create a proof term for
`rfl`-theorems. This can positively impact proof checking time in the
kernel.
This PR also fixes an issue in the `split` tactic that has been exposed
by this feature. It was looking for `split` candidates in proofs and
implicit arguments. See new test for issue exposed by the previous
feature.
---------
Co-authored-by: Kim Morrison <kim@tqft.net>
This PR fixes a performance issue where the Lean language server would
walk the full project file tree every time a file was saved, blocking
the processing of all other requests and notifications and significantly
increasing overall language server latency after saving.
This issue was originally reported at
https://leanprover.zulipchat.com/#narrow/channel/270676-lean4/topic/Compiling.20too.20slow/near/484386515
and uncovered in a lengthy investigation. The performance bug that
causes the Lean language server to walk the full project file tree when
the file watcher for .ilean files is triggered was introduced when the
.ileans were first introduced, whereas the specific issue of file saving
also triggering the walk was introduced by #3247 in 4.8.0 and the use of
the file watcher for .lean files, which would then also trigger the
directory walk. Combining this with VS Code's auto-save feature causes
the language server to walk the full project file tree on every change
of the document.
It somehow hasn't really been much of an issue until now, but we still
do way too much work in the watchdog main loop. I'll look into resolving
that more general issue in the future.
This PR ensures that nesting trace nodes are annotated with timing
information iff `trace.profiler` is active.
The previous connection to the otherwise unrelated `profiler` option was
a remnant from before `trace.profiler` existed; if users want to
annotate explicitly activated trace classes only, they can instead
increase `trace.profiler.threshold`.
This PR adds the builtin simproc `USize.reduceToNat` which reduces the
`USize.toNat` operation on literals less than `UInt32.size` (i.e.,
`4294967296`).
This PR upstreams some UInt theorems from Batteries and adds more
`toNat`-related theorems. It also adds the missing `UInt8` and `UInt16`
to/from `USize` conversions so that the the interface is uniform across
the UInt types.
**Summary of all changes:**
* Upstreamed and added `toNat` constructors lemmas: `toNat_mk`,
`ofNat_toNat`, `toNat_ofNat`, `toNat_ofNatCore`, and
`USize.toNat_ofNat32`
* Upstreamed and added `toNat` canonicalization; `val_val_eq_toNat` and
`toNat_toBitVec_eq_toNat`
* Added injectivity iffs: `toBitVec_inj`, `toNat_inj`, and `val_inj`
* Added inequality iffs: `le_iff_toNat_le` and `lt_iff_toNat_lt`
* Upstreamed antisymmetry lemmas: `le_antisymm` and `le_antisymm_iff`
* Upstreamed missing `toNat` lemmas on arithmetic operations:
`toNat_add`, `toNat_sub`, `toNat_mul`
* Upstreamed and added missing conversion lemmas: `toNat_toUInt*` and
`toNat_USize`
* Added missing `USize` conversions: `USize.toUInt8`, `UInt8.toUSize`,
`USize.toUInt16`, `UInt16.toUSize`
This PR deprecates `Fin.ofNat` in favour of `Fin.ofNat'` (which takes an
`[NeZero]` instance, rather than returning an element of `Fin (n+1)`).
After leaving the deprecation warning in place for some time, we will
then rename `ofNat'` back to `ofNat`.
This PR fixes:
- Problems in other linux distributions that the default `tzdata`
directory is not the same as previously defined by ensuring it with a
fallback behavior when directory is missing.
- Trim unnecessary characters from local time identifier.
This PR adds a cmake knob to allow turning off installing a copy of
`cadical`.
This can be useful for custom builds/installs where cadical is already
available in the system.
Closes: #5603
This PR adds `Lean.loadPlugin` which exposes functionality similar to
the `lean` executable's `--plugin` option to Lean code.
This will allow custom Lean frontends (e.g., Lake, the Lean language
server) to also load plugins.
---------
Co-authored-by: Sebastian Ullrich <sebasti@nullri.ch>
This PR improves the errors Lake produces when it fails to fetch a
dependency from Reservoir. If the package is not indexed, it will
produce a suggestion about how to require it from GitHub.
Closes#5330.
This PR upstreams the definition and basic lemmas about `List.finRange`
from Batteries.
Thanks for contributors to Batteries and Mathlib who've previously
worked on this material. Further PRs are welcome here. I'll be adding
more API later.
This PR upstreams lemmas about `Vector` from Batteries.
I'll be adding more soon, and PRs are welcome, particularly from those
who have previously contributed to `Vector` in Batteries.
