This PR makes the `clear_value` tactic preserve the order of variables
in the local context. This is done by adding
`Lean.MVarId.withRevertedFrom`, which reverts all local variables
starting from a given variable, rather than only the ones that depend on
it.
Note: an alternative implementation might convert the ldecl to a cdecl
and then reset the meta cache. This assumes that there are no other
caches that might still remember the value of the ldecl.
This PR adds `grind` annotations relating `Nat.fold/foldRev/any/all` and
`Fin.foldl/foldr/foldlM/foldrM` to the corresponding operations on
`List.finRange`.
This PR adds theorems `BitVec.(toNat, toInt,
toFin)_shiftLeftZeroExtend`, completing the API for
`BitVec.shiftLeftZeroExtend`.
---------
Co-authored-by: Tobias Grosser <github@grosser.es>
Co-authored-by: Henrik Böving <hargonix@gmail.com>
This PR allow structures to have non-bracketed binders, making it
consistent with `inductive`.
The change allows the following to be written instead of having to write
`S (n)`:
```lean
structure S n where
field : Fin n
```
This PR removes the auto-generated `binductionOn` and `ibelow`
implementations for inductive types in favor of the improved `brecOn`
implementation from #7639.
This PR defines the embedding of a `CommSemiring` into its `CommRing`
envelope, injective when the `CommSemiring` is cancellative. This will
be used by `grind` to prove results in `Nat`.
This test is essentially disabled on `master`, because it prints
nothing. With the new compiler enabled, it prints names of functions
throughout the Lean codebase satisfying certain conditions. Even just
maintaining this on the new compiler branch got old pretty quickly, so I
can't imagine we'd ever want to deal with this on `master`.
This PR avoids importing all of `BitVec.Lemmas` and `BitVec.BitBlast`
into `UInt.Lemmas`. (They are still imported into `SInt.Lemmas`; this
seems much harder to avoid.)
This PR renames `BitVec.getLsb'` to `BitVec.getLsb`, now that older
deprecated definition occupying that name has been removed. (Similarly
for `BitVec.getMsb'`.)
This PR improves IR generation for constructors of inductive types that
are represented by scalars. Surprisingly, this isn't required for
correctness, because the boxing pass will fix it up. The extra `unbox`
operation it inserts shouldn't matter when compiling to native code,
because it's trivial for a C compiler to optimize, but it does matter
for the interpreter.
This PR adds a cache for constructor info in toIR. This is called for
all constructors, projections, and cases alternatives, so it makes sense
to cache.
This PR adds constant folding for Char.ofNat in LCNF simp. This
implicitly relies on the representation of `Char` as `UInt32` rather
than making a separate `.char` literal type, which seems reasonable as
`Char` is erased by the trivial structure optimization in `toMono`.
This PR implements equality elimination in `grind linarith`. The current
implementation supports only `IntModule` and `IntModule` +
`NoNatZeroDivisors`
This PR filters out all declarations from `Lean.*`, `*.Tactic.*`, and
`*.Linter.*` from the results of `exact?` and `rw?`.
---------
Co-authored-by: damiano <adomani@gmail.com>
Co-authored-by: Markus Himmel <markus@lean-fro.org>
This PR introduces the basic theory of ordered modules over Nat (i.e.
without subtraction), for `grind`. We'll solve problems here by
embedding them in the `IntModule` envelope.
This PR fixes a bug in `floatLetIn` where if one decl (e.g. a join
point) is floated into a case arm and it uses another decl (e.g. another
join point) that does not have any other existing uses in that arm, then
the second decl does not get floated in despite this being perfectly
legal. This was causing artificial array linearity issues in
`Lean.Elab.Tactic.BVDecide.LRAT.trim.useAnalysis`.
This PR adds the following instance
```
instance [Field α] [LinearOrder α] [Ring.IsOrdered α] : IsCharP α 0
```
The goal is to ensure we do not perform unnecessary case-splits in our
test suite.
