Lake no longer attempts to fetch Reservoir build caches (barrels) for
non-Reservoir dependencies, and it will only fetch them for Reservoir
dependencies in the presence of a known toolchain.
Also, optional build job failures are now only displayed in verbose
mode.
In C, these are supported only as a vendor extension; they should
instead use proper C99 flexible array members.
In C++, both `[]` and `[0]` are vendor extensions.
Co-authored-by: Thomas Köppe <tkoeppe@google.com>
The constructor `AttributeExtensionOLeanEntry.decl` and related code
seems to be unused, and has been unused since its introduction in
a77598f7cf three years ago. Probably worth
removing (and changing the now one-constructor inductive into a
structure).
ac_nf is a counterpart to ac_rfl, which normalizes bitvector expressions
with respect to associativity and commutativity.
While there, also add test coverage for ac_rfl and ac_nf for BitVec,
complementing the existing test coverage.
The lemma `exists_const` already handles all real cases of `(∃ _ : α, p)
↔ p` for general types `α`. If there are no `Nonempty` instances and
this lemma cannot apply, it seems unlikely that simp could make more
progress with `(∃ _ : α, p) ↔ Nonempty α ∧ p`.
However, it is still worth simplifying `(∃ _ : p, q)` to `p ∧ q`.
Also adds a `Nonempty (Decidable a)` instance, which is used by Mathlib.
…|twoPow|one|replicate]
... and mark `getElem_setWidth` as `@[simp]`.
`getElem_rotateLeft` and `getElem_rotateRight` have a non-trivial rhs
but we follow `getLsbD_[rotateLeft|rotateRight]`for consistency.
---------
Co-authored-by: Kim Morrison <scott@tqft.net>
Adds Reservoir as another possible source of build caches in addition to
GitHub releases. If a GitHub release is not configured for a Reservoir
dependency, it will attempt download a build cache from Reservoir. Like
with GitHub releases, failure will not stop the build and instead issue
a warning. Many of the Lake API calls related to these build caches were
refactored and renamed, with the old names remaining around as
deprecated aliases.
Build cache downloads (from Reservoir or GitHub) can now be disabled via
the `--no-cache` CLI option or the `LAKE_NO_CACHE` environment variable.
A disabled cache can be re-enable with the `--try-cache` CLI option.
Macros sometimes create auxiliary types and instances about them, and
they rely on the instance name generate to create unique names in that
case.
This modifies the automatic name generator to add a fresh macro scope to
the generated name if any of the constants in the type of the instance
themselves have macro scopes.
Closes#2044
Generally works best to pick up the proofs by unification with the lhs.
pinging @hargoniX as this goes by, as it changes some proofs in
bv_decide (nothing interesting, just a bit simpler)
@bollu, it would be good to have confirmation from you, but presumably
this was not meant to be `@[simp]`? It competes with `divRec_succ`, and
has a terrible RHS.
after this change, `simp` will be able to discharge side-goals that,
after simplification, are of the form `∀ …, a = b` with `a =?= b`.
Usually these side-goals are solved by simplification using `eq_self`,
but that does not work when there are metavariables involved.
This enables us to have rewrite rules like
```
theorem List.foldl_subtype (p : α → Prop) (l : List (Subtype p)) (f : β → Subtype p → β)
(g : β → α → β) (b : β)
(hf : ∀ b x h, f b ⟨x, h⟩ = g b x) :
l.foldl f b = (l.map (·.val)).foldl g b := by
```
where the parameter `g` does not appear on the lhs, but can be solved
for using the `hf` equation. See `tests/lean/run/simpHigherOrder.lean`
for more examples.
The motivating use-case is that `simp` should be able to clean up the
usual
```
l.attach.map (fun <x, _> => x)
```
idiom often seen in well-founded recursive functions with nested
recursion.
Care needs to be taken with adding such rules to the default simp set if
the lhs is very general, and thus causes them to be tried everywhere.
Performance impact of just this PR (no additional simp rules) on mathlib
is unsuspicious:
http://speed.lean-fro.org/mathlib4/compare/b5bc44c7-e53c-4b6c-9184-bbfea54c4f80/to/ae1d769b-2ff2-4894-940c-042d5a698353
I tried a few alternatives, e.g. letting `simp` apply `eq_self` without
bumping the mvar depth, or just solve equalities directly, but that
broke too much things, and adding code to the default discharger seemed
simpler.
The formatter was using `tk ++ " "` to separate tokens from tokens they
would merge with, but `" "` is not whitespace that could merge. This
affected large binder lists, which wouldn't pretty print with any line
breaks. Now they can be flowed across multiple lines.
Closes#5424
Just an `Array` version of `List.eraseReps`. These functions are for now
outside of scope for verification, so there's just a simple `example` in
the tests.
Now the elab-as-elim procedure allows eliminators whose result is an
arbitrary application of the motive. For example, the following is now
accepted. It will generalize `Int.natAbs _` from the expected type.
```lean
@[elab_as_elim]
theorem natAbs_elim {motive : Nat → Prop} (i : Int)
(hpos : ∀ (n : Nat), i = n → motive n)
(hneg : ∀ (n : Nat), i = -↑n → motive n) :
motive (Int.natAbs i) := by sorry
```
This change simplifies the elaborator, since it no longer needs to keep
track of discriminants (which can easily be read off from the return
type of the eliminator) or the difference between "targets" and "extra
arguments" (which are now both "major arguments" that should be eagerly
elaborated).
Closes#4086
`BitVec.Lemmas` contained a couple of non-terminal simps. We turn
non-terminal `simp$`, `simp [`, and `simp at` expressions into `simp
only` to improve code maintainability.
