This PR provides the iterator combinator `drop` that transforms any
iterator into one that drops the first `n` elements.
Additionally, the PR removes the specialized `IteratorLoop` instance on
`Take`. It currently does not have a `LawfulIteratorLoop` instance,
which needs to exist for the loop consumer lemmas to work. Having the
specialized instance is low priority.
This PR adds `@[grind]` to `getElem?_pos` and variants.
I'd initially thought these would result in too much case splitting, but
it seems to be only minor, and in use cases the payoff is good.
This PR adds support for the `compiler.extract_closed` option to the new
compiler, since this is used by the definition of `unsafeBaseIO`. We'll
revisit this once we switch to the new compiler and rethink its
relationship with IO.
This PR makes the lemma `BitVec.extractLsb'_append_eq_ite` more usable
by using the "simple case" more often, and uses this simplification to
make `BitVec.extractLsb'_append_eq_of_add_lt` stronger, renaming it to
`BitVec.extractLsb'_append_eq_of_add_le`.
This PR wraps the invocation of the new compiler in `withoutExporting`.
This is not necessary for the old compiler because it uses more direct
access to the kernel environment.
This PR removes incorrect optimizations for strictOr/strictAnd from the
old compiler, along with deleting an incorrect test. In order to do
these optimizations correctly, nontermination analysis is required.
Arguably, the correct way to express these optimizations is by exposing
the implementation of strictOr/strictAnd to a nontermination-aware phase
of the compiler, and then having them follow from more general
transformations.
This PR adjusts the grind annotation on
`Std.HashMap.map_fst_toList_eq_keys` and variants, so `grind` can reason
bidirectionally between `m.keys` and `m.toList`.
This PR avoids the likely unexpected behavior of `removeDirAll` to
delete through symlinks and adds the new function
`IO.FS.symlinkMetadata`.
---------
Co-authored-by: Rob23oba <152706811+Rob23oba@users.noreply.github.com>
This PR sets `ring := true` by default in `grind`. It also fixes a bug
in the reification procedure, and improves the term internalization in
the ring and cutsat modules.
This PR makes LCNF's simpAppApp? bail out on trivial aliases as
intended. It seems that there was a typo in the original logic, and this
PR also extends it to include aliases of global constants rather than
just local vars.
Just a typo. From my understanding (and the specification otherwise) the
resulting level is the maximum of `r` and `s` instead of the minimum.
No issue opened yet (thus the draft).
This PR clarifies the invalid field notation error when projected value
type is a metavariable.
Co-authored-by @sgraf812.
---------
Co-authored-by: Sebastian Graf <sg@lean-fro.org>
This PR clarifies the invalid dotted identifier notation error when the
type is a sort.
Co-authored-by @sgraf812.
---------
Co-authored-by: Joseph Rotella <7482866+jrr6@users.noreply.github.com>
This PR improves the rendering of hints in error messages by
consistently indenting diffs and splitting large diffs less granularly;
it also improves the ergonomics of `Lean.MessageData.hint`. Note that
the changes to the signature of `Lean.MessageData.hint` are breaking.
This PR depends on #8457.
This PR changes the LCNF constant folding pass to not convert Nat
multiplication to a left shift by a power of 2. The fast path test for
this is sufficiently complex that it's simpler to just use the fast path
for multiplication.
This PR makes the LCNF specialization pass only treat type/instance
params as ground vars. The current policy was too liberal and would
result on computations being floated into specialized loops.
This PR simplifies the interface between the `grind` core and the cutsat
procedure. Before this PR, core would try to minimize the number of
numeric literals that have to be internalized in cutsat. This
optimization was buggy (see `grind_cutsat_zero.lean` test), and produced
counterintuitive counterexamples.
This PR increases maxHeartbeats in the isDefEqProjIssue test, because
when running under the new compiler the `run_meta` call includes the
allocations of the compiler itself. With the old compiler, many of the
corresponding allocations were internal to C++ code and would not
increase the heartbeat count.
This PR fixes an adversarial soundness attack described in #8554. The
attack exploits the fact that `assert!` no longer aborts execution, and
that users can redirect error messages.
Another PR will implement the same fix for `Expr.Data`.
This PR provides array iterators (`Array.iter(M)`,
`Array.iterFromIdx(M)`), infinite iterators produced by a step function
(`Iter.repeat`), and a `ForM` instance for finite iterators that is
implemented in terms of `ForIn`.
This PR fixes the hash function used to implement congruence closure in
`grind`. The hash of an `Expr` must not depend on whether the expression
has been internalized or not.
This PR provides the iterator combinators `takeWhile` (forwarding all
emitted values of another iterator until a predicate becomes false)
`dropWhile` (dropping values until some predicate on these values
becomes false, then forwarding all the others).
This PR provides the iterator combinator `filterMap` in a pure and
monadic version and specializations `map` and `filter`. This new
combinator allows to apply a function to the emitted values of a stream
while filtering out certain elements.
`map` should have an optimized `IteratorCollect` implementation but it
turns out that this is not possible without a major refactor of
`IteratorCollect`: `toArrayMapped` requires a proof that the iterator is
finite. If `it.mapM f` is `Finite` but `it` is not, then such a proof
does not exist. `IteratorCollect` needs to take a proof that the loop
will terminate for the given monadic function `f` instead. This will not
be done in this PR.
This PR provides the `take` iterator combinator that transforms any
iterator into an iterator that stops after a given number of steps. The
change contains the implementation and lemmas.
`take` has a special implementation of `IteratorLoop` that relies on a
potentially more efficient `forIn` implementation of the inner iterator.
The mysterious `@[specialize]` on a test has been removed because it is
not necessary anymore according to a manual inspection of the IR. Either
I erroneously concluded from experiments that it was necessary of
something has changed in the meantime that makes it unnecessary.
This PR upstreams the `LawfulMonadLift(T)` classes, lemmas and instances
from Batteries into Core because the iterator library needs them in
order to prove lemmas about the `mapM` operator, which relies on
`MonadLiftT`.
