This PR adds a `linter.redundantExpose` option (default `true`) that
warns when `@[expose]` or `@[no_expose]` attributes have no effect:
- `@[expose]` on `abbrev` (always exposed) or non-Prop `instance`
(always exposed)
- `@[expose]` on a `def` inside an `@[expose] section` (already exposed
by the section)
- `@[expose]`/`@[no_expose]` in a non-`module` file (no module system)
- `@[no_expose]` on a declaration that wouldn't be exposed by default
---------
Co-authored-by: Claude Opus 4.6 (1M context) <noreply@anthropic.com>
This PR adds a warning to any `def` of class type that does not also
declare an appropriate reducibility.
The warning check runs after elaboration (checking the actual
reducibility status via `getReducibilityStatus`) rather than
syntactically checking modifiers before elaboration. This is necessary
to accommodate patterns like `@[to_additive (attr :=
implicit_reducible)]` in Mathlib, where the reducibility attribute is
applied during `.afterCompilation` by another attribute, and would be
missed by a purely syntactic check.
---------
Co-authored-by: Paul Reichert <6992158+datokrat@users.noreply.github.com>
Co-authored-by: Kim Morrison <kim@tqft.net>
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR makes the `FinitenessRelation` structure, which is helpful when
proving the finiteness of iterators, part of the public API. Previously,
it was marked internal and experimental.
This PR adds the new operation `MonadAttach.attach` that attaches a
proof that a postcondition holds to the return value of a monadic
operation. Most non-CPS monads in the standard library support this
operation in a nontrivial way. The PR also changes the `filterMapM`,
`mapM` and `flatMapM` combinators so that they attach postconditions to
the user-provided monadic functions passed to them. This makes it
possible to prove termination for some of these for which it wasn't
possible before. Additionally, the PR adds many missing lemmas about
`filterMap(M)` and `map(M)` that were needed in the course of this PR.
This PR moves many constants of the iterator API from `Std.Iterators` to
the `Std` namespace in order to make them more convenient to use. These
constants include, but are not limited to, `Iter`, `IterM` and
`IteratorLoop`. This is a breaking change. If something breaks, try
adding `open Std` in order to make these constants available again. If
some constants in the `Std.Iterators` namespace cannot be found, they
can be found directly in `Std` now.
This PR introduces a new fixpoint combinator,
`WellFounded.extrinsicFix`. A termination proof, if provided at all, can
be given extrinsically, i.e., looking at the term from the outside, and
is only required if one intends to formally verify the behavior of the
fixpoint. The new combinator is then applied to the iterator API.
Consumers such as `toList` or `ForIn` no longer require a proof that the
underlying iterator is finite. If one wants to ensure the termination of
them intrinsically, there are strictly terminating variants available
as, for example, `it.ensureTermination.toList` instead of `it.toList`.
