This PR adjusts the experimental module system to make `private` the
default visibility modifier in `module`s, introducing `public` as a new
modifier instead. `public section` can be used to revert the default for
an entire section, though this is more intended to ease gradual adoption
of the new semantics such as in `Init` (and soon `Std`) where they
should be replaced by a future decl-by-decl re-review of visibilities.
This PR adds grind annotations for `Array/Vector.mapIdx` and `mapFinIdx`
theorems.
The annotations are added to theorems that correspond to those already
annotated in the List implementation, ensuring consistency across all
three container types (List, Array, Vector) for indexed mapping
operations.
Key theorems annotated include:
- Size and element access theorems (`size_mapIdx`, `getElem_mapIdx`,
`getElem?_mapIdx`)
- Construction theorems (`mapIdx_empty`, `mapIdx_push`, `mapIdx_append`)
- Membership and equality theorems (`mem_mapIdx`, `mapIdx_mapIdx`)
- Conversion theorems (`toList_mapIdx`, `mapIdx_toArray`, etc.)
- Reverse and composition operations
- Similar annotations for `mapFinIdx` variants
This PR removes the `@[reducible]` annotation on `Array.size`. This is
probably best gone anyway in order to keep separation between the `List`
and `Array` APIs, but it also helps avoid uselessly instantiating
`Array` theorems when `grind` is working on `List` problems.
This PR reworks the `simp` set around the `Id` monad, to not elide or
unfold `pure` and `Id.run`
In particular, it stops encoding the "defeq abuse" of `Id X = X` in the
statements of theorems, instead using `Id.run` and `pure` to pass back
and forth between these two spellings. Often when writing these with
`pure`, they generalize to other lawful monads; though such changes were
split off to other PRs.
This fixes the problem with the current simp set where `Id.run (pure x)`
is simplified to `Id.run x`, instead of the desirable `x`.
This is particularly bad because the` x` is sometimes inferred with type
`Id X` instead of `X`, which prevents other `simp` lemmas about `X` from
firing.
Making `Id` reducible instead is not an option, as then the `Monad`
instances would have nothing to key on.
---------
Co-authored-by: Sebastian Graf <sg@lean-fro.org>
Co-authored-by: Kim Morrison <kim@tqft.net>
Co-authored-by: Paul Reichert <6992158+datokrat@users.noreply.github.com>
This PR adjusts the experimental module system to not export the bodies
of `def`s unless opted out by the new attribute `@[expose]` on the `def`
or on a surrounding `section`.
---------
Co-authored-by: Markus Himmel <markus@lean-fro.org>
This PR reviews the implicitness of arguments across List/Array/Vector,
generally trying to make arguments implicit where possible, although
sometimes correcting propositional arguments which were incorrectly
implicit to explicit.
This PR takes Array-specific lemmas at the end of `Array/Lemmas.lean`
(i.e. material that does not have exact correspondences with
`List/Lemmas.lean`) and moves them to more appropriate homes. More to
come.
This PR moves away from using `List.get` / `List.get?` / `List.get!` and
`Array.get!`, in favour of using the `GetElem` mediated getters. In
particular it deprecates `List.get?`, `List.get!` and `Array.get?`. Also
adds `Array.back`, taking a proof, matching `List.getLast`.
This PR uniformizes the naming of `enum`/`enumFrom` (on `List`) and
`zipWithIndex` (on `Array` on `Vector`), replacing all with `zipIdx`. At
the same time, we generalize to add an optional `Nat` parameter for the
initial value of the index (which previously existed, only for `List`,
as the separate function `enumFrom`).
This PR changes the arguments of `List/Array.mapFinIdx` from `(f : Fin
as.size → α → β)` to `(f : (i : Nat) → α → (h : i < as.size) → β)`, in
line with the API design elsewhere for `List/Array`.
This PR modifies the order of arguments for higher-order `Array`
functions, preferring to put the `Array` last (besides positional
arguments with defaults). This is more consistent with the `List` API,
and is more flexible, as dot notation allows two different partially
applied versions.
This PR simplifies the signature of `Array.mapIdx`, to take a function
`f : Nat \to \a \to \b` rather than a function `f : Fin as.size \to \a
\to \b`.
Lean doesn't actually use the extra generality anywhere (so in fact this
change *simplifies* all the call sites of `Array.mapIdx`, since we no
longer need to throw away the proof).
This change would make the function signature equivalent to
`List.mapIdx`, hence making it easier to write verification lemmas.
We keep the original behaviour as `Array.mapFinIdx`.
