This PR cleans up `optParam`/`autoParam`/etc. annotations before
elaborating definition bodies, theorem bodies, `fun` bodies, and `let`
function bodies. Both `variable`s and binders in declaration headers are
supported.
There are no changes to `inductive`/`structure`/`axiom`/etc. processing,
just `def`/`theorem`/`example`/`instance`.
This PR addresses an outstanding feature in the module system to
automatically mark `let rec` and `where` helper declarations as private
unless they are defined in a public context such as under `@[expose]`.
This PR removes the unnecessary requirement of `BEq α` for
`Array.any_push`, `Array.any_push'`, `Array.all_push`, `Array.all_push'`
as well as `Vector.any_push` and `Vector.all_push`.
This PR tries to improve the E-matching pattern inference for `grind`.
That said, we still need better tools for annotating and maintaining
`grind` annotations in libraries.
closes#9125
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 an equivalence relation to tree maps akin to the existing
one for hash maps. In order to get many congruence lemmas to eventually
use for defining functions on extensional tree maps, almost all of the
remaining tree map functions have also been given lemmas to relate them
to list functions, although these aren't currently used to prove lemmas
other than congruence lemmas.
This PR adds a test case / use case example for `grind`, setting up the
very basics of `IndexMap`, modelled on Rust's
[`indexmap`](https://docs.rs/indexmap/latest/indexmap/). It is not
intended as a complete implementation: just enough to exercise `grind`.
(Thanks to @arthurpaulino for suggesting this as a test case.)
This PR uses `grind` to shorten some proofs in the LRAT checker. The
intention is not particularly to improve the quality or maintainability
of these proofs (although hopefully this is a side effect), but just to
give `grind` a work out.
There are a number of remaining notes, either about places where `grind`
fails with an internal error (for which #8608 is hopefully
representative, and we can fix after that), or `omega` works but `grind`
doesn't (to be investigated later).
Only in some of the files have I thoroughly used grind. In many files
I've just replaced leaves or branches of proofs with `grind` where it
worked easily, without setting up the internal annotations in the LRAT
library required to optimize the use of `grind`. It's diminishing
returns to do this in a proof library that is not high priority, so I've
simply drawn a line.
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 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 adds the `@[expose]` attribute to many functions (and changes
some theorems to be by `:= (rfl)`) in preparation for the `@[defeq]`
attribute change in #8419.
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 adds the `List/Array/Vector.ofFnM`, the monadic analogues of
`ofFn`, along with basic theory.
At the same time we pave some potholes in nearby API.
---------
Co-authored-by: Eric Wieser <wieser.eric@gmail.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 adds simp/grind lemmas about `List`/`Array`/`Vector.contains`.
In the presence of `LawfulBEq` these effectively already held, via
simplifying `contains` to `mem`, but now these also fire without
`LawfulBEq`.
This PR adds an initial set of `@[grind]` annotations for
`List`/`Array`/`Vector`, enough to set up some regression tests using
`grind` in proofs about `List`. More annotations to follow.
This PR moves `ReflBEq` to `Init.Core` and changes `LawfulBEq` to extend
`ReflBEq`.
**BREAKING CHANGES:**
- The `refl` field of `ReflBEq` has been renamed to `rfl` to match
`LawfulBEq`
- `LawfulBEq` extends `ReflBEq`, so in particular `LawfulBEq.rfl` is no
longer valid
