This PR changes how Lean proves the equational theorems for structural
recursion. The core idea is to let-bind the `f` argument to `brecOn` and
rewriting `.brecOn` with an unfolding theorem. This means no extra case
split for the `.rec` in `.brecOn` is needed, and `simp` doesn't change
the `f` argument which can break the definitional equality with the
defined function. With this, we can prove the unfolding theorem first,
and derive the equational theorems from that, like for all other ways of
defining recursive functions.
Backs out the changes from #10415, the old strategy works well with the
new goals.
Fixes#5667Fixes#10431Fixes#10195Fixes#2962
This PR ensures that even if a type is marked as `irreducible` the
compiler can see through it in
order to discover functions hidden behind type aliases.
This PR adds infrastructure for the upcoming `grind` tactic mode, which
will be similar to the `conv` mode. The goal is to extend `grind` from a
terminal tactic into an interactive mode: `grind => …`.
It will serve as the foundation for `ungrind`, the process of converting
an expensive (and potentially fragile) `grind` proof into a robust
script. This mode will include tactics for expensive reasoning steps
such as cutsat model-based search, Gröbner basis computation,
E-matching, case splits, and more.
It will also provide robust, succinct references to facts and terms:
labels, structural matches, and anchors (e.g., `#abcd`).
This PR adds a docstring role for module names, called `module`. It also
improves the suggestions provided for code elements, making them more
relevant and proposing `lit`.
This PR implements module docstrings in Verso syntax, as well as adding
a number of improvements and fixes to Verso docstrings in general. In
particular, they now have language server support and are parsed at
parse time rather than elaboration time, so the snapshot's syntax tree
includes the parsed documentation.
This PR adds the `reduceCtorIdx` simproc which recognizes and reduces
`ctorIdx` applications. This is not on by default yet because it does
not use the discrimination tree (yet).
This PR enables the new E-matching pattern inference heuristic for
`grind`, implemented in PR #10422.
**Important**: Users can still use the old pattern inference heuristic
by setting:
```lean
set_option backward.grind.inferPattern true
```
In PR #10422, we introduced the new modifier `@[grind!]` for enabling
the minimal indexable subexpression condition. This option can now also
be set in `grind` parameters. Example:
```lean
opaque f : Nat → Nat
opaque fInv : Nat → Nat
axiom fInv_f : fInv (f x) = x
/-- trace: [grind.ematch.pattern] fInv_f: [f #0] -/
#guard_msgs in
set_option trace.grind.ematch.pattern true in
example {x y} : f x = f y → x = y := by
/-
The modifier `!` instructs `grind` to use the minimal indexable subexpression
(i.e., `f x` in this case).
-/
grind [!fInv_f]
```
This PR refines and clarifies the `meta` phase distinction in the module
system.
* `meta import A` without `public` now has the clarified meaning of
"enable compile-time evaluation of declarations in or above `A` in the
current module, but not downstream". This is now checked statically by
enforcing that public meta defs, which therefore may be referenced from
outside, can only use public meta imports, and that global evaluating
attributes such as `@[term_parser]` can only be applied to public meta
defs.
* `meta def`s may no longer reference non-meta defs even when in the
same module. This clarifies the meta distinction as well as improves
locality of (new) error messages.
* parser references in `syntax` are now also properly tracked as meta
references.
* A `meta import` of an `import` now properly loads only the `.ir` of
the nested module for the purposes of execution instead of also making
its declarations available for general elaboration.
* `initialize` is now no longer being run on import under the module
system, which is now covered by `meta initialize`.
This PR ensures users can select the "minimal indexable subexpression"
condition in `grind` parameters. Example, they can now write `grind [!
-> thmName]`. `grind?` will include the `!` modifier whenever users had
used `@[grind!]`. This PR also fixes a missing case in the new pattern
inference procedure.
It also adjusts some `grind` annotations and tests in preparation for
setting the new pattern inference heuristic as the new default.
This PR changes the order of steps tried when proving equational
theorems for structural recursion. In order to avoid goals that `split`
cannot handle, avoid unfolding the LHS of the equation to `.brecOn` and
`.rec` until after the RHS has been split into its final cases.
Fixes: #10195
This PR implements the new E-matching pattern inference heuristic for
`grind`. It is not enabled yet. You can activate the new behavior using
`set_option backward.grind.inferPattern false`. Here is a summary of the
new behavior.
* `[grind =]`, `[grind =_]`, `[grind _=_]`, `[grind <-=]`: no changes;
we keep the current behavior.
* `[grind ->]`, `[grind <-]`, `[grind =>]`, `[grind <=]`: we stop using
the *minimal indexable subexpression* and instead use the first
indexable one.
* `[grind! <mod>]`: behaves like `[grind <mod>]` but uses the minimal
indexable subexpression restriction. We generate an error if the user
writes `[grind! =]`, `[grind! =_]`, `[grind! _=_]`, or `[grind! <-=]`,
since there is no pattern search in these cases.
* `[grind]`: it tries `=`, `=_`, `<-`, `->`, `<=`, `=>` with and without
the minimal indexable subexpression restriction. For the ones that work,
we generate a code action to encourage users to select the one they
prefer.
* `[grind!]`: it tries `<-`, `->`, `<=`, `=>` using the minimal
indexable subexpression restriction. For the ones that work, we generate
a code action to encourage users to select the one they prefer.
* `[grind? <mod>]`: where `<mod>` is one of the modifiers above, it
behaves like `[grind <mod>]` but also displays the pattern.
Example:
```lean
/--
info: Try these:
• [grind =] for pattern: [f (g #0)]
• [grind =_] for pattern: [r #0#0]
• [grind! ←] for pattern: [g #0]
-/
#guard_msgs in
@[grind] axiom fg₇ : f (g x) = r x x
```
This PR adds the ability to do `deriving ReflBEq, LawfulBEq`. Both
classes have to listed in the `deriving` clause. For `ReflBEq`, a simple
`simp`-based proof is used. For `LawfulBEq`, a dedicated,
syntax-directed tactic is used that should work for derived `BEq`
instances. This is meant to work with `deriving BEq` (but you can try to
use it on hand-rolled `@[methods_specs] instance : BEq…` instances).
Does not support mutual or nested inductives.
This PR adds the `reduceBEq` and `reduceOrd` simprocs. They rewrite
occurrences of `_ == _` resp. `Ord.compare _ _` if both arguments are
constructors and the corresponding instance has been marked with
`@[method_specs]` (introduced in #10302), which now by default is the
case for derived instances.
This PR makes the builtin Verso docstring elaborators bootstrap
correctly, adds the ability to postpone checks (which is necessary for
resolving forward references and bootstrapping issues), and fixes a
minor parser bug.
