This PR fixes a bug in the theorem instantiation procedure in the (WIP)
`grind` tactic. For example, it was missing the following instance in
one of the tests:
```lean
[grind.ematch.instance] Array.get_set_ne: ∀ (hj : i < bs.size), j ≠ i → (bs.set j w ⋯)[i] = bs[i]
```
This PR also renames the `grind` base monad to `GrindCoreM`.
This PR adds support for activating relevant theorems for the (WIP)
`grind` tactic. We say a theorem is relevant to a `grind` goal if the
symbols occurring in its patterns also occur in the goal.
This PR adds pattern validation to the `grind_pattern` command. The new
`checkCoverage` function will also be used to implement the attributes
`@[grind_eq]`, `@[grind_fwd]`, and `@[grind_bwd]`.
This PR implements the command `grind_pattern`. The new command allows
users to associate patterns with theorems. These patterns are used for
performing heuristic instantiation with e-matching. In the future, we
will add the attributes `@[grind_eq]`, `@[grind_fwd]`, and
`@[grind_bwd]` to compute the patterns automatically for theorems.
This PR introduces a command for specifying patterns used in the
heuristic instantiation of global theorems in the `grind` tactic. Note
that this PR only adds the parser.
This PR completes the implementation of `addCongrTable` in the (WIP)
`grind` tactic. It also adds a new test to demonstrate why the extra
check is needed. It also updates the field `cgRoot` (congruence root).
This PR completes support for literal values in the (WIP) `grind`
tactic. `grind` now closes the goal whenever it merges two equivalence
classes with distinct literal values.
This PR adds support for constructors to the (WIP) `grind` tactic. When
merging equivalence classes, `grind` checks for equalities between
constructors. If they are distinct, it closes the goal; if they are the
same, it applies injectivity.
This PR adds support for compact congruence proofs in the (WIP) `grind`
tactic. The `mkCongrProof` function now verifies whether the congruence
proof can be constructed using only `congr`, `congrFun`, and `congrArg`,
avoiding the need to generate the more complex `hcongr` auxiliary
theorems.
This PR adds support for detecting congruent terms in the (WIP) `grind`
tactic. It also introduces the `grind.debug` option, which, when set to
`true`, checks many invariants after each equivalence class is merged.
This option is intended solely for debugging purposes.
This PR adds a custom type and instance canonicalizer for the (WIP)
`grind` tactic. The `grind` tactic uses congruence closure but
disregards types, type formers, instances, and proofs. Proofs are
ignored due to proof irrelevance. Types, type formers, and instances are
considered supporting elements and are not factored into congruence
detection. Instead, `grind` only checks whether elements are
structurally equal, which, in the context of the `grind` tactic, is
equivalent to pointer equality. See new tests for examples where the
canonicalizer is important.
This PR ensures that `simp` and `dsimp` do not unfold definitions that
are not intended to be unfolded by the user. See issue #5755 for an
example affected by this issue.
Closes#5755
---------
Co-authored-by: Kim Morrison <kim@tqft.net>
This PR adds a new preprocessing step to the `grind` tactic:
universe-level normalization. The goal is to avoid missing equalities in
the congruence closure module.
This PR fixes a bug in `Lean.Meta.Closure` that would introduce
under-applied delayed assignment metavariables, which would keep them
from ever getting instantiated. This bug affected `match` elaboration
when the expected type contained postponed elaboration problems, for
example tactic blocks.
Closes#5925, closes#6354
This PR introduces the following features to the WIP `grind` tactic:
- `Expr` internalization.
- Congruence theorem cache.
- Procedure for adding new facts
- New tracing options
- New preprocessing steps: fold projections and eliminate dangling
`Expr.mdata`
This PR adds reserved names for congruence theorems used in the
simplifier and `grind` tactics. The idea is prevent the same congruence
theorems to be generated over and over again.
After update stage0, we must use the new API in the simplifier.
