This PR implements `try?` using the new `finish?` infrastructure. It
also removes the old tracing infrastructure, which is now obsolete.
Example:
```lean
/--
info: Try these:
[apply] grind
[apply] grind only [findIdx, insert, = mem_indices_of_mem, = getElem?_neg, = getElem?_pos, = HashMap.mem_insert,
= HashMap.getElem_insert, #1bba]
[apply] grind only [findIdx, insert, = mem_indices_of_mem, = getElem?_neg, = getElem?_pos, = HashMap.mem_insert,
= HashMap.getElem_insert]
[apply] grind =>
instantiate only [findIdx, insert, = mem_indices_of_mem]
instantiate only [= getElem?_neg, = getElem?_pos]
cases #1bba
· instantiate only [findIdx]
· instantiate only
instantiate only [= HashMap.mem_insert, = HashMap.getElem_insert]
-/
#guard_msgs in
example (m : IndexMap α β) (a : α) (b : β) :
(m.insert a b).findIdx a = if h : a ∈ m then m.findIdx a else m.size := by
try?
```
This PR adds support for interactivity to the combined "try this"
messages that were introduced in #9966. In doing so, it moves the link
to apply a suggestion to a separate `[apply]` button in front of the
suggestion. Hints with diffs remain unchanged, as they did not
previously support interacting with terms in the diff, either.
<img width="379" height="256" alt="Suggestion with interactive message"
src="https://github.com/user-attachments/assets/7838ebf6-0613-46e7-bc88-468a05acbf51"
/>
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 adjusts the "try this" widget to be rendered as a widget message
under 'Messages', not a separate widget under a 'Suggestions' section.
The main benefit of this is that the message of the widget is not
duplicated between 'Messages' and 'Suggestions'.
Since widget message suggestions were already implemented by @jrr6 for
the new hint infrastructure, this PR replaces the old "try this"
implementation with the new hint infrastructure. In doing so, the
`style?` field of suggestions is deprecated, since the hint
infrastructure highlights hints using diff colors, and `style?` also
never saw much use downstream. Additionally, since the message and the
suggestion are now the same component, the `messageData?` field of
suggestions is deprecated as well. Notably, the "Try this:" message
string now also contains a newline and indentation to separate the
suggestion from the rest of the message more clearly and the `postInfo?`
field of the suggestion is now part of the message.
Finally, this PR changes the diff colors used by the hint infrastructure
to be more color-blindness-friendly (insertions are now blue, not green,
and text that remains unchanged is now using the editor foreground color
instead of blue).
### Breaking changes
Tests that use `#guard_msgs` to test the "Try this:" message may need to
be adjusted for the new formatting of the message.
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 wraps `simpLemma` and `grindLemma` in `ppGroup` to make sure
that the modifiers aren't printed separately from the term / identifier.
Example:
```
simp only [very_long_lemma_oh_no_can_you_please_stop_we're_getting_to_the_limit, ←
wait_this_is_rewritten_backwards_oh_uhh_where's_the_arrow_you_ask?_oh_wait_it's_up_there!]
==>
simp only [very_long_lemma_oh_no_can_you_please_stop_we're_getting_to_the_limit,
← wait_this_is_rewritten_backwards_and_wow_it's_very_clear_and_obvious]
```
This PR implements non-chronological backtracking for the `grind`
tactic. This feature ensures that `grind` does not need to process
irrelevant branches after performing a case-split that is not relevant.
It is not just about performance, but also the size of the final proof
term. The new test demonstrates this feature in practice.
```lean
-- In the following test, the first 8 case-splits are irrelevant,
-- and non-choronological backtracking is used to avoid searching
-- (2^8 - 1) irrelevant branches
/--
trace:
[grind.split] p8 ∨ q8, generation: 0
[grind.split] p7 ∨ q7, generation: 0
[grind.split] p6 ∨ q6, generation: 0
[grind.split] p5 ∨ q5, generation: 0
[grind.split] p4 ∨ q4, generation: 0
[grind.split] p3 ∨ q3, generation: 0
[grind.split] p2 ∨ q2, generation: 0
[grind.split] p1 ∨ q1, generation: 0
[grind.split] ¬p ∨ ¬q, generation: 0
-/
#guard_msgs (trace) in
set_option trace.grind.split true in
theorem ex
: p ∨ q →
¬ p ∨ q →
p ∨ ¬ q →
¬ p ∨ ¬ q →
p1 ∨ q1 →
p2 ∨ q2 →
p3 ∨ q3 →
p4 ∨ q4 →
p5 ∨ q5 →
p6 ∨ q6 →
p7 ∨ q7 →
p8 ∨ q8 →
False := by
grind (splits := 10)
```
This PR makes `#guard_msgs` to treat `trace` messages separate from
`info`, `warning` and `error`. It also introduce the ability to say
`#guard_msgs (pass info`, like `(drop info)` so far, and also adds
`(check info)` as the explicit form of `(info)`, for completeness.
Fixes#8266
This PR adds the attribute `[grind ext]`. It is used to select which
`[ext]` theorems should be used by `grind`. The option `grind +extAll`
instructs `grind` to use all `[ext]` theorems available in the
environment.
After update stage0, we need to add the builtin `[grind ext]`
annotations to key theorems such as `funext`.
This PR cleans up the `Option` development, upstreaming some results
from mathlib in the process.
Notable changes:
- the name `<op>_eq_some_iff` is preferred over `<op>_eq_some`
- the `simp` normal form for `<$>` is `Option.map`, for `>>=` is
`Option.bind` and for `<|>` is `Option.orElse` (for the former two, this
was already true before this PR). All further lemmas about these
operations are now stated only in terms of
`Option.map`/`Option.bind`/`Option.orElse`. Previously, in some cases
both versions were available, with a prime used to disambiguate (the
primed version was usually the "non-ascii-art" version). Now, there are
no lemmas about the ascii-art versions besides the ones turning them
into the non-ascii-art operations, and there is only one version of
every lemma, about the non-ascii-art operation, and named without a
prime.
This PR adds the new attributes `[grind =>]` and `[grind <=]` for
controlling pattern selection and minimizing the number of places where
we have to use verbose `grind_pattern` command. It also fixes a bug in
the new pattern selection procedure, and improves the automatic pattern
selection for local lemmas.
The tests `grind_constProp.lean` and `no_grind_constProp.lean` are the
same use case with and without `grind`.
This PR adds a few builtin case-splits for `grind`. They are similar to
builtin `simp` theorems. They reduce the noise in the tactics produced
by `grind?`.