Commit graph

34 commits

Author SHA1 Message Date
Markus Himmel
ca3f43907b
chore: drop Option.zipWith, use Option.merge instead (#7851)
This PR partially reverts #7818, because the function called
`Option.zipWith` in that PR does not actually correspond to
`List.zipWith`. We choose `Option.merge` as the name instead.
2025-04-08 08:44:52 +00:00
Markus Himmel
258bb22f0a
chore: deprecate Option.merge and Option.liftOrGet in favor of Option.zipWith (#7818)
This PR deprecates `Option.merge` and `Option.liftOrGet` in favor of
`Option.zipWith`.
2025-04-04 13:37:36 +00:00
Kim Morrison
daa4fd9955
feat: review of implicitness of arguments in List/Array (#7672)
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.
2025-03-26 04:40:06 +00:00
Kim Morrison
ce138e1cec
fix: correct names in library lemmas (#7541)
This PR corrects names of a number of lemmas, where the incorrect name
was identified automatically by a
[tool](https://leanprover.zulipchat.com/#narrow/channel/270676-lean4/topic/automatic.20spelling.20generation.20.26.20comparison/near/505760384)
written by @Rob23oba.
2025-03-18 03:50:03 +00:00
Kim Morrison
c1d145e9d7
feat: revision of Nat/Int lemmas (#7435)
This PR reviews the `Nat` and `Int` API, making the interfaces more
consistent.
2025-03-12 05:52:09 +00:00
Kim Morrison
10bfeba2d9
chore: aligning Int.ediv/fdiv/tdiv theorems (#7266)
This PR begins the alignment of `Int.ediv/fdiv/tdiv` theorems.
2025-02-28 05:27:40 +00:00
Kim Morrison
d3781bb787
fix: definition of Min (Option α), and basic lemmas (#7255)
This PR fixes the definition of `Min (Option α)`. This is a breaking
change. This treats `none` as the least element,
so `min none x = min x none = none` for all `x : Option α`. Prior to
nightly-2025-02-27, we instead had `min none (some x) = min (some x)
none = some x`. Also adds basic lemmas relating `min`, `max`, `≤` and
`<` on `Option`.
2025-02-27 10:44:44 +00:00
Kim Morrison
2eb478787f
chore: split Int.DivModLemmas into Bootstrap and Lemmas (#7162)
This PR splits `Int.DivModLemmas` into a `Bootstrap` and `Lemmas` file,
where it is possible to use `omega` in `Lemmas`.

I'm going to add more theory, particularly about `fdiv` and `tdiv` to
the `Lemmas` file, and would prefer to have access to `omega`.
2025-02-20 12:05:09 +00:00
Kim Morrison
4b307914fc
chore: cleanup duplicate theorems (#7113) 2025-02-18 01:46:12 +00:00
Kim Morrison
1ce7047bf5
feat: cleanup of get and back functions on List/Array (#7059)
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`.
2025-02-17 01:43:45 +00:00
Leonardo de Moura
f4afcfc923
feat: divisibility constraint normalizer (#7092)
This PR implements divisibility constraint normalization in `simp
+arith`.
2025-02-15 04:20:40 +00:00
Kim Morrison
7e8af0fc9d
feat: rename List.enum(From) to List.zipIdx, and Array/Vector.zipWithIndex to zipIdx (#6800)
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`).
2025-01-28 23:34:30 +00:00
Kim Morrison
5c7e027b03
chore: cleanup of List/Array lemmas (#6249)
This PR performs further cleanup of `List/Lemmas.lean` and
`Array/Lemmas.lean`, trying to make them more parallel.

Still a long way to go.
2024-11-29 06:12:38 +00:00
Kim Morrison
b612403980
chore: update copyrights (#5449) 2024-09-24 05:27:53 +00:00
Kim Morrison
d08051cf0b
chore: variables appearing on both sides of an iff should be implicit (#5254) 2024-09-04 08:33:24 +00:00
Kim Morrison
c3655b626e
chore: remove bad simp lemma in omega theory (#5156) 2024-08-25 07:47:16 +00:00
Joachim Breitner
d975e4302e
feat: fine-grained equational lemmas for non-recursive functions (#4154)
This is part of #3983.

Fine-grained equational lemmas are useful even for non-recursive
functions, so this adds them.

The new option `eqns.nonrecursive` can be set to `false` to have the old
behavior.

### Breaking channge

This is a breaking change: Previously, `rw [Option.map]` would rewrite
`Option.map f o` to `match o with … `. Now this rewrite will fail
because the equational lemmas require constructors here (like they do
for, say, `List.map`).

Remedies:

 * Split on `o` before rewriting.
* Use `rw [Option.map.eq_def]`, which rewrites any (saturated)
application of `Option.map`
* Use `set_option eqns.nonrecursive false` when *defining* the function
in question.

### Interaction with simp

The `simp` tactic so far had a special provision for non-recursive
functions so that `simp [f]` will try to use the equational lemmas, but
will also unfold `f` else, so less breakage here (but maybe performance
improvements with functions with many cases when applied to a
constructor, as the simplifier will no longer unfold to a large
`match`-statement and then collapse it right away).

For projection functions and functions marked `[reducible]`, `simp [f]`
won’t use the equational theorems, and will only use its internal
unfolding machinery.

### Implementation notes

It uses the same `mkEqnTypes` function as for recursive functions, so we
are close to a consistency here. There is still the wrinkle that for
recursive functions we don't split matches without an interesting
recursive call inside. Unifying that is future work.
2024-08-22 13:26:58 +00:00
Kim Morrison
215b4a6a8d
fix: omega regression (#4989)
This is a better fix to the problem reported at
https://leanprover.zulipchat.com/#narrow/stream/287929-mathlib4/topic/nat.20fighting,
which itself had a problem as reported at
https://leanprover.zulipchat.com/#narrow/stream/270676-lean4/topic/omega.20regression/near/456539091.
2024-08-12 00:24:24 +00:00
Kim Morrison
69f86d6478
chore: split Init.Data.List.Lemmas (#4863)
Init.Data.List.Lemmas had reached 5000 lines: splitting into
function-specific files.
2024-07-30 03:17:34 +00:00
Kim Morrison
8229b28cc9
feat: omega doesn't push coercion over multiplication unnecessarily (#4695) 2024-07-09 12:49:31 +00:00
Kim Morrison
301a89aba4
feat: lemmas about List.map (#4521) 2024-06-21 06:40:30 +00:00
Kim Morrison
e10a37d80d
feat: switching List lookup normal forms to L[n] and L[n]? (#4400)
This is presumably going to have significant breakage downstream.
2024-06-15 07:35:36 +00:00
Leonardo de Moura
3bd39ed8b6
perf: a isDefEq friendly Fin.sub (#4421)
The performance issue at #4413 is due to our `Fin.sub` definition.
```
def sub : Fin n → Fin n → Fin n
  | ⟨a, h⟩, ⟨b, _⟩ => ⟨(a + (n - b)) % n, mlt h⟩
```
Thus, the following runs out of stack space
```
example (a : UInt64) : a - 1 = a :=
  rfl
```
at the `isDefEq` test
```
(a.val.val + 18446744073709551615) % 18446744073709551616 =?= a.val.val
```

From the user's perspective, this timeout is unexpected since they are
using small numerals, and none of the other `Fin` basic operations (such
as `Fin.add` and `Fin.mul`) suffer from this problem.

This PR implements an inelegant solution for the performance issue. It
redefines `Fin.sub` as
```
def sub : Fin n → Fin n → Fin n
  | ⟨a, h⟩, ⟨b, _⟩ => ⟨((n - b) + a) % n, mlt h⟩
```
This approach is unattractive because it relies on the fact that
`Nat.add` is defined using recursion on the second argument.

The impact on this repo was small, but we want to evaluate the impact on
Mathlib.

closes #4413
2024-06-11 17:18:11 +00:00
Kim Morrison
dcf74b0d89
chore: Std -> Batteries renaming (#4108) 2024-05-08 05:04:25 +00:00
Joachim Breitner
b181fd83ef
feat: in conv tactic, use try with_reducibe rfl (#3763)
The `conv` tactic tries to close “trivial” goals after itself. As of
now, it uses
`try rfl`, which means it can close goals that are only trivial after
reducing with
default transparency. This is suboptimal

* this can require a fair amount of unfolding, and possibly slow down
the proof
   a lot. And the user cannot even prevent it.
* it does not match what `rw` does, and a user might expect the two to
behave the
   same.

So this PR changes it to `with_reducible rfl`, matching `rw`’s behavior.

I considered `with_reducible eq_refl` to only solve trivial goals that
involve equality,
but not other relations (e.g. `Perm xs xs`), but a discussion on mathlib
pointed out
that it’s expected and desirable to solve more general reflexive goals:


https://leanprover.zulipchat.com/#narrow/stream/270676-lean4/topic/Closing.20after.20.60rw.60.2C.20.60conv.60.3A.20.60eq_refl.60.20instead.20of.20.60rfl.60/near/429851605
2024-03-29 11:59:45 +00:00
Scott Morrison
94d6286e5a
chore: reorganising to reduce imports (#3790)
[Before](https://github.com/leanprover/lean4/files/14772220/oi.pdf) and
[after](https://github.com/leanprover/lean4/files/14772226/oi2.pdf).

This gets `ByteArray`, `String.Extra`, `ToString.Macro` and `RCases` out
of the imports of `omega`. I'd hoped to get `Array.Subarray` too, but
it's tangled up in the list literal syntax. Further progress could come
from make `split` use available `Decidable` instances, so we could pull
out `Classical` (and possibly some of `PropLemmas`).
2024-03-27 11:15:01 +00:00
Scott Morrison
d5a1dce0ae
chore: omega notices that 0 ≤ (x : Int) % (y : Int) (#3736) 2024-03-22 02:49:24 +00:00
Joe Hendrix
c43a6b5341
chore: upstream Std.Data.Int (#3635)
This depends on #3634.
2024-03-11 21:40:48 +00:00
Scott Morrison
01f0fedef8
feat: further shaking of Nat/Int/Omega (#3613) 2024-03-05 23:43:36 +00:00
Scott Morrison
bf6d9295a4
chore: shaking imports in Init.Data.Nat/Int (#3605) 2024-03-05 13:29:35 +00:00
Joachim Breitner
6c828ee9eb
doc: fix references to Std.Tactic.Omega in comments (#3479) 2024-02-23 16:05:32 +00:00
Scott Morrison
cc8adfb2a5
feat: support for Fin in omega (#3427) 2024-02-21 13:09:38 +00:00
Scott Morrison
f76bb2495b
feat: omega handles shift operators, and normalises ground term exponentials (#3433)
This is a preliminary to a BitVec frontend for `omega`.
2024-02-21 11:55:58 +00:00
Scott Morrison
88deb34ddb
chore: upstream omega (#3367)
Co-authored-by: Joe Hendrix <joe@lean-fro.org>
2024-02-19 00:19:55 +00:00