This PR fixes a problem for structures with diamond inheritance: rather
than copying doc-strings (which are not available unless `.server.olean`
is loaded), we link to them. Adds tests.
This PR adds `Job.sync` as a standard way of declaring a synchronous
job.
It makes some non-behavior changes to related Job APIs to improve
compilation.
This PR lets the match compilation procedure use sparse case analysis
when the patterns only match on some but not all constructors of an
inductive type. This way, less code is produce. Before, code handling
each of the other cases was then optimized and commoned-up by later
compilation pipeline, but that is wasteful to do.
In some cases this will prevent Lean from noticing that a match
statement is complete
because it performs less case-splitting for the unreachable case. In
this case, give explicit
patterns to perform the deeper split with `by contradiction` as the
right-hand side.
At least temporarily, there is also the option to disable this behaviour
with
```
set_option backwards.match.sparseCases false
```
This PR removes the `verifyEnum` functions from the bv_decide frontend.
These functions looked at the implementation of matchers to see if they
really do the matching that they claim to do. This breaks that
abstraction barrier, and should not be necessary, as only functions with
a `MatcherInfo` env entry are considered here, which should all play
nicely.
This PR adds `theorem Int.ediv_pow {a b : Int} {n : Nat} (hab : b ∣ a) :
(a / b) ^ n = a ^ n / b ^ n` and related lemmas.
---------
Co-authored-by: Bhavik Mehta <bhavikmehta8@gmail.com>
This PR adds “sparse casesOn” constructions. They are similar to
`.casesOn`, but have arms only for some constructors and a catch-all
(providing `t.ctorIdx ≠ 42` assumptions). The compiler has native
support for these constructors and now (because of the similarity) also
the per-constructor elimination principles.
This PR ensures that the `denote` functions used to implement
proof-by-reflection terms in `grind` are abbreviations. This change
eliminates the need for the `withAbstractAtoms` gadget.
This PR fixes a panic during equality propagation in the `grind ring`
module. If the maximum number of steps has been reached, the polynomials
may not be fully simplified.
Closes#11073
This PR adds union operations on DTreeMap/TreeMap/TreeSet and their raw
variants and provides lemmas about union operations.
---------
Co-authored-by: Paul Reichert <6992158+datokrat@users.noreply.github.com>
This PR enables Lake users to require Reservoir dependencies by a
semantic version range. On a `lake update`, Lake will fetch the
package's version information from Reservoir and select the newest
version of the package that satisfies the range.
### Using Version Ranges
Version ranges can be specified through the `version` field of a TOML
`require` or the `@` clause of a Lean `require`. They are only
meaningful on Reservoir dependencies.
**lakefile.lean**
```lean-4
require "Seasawher" / "mdgen" @ "2.*"
```
**lakefile.toml**
```toml
[[require]]
name = "mdgen"
scope = "Seasawher"
version = "2.*"
```
The syntax for these versions ranges is a mix of
[Rust's](https://doc.rust-lang.org/stable/cargo/reference/specifying-dependencies.html?highlight=caret#version-requirement-syntax)
and
[Node's](https://github.com/npm/node-semver/tree/v7.7.3?tab=readme-ov-file#ranges)
with some Lean-friendly deviations.
### Comparators
The basic unit of semantic version ranges are version comparators. They
take a base version and a comparison operator and match versions which
compare positively with their base. Lake supports the following
comparison operators.
* `<`, `<=` / `≤`, `>`, `>=` / `≥`, `=`, `!=` / `≠`
Unlike Rust and Node, Lake supports Unicode alternatives for the
operators. It also adds the not-equal operator (`!=` / `≠`) to make
excluding broken versions easier.
Comparators can be combined into clauses via conjunction or disjunction:
* **AND clauses**: Rust-style `≥1.2.3, <1.8.0` or Node-style `1.2.3
<1.8.0`
* **OR clauses**: Node-style `1.2.7 || >=1.2.9, <2.0.0`
When the base version of a comparator has a `-` suffix (e.g.,
`>1.2.3-alpha.3`) it will match versions of the same core (`1.2.3`) with
suffixes that lexicographically compare (e.g., `1.2.3-alpha.7` or
`1.2.3-beta.2`) but will not match suffixed versions of different cores
(e.g., `3.4.5-rc5`). An empty `-` suffix can be used to disable this
behavior. For example, `<2.0.0-` will match `1.2.3-beta.2` and
`2.0.0-alpha.1`.
### Range Macros
In addition to the basic comparators, Lake also supports standard
shorthand for specifying more complex ranges. Namely, it supports the
caret (`^`) and tilde (`~`) operator along with wildcard ranges.
**Caret Ranges**
* `^1` => `≥1.0.0, <2.0.0-`
* `^1.2` => `≥1.2.0, <2.0.0-`
* `^1.2.3` => `≥1.2.3, <2.0.0-`
* `^1.2.3-beta.2` => `≥1.2.3-beta.2, <2.0.0-`
* `^0.2` => `≥0.0.0, <0.3.0-`
* `^0.2.3` => `≥0.2.3, <0.3.0-`
* `^0.0.3` => `≥0.0.3, <0.0.4-`
* `^0` => `≥0.0.0, <1.0.0-`
* `^0.0` => `≥0.0.0, <0.1.0-`
**Tilde Ranges**
* `~1` => `≥1.0.0, <2.0.0-`
* `~1.2` => `≥1.2.0, <1.3.0-`
* `~1.2.3` => `≥1.2.3, <1.3.0-`
* `~1.2.3-beta.2` => `≥1.2.3-beta.2, <1.3.0-`
* `^0` => `≥0.0.0, <1.0.0-`
* `^0.2.3` => `≥0.2.3, <0.3.0-`
* `^0.0.3` => `≥0.0.3, <0.0.4-`
* `~0` => `≥0.0.0, <1.0.0-`
* `~0.0` => `≥0.0.0, <0.1.0-`
* `~0.0.0` => `≥0.0.0, <0.1.0-`
**Wildcard Ranges**
* `*` => `≥0.0.0`
* `1.x` => `≥1.0.0, <2.0.0-`
* `1.*.x` => `≥1.0.0, <2.0.0-`
* `1.2.*` => `≥1.2.0, <1.3.0-`
These ranges closely follow Rust's and Node's syntax. Like Node but
unlike Rust, wildcard ranges support `x` and `X` as alternative syntax
for wildcards.
This PR implements `simp? +suggestions`, which uses the configured
library suggestion engine to add relevant theorems to the `simp` call.
`simp +suggestions` without the `?` prints a message requiring adding
the `?`.
This PR changes Lake's debug build type to use `-O0` instead of `-Og`
when compiling C code. `-Og` was found to be insufficient for debugging
compiled Lean code -- relevant code was stilled optimized out.
This PR changes `Nat.ble` by joining the two `Nat.ble Nat.zero _` cases
into one, allowing `decide (0 <= x) = true` and `decide (0 < succ x) =
true` to be solvable by `rfl`.
This PR fixes `ST.Ref.ptrEq` to act as described in the docs. This fixes
two bugs:
1. The recent `IO.RealWorld` elimination PR overlooked this function
(afaik this is the only one),
causing its return value to be generally wrong.
2. The implementation of `ptrEq` would previously always consider two
different cells with pointer
equivalent value to be pointer equal. However, the function is supposed
to check whether two
`Ref` are the same cell, not whether the contained elements are.
This PR implements equality propagation for `Nat` in `grind order`.
`grind order` supports offset equalities for rings, but it has an
adapter for `Nat`. Example:
```lean
example (a b : Nat) (f : Nat → Int) : a ≤ b + 1 → b + 1 ≤ a → f (1 + a) = f (1 + b + 1) := by
grind -offset -mbtc -lia -linarith (splits := 0)
```
This PR implements (nested term) equality propagation in `grind order`.
That is, it propagates implied equalities from `grind order` back to the
`grind` core. Examples:
```lean
open Lean Grind Std
example [LE α] [IsPartialOrder α] (a b : α) (f : α → Nat) : a ≤ b → b ≤ c → c ≤ a → f a = f b := by
grind (splits := 0)
example [CommRing α] [LE α] [LT α] [LawfulOrderLT α] [IsPartialOrder α] [OrderedRing α]
(a b : α) (f : α → Int) : a ≤ b + 1 → b ≤ a - 1 → f a = f (2 + b - 1) := by
grind -mbtc -lia -linarith (splits := 0)
example (a b : Int) (f : Int → Int) : a ≤ b + 1 → b ≤ a - 1 → f a = f (2 + b - 1) := by
grind -mbtc -lia -linarith (splits := 0)
```
`prelude-injectivity.lean` was testing inj thm generation for all
inductives in core, including private ones, which could lead to name
clashes that should not be able to occur in actual files. Put it under
the module system to not load private decls in the first place.
This PR enforces users of the constant folder API to provide proofs of
their algebraic properties,
thus hopefully avoiding bugs such as #11042 and #11043 in the future.
This PR fixes a case of overeager constant folding on Nat where the
compiler would mistakenly assume `0 - x = x` (see also #11042 for the
same bug on UInts).
