lean4-htt

Author SHA1 Message Date

Author	SHA1	Message	Date
Paul Reichert	1448493489	feat: improvements to `Min`/`Max`-related classes (#10024 ) This PR adds useful declarations to the `LawfulOrderMin/Max` and `LawfulOrderLeftLeaningMin/Max` API. In particular, it introduces `.leftLeaningOfLE` factories for `Min` and `Max`. It also renames `LawfulOrderMin/Max.of_le` to .of_le_min_iff` and `.of_max_le_iff` and introduces a second variant with different arguments.	2025-08-22 07:08:00 +00:00
Paul Reichert	f81236185c	feat: integrate high-level order typeclasses with `BEq` and `Ord` (#9908 ) This PR makes `IsPreorder`, `IsPartialOrder`, `IsLinearPreorder` and `IsLinearOrder` extend `BEq` and `Ord` as appropriate, adds the `LawfulOrderBEq` and `LawfulOrderOrd` typeclasses relating `BEq` and `Ord` to `LE`, and adds many lemmas and instances. Note: This PR contains a refactoring where `Init.Data.Ord` is moved to `Init.Data.Ord.Basic`. If I added `Init.Data.Ord` simply importing all submodules, git would not be able to determine that `Init.Data.Ord` was renamed to `Init.Data.Ord.Basic`. This could lead to unnecessary merge conflicts in the future. Hence, I chose the name `Init.Data.OrdRoot` instead of `Init.Data.Ord` temporarily. After this PR, I will rename this module back to `Init.Data.Ord` in a separate PR. (This is a copy of #9430: I will not touch that PR because it currently allows to debug a CI problem and pushing commits might break the reproducibility.)	2025-08-19 07:54:53 +00:00
Paul Reichert	0725349bbd	feat: high-level order typeclasses (#9729 ) This PR introduces a canonical way to endow a type with an order structure. The basic operations (`LE`, `LT`, `Min`, `Max`, and in later PRs `BEq`, `Ord`, ...) and any higher-level property (a preorder, a partial order, a linear order etc.) are then put in relation to `LE` as necessary. The PR provides `IsLinearOrder` instances for many core types and updates the signatures of some lemmas. BREAKING CHANGES: * The requirements of the `lt_of_le_of_lt`/`le_trans` lemmas for `Vector`, `List` and `Array` are simplified. They now require an `IsLinearOrder` instance. The new requirements are logically equivalent to the old ones, but the `IsLinearOrder` instance is not automatically inferred from the smaller typeclasses. * Hypotheses of type `Std.Total (¬ · < · : α → α → Prop)` are replaced with the equivalent class `Std.Asymm (· < · : α → α → Prop)`. Breakage should be limited because there is now an instance that derives the latter from the former. * In `Init.Data.List.MinMax`, multiple theorem signatures are modified, replacing explicit parameters for antisymmetry, totality, `min_ex_or` etc. with corresponding instance parameters.	2025-08-11 14:55:17 +00:00

Paul Reichert

1448493489

feat: improvements to Min/Max-related classes (#10024 )

This PR adds useful declarations to the `LawfulOrderMin/Max` and
`LawfulOrderLeftLeaningMin/Max` API. In particular, it introduces
`.leftLeaningOfLE` factories for `Min` and `Max`. It also renames
`LawfulOrderMin/Max.of_le` to .of_le_min_iff` and `.of_max_le_iff` and
introduces a second variant with different arguments.

2025-08-22 07:08:00 +00:00

Paul Reichert

f81236185c

feat: integrate high-level order typeclasses with BEq and Ord (#9908 )

This PR makes `IsPreorder`, `IsPartialOrder`, `IsLinearPreorder` and
`IsLinearOrder` extend `BEq` and `Ord` as appropriate, adds the
`LawfulOrderBEq` and `LawfulOrderOrd` typeclasses relating `BEq` and
`Ord` to `LE`, and adds many lemmas and instances.

Note: This PR contains a refactoring where `Init.Data.Ord` is moved to
`Init.Data.Ord.Basic`. If I added `Init.Data.Ord` simply importing all
submodules, git would not be able to determine that `Init.Data.Ord` was
renamed to `Init.Data.Ord.Basic`. This could lead to unnecessary merge
conflicts in the future. Hence, I chose the name `Init.Data.OrdRoot`
instead of `Init.Data.Ord` temporarily. After this PR, I will rename
this module back to `Init.Data.Ord` in a separate PR.

(This is a copy of #9430: I will not touch that PR because it currently
allows to debug a CI problem and pushing commits might break the
reproducibility.)

2025-08-19 07:54:53 +00:00

Paul Reichert

0725349bbd

feat: high-level order typeclasses (#9729 )

This PR introduces a canonical way to endow a type with an order
structure. The basic operations (`LE`, `LT`, `Min`, `Max`, and in later
PRs `BEq`, `Ord`, ...) and any higher-level property (a preorder, a
partial order, a linear order etc.) are then put in relation to `LE` as
necessary. The PR provides `IsLinearOrder` instances for many core types
and updates the signatures of some lemmas.

**BREAKING CHANGES:**

* The requirements of the `lt_of_le_of_lt`/`le_trans` lemmas for
`Vector`, `List` and `Array` are simplified. They now require an
`IsLinearOrder` instance. The new requirements are logically equivalent
to the old ones, but the `IsLinearOrder` instance is not automatically
inferred from the smaller typeclasses.
* Hypotheses of type `Std.Total (¬ · < · : α → α → Prop)` are replaced
with the equivalent class `Std.Asymm (· < · : α → α → Prop)`. Breakage
should be limited because there is now an instance that derives the
latter from the former.
* In `Init.Data.List.MinMax`, multiple theorem signatures are modified,
replacing explicit parameters for antisymmetry, totality, `min_ex_or`
etc. with corresponding instance parameters.

2025-08-11 14:55:17 +00:00

3 commits