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.)
This PR adds a logic of stateful predicates SPred to Std.Do in order to
support reasoning about monadic programs. It comes with a dedicated
proof mode the tactics of which are accessible by importing
Std.Tactic.Do.
Co-authored-by: Sebastian Graf <sg@lean-fro.org>
This PR adds a logic of stateful predicates `SPred` to `Std.Do` in order
to support reasoning about monadic programs. It comes with a dedicated
proof mode the tactics of which are accessible by importing
`Std.Tactic.Do`.
Co-authored-by: Sebastian Graf <sg@lean-fro.org>
This PR implements `Std.Net.Addr` which contains structures around IP
and socket addresses.
While we could implement our own parser instead of going through the
`addr_in`/`addr_in6` route we will need to implement these conversions
to make proper system calls anyway. Hence this is likely the approach
with the least amount of non trivial code overall. The only thing I am
uncertain about is whether `ofString` should return `Option` or
`Except`, unfortunately `libuv` doesn't hand out error messages on IP
parsing.
This PR moves `IO.Channel` and `IO.Mutex` from `Init` to `Std.Sync` and
renames them to `Std.Channel` and `Std.Mutex`.
Note that the original files are retained and the deprecation is written
manually as we cannot import `Std` from `Init` so this is the only way
to deprecate without a hard breaking change. In particular we do not yet
move `Std.Queue` from `Init` to `Std` both because it needs to be
retained for this deprecation to work but also because it is already
within the `Std` namespace and as such we cannot maintain two copies of
the file at once. After the deprecation period is finished `Std.Queue`
will find a new home in `Std.Data.Queue`.
This PR introduces date and time functionality to the Lean 4 Std.
Breaking Changes:
- `Lean.Data.Rat` is now `Std.Internal.Rat` because it's used by the
DateTime library.
---------
Co-authored-by: Markus Himmel <markus@himmel-villmar.de>
Co-authored-by: Mac Malone <tydeu@hatpress.net>
Step 1 out of approximately 7 to upstream LeanSAT.
---------
Co-authored-by: Tobias Grosser <tobias@grosser.es>
Co-authored-by: Markus Himmel <markus@lean-fro.org>
### Preliminary PRs:
- [x] #4597
- [x] #4599
- [x] #4600
- [x] #4602
- [x] #4603
- [x] #4604
- [x] #4605
- [x] #4607
- [x] #4627
- [x] #4629
### Quick overview over API/naming changes compared to `Lean.HashMap`
and `Batteries.HashMap`:
#### Lean
* `find?` -> `get?`/`getElem?`
* `find!` -> `get!`/`gtetElem!`
* `findD` -> `getD`
* `findEntry?` -> not implemented for now
* `insert'` -> `containsThenInsert` (order reversed in result)
* `insertIfNew` -> `getThenInsertIfNew?` (order reversed in result)
* `numBuckets` -> `Internal.numBuckets`
* `ofListWith` -> not implemented for now
* `Array.groupByKey` -> not implemented for now
* `merge` -> not implemented for now, but you can use `insertMany`
#### Batteries
* `modify` -> not implemented for now
* `mergeWith` -> not implemented for now
* `mergeWithM` -> not implemented for now
