This PR adds intersection operation on `DHashMap`/`HashMap`/`HashSet`
and provides several lemmas about its behaviour.
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Co-authored-by: Markus Himmel <markus@himmel-villmar.de>
This ensures that no `grind` annotated theorem, simply by being
instantiated, causes a chain of >20 further instantiations, with a small
list of documented exceptions.
This PR replaces `Iter(M).size` with the `Iter(M).count`. While the
former used a special `IteratorSize` type class, the latter relies on
`IteratorLoop`. The `IteratorSize` class is deprecated. The PR also
renames lemmas about ranges be replacing `_Rcc` with `_rcc`, `_Rco` with
`_roo` (and so on) in names, in order to be more consistent with the
naming convention.
This PR adds union operations on DTreeMap/TreeMap/TreeSet and their raw
variants and provides lemmas about union operations.
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Co-authored-by: Paul Reichert <6992158+datokrat@users.noreply.github.com>
This PR adds adds union operation on `DHashMap`/`HashMap`/`HashSet` and
their raw variants and provides lemmas about union operations.
---------
Co-authored-by: Paul-Lez <paul.lezeau@gmail.com>
Co-authored-by: Markus Himmel <markus@lean-fro.org>
Co-authored-by: Markus Himmel <markus@himmel-villmar.de>
This PR cuts some edges from the import graph.
Specifically:
- `TreeMap` and `HashMap` no longer depend on `String`, so now the
expensive things are all in parallel instead of partially in sequence
- `Omega` no longer relies on `List` lemmas
- The section of the import graph between `Init.Omega` and
`Init.Data.Bitvec.Lemmas` is cleaned up a bit
This PR refines and clarifies the `meta` phase distinction in the module
system.
* `meta import A` without `public` now has the clarified meaning of
"enable compile-time evaluation of declarations in or above `A` in the
current module, but not downstream". This is now checked statically by
enforcing that public meta defs, which therefore may be referenced from
outside, can only use public meta imports, and that global evaluating
attributes such as `@[term_parser]` can only be applied to public meta
defs.
* `meta def`s may no longer reference non-meta defs even when in the
same module. This clarifies the meta distinction as well as improves
locality of (new) error messages.
* parser references in `syntax` are now also properly tracked as meta
references.
* A `meta import` of an `import` now properly loads only the `.ir` of
the nested module for the purposes of execution instead of also making
its declarations available for general elaboration.
* `initialize` is now no longer being run on import under the module
system, which is now covered by `meta initialize`.
This PR adds missing the lemmas `ofList_eq_insertMany_empty`,
`get?_eq_some_iff`, `getElem?_eq_some_iff` and `getKey?_eq_some_iff` to
all container types.
This PR generalizes the monadic operations for `HashMap`, `TreeMap`, and
`HashSet` to work for `m : Type u → Type v`.
This upstreams [a workaround from
Aesop](66a992130e/Aesop/Util/Basic.lean (L57-L66)),
and seems to continue a pattern already established in other files, such
as:
```lean
Array.forM.{u, v, w} {α : Type u} {m : Type v → Type w} [Monad m] (f : α → m PUnit) (as : Array α) (start : Nat := 0)
(stop : Nat := as.size) : m PUnit
```
This PR eliminates uses of `intros x y z` (with arguments) and updates
the `intros` docstring to suggest that `intro x y z` should be used
instead. The `intros` tactic is historical, and can be traced all the
way back to Lean 2, when `intro` could only introduce a single
hypothesis. Since 2020, the `intro` tactic has superceded it. The
`intros` tactic (without arguments) is currently still useful.
This PR adds lemmas for the `TreeMap` operations `filter`, `map` and
`filterMap`. These lemmas existed already for hash maps and are simply
ported over from there.
This PR addresses an outstanding feature in the module system to
automatically mark `let rec` and `where` helper declarations as private
unless they are defined in a public context such as under `@[expose]`.
(Almost) only typos in constant names and doc-strings were considered;
grammar was not considered. Also, along others,
`mkDefinitionValInferrringUnsafe` has been fixed :-)
This PR replaces all usages of `[:]` slice notation in `src` with the
new `[...]` notation in production code, tests and comments. The
underlying implementation of the `Subarray` functions stays the same.
Notation cheat sheet:
* `*...*` is the doubly-unbounded range.
* `*...a` or `*...<a` contains all elements that are less than `a`.
* `*...=a` contains all elements that are less than or equal to `a`.
* `a...*` contains all elements that are greater than or equal to `a`.
* `a...b` or `a...<b` contains all elements that are greater than or
equal to `a` and less than `b`.
* `a...=b` contains all elements that are greater than or equal to `a`
and less than or equal to `b`.
* `a<...*` contains all elements that are greater than `a`.
* `a<...b` or `a<...<b` contains all elements that are greater than `a`
and less than `b`.
* `a<...=b` contains all elements that are greater than `a` and less
than or equal to `b`.
Benchmarks have shown that importing the iterator-backed parts of the
polymorphic slice library in `Init` impacts build performance. This PR
avoids this problem by separating those parts of the library that do not
rely on iterators from those those that do. Whereever the new slice
notation is used, only the iterator-independent files are imported.
This PR changes the definition of `DHashMap` to a structure. This makes
it more consistent with the other map types, which are generally defined
as structures. It also ensures that the type `DHashMap α β` is already
in weak head normal form, making it easier for `grind` to successfully
generate patterns for `DHashMap` lemmas.
This PR adjusts the grind annotation on
`Std.HashMap.map_fst_toList_eq_keys` and variants, so `grind` can reason
bidirectionally between `m.keys` and `m.toList`.
This PR reworks the `simp` set around the `Id` monad, to not elide or
unfold `pure` and `Id.run`
In particular, it stops encoding the "defeq abuse" of `Id X = X` in the
statements of theorems, instead using `Id.run` and `pure` to pass back
and forth between these two spellings. Often when writing these with
`pure`, they generalize to other lawful monads; though such changes were
split off to other PRs.
This fixes the problem with the current simp set where `Id.run (pure x)`
is simplified to `Id.run x`, instead of the desirable `x`.
This is particularly bad because the` x` is sometimes inferred with type
`Id X` instead of `X`, which prevents other `simp` lemmas about `X` from
firing.
Making `Id` reducible instead is not an option, as then the `Monad`
instances would have nothing to key on.
---------
Co-authored-by: Sebastian Graf <sg@lean-fro.org>
Co-authored-by: Kim Morrison <kim@tqft.net>
Co-authored-by: Paul Reichert <6992158+datokrat@users.noreply.github.com>
This PR adds variants of `HashMap.getElem?_filter` that assume
`LawfulBEq` and have a simpler right-hand-side. `simp` can already
achieve these, via rewriting with `getKey_eq` under the lambda. However
`grind` can not, and these lemmas help `grind` work with `HashMap`
goals. There are variants for all variants of `HashMap`,
`getElem?/getElem/getElem!/getD`, and for `filter` and `filterMap`.
These lemmas were inconsistently marked as `@[simp]`, but they seem
generally useful, so this uniformly marks this lemmas as `@[simp]` for
all map variants.
