This PR updates the styling and wording of error messages produced in
inductive type declarations and anonymous constructor notation,
including hints for inferable constructor visibility updates.
This PR migrates usages of `Std.Range` to the new polymorphic ranges.
This PR unfortunately increases the transitive imports for
frequently-used parts of `Init` because the ranges now rely on iterators
in order to provide their functionality for types other than `Nat`.
However, iteration over ranges in compiled code is as efficient as
before in the examples I checked. This is because of a special
`IteratorLoop` implementation provided in the PR for this purpose.
There were two issues that were uncovered during migration:
* In `IndPredBelow.lean`, migrating the last remaining range causes
`compilerTest1.lean` to break. I have minimized the issue and came to
the conclusion it's a compiler bug. Therefore, I have not replaced said
old range usage yet (see #9186).
* In `BRecOn.lean`, we are publicly importing the ranges. Making this
import private should theoretically work, but there seems to be a
problem with the module system, causing the build to panic later in
`Init.Data.Grind.Poly` (see #9185).
* In `FuzzyMatching.lean`, inlining fails with the new ranges, which
would have led to significant slowdown. Therefore, I have not migrated
this file either.
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 adds explanations for a few errors concerning noncomputability,
redundant match alternatives, and invalid inductive declarations.
These adopt a lower-case error naming style, which is also applied to
existing error explanation tests.
This PR improves the error messages displayed in `inductive`
declarations when type parameters are invalid or absent.
Closes#2195 by improving the relevant error message.
This PR adds a canonical syntax for linking to sections in the language
reference along with formatting of examples in docstrings according to
the docstring style guide.
Docstrings are now pre-processed as follows:
* Output included as part of examples is shown with leading line comment
indicators in hovers
* URLs of the form `lean-manual://section/section-id` are rewritten to
links that point at the corresponding section in the Lean reference
manual. The reference manual's base URL is configured when Lean is built
and can be overridden with the `LEAN_MANUAL_ROOT` environment variable.
This way, releases can point documentation links to the correct
snapshot, and users can use their own, e.g. for offline reading.
Manual URLs in docstrings are validated when the docstring is added. The
presence of a URL starting with `lean-manual://` that is not a
syntactically valid section link causes the docstring to be rejected.
This allows for future extensibility to the set of allowed links. There
is no validation that the linked-to section actually exists. To provide
the best possible error messages in case of validation failures,
`Lean.addDocString` now takes a `TSyntax ``docComment` instead of a
string; clients should adapt by removing the step that extracts the
string, or by calling the lower-level `addDocStringCore` in cases where
the docstring in question is obtained from the environment and has thus
already had its links validated.
A stage0 update is required to make the documentation site configurable
at build time and for releases. A local commit on top of a stage0 update
that will be sent in a followup PR includes the configurable reference
manual root and updates to the release checklist.
---------
Co-authored-by: Marc Huisinga <mhuisi@protonmail.com>
This PR adds preliminary support for inlay hints, as well as support for
inlay hints that denote the auto-implicits of a function. Hovering over
an auto-implicit displays its type and double-clicking the auto-implicit
inserts it into the text document.
This PR is an extension of #3910.
### Known issues
- In VS Code, when inserting an inlay hint, the inlay hint may linger
for a couple of seconds before it disappears. This is a defect of the VS
Code implementation of inlay hints and cannot adequately be resolved by
us.
- When making a change to the document, it may take a couple of seconds
until the inlay hints respond to the change. This is deliberate and
intended to reduce the amount of inlay hint flickering while typing. VS
Code has a mechanism of its own for this, but in my experience it is
still far too sensitive without additional latency.
- Inserting an auto-implicit inlay hint that depends on an auto-implicit
meta-variable causes a "failed to infer binder type" error. We can't
display these meta-variables in the inlay hint because they don't have a
user-displayable name, so it is not clear how to resolve this problem.
- Inlay hints are currently always resolved eagerly, i.e. we do not
support the `textDocument/inlayHint/resolve` request yet. Implementing
support for this request is future work.
### Other changes
- Axioms did not support auto-implicits due to an oversight in the
implementation. This PR ensures they do.
- In order to reduce the amount of inlay hint flickering when making a
change to the document, the language server serves old inlay hints for
parts of the file that have not been processed yet. This requires LSP
request handler state (that sometimes must be invalidated on
`textDocument/didChange`), so this PR introduces the notion of a
stateful LSP request handler.
- The partial response mechanism that we use for semantic tokens, where
we simulate incremental LSP responses by periodically emitting refresh
requests to the client, is generalized to accommodate both inlay hints
and semantic tokens. Additionally, it is made more robust to ensure that
we never emit refresh requests while a corresponding request is in
flight, which causes VS Code to discard the respond of the request, as
well as to ensure that we keep prompting VS Code to send another request
if it spuriously decides not to respond to one of our refresh requests.
- The synthetic identifier of an `example` had the full declaration as
its (non-canonical synthetic) range. Since we need a reasonable position
for the identifier to insert an inlay hint for the auto-implicits of an
`example`, we change the (canonical synthetic) range of the synthetic
identifier to that of the `example` keyword.
- The semantic highlighting request handling is moved to a separate
file.
### Breaking changes
- The semantic highlighting request handler is not a pure request
handler anymore, but a stateful one. Notably, this means that clients
that extend the semantic highlighting of the Lean language server with
the `chainLspRequestHandler` function must now use the
`chainStatefulLspRequestHandler` function instead.
This PR adds support for `structure` in `mutual` blocks, allowing
inductive types defined by `inductive` and `structure` to be mutually
recursive. The limitations are (1) that the parents in the `extends`
clause must be defined before the `mutual` block and (2) mutually
recursive classes are not allowed (a limitation shared by `class
inductive`). There are also improvements to universe level inference for
inductive types and structures. Breaking change: structure parents now
elaborate with the structure in scope (fix: use qualified names or
rename the structure to avoid shadowing), and structure parents no
longer elaborate with autoimplicits enabled.
Internally, this is a large refactor of both the `inductive` and
`structure` commands. Common material is now in
`Lean.Elab.MutualInductive`, and each command plugs into this mutual
inductive elaboration framework with the logic specific to the
respective command. For example, `structure` has code to add projections
after the inductive types are added to the environment.
Closes#4182
This PR avoids runtime array bounds checks in places where it can
trivially be done at compile time.
None of these changes are of particular consequence: I mostly wanted to
learn how much we do this, and what the obstacles are to doing it less.
This PR changes the signature of `Array.get` to take a Nat and a proof,
rather than a `Fin`, for consistency with the rest of the (planned)
Array API. Note that because of bootstrapping issues we can't provide
`get_elem_tactic` as an autoparameter for the proof. As users will
mostly use the `xs[i]` notation provided by `GetElem`, this hopefully
isn't a problem.
We may restore `Fin` based versions, either here or downstream, as
needed, but they won't be the "main" functions.
---------
Co-authored-by: David Thrane Christiansen <david@davidchristiansen.dk>
This PR changes the signature of `Array.set` to take a `Nat`, and a
tactic-provided bound, rather than a `Fin`.
Corresponding changes (but without the auto-param) for `Array.get` will
arrive shortly, after which I'll go more pervasively through the Array
API.
Cleanup of #5650
* default `Modifiers.stx` to missing
* rename and clarify `addDeclarationRangesFromSyntax` as the main
convenience function for user metaprograms
Refactors `inductive` elaborator to keep track of universe level
parameters created during elaboration of `variable`s and binders. This
fixes an issue in Mathlib where its `Type*` elaborator can result in
unexpected universe levels.
For example, in
```lean4
variable {F : Type*}
inductive I1 (A B : Type*) (x : F) : Type
```
before this change the signature would be
```
I1.{u_1, u_2} {F : Type u_1} (A : Type u_1) (B : Type u_2) (x : F) : Type
```
but now it is
```
I1.{u_1, u_2, u_3} {F : Type u_1} (A : Type u_2) (B : Type u_3) (x : F) : Type
```
Fixes this for the `axiom` elaborator too.
Adds more accurate universe level validation for mutual inductives.
Breaking change: removes `Lean.Elab.Command.expandDeclId`. Use
`Lean.Elab.Term.expandDeclId` from within `runCommandElabM`.
A `Prop`-valued inductive type is a syntactic subsingleton if it has at
most one constructor and all the arguments to the constructor are in
`Prop`. Such types have large elimination, so they could be defined in
`Type` or `Prop` without any trouble, though users tend to expect that
such types define a `Prop` and need to learn to insert `: Prop`.
Currently, the default universe for types is `Type`. This PR adds a
heuristic: if a type is a syntactic subsingleton with exactly one
constructor, and the constructor has at least one parameter, then the
`inductive` command will prefer creating a `Prop` instead of a `Type`.
For `structure`, we ask for at least one field.
More generally, for mutual inductives, each type needs to be a syntactic
subsingleton, at least one type must have one constructor, and at least
one constructor must have at least one parameter. The motivation for
this restriction is that every inductive type starts with a zero
constructors and each constructor starts with zero fields, and
stubbed-out types shouldn't be `Prop`.
Thanks to @arthur-adjedj for the investigation in #2695 and to @digama0
for formulating the heuristic.
Closes#2690
When elaborating the headers of mutual indexed inductive types, mvars
have to be synthesized and instantiated before replacing the fvars
present there. Otherwise, some fvars present in uninstantiated mvars may
be missed and lead to an error later.
Closes#3242 (again)
This PR partly addresses #3458, by adding an option `autoPromoteIndices`
to turn off the promotion of fixed indices to parameters. The actual fix
for the issue is in a separate PR #3591.
Because nested inductive datatypes parameters cannot contain local
variables, it is often desirable for a fixed index to not be promoted,
as to allow free variables in that place. See example in `3458_1.lean`
They are all in `MetaM`.
These are helper functions for issue #1237. We need to "cleanup" the
local context before trying to compile the match-expression.
see issue #1237
