This PR modifies dot identifier notation so that `(.a : T)` resolves
`T.a` with respect to the root namespace, like for generalized field
notation. This lets the notation refer to private names, follow aliases,
and also use open namespaces. The LSP completions are improved to follow
how dot ident notation is resolved, but it doesn't yet take into account
aliases or open namespaces.
Closes#9629
This PR fixes a bug introduced in #7830 where if the cursor is at the
indicated position
```lean
example (as bs : List Nat) : (as.append bs).length = as.length + bs.length := by
induction as with
| nil => -- cursor
| cons b bs ih =>
```
then the Infoview would show "no goals" rather than the `nil` goal. The
PR also fixes a separate bug where placing the cursor on the next line
after the `induction`/`cases` tactics like in
```lean
induction as with
| nil => sorry
| cons b bs ih => sorry
I -- < cursor
```
would report the original goal in the goal list. Furthermore, there are
numerous improvements to error recovery (including `allGoals`-type logic
for pre-tactics) and the visible tactic states when there are errors.
Adds `Tactic.throwOrLogErrorAt`/`Tactic.throwOrLogError` for throwing or
logging errors depending on the recovery state.
This PR restores the feature where in `induction`/`cases` for `Nat`, the
`zero` and `succ` labels are hoverable. This was added in #1660, but
broken in #3629 and #3655 when custom eliminators were added. In
general, if a custom eliminator `T.elim` for an inductive type `T` has
an alternative `foo`, and `T.foo` is a constant, then the `foo` label
will have `T.foo` hover information.
This PR improves the 'Go to Definition' UX, specifically:
- Using 'Go to Definition' on a type class projection will now extract
the specific instances that were involved and provide them as locations
to jump to. For example, using 'Go to Definition' on the `toString` of
`toString 0` will yield results for `ToString.toString` and `ToString
Nat`.
- Using 'Go to Definition' on a macro that produces syntax with type
class projections will now also extract the specific instances that were
involved and provide them as locations to jump to. For example, using
'Go to Definition' on the `+` of `1 + 1` will yield results for
`HAdd.hAdd`, `HAdd α α α` and `Add Nat`.
- Using 'Go to Declaration' will now provide all the results of 'Go to
Definition' in addition to the elaborator and the parser that were
involved. For example, using 'Go to Declaration' on the `+` of `1 + 1`
will yield results for `HAdd.hAdd`, `HAdd α α α`, `Add Nat`,
``macro_rules | `($x + $y) => ...`` and `infixl:65 " + " => HAdd.hAdd`.
- Using 'Go to Type Definition' on a value with a type that contains
multiple constants will now provide 'Go to Definition' results for each
constant. For example, using 'Go to Type Definition' on `x` for `x :
Array Nat` will yield results for `Array` and `Nat`.
### Details
'Go to Definition' for type class projections was first implemented by
#1767, but there were still a couple of shortcomings with the
implementation. E.g. in order to jump to the instance in `toString 0`,
one had to add another space within the application and then use 'Go to
Definition' on that, or macros would block instances from being
displayed. Then, when the .ilean format was added, most 'Go to
Definition' requests were already handled using the .ileans in the
watchdog process, and so the file worker never received them to handle
them with the semantic information that it has available.
This PR resolves most of the issues with the previous implementation and
refactors the 'Go to Definition' control flow so that 'Go to Definition'
requests are always handled by the file worker, with the watchdog merely
using its .ilean position information to update the positions in the
response to a more up-to-date state. This is necessary because the file
worker obtains its position information from the .oleans, which need to
be rebuilt in order to be up-to-date, while the watchdog always receives
.ilean update notifications from each active file worker with the
current position information in the editor.
Finally, all of the 'Go to Definition' code is refactored to be easier
to maintain.
### Breaking changes
`InfoTree.hoverableInfoAt?` has been generalized to
`InfoTree.hoverableInfoAtM?` and now takes a general `filter` argument
instead of several boolean flags, as was the case before.
This PR improves the error messages produced by the `split` tactic,
including suggesting syntax fixes and related tactics with which it
might be confused.
Note that, to avoid clashing with the new error message styling
conventions used in these messages, this PR also updates the formatting
of the message produced by `throwTacticEx`.
Closes#6224
This PR updates the formatting of, and adds explanations for, "unknown
identifier" errors as well as "failed to infer type" errors for binders
and definitions.
It attempts to ameliorate some of the confusion encountered in #1592 by
modifying the wording of the "header is elaborated before body is
processed" note and adding further discussion and examples of this
behavior in the corresponding error explanation.
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 is a followup to #8914, fixing an oversight where
`letIdDeclBinders` is was not updated with the new format. This relies
on some bootstrapping code to stay in place, but we do bootstrap cleanup
that is currently possible.
This PR modifies `let` and `have` term syntaxes to be consistent with
each other. Adds configuration options; for example, `have` is
equivalent to `let +nondep`, for *nondependent* lets. Other options
include `+usedOnly` (for `let_tmp`), `+zeta` (for `letI`/`haveI`), and
`+postponeValue` (for `let_delayed)`. There is also `let (eq := h) x :=
v; b` for introducing `h : x = v` when elaborating `b`. The `eq` option
works for pattern matching as well, for example `let (eq := h) (x, y) :=
p; b`.
Future PRs will add these options to tactic syntax, once a stage0 update
has been done.
This PR adds support for throwing named errors with associated error
explanations. In particular, it adds elaborators for the syntax defined
in #8649, which use the error-explanation infrastructure added in #8651.
This includes completions, hovers, and jump-to-definition for error
names.
Note that another stage0 rebuild will be required to define explanations
using `register_error_explanation`.
---------
Co-authored-by: Joachim Breitner <mail@joachim-breitner.de>
Co-authored-by: Marc Huisinga <mhuisi@protonmail.com>
This PR changes the `show t` tactic to match its documentation.
Previously it was a synonym for `change t`, but now it finds the first
goal that unifies with the term `t` and moves it to the front of the
goal list.
This PR adds documentation to builtin attributes like `@[refl]` or
`@[implemented_by]`.
Closes#8432
---------
Co-authored-by: David Thrane Christiansen <david@davidchristiansen.dk>
Co-authored-by: David Thrane Christiansen <david@lean-fro.org>
This PR introduces an explicit `defeq` attribute to mark theorems that
can be used by `dsimp`. The benefit of an explicit attribute over the
prior logic of looking at the proof body is that we can reliably omit
theorem bodies across module boundaries. It also helps with intra-file
parallelism.
If a theorem is syntactically defined by `:= rfl`, then the attribute is
assumed and need not given explicitly. This is a purely syntactic check
and can be fooled, e.g. if in the current namespace, `rfl` is not
actually “the” `rfl` of `Eq`. In that case, some other syntax has be
used, such as `:= (rfl)`. This is also the way to go if a theorem can be
proved by `defeq`, but one does not actually want `dsimp` to use this
fact.
The `defeq` attribute will look at the *type* of the declaration, not
the body, to check if it really holds definitionally. Because of
different reduction settings, this can sometimes go wrong. Then one
should also write `:= (rfl)`, if one does not want this to be a defeq
theorem. (If one does then this is currently not possible, but it’s
probably a bad idea anyways).
The `set_option debug.tactic.simp.checkDefEqAttr true`, `dsimp` will
warn if could not apply a lemma due to a missing `defeq` attribute.
With `set_option backward.dsimp.useDefEqAttr.get false` one can revert
to the old behavior of inferring rfl-ness based on the theorem body.
Both options will go away eventually (too bad we can’t mark them as
deprecated right away, see #7969)
Meta programs that generate theorems (e.g. equational theorems) can use
`inferDefEqAttr` to set the attribute based on the theorem body of the
just created declaration.
This builds on #8501 to update Init to `@[expose]` a fair amount of
definitions that, if not exposed, would prevent some existing `:= rfl`
theorems from being `defeq` theorems. In the interest of starting
backwards compatible, I exposed these function. Hopefully many can be
un-exposed later again.
A mathlib adaption branch exists that includes both the meta programming
fixes and changes to the theorems (e.g. changing `:= by rfl` to `:=
rfl`).
With the module system there is now no special handling for `defeq`
theorem bodies, because we don’t look at the body anymore. The previous
hack is removed. The `defeq`-ness of the theorem needs to be checked in
the context of the theorem’s *type*; the error message contains a hint
if the defeq check fails because of the exported context.
This PR implements signature help support. When typing a function
application, editors with support for signature help will now display a
popup that designates the current (remaining) function type. This
removes the need to remember the function signature while typing the
function application, or having to constantly cycle between hovering
over the function identifier and typing the application. In VS Code, the
signature help can be triggered manually using `Ctrl+Shift+Space`.
### Other changes
- In order to support signature help for the partial syntax `f a <|` or
`f a $`, these notations now elaborate as `f a`, not `f a .missing`.
- The logic in `delabConstWithSignature` that delaborates parameters is
factored out into a function `delabForallParamsWithSignature` so that it
can be used for arbitrary `forall`s, not just constants.
- The `InfoTree` formatter is adjusted to produce output where it is
easier to identify the kind of `Info` in the `InfoTree`.
- A bug in `InfoTree.smallestInfo?` is fixed so that it doesn't panic
anymore when its predicate `p` does not ensure that both `pos?` and
`tailPos?` of the `Info` are present.
This PR changes the behavior of `pp.showLetValues` to use a hoverable
`⋯` to hide let values. This is now false by default, and there is a new
option `pp.showLetValues.threshold` for allowing small expressions to be
shown anyway. For tactic metavariables, there is an additional option
`pp.showLetValues.tactic.threshold`, which by default is set to the
maximal value, since in tactic states local values are usually
significant.
This PR changes namespace completion to use the same algorithm as
declaration identifier completion, which makes it use the short name
(last name component) for completions instead of the full name, avoiding
namespace duplications.
Closes#5654
This PR fixes a regression where elaboration of a previous document
version is not cancelled on changes to the document.
Done by removing the default from `SnapshotTask.cancelTk?` and
consistently passing the current thread's token for synchronous
elaboration steps.
This PR adds a mixin typeclass for `Lean.Grind.CommRing` recording the
characteristic of the ring, and constructs instances for `Int`, `IntX`,
`UIntX`, and `BitVec`.
This PR fixes a number of bugs related to the handling of the source
search path in the language server, where deleting files could cause
several features to stop functioning and both untitled files and files
that don't exist on disc could have conflicting module names.
In detail, it makes the following adjustments:
- The URI <-> module name conversion was adjusted to produce no name
collisions.
- File URIs in the search path yield a module name relative to the
search path, as before.
- File URIs not in the search path, non-file URIs and non-`.lean` files
yield a `«external:<full uri>»` module name.
- To avoid the issue of the URI -> module name conversion failing when a
file is deleted from disc, we now cache the result of this conversion in
the watchdog and the file worker when the file is first opened.
- All of the URI <-> module name conversions now consistently go through
`Server.documentUriFromModule?` and `moduleFromDocumentUri` to ensure
that we don't have minor deviations for this conversion all over the
place.
- The threading of the source search path through the file worker (from
`lake setup-file`) is removed. It turns out that `lake serve` already
sets the correct source search path in the environment, so we can just
always use the search path from the environment.
- Since we can now answer more requests that need the .ileans in
untitled files, a lot of the tests that test 'Go to definition' needed
to be adjusted so that they use the information from the watchdog, not
the file worker. As we load references asynchronously, this PR adds an
internal `$/lean/waitForILeans` request that tests can use to wait for
all .ilean files to be loaded and for the ilean references from the file
worker for the current document version to be finalized.
- As part of this PR, we noticed that the .ileans aren't available in
the NixOS setup, so @Kha adjusted the Nix CI to fix this.
### Breaking changes
- `Server.documentUriFromModule` has been renamed to
`Server.documentUriFromModule?` and doesn't take a `SearchPath` argument
anymore, as the `SearchPath` is now computed from the `LEAN_SRC_PATH`
environment variable. It has also been moved from `Lean.Server.GoTo` to
`Lean.Server.Utils`.
- `Server.moduleFromDocumentUri` does not take a `SearchPath` argument
anymore and won't return an `Option` anymore. It has also been moved
from `Lean.Server.GoTo` to `Lean.Server.Utils`.
- The `System.SearchPath.searchModuleNameOfUri` function has been
removed. It is recommended to use `Server.moduleFromDocumentUri`
instead.
- The `initSrcSearchPath` function has been renamed to
`getSrcSearchPath` and has been moved from `Lean.Util.Paths` to
`Lean.Util.Path`. It also doesn't need to take a `pkgSearchPath`
argument anymore.
---------
Co-authored-by: Sebastian Ullrich <sebasti@nullri.ch>
This PR modifies the pretty printing of pi types. Now `∀` will be
preferred over `→` for propositions if the domain is not a proposition.
For example, `∀ (n : Nat), True` pretty prints as `∀ (n : Nat), True`
rather than as `Nat → True`. There is also now an option `pp.foralls`
(default true) that when false disables using `∀` at all, for
pedagogical purposes. This PR also adjusts instance implicit binder
pretty printing — nondependent pi types won't show the instance binder
name. Closes#1834.
The linked RFC also suggests using `_` for binder names in case of
non-dependance. We're tabling that idea. Potentially it is useful for
hygienic names; this could improve how `Nat → True` pretty prints as `∀
(a : Nat), True`, with this `a` that's chosen by implication notation
elaboration. Relatedly, this PR exposes even further the issue where
binder names are reused in a confusing way. Consider: `Nat → Nat → (a :
Nat) → a = a` pretty prints as `∀ (a a a : Nat), a = a`.
Links to the language reference include a version slug, either `latest`
or `v4.X.0`. These are included in hovers, which then get tested. To
avoid test breakages, in the testing framework we normalize all such URL
prefixes back to `REFERENCE`.
This PR makes the style of all `List` docstrings that appear in the
language reference consistent.
Relies on #7240 for links and example formatting.
---------
Co-authored-by: Kim Morrison <kim@tqft.net>
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 server-side support for dedicated 'unsolved goals' and
'goals accomplished' diagnostics that will have special support in the
Lean 4 VS Code extension. The special 'unsolved goals' diagnostic is
adapted from the 'unsolved goals' error diagnostic, while the 'goals
accomplished' diagnostic is issued when a `theorem` or `Prop`-typed
`example` has no errors or `sorry`s. The Lean 4 VS Code extension
companion PR is at leanprover/vscode-lean4#585.
Specifically, this PR extends the diagnostics served by the language
server with the following fields:
- `leanTags`: Custom tags that denote the kind of diagnostic that is
being served. As opposed to the `code`, `leanTags` should never be
displayed in the UI. Examples introduced by this PR are a tag to
distinguish 'unsolved goals' errors from other diagnostics, as well as a
tag to distinguish the new 'goals accomplished' diagnostic from other
diagnostics.
- `isSilent`: Whether a diagnostic should not be displayed as a regular
diagnostic in the editor. In VS Code, this means that the diagnostic is
displayed in the InfoView under 'Messages', but that it will not be
displayed under 'All Messages' and that it will also not be displayed
with a squiggly line.
The `isSilent` field is also implemented for `Message` so that silent
diagnostics can be logged in the elaborator. All code paths except for
the language server that display diagnostics to users are adjusted to
filter `Message`s with `isSilent := true`.
This PR adds an addition newline before the "Additional diagnostic
information may be available using the `set_option ... true` command."
messages, to provide better visual separation from the main error
message.
Before/after:
```
make -C build/release test ARGS="-j$(nproc) -R interactive" 208.10s user 20.93s system 1982% cpu 11.552 total
make -C build/release test ARGS="-j$(nproc) -R interactive" 87.22s user 22.58s system 1454% cpu 7.548 total
```
This PR fixes an `Elab.async` regression where elaboration tasks are
cancelled on document edit even though their result may be reused in the
new document version, reporting an incomplete result.
While this PR fixes the functional regression, it does so as an
over-approximation by never cancelling such tasks. A follow-up PR will
implement the correct behavior of only cancelling the tasks that are not
reused.
