This PR significantly improves the test coverage of the language server,
providing at least a single basic test for every request that is used by
the client. It also implements infrastructure for testing all of these
requests, e.g. the ability to run interactive tests in a project context
and refactors the interactive test runner to be more maintainable.
Finally, it also fixes a small bug with the recently implemented unknown
identifier code actions for auto-implicits (#10442) that was discovered
in testing, where the "import all unambiguous unknown identifiers" code
action didn't work correctly on auto-implicit identifiers.
This PR adds a `.` in front of `pass` in the `#guard_msgs`
implementation.
Previously, the match arm read `| pass => ...`. Presumably, `pass` was
intended to mean `SpecResult.pass`, but, this isn't in scope, so instead
`pass` here is a catch-all variable. By adding a dot, we ensure we
actually refer to the constant. Note that this was the last case in the
pattern-match, and since all other constructors were correctly
referenced, the only case that went to the fallback was
`SpecResult.pass`, so the code did the right thing. Still, by fixing
this, we prevent a surprise in the event that a new `SpecResult`
constructor is added.
(Almost) only typos in constant names and doc-strings were considered;
grammar was not considered. Also, along others,
`mkDefinitionValInferrringUnsafe` has been fixed :-)
This PR makes `guard_msgs.diff=true` the default. The main usage of
`#guard_msgs` is for writing tests, and this makes staring at altered
test outputs considerably less tiring.
This PR makes `#guard_msgs` to treat `trace` messages separate from
`info`, `warning` and `error`. It also introduce the ability to say
`#guard_msgs (pass info`, like `(drop info)` so far, and also adds
`(check info)` as the explicit form of `(info)`, for completeness.
Fixes#8266
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 makes all message constructors handle pretty printer errors.
Prior to this change, pretty printer errors in messages were not
uniformly handled. In core, some printers capture their errors (e.g.,
`ppExprWithInfos` and `ppTerm` ) and some do not (e.g., `ppGoal` and
`ppSignature`) propagate them to whatever serializes the message (e.g.,
the frontend).
To resolve this inconsistency and uniformly handle errors, the signature
for `ofLazy` now uses `BaseIO`. As such, all printers been adapted to
capture any errors within them and print similar messages to
`ppExprWithInfos` and `ppTerm` on such errors.
This PR runs all linters for a single command (together) on a separate
thread from further elaboration, making a first step towards
parallelizing the elaborator.
The `#guard_msgs` command runs the command it is attached to as if it
were a top-level command. This is because the top-level command
elaborator runs linters, and we are interested in capturing linter
warnings using `#guard_msgs`. However, the linters will run on
`#guard_msgs` itself, leading sometimes to duplicate warnings (like for
the unused variable linter).
Rather than special-casing `#guard_msgs` in every affected linter, this
PR special-cases it in the top-level command elaborator itself. **Now
linters are only run if the command doesn't contain `#guard_msgs`.**
This way, the linters are only run on the sub-command that `#guard_msgs`
runs itself. This rule also keeps linters from running multiple times in
cases such as `set_option pp.mvars false in /-- ... -/ #guard_msgs in
...`.
Adds the ability to show a diff when `guard_msgs` fails, using the
histogram diff algorithm pioneered in jgit. This algorithm tends to
produce more user-friendly diffs, but it can be quadratic in the worst
case. Empirically, the quadratic case of this implementation doesn't
seem to be slow enough to matter for messages smaller than hundreds of
megabytes, but if it's ever a problem, we can mitigate it the same way
jgit does by falling back to Myers diff.
See lean/run/guard_msgs.lean in the tests directory for some examples of
its output.
Adds options to control whitespace normalization and message ordering in
`#guard_msgs`.
Examples:
1. `#guard_msgs (whitespace := lax)` ignores differences in whitespace
completely.
2. `#guard_msgs (whitespace := exact)` requires an exact match for
whitespace (after trimming).
3. `#guard_msgs (ordering := sorted)` sorts the list of messages, to
make it insensitive to message order.
This makes trailing whitespace visible and protectes them against
trimming by the editor, by appending the symbol ⏎ to such a line (and
also to any line that ends with such a symbol, to avoid ambiguities in
the case the message already had that symbol).
(Only the code action output / docstring parsing is affected; the error
message as sent
to the InfoView is unaffected.)
Fixes#3571