This PR adds support to the server for the new module setup process by
changing how `lake setup-file` is used.
In the new server setup, `lake setup-file` is invoked with the file name
of the edited module passed as a CLI argument and with the parsed header
passed to standard input in JSON form. Standard input is used to avoid
potentially exceeding the CLI length limits on Windows. Lake will build
the module's imports along with any other dependencies and then return
the module's workspace configuration via JSON (now in the form of
`ModuleSetup`). The server then post-processes this configuration a bit
and returns it back to the Lean language processor.
The server's header is currently only fully respected by Lake for
external modules (files that are not part of any workspace library). For
workspace modules, the saved module header is currently used to build
imports (as has been done since #7909). A follow-up Lake PR will align
both cases to follow the server's header.
Lean search paths (e.g., `LEAN_PATH`, `LEAN_SRC_PATH`) are no longer
negotiated between the server and Lake. These environment variables are
already configured during sever setup by `lake serve` and do not change
on a per-file basis. Lake can also pre-resolve the `.olean` files of
imports via the `importArts` field of `ModuleSetup`, limiting the
potential utility of communicating `LEAN_PATH`.
This PR adds a module `Lean.Util.CollectLooseBVars` with a function
`Expr.collectLooseBVars` that collects the set of loose bound variables
in an expression. That is, it computes the set of all `i` such that
`e.hasLooseBVar i` is true.
This PR adds the predicate `Expr.fvarsSet a b`, which returns `true` if
and only if the free variables in `a` are a subset of the free variables
in `b`.
Modifies how the declaration command elaborator reports when there are
unassigned metavariables. The visible effects are that (1) now errors
like "don't know how to synthesize implicit argument" and "failed to
infer 'let' declaration type" take precedence over universe level
issues, (2) universe level metavariables are reported as metavariables
(rather than as `u_1`, `u_2`, etc.), and (3) if the universe level
metavariables appear in `let` binding types or `fun` binder types, the
error is localized there.
Motivation: Reporting unsolved expression metavariables is more
important than universe level issues (typically universe issues are from
unsolved expression metavariables). Furthermore, `let` and `fun` binders
can't introduce universe polymorphism, so we can "blame" such bindings
for universe metavariables, if possible.
Example 1: Now the errors are on `x` and `none` (reporting expression
metavariables) rather than on `example` (which reported universe level
metavariables).
```lean
example : IO Unit := do
let x := none
pure ()
```
Example 2: Now there is a "failed to infer universe levels in 'let'
declaration type" error on `PUnit`.
```lean
def foo : IO Unit := do
let x : PUnit := PUnit.unit
pure ()
```
In more detail:
* `elabMutualDef` used to turn all level mvars into fresh level
parameters before doing an analysis for "hidden levels". This analysis
turns out to be exactly the same as instead creating fresh parameters
for level mvars in only pre-definitions' types and then looking for
level metavariables in their bodies. With this PR, error messages refer
to the same level metavariables in the Infoview, rather than obscure
generated `u_1`, `u_2`, ... level parameters.
* This PR made it possible to push the "hidden levels" check into
`addPreDefinitions`, after the checks for unassigned expression mvars.
It used to be that if the "hidden levels" check produced an "invalid
occurrence of universe level" error it would suppress errors for
unassigned expression mvars, and now it is the other way around.
* There is now a list of `LevelMVarErrorInfo` objects in the `TermElabM`
state. These record expressions that should receive a localized error if
they still contain level metavariables. Currently `let` expressions and
binder types in general register such info. Error messages make use of a
new `exposeLevelMVars` function that adds pretty printer annotations
that try to expose all universe level metavariables.
* When there are universe level metavariables, for error recovery the
definition is still added to the environment after assigning each
metavariable to level 0.
* There's a new `Lean.Util.CollectLevelMVars` module for collecting
level metavariables from expressions.
Closes#2058
When `set_option diagnostics true`, for each theorem with size >
`diagnostics.threshold.proofSize`, display proof size, and the number of
applications for each constant symbol.
Add helper function for computing the number of allocated
sub-expressions in a given expression. Note: Use this function primarily
for diagnosing performance issues.
Summary:
- Adds configuration option `exponentiation.threshold`
- An expression `b^n` where `b` and `n` are literals is not reduced by
`whnf`, `simp`, and `isDefEq` if `n > exponentiation.threshold`.
Motivation: prevents system from becoming irresponsive and/or crashing
without memory.
TODO: improve support in the kernel. It is using a hard-coded limit for
now.
This is still a draft PR, but includes the core exact? and apply?
tactics.
Still need to convert to builtin syntax and test on Std.
---------
Co-authored-by: David Thrane Christiansen <david@davidchristiansen.dk>
This adds a `test_extern` command.
Usage:
```
import Lean.Util.TestExtern
test_extern Nat.add 17 37
```
This:
* Checks that the head symbol has an `@[extern]` attribute.
* Writes down `t == t'`, where `t` is the term provided, and `t'` is the
reference implementation (specifically, `t` with the head symbol
unfolded).
* Tries to reduce this to `true`, and complains if this fails.
Note that the type of the term must have a `BEq` instance for this to
work: there's a self-explanatory error message if it isn't available.
This PR adds per-package server options to resolve#2455. It is based on
the previous work in #2456, but takes a different approach: options are
loaded for the specific file in the file worker when `print-paths` is
called, instead of loading them in the watchdog with a separate Lake
command. This change addresses review comments made in #2456.
In doing so, it introduces two new Lake config fields:
- `leanOptions`: `-D` flag options that are passed to both the language
server and `lean` when building.
- `moreServerOptions`: `-D` flag options that are passed to the language
server.
Since `print-paths` must also accept a file path to compute the options
for that file, this PR is changing the API for `print-paths`. As there
have been numerous complaints about the name `print-paths`, I also
decided to change it to `setup-file` in this PR, since it would break
compatibility with the old Lake API anyways.
This PR deprecates the Lakefile field `moreServerArgs` in favor of
`moreGlobalServerArgs`, as suggested in the review for #2456.
Fixes#2455
---------
Co-authored-by: digama0 <mcarneir@andrew.cmu.edu>
We need `MetaM` methods such as `isProp` to improve `ppGoal`.
This commit also moves `currNamespace` and `openDecls` to
`Core.Context`. Without this change, `Meta.ppExpr` was not taking
`open` commands into account.
