This is still experimental, but it implements identifier support in auto
tactics "in the obvious way". It also converts `quoteAutoTactic` to
generate Expr directly instead of going via syntax (this doesn't have
any effect other than increasing compile cost AFAICT).
Adds `IO.Process.getCurrentDir` and `IO.Process.setCurrentDir` for
retrieving and setting, respectively, the current working directory of a
process. The names of the functions are inspired by Rust (e.g.,
[`set_current_dir`](https://doc.rust-lang.org/std/env/fn.set_current_dir.html)).
even when rewriting the type of `h` becuase there is no expected type.
(When there is an expected type, it already tried both orientations.)
Also feeble attempt to include this information in the docstring without
writing half a manual chapter.
In the following, hovering over `true` in the infoview was showing
`Nat.succ y`.
```lean
#check fun (x : Nat) =>
match h : x with
| 0 => false
| y + 1 => true
```
Now hovering over `true` shows `true`.
The issue was that SubExpr positions were not being tracked for
patterns, and the position for a pattern could coincide with the
position for a RHS, putting overwriting terminfo. Now the position given
to a pattern is correct and unique.
Refactors the `match` delaborator, makes it handle shadowing of `h :`
discriminant annotations correctly, and makes it use the standard
`withOverApp` combinator to handle overapplication.
This is a major refactor of Lake's build code. The key changes:
* **Job Registration**: Significant build jobs are now registered by
build functions. The DSL inserts this registration automatically into
user-defined targets and facets, so this change should require no
end-user adaption. Registered jobs are incrementally awaited by the main
build function and the progress counter now indicates how many of these
jobs are completed and left-to-await. On the positive side, this means
the counter is now always accurate. On the negative side, this means
that jobs are displayed even if they are no-ops (i.e., if the target is
already up-to-date).
* **Log Retention**: Logs are now part of a Lake monad's state instead
of being eagerly printed. As a result, build jobs retain their logs.
Using this change, logs are are now always printed after their
associated caption (e.g., `[X/Y] Building Foo`) and are not arbitrarily
interleaved with the output of other jobs.
* **Simplify the build monad stack**: Previously, there was a lot of
confused mixing between the various build monads in the codebase (i.e.,
`JobM`, `ScedulerM`, `BuildM`, `RecBuildM`, and `IndexBuildM` ). This
refactor attempts to make there use more consistent and straightforward:
* `FetchM` (formerly `IndexBuildM`) is the top-level build monad used by
targets and facets and is now uniformly used in the codebase for all
top-level build functions.
* `JobM` is the monad of asynchronous build jobs. It is more limited
than `FetchM` due to the fact that the build cache can not be modified
asynchronously.
* `SpawnM` (formerly `SchedulerM`) is the monad used to spawn build
jobs. It lifts into `FetchM`.
* `RecBuildM` and `CoreBuildM` (formerly `BuildM`) have been relegated
to internal details of how `FetchM` / `JobM` are implemented / run and
are no longer used outside of that context.
* **Pretty progress.** Build progress (e.g., `[X/Y] Building Foo`) is
now updated on a single line via ANSI escape sequences when Lake is
outputting to a terminal. Redirected Lake output still sees progress on
separate lines.
* **Warnings-as-error option.** Adds a `--wfail` option to Lake that
will cause a build to fail if Lake logs any warnings doing a build.
Unlike some systems, this does not convert warnings into errors and it
does not abort jobs which log warnings. Instead, only the top-level
build fails.
* **Build log cache.** Logs from builds are now cached to a file and
replayed when the build is revisited. For example, this means multiple
runs of a `--wfail` Lean build (without changes) will still produce the
same warnings even though there is now an up-to-date `.olean` for the
module.
Closes#2349. Closes#2764.
The subst notation substitues in the expected type, if present, or in
the type of the argument, if no expected type is known.
If there is an expected type it already fails if it cannot find the
equations' left hand side or right hand side. But if the expected type
is not known and the equation's lhs is not present in the second
argument's type, it will happily do a no-op-substitution.
This is inconsistent and unlikely what the user intended to do, so we
now print an error message now.
This still only looks for the lhs; search for the rhs as well seems
prudent, but I’ll leave that for a separate PR, to better diagnose the
impact on mathlib.
This triggers a small number of pointless uses of subst in mathlib, see
https://github.com/leanprover-community/mathlib4/pull/12451
We add a new configuration flag for `isDefEq`:
`Meta.Config.univApprox`.
When it is true, we approximate the solution for universe constraints
such as
- `u =?= max u ?v`, we use `?v := u`, and ignore the solution `?v := 0`.
- `max u v =?= max u ?w`, we use `?w := v`, and ignore the solution `?w
:= max u v`.
We only apply these approximations when there the contraints cannot be
postponed anymore. These approximations prevent error messages such as
```
error: stuck at solving universe constraint
max u ?u.3430 =?= u
```
This kind of error seems to appear in several Mathlib files.
We currently do not use these approximations while synthesizing type
class instances.
`Name.append` has special handling of macro scopes, and it would cause
`unresolveNameGlobal` to panic. Using `Name.appendCore` to append name
parts is justified by the fact that it's being used to reassemble a
disassembled name.
Closes#2291
Adds `ppLevel` to the `PPFns` extension so that the coercion can pass
the pretty printing context (including the `pp.mvars` option setting) to
the `Level` formatter.
Previously the `ac_rfl` tactic was only really usable when depending on
mathlib. With these instances, `ac_rfl` can deal with the various
operations defined in Lean.
---------
Co-authored-by: Scott Morrison <scott.morrison@gmail.com>
This makes `exact?%` behave like `by exact?` rather than `by apply?`.
If the underlying function `librarySearch` finds a suggestion which
closes the goal, use it (and add a code action). Otherwise log an error
and use `sorry`. The error is either
```text
`exact?%` didn't find any relevant lemmas
```
or
```text
`exact?%` could not close the goal. Try `by apply` to see partial suggestions.
```
---
[Zulip](https://leanprover.zulipchat.com/#narrow/stream/287929-mathlib4/topic/Useful.20term.20elaborators/near/434863856)
---------
Co-authored-by: Scott Morrison <scott.morrison@gmail.com>
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See RFC #3644 for a discussion of design choices.
Closes#3644
Currently this will fail in two tests, because of changes in #3965.
* Sometimes we need to add an additional universe annotation, or we get
a `stuck at solving universe constraint max u ?u =?= u`.
* Sometimes we need to specify arguments that could previously be found
by unification.
---------
Co-authored-by: Leonardo de Moura <leomoura@amazon.com>
Complement to #3967 , adds a `(since := "<date>")` field to
`@[deprecated]` so that metaprogramming code has access to the
deprecation date for e.g. bulk removals. Also adds `@[deprecated
"deprecation message"]` to optionally replace the default text
"`{declName}` has been deprecated, use `{newName}` instead".
- [x] Depends on: #3958
- [x] Depends on: #3960
This makes the UTF-8 encode and decode functions have lean definitions,
so that we can prove properties about them downstream.
Rather than adding symm hypotheses to the local context, it now adds
them to the list of hypotheses derived from the local context.
This is not ideal for performance reasons, but it at least closes#3922.
In the future, solveByElim could maintain its own cache of facts that it
updates whenever it does intro.
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`
This is intended to fail at present: it just adds a test case containing
a minimization of a Mathlib slowdown from #3807.
Prior to #3807, the declaration `exists_algHom_adjoin_of_splits'''` at
the end of the file would take around 16,000 heartbeats. Now it takes
around 210,000 heartbeats.
---------
Co-authored-by: Leonardo de Moura <leomoura@amazon.com>
Previously, there was a function `opaque fromUTF8Unchecked : ByteArray
-> String` which would convert a list of bytes into a string, but as the
name implies it does not validate that the string is UTF-8 before doing
so and as a result it produces unsound results in the compiler (because
the lean model of `String` indirectly asserts UTF-8 validity). This PR
replaces that function by
```lean
opaque validateUTF8 (a : @& ByteArray) : Bool
opaque fromUTF8 (a : @& ByteArray) (h : validateUTF8 a) : String
```
so that while the function is still "unchecked", we have a proof witness
that the string is valid. To recover the original, actually unchecked
version, use `lcProof` or other unsafe methods to produce the proof
witness.
Because this was the only `ByteArray -> String` conversion function, it
was used in several places in an unsound way (e.g. reading untrusted
input from IO and treating it as UTF-8). These have been replaced by
`fromUTF8?` or `fromUTF8!` as appropriate.
* Replaces the unused `Lean.PrettyPrinter.ppConst` with
`MessageData.ofConst` (which similarly avoids an unnecessary `@`) and
that further generates a hover for the constant
* Uses this in `TryThis.addRewriteSuggestion`, so that `rw?` suggestions
don't have unnecessary `@`s.
* Add `MessageData.signature`, as a wrapper around
`PrettyPrinter.signature`, using the same machinery to generate hovers
for constants, improving the hover behaviour in #check so that we get
second order pop-up for constants in the signature. (Not sure how to
write tests for second order hovers, so there is no test for this.)
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.
