The assumptions behind disabling error recovery for the `apply` tactic
no longer seem to hold, since tactic combinators like `first` themselves
disable error recovery when it makes sense.
This addresses part of #3831
Breaking change: `elabTermForApply` no longer uses `withoutRecover`.
Tactics using `elabTermForApply` should evaluate whether it makes sense
to wrap it with `withoutRecover`, which is generally speaking when it's
used to elaborate identifiers.
Makes the error messages report on RHSs and LHSs that do not match the
expected values when the relations are defeq. If the relations are not
defeq, the error message now no longer mentions the value of the whole
`calc` expression.
Adds a field to `mkCoe` with an optional callback to use to generate
error messages.
Note: it is tempting to try to make use of expected types when
elaborating the `calc` expression, but this runs into issue #2073.
Closes#4318
Adds ability to chain congruence lemmas when a function's arity is less
than the number of supplied arguments. This improves `congr` as well as
all conv tactics implemented using `congr`, like `arg` and `enter`.
(The non-conv `congr` tactic still needs to be fixed.)
Toward #2942.
Followup to #5841. Makes the `structure` command populate the new
`parentInfo` field with all the structures in the `extends` clause.
This will require a stage0 update to fully take effect.
Breaking change: now it's a warning if a structure extends a parent
multiple times.
Breaking change: now `getParentStructures` is `getStructureSubobjects`.
Adds `getStructureParentInfo` for getting all the immediate parents.
Note that the set of subobjects is neither a subset nor a superset of
the immediate parents.
Closes#1881
This default instance makes it possible to write things like `m!"the
constant is {.ofConstName n}"`.
Breaking change: This weakly causes terms to have a type of
`MessageData` if their type is otherwise unknown. For example:
* `m!"... {x} ..."` can cause `x` to have type `MessageData`, causing
the `let` definition of `x` to fail to elaborate. Fix: give `x` an
explicit type.
* Arithmetic expressions in `m!` strings may need a type ascription. For
example, if the type of `i` is unknown at the time the arithmetic
expression is elaborated, then `m!"... {i + 1} ..."` can fail saying
that it cannot find an `HAdd Nat Nat MessageData` instance. Two fixes:
either ensure that the type of `i` is known, or add a type ascription to
guide the `MessageData` coercion, like `m!"... {(i + 1 : Nat)} ..."`.
Using the same strategy as #5852 this provides `bv_decide` support for
`Bool` and `BitVec` ifs
this in turn instantly enables support for:
- `sdiv`
- `smod`
- `abs`
and thus closes our last discrepancies to QF_BV!
This is the first step towards fixing the issue of not having mutual
recursion between the `Bool` and `BitVec` fragment of `QF_BV` in
`bv_decide`. This PR adds support for `BitVec.ofBool` by doing the
following:
1. Introduce a new mechanism into the reification engine that allows us
to add additional lemmas to the top level on the fly as we are
traversing the expression tree.
2. If we encounter an expression `BitVec.ofBool boolExpr` we reify
`boolExpr` and then abstract `BitVec.ofBool boolExpr` as some atom `a`
3. We add two lemmas `boolExpr = true -> a = 1#1` and `boolExpr = false
-> a = 0#1`. This mirrors the full behavior of `BitVec.ofBool` and thus
makes our atom `a` correctly interpreted again.
In order to do the reification in step 2 mutual recursion in the
reification engine is required. For this reason I started pulling out
logic from the, now rather large, mutual block into other files and
document the invariants that they assume explicitly.
A step of expanding structure instances is to determine all the default
values, and part of this is reducing projections that appear in the
default values so that they get replaced with the user-provided values.
Binder types in foralls, lambdas, and lets have to be reduced too.
Closes#2186
Refactors the `structure` command to support recursive structures. These
are disabled for now, pending additional elaborator support in #5822.
This refactor is also a step toward `structure` appearing in `mutual`
blocks.
Error reporting is now more precise, and this fixes an issue where
general errors could appear on the last field. Adds "don't know how to
synthesize placeholder" errors for default values.
Closes#2512
This adds a `parentInfo` field to the `StructureInfo`, which will
eventually be populated with the actual parents of a structure. This is
work toward #1881. Also documents fields of the structure info data
structures.
Requires a stage0 update before the next steps.
`generalize ... at *` sometimes will try to modify the recursive
hypothesis corresponding to the current theorem being defined, which may
not be the expected behaviour. It should only try to `generalize`
hypotheses that it can actually modify and are visible, not
implementation details. Otherwise this means that there are
discrepancies between `generalize ... at *` and `generalize ... at H`,
even though `H` is the only hypothesis in the context.
This commit uses `getLocalHyps` instead of `getFVarIds` to get the
current valid `FVarIds` in the context. This uses
`isImplementationDetail` to filter out `FVarIds` that are implementation
details in the context and are not visible to the user and should not be
manipulated by `generalize`.
Closes#4845
Closes#3146
Reduction doesn't trigger correctly on the bodies of `let`-expressions
in `StructInst`, leading some meta-variables to linger in the terms of
some fields. Because of this, default fields may try multiple times (and
fail) to be generated, leading to an unexpected error.
The solution implemented here is to modify the values of the introduced
variables in the local context so as to reduce them correctly.
The `liftCommandElabM : CommandElabM α -> CoreM α` function now carries
over macro scopes, the name generator, info trees, and messages.
Adds a flag `throwOnError`, which is true by default. When it is true,
then if the messages contain an error message, it is converted into an
exception. In this case, the infotrees and messages are not carried
over; the motivation is that `throwOnError` is likely used for synthetic
syntax, and so the info and messages on errors will just be noise.
Cleanup of #5650
* default `Modifiers.stx` to missing
* rename and clarify `addDeclarationRangesFromSyntax` as the main
convenience function for user metaprograms
Add an example Lean file that includes an unusually large definition
that takes a long time to elaborate.
It may be that it's difficult to process it more efficiently, but
perhaps someone will discover a way to improve it if it's in the
benchmark suite. Improved performance on this benchmark will likely make
some program analysis and verification tasks within Lean more feasible.
---------
Co-authored-by: Sebastian Ullrich <sebasti@nullri.ch>
Example new output:
```text
failed to compile 'partial' definition 'checkMyList', could not prove that the type
ListNode → Bool × ListNode
is nonempty.
This process uses multiple strategies:
- It looks for a parameter that matches the return type.
- It tries synthesizing 'Inhabited' and 'Nonempty' instances for the return type.
- It tries unfolding the return type.
If the return type is defined using the 'structure' or 'inductive' command, you can try
adding a 'deriving Nonempty' clause to it.
```
The inhabitation prover now also unfolds definitions when trying to
prove inhabitation. For example,
```lean
def T (α : Type) := α × α
partial def f (n : Nat) : T Nat := f n
```
Motivated [by
Zulip](https://leanprover.zulipchat.com/#narrow/channel/113489-new-members/topic/Why.20return.20type.20of.20partial.20function.20MUST.20.60inhabited.60.3F/near/477905312)
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`.
Breaking changes:
To build Lean from source on Windows, it is now necessary to install the
[Windows
SDK](https://developer.microsoft.com/en-us/windows/downloads/windows-sdk/).
The build instructions have been updated to reflect this. Note that the
Windows SDK is **not** needed to compile Lean programs using a Lean
toolchain obtained using `elan`. The Windows SDK is only needed to build
Lean itself from source.
Furthermore, we are dropping support for Windows versions older than
Windows 10 1903 (released in May 2019).
No Windows version that is still supported by Microsoft as part of
mainstream support is affected by this.
The following Windows versions are still supported by Microsoft as part
of commercial extended support but are no longer supported by Lean:
- Windows 10 Enterprise LTSC 2015
- Windows 10 Enterprise LTSC 2016
- Windows 10 Enterprise LTSC 2019
- Windows Server 2019
It's difficult to distinguish theorems from regular definitions in the
completion menu, which is annoying when using completion for searching
one or the other. This PR makes theorem completions use the "Eureka!"
icon ()
to distinguish them more clearly from other completions.
NB: We are very limited in terms of which icons we can pick here since
[the completion kinds provided by LSP / VS
Code](https://code.visualstudio.com/docs/editor/intellisense#_types-of-completions)
are optimized for object-oriented programming languages, but I think
this choice strikes a nice balance between being easy to identify,
having some visual connection to theorem proving and not being used a
lot in other languages and thus not clashing with pre-existing
associations.
Between #3106 and this, it was possible that reparsing the file up to
the current position was stuck waiting in the threadpool queue,
displaying a yellow bar and not displaying any info on the unchanged
prefix.
