This PR fixes a bug where structural recursion did not work when indices
of the recursive argument appeared as function parameters in a different
order than in the argument's type's definition.
Fixes#6015.
This PR liberalizes atom rules by allowing `''` to be a prefix of an
atom, after #6012 only added an exception for `''` alone, and also adds
some unit tests for atom validation.
This PR fixes an issue in the `injection` tactic. This tactic may
execute multiple sub-tactics. If any of them fail, we must backtrack the
partial assignment. This issue was causing the error: "`mvarId` is
already assigned" in issue #6066. The issue is not yet resolved, as the
equation generator for the match expressions is failing in the example
provided in this issue.
This PR fixes the caching infrastructure for `whnf` and `isDefEq`,
ensuring the cache accounts for all relevant configuration flags. It
also cleans up the `WHNF.lean` module and improves the configuration of
`whnf`.
This PR fixes a stack overflow caused by a cyclic assignment in the
metavariable context. The cycle is unintentionally introduced by the
structure instance elaborator.
closes#3150
This PR makes the `change` tactic and conv tactic use the same
elaboration strategy. It works uniformly for both the target and local
hypotheses. Now `change` can assign metavariables, for example:
```lean
example (x y z : Nat) : x + y = z := by
change ?a = _
let w := ?a
-- now `w : Nat := x + y`
```
This PR modifies `Lean.MVarId.replaceTargetDefEq` and
`Lean.MVarId.replaceLocalDeclDefEq` to use `Expr.equal` instead of
`Expr.eqv` when determining whether the expression has changed. This is
justified on the grounds that binder names and binder infos are
user-visible and affect elaboration.
This PR adds raw transmutation of floating-point numbers to and from
`UInt64`. Floats and UInts share the same endianness across all
supported platforms. The IEEE 754 standard precisely specifies the bit
layout of floats. Note that `Float.toBits` is distinct from
`Float.toUInt64`, which attempts to preserve the numeric value rather
than the bitwise value.
closes#6071
This PR adds the option `pp.parens` (default: false) that causes the
pretty printer to eagerly insert parentheses, which can be useful for
teaching and for understanding the structure of expressions. For
example, it causes `p → q → r` to pretty print as `p → (q → r)`.
Any notations with precedence greater than or equal to `maxPrec` do not
receive such discretionary parentheses, since this precedence level is
considered to be infinity.
This option was a feature in the Lean 3 community edition.
This PR fixes a bug in the constant folding for the `Nat.ble` and
`Nat.blt` function in the old code generator, leading to a
miscompilation.
Closes#6086
This PR improves the term info for coercions marked with
`CoeFnType.coeFun` (such as `DFunLike.coe` in Mathlib), making "go to
definition" on the function name work. Hovering over such a coerced
function will show the coercee rather than the coercion expression. The
coercion expression can still be seen by hovering over the whitespace in
the function application.
This PR introduces date and time functionality to the Lean 4 Std.
Breaking Changes:
- `Lean.Data.Rat` is now `Std.Internal.Rat` because it's used by the
DateTime library.
---------
Co-authored-by: Markus Himmel <markus@himmel-villmar.de>
Co-authored-by: Mac Malone <tydeu@hatpress.net>
This PR prepares #6068 by using the `RArray` data structure in
`simp_arith` the simp-arith meta code.
After the subsequent stage0 we can change the simp-arith theorems in
`Init`.
This PR adds the Lean.RArray data structure.
This data structure is equivalent to `Fin n → α` or `Array α`, but
optimized for a fast kernel-reduction `get` operation.
It is not suitable as a general-purpose data structure. The primary
intended use case is the “denote” function of a typical proof by
reflection proof, where only the `get` operation is necessary, and where
using `List.get` unnecessarily slows down proofs with more than a
hand-full of atomic expressions.
There is no well-formedness invariant attached to this data structure,
to keep it concise; it's semantics is given through `RArray.get`. In
that way one can also view an `RArray` as a decision tree implementing
`Nat → α`.
In #6068 this data structure is used in `simp_arith`.
This PR improves the validation of new syntactic tokens. Previously, the
validation code had inconsistencies: some atoms would be accepted only
if they had a leading space as a pretty printer hint. Additionally,
atoms with internal whitespace are no longer allowed.
Closes#6011
This PR adds a newline at end of each Lean file generated by `lake new`
templates.
I have tested it with a locally compiled Lean with this commit. I hope
these changes make `lake new`'s behavior more consistent with the Lean 4
plugins and libraries newlines convention.
This PR adds a new definition `Message.kind` which returns the top-level
tag of a message. This is serialized as the new field `kind` in
`SerialMessaege` so that i can be used by external consumers (e.g.,
Lake) to identify messages via `lean --json`.
The tag of trace messages has also been changed from `_traceMsg` to the
more friendly `trace`.
Not a huge benefit, but actually reduces the code complexity (no need
for the `.fuse` function), and can help with problems with many repeated
varibles.
This PR fixes a bug where the monad lift coercion elaborator would
partially unify expressions even if they were not monads. This could be
taken advantage of to propagate information that could help elaboration
make progress, for example the first `change` worked because the monad
lift coercion elaborator was unifying `@Eq _ _` with `@Eq (Nat × Nat)
p`:
```lean
example (p : Nat × Nat) : p = p := by
change _ = ⟨_, _⟩ -- used to work (yielding `p = (p.fst, p.snd)`), now it doesn't
change ⟨_, _⟩ = _ -- never worked
```
As such, this is a breaking change; you may need to adjust expressions
to include additional implicit arguments.
