This PR moves cbv tests to the correct test directories. `cbv4.lean` is
a
straightforward elaboration test and is moved to `tests/elab/`. The AES
and ARM
load/store tests are performance-oriented stress tests and are moved to
`tests/elab_bench/`.
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR introduces the core HTTP data types: `Request`, `Response`,
`Status`, `Version`, and `Method`. Currently, URIs are represented as
`String` and headers as `HashMap String (Array String)`. These are
placeholders, future PRs will replace them with strict implementations.
This contains the same code as #10478, divided into separate pieces to
facilitate easier review.
The pieces of this feature are:
- Core data structures: #12126
- Headers: #12127
- URI: #12128
- Body: #12144
- H1: #12146
- Server: #12151
- Client:
---------
Co-authored-by: Rob23oba <152706811+Rob23oba@users.noreply.github.com>
This PR adds high priority to instances for `OfSemiring.Q` in the grind
ring envelope. When Mathlib is imported, instance synthesis for types
like `OfSemiring.Q Nat` becomes very expensive because the solver
explores many irrelevant paths before finding the correct instances. By
marking these instances as high priority and adding shortcut instances
for basic operations (`Add`, `Sub`, `Mul`, `Neg`, `OfNat`, `NatCast`,
`IntCast`, `HPow`), instance synthesis resolves quickly.
🤖 Generated with [Claude Code](https://claude.com/claude-code)
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
Co-authored-by: Kim Morrison <kim@tqft.net>
This PR changes the approach in `simpIteCbv` and `simpDIteCbv`, by
replacing call to `Decidable.decide`
with reducing and direct pattern matching on the `Decidable` instance
for `isTrue`/`isFalse`. This produces simpler proof terms.
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR fixes `pp.fvars.anonymous` to display loose free variables as
`_fvar._` instead of `_` when the option is set to `false`. This was the
intended behavior in https://github.com/leanprover/lean4/pull/12688 but
the fix was committed locally and not pushed before that PR was merged.
🤖 Prepared with Claude Code
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR adds a `pp.fvars.anonymous` option (default `true`) that
controls the display of loose free variables (fvars not in the local
context).
- When `true` (default), loose fvars display their internal name like
`_fvar.42`
- When `false`, they display as `_fvar._`
This is analogous to `pp.mvars.anonymous` for metavariables. It's useful
for stabilizing output in `#guard_msgs` when messages contain fvar IDs
that vary between runs — for example, in diagnostic tools that report
`isDefEq` failures from trace output where the local context is not
available.
🤖 Prepared with Claude Code
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR fixes a bug in `Meta.zetaReduce` where `have` expressions were
not being zeta reduced. It also adds a feature where applications of
local functions are beta reduced, and another where zeta-delta reduction
can be disabled. These are all controllable by flags:
- `zetaDelta` (default: true) enables unfolding local definitions
- `zetaHave` (default: true) enables zeta reducing `have` expressions
- `beta` (default: true) enables beta reducing applications of local
definitions
Closes#10850
This PR adds two `decide_cbv` stress tests extracted from LNSym (ARMv8
symbolic
simulator, Apache 2.0). `cbv_aes.lean` tests a full AES-128 encryption
on large
bitvector computations. `cbv_arm_ldst.lean` tests ARMv8 load/store
instruction
decoding and execution with nested pattern matching over bitvectors.
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR adds a `cbv` tactic test based on a minimized example extracted
from verifying the Collatz conjecture for small numbers, suggested by
Bhavik Mehta (@b-mehta).
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
Co-authored-by: Bhavik Mehta <bhavikmehta8@gmail.com>
This PR sets up the new integrated test/bench suite. It then migrates
all benchmarks and some related tests to the new suite. There's also
some documentation and some linting.
For now, a lot of the old tests are left alone so this PR doesn't become
even larger than it already is. Eventually, all tests should be migrated
to the new suite though so there isn't a confusing mix of two systems.
This PR fixes an issue where `mutual public structure` would have a
private constructor. The fix copies the fix from #11940.
Closes#10067. Also recloses duplicate issue #11116 (its test case is
added to the test suite).
This PR adds several useful lemmas for `List`, `Array` and `Vector`
whenever they were missing, improving API coverage and consistency among
these types.
- `size_singleton`/`sum_singleton`/`sum_push`
-
`foldlM_toArray`/`foldlM_toList`/`foldl_toArray`/`foldl_toList`/`foldrM_toArray`/`foldrM_toList`/`foldr_toList`
- `toArray_toList`
- `foldl_eq_apply_foldr`/`foldr_eq_apply_foldl`, `foldr_eq_foldl`:
relates `foldl` and `foldr` for associative operations with identity
- `sum_eq_foldl`: relates sum to `foldl` for associative operations with
identity
- `Perm.pairwise_iff`/`Perm.pairwise`: pairwise properties are preserved
under permutations of arrays
This PR changes all `lean-toolchain` to use relative toolchain paths
instead of `lean4` and `lean4-stage0` identifiers, which removes the
need for manually linking toolchains via Elan.
After this PR, at least Elan 4.2.0 and 0.0.224 of the Lean VS Code
extension will be needed to edit core.
Co-authored-by: Claude Sonnet 4.6 <noreply@anthropic.com>
This PR marks `List.flatten`, `List.flatMap`, `List.intercalate` as
noncomputable to ensure that their `csimp` variants are used everywhere.
We also mark `List.flatMapM` as noncomputable and provide a
tail-recursive implementation, and mark `List.utf8Encode` as
noncomputable, which only exists for specification purposes anyway (at
this point).
Closes#12676.
This PR adds a feature where `inductive` constructors can override the
binder kinds of the type's parameters, like in #9480 for `structure`.
For example, it's possible to make `x` explicit in the constructor
`Eq.refl`, rather than implicit:
```lean
inductive Eq {α : Type u} (x : α) : α → Prop where
| refl (x) : Eq x x
```
In the Prelude, this is currently accomplished by taking advantage of
auto-promotion of indices to parameters.
**Breaking change.** Inductive types with a constructor that starts with
typeless binders may need to be rewritten, e.g. changing `(x)` to `(x :
_)` if there is a `variable` with that name or if it is meant to shadow
one of the inductive type's parameters.
This PR fixes an issue where `withLocation` wasn't saving the info
context, which meant that tactics that use `at *` location syntax and do
term elaboration would save infotrees but revert the metacontext,
leading to Infoview messages like "Error updating: Error fetching goals:
Rpc error: InternalError: unknown metavariable" if the tactic failed at
some locations but succeeded at others.
Closes#10898
This PR fixes two aspects of pretty printing of private names.
1. Name unresolution. Now private names are not special cased: the
private prefix is stripped off and the `_root_` prefix is added, then it
tries resolving all suffixes of the result. This is sufficient to handle
imported private names in the new module system. (Additionally,
unresolution takes macro scopes into account now.)
2. Delaboration. Inaccessible private names use a deterministic
algorithm to convert private prefixes into macro scopes. The effect is
that the same private name appearing in multiple times in the same
delaborated expression will now have the same `✝` suffix each time. It
used to use fresh macro scopes per occurrence.
Note: There is currently a small hack to support pretty printing in the
compiler's trace messages, which print constants that do not exist (e.g.
`obj`, `tobj`, and auxiliary definitions being compiled). Even though
these names are inaccessible (for the stronger reason that they don't
exist), we make sure that the pretty printer won't add macro scopes. It
also does some analysis of private names to see if the private names are
for the current module.
Closes#10771, closes#10772, and closes#10773
This PR adds the missing `popScopes` call to `withNamespace`, which
previously
only dropped scopes from the elaborator's `Command.State` but did not
pop the
environment's `ScopedEnvExtension` state stacks. This caused scoped
syntax
declarations to leak keywords outside their namespace when
`withNamespace` had
been called.
Closes#12630
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR allows for a leightweight version of dependent `match` in the
new `do` elaborator: discriminant types get abstracted over previous
discriminants. The match result type and the local context still are not
considered for abstraction. For example, if both `i : Nat` and `h : i <
len` are discrminants, then if an alternative matches `i` with `0`, we
also have `h : 0 < len`:
```lean
example {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (as : Array α) (b : β) (f : (a : α) → a ∈ as → β → m (ForInStep β)) : m β :=
let rec loop (i : Nat) (h : i ≤ as.size) (b : β) : m β := do
match i, h with
| 0, _ => pure b
| i+1, h =>
have h' : i < as.size := Nat.lt_of_lt_of_le (Nat.lt_succ_self i) h
have : as.size - 1 < as.size := Nat.sub_lt (Nat.zero_lt_of_lt h') (by decide)
have : as.size - 1 - i < as.size := Nat.lt_of_le_of_lt (Nat.sub_le (as.size - 1) i) this
match (← f as[as.size - 1 - i] (Array.getElem_mem this) b) with
| ForInStep.done b => pure b
| ForInStep.yield b => loop i (Nat.le_of_lt h') b
loop as.size (Nat.le_refl _) b
```
This feature turns out to be enough to save quite a few adaptations
(6/16) during bootstrep.
This PR adds the pretty printer option `pp.mdata`, which causes the
pretty printer to annotate terms with any metadata that is present. For
example,
```lean
set_option pp.mdata true
/-- info: [mdata noindex:true] 2 : Nat -/
#guard_msgs in #check no_index 2
```
The `[mdata ...] e` syntax is only for pretty printing.
Thanks to @Rob23oba for an initial version.
Closes#10929
This PR fixes spurious unused variable warnings for variables used in
non-atomic match discriminants in `do` notation. For example, in `match
Json.parse s >>= fromJson? with`, the variable `s` would be reported as
unused.
The root cause is that `expandNonAtomicDiscrs?` eagerly elaborates the
discriminant via `Term.elabTerm`, which creates TermInfo for variable
references. The result is then passed to `elabDoElem` for further
elaboration. When the match elaboration is postponed (e.g. because the
discriminant type contains an mvar from `fromJson?`), the result is a
postponed synthetic mvar. The `withTermInfoContext'` wrapper in
`elabDoElemFns` checks `isTacticOrPostponedHole?` on this result,
detects a postponed mvar, and replaces the info subtree with a `hole`
node — discarding all the TermInfo that was accumulated during
discriminant elaboration.
The fix applies `mkSaveInfoAnnotation` to the result, which prevents
`isTacticOrPostponedHole?` from recognizing it as a hole. This is the
same mechanism that `elabLetMVar` uses to preserve info trees when the
body is a metavariable.
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Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR fixes false-positive "unused variable" warnings for mutable
variables reassigned inside `try`/`catch` blocks with the new do
elaborator.
The root cause was that `ControlStack.stateT.runInBase` packed mutable
variables into a state tuple without calling `Term.addTermInfo'`, so the
unused variable linter could not see that the variables were used. The
fix mirrors how the `for` loop elaborator handles the same pattern in
`useLoopMutVars`.
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Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR adds the experimental `idbg e`, a new do-element (and term)
syntax for live debugging between the language server and a running
compiled Lean program.
When placed in a `do` block, `idbg` captures all local variables in
scope and expression `e`, then:
- **In the language server**: starts a TCP server on localhost waiting
for the running program to
connect; the editor will mark this part of the program as "in progress"
during this wait but that
will not block `lake build` of the project.
- **In the compiled program**: on first execution of the `idbg` call
site, connects to the server,
receives the expression, compiles and evaluates it using the program's
actual runtime values, and
sends the `repr` result back.
The result is displayed as an info diagnostic on the `idbg` keyword. The
expression `e` can be
edited while the program is running - each edit triggers re-elaboration
of `e`, a new TCP exchange,
and an updated result. This makes `idbg` a live REPL for inspecting and
experimenting with
program state at a specific point in execution. Only when `idbg` is
inserted, moved, or removed does
the program need to be recompiled and restarted.
# Known Limitations
* The program will poll for the server for up to 10 minutes and needs to
be killed manually
otherwise.
* Use of multiple `idbg` at once untested, likely too much overhead from
overlapping imports without
further changes.
* `LEAN_PATH` must be properly set up so compiled program can import its
origin module.
* Untested on Windows and macOS.
This PR fixes a performance regression introduced by enabling
`backward.whnf.reducibleClassField`
(https://github.com/leanprover/lean4/pull/12538). The
`isNonTrivialRegular` function in `ExprDefEq` was classifying class
projections as nontrivial at all transparency levels, but the extra
`.instances` reduction in `unfoldDefault` that motivates this
classification only applies at `.reducible` transparency. At higher
transparency levels, the nontrivial classification caused unnecessary
heuristic comparison attempts in `isDefEqDelta` that cascaded through
BitVec reductions, causing elaboration of `Lean.Data.Json.Parser` to
double from ~3.6G to ~7.2G instructions.
The fix restricts the nontrivial classification to `.reducible`
transparency only, matching the scope of `unfoldDefault`'s extra
reduction behavior.
🤖 Prepared with Claude Code
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR enables the `cbv` tactic to unfold nullary (non-function)
constant
definitions such as `def myNat : Nat := 42`, allowing ground term
evaluation
(e.g. `evalEq`, `evalLT`) to recognize their values as literals.
Previously, `handleConst` skipped all nullary constants. Now it performs
direct
delta reduction using `instantiateValueLevelParams` instead of going
through
the equation theorem machinery (`getUnfoldTheorem`), which would trigger
`realizeConst` and fail for constants (such as derived typeclass
instances)
where `enableRealizationsForConst` has not been called.
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR ensures that failure in initial compilation marks the relevant
definitions as `noncomputable`, inside and outside `noncomputable
section`, so that follow-up errors/noncomputable markings are detected
in initial compilation as well instead of somewhere down the pipeline.
This may require additional `noncomputable` markers on definitions that
depend on definitions inside `noncomputable section` but accidentally
passed the new computability check.
Reported at
https://leanprover.zulipchat.com/#narrow/channel/270676-lean4/topic/Cryptic.20error.20message.20in.20new.20lean.20toolchain.3F.
This PR fixes `getStuckMVar?` to detect stuck metavariables through
auxiliary parent projections created for diamond inheritance. These
coercions (e.g., `AddMonoid'.toAddZero'`) are not registered as regular
projections because they construct the parent value from individual
fields rather than extracting a single field. Previously,
`getStuckMVar?` would give up when encountering them, preventing TC
synthesis from being triggered.
- Add `AuxParentProjectionInfo` environment extension to `ProjFns.lean`
recording `numParams` and `fromClass` for these coercions
- Register the info during structure elaboration in
`mkCoercionToCopiedParent`
- Consult the new extension in `getStuckMVar?` as a fallback when
`getProjectionFnInfo?` returns `none`
🤖 Generated with [Claude Code](https://claude.com/claude-code)
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
Co-authored-by: Kim Morrison <kim@tqft.net>
This PR enables `backward.whnf.reducibleClassField` for v4.29.
The support is particularly important when the user marks a class field
as `[reducible]` and
the transparency mode is `.reducible`. For example, suppose `e` is `a ≤
b` where `a b : Nat`,
and `LE.le` is marked as `[reducible]`. Simply unfolding `LE.le` would
give `instLENat.1 a b`,
which would be stuck because `instLENat` has transparency
`[instance_reducible]`. To avoid this, when we unfold
a `[reducible]` class field, we also unfold the associated projection
`instLENat.1` using
`.instances` reducibility, ultimately returning `Nat.le a b`.
---------
Co-authored-by: Paul Reichert <6992158+datokrat@users.noreply.github.com>
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
Co-authored-by: Kim Morrison <kim@tqft.net>
This PR fixes the interaction between
`backward.whnf.reducibleClassField` and `isDefEqDelta`'s
argument-comparison heuristic.
When `backward.whnf.reducibleClassField` is enabled, `unfoldDefault`
reduces class field projections past the `.proj` form at `.instances`
transparency. This causes `isDefEqDelta` to lose the instance structure
that `isDefEqProj` needs to bump transparency for instance-implicit
parameters. The fix adds an `.abbrev` branch in `isNonTrivialRegular`
that classifies class field projections as nontrivial when the option is
enabled, so `tryHeuristic` applies the argument-comparison heuristic
(with the correct transparency bump) instead of unfolding.
Key insight: all projection functions receive `.abbrev` kernel hints
(not `.regular`), regardless of their reducibility status. Structure
projections default to `.reducible` status, while class projections
default to `.semireducible` status. The old code only handled the
`.regular` case and treated everything else (including `.abbrev`) as
trivial.
Also fixes two minor comment issues in `tryHeuristic`: "non-trivial
regular definition" → "non-trivial definition" (since `.abbrev`
definitions can now be nontrivial too), and "when `f` is not simple" →
"when `f` is simple" (logic inversion in the original comment).
🤖 Generated with [Claude Code](https://claude.com/claude-code)
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR adds a new, extensible `do` elaborator. Users can opt into the
new elaborator by unsetting the option `backward.do.legacy`.
New elaborators for the builtin `doElem` syntax category can be
registered with attribute `doElem_elab`. For new syntax, additionally a
control info handler must be registered with attribute
`doElem_control_info` that specifies whether the new syntax `return`s
early, `break`s, `continue`s and which `mut` vars it reassigns.
Do elaborators have type ``TSyntax `doElem → DoElemCont → DoElabM
Expr``, where `DoElabM` is essentially `TermElabM` and the `DoElemCont`
represents how the rest of the `do` block is to be elaborated. Consult
the docstrings for more details.
Breaking Changes:
* The syntax for `let pat := rhs | otherwise` and similar now scope over
the `doSeq` that follows. Furthermore, `otherwise` and the sequence that
follows are now `doSeqIndented` in order not to steal syntax from record
syntax.
Breaking Changes when opting into the new `do` elaborator by unsetting
`backward.do.legacy`:
* `do` notation now always requires `Pure`.
* `do match` is now always non-dependent. There is `do match (dependent
:= true)` that expands to a
term match as a workaround for some dependent uses.
This PR makes `isDefEqProj` bump transparency to `.instances` (via
`withInstanceConfig`) when comparing the struct arguments of class
projections. This makes the behavior consistent with `isDefEqArgs`,
which already applies the same bump for instance-implicit parameters
when comparing function applications.
When a class field like `X.x` is marked `@[reducible]`, `isDefEqDelta`
unfolds it to `.proj` form. Previously, `isDefEqProj` compared the
struct arguments at the ambient transparency (`.reducible` in simp),
which meant instance definitions (which are `[implicit_reducible]`)
could not be unfolded, causing `eq_self` to fail. In the function
application form (`X.x inst` vs `X.x inst'`), `isDefEqArgs` correctly
bumps to `.instances` for the instance-implicit parameter. The `.proj`
path should behave the same way.
🤖 Generated with [Claude Code](https://claude.com/claude-code)
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR fixes a bug where `simp` made no progress on class projection
reductions when `backward.whnf.reducibleClassField` is `true`.
- In `reduceProjFn?`, for class projections applied to constructor
instances (`Class.projFn (Class.mk ...)`), the code called
`reduceProjCont? (← unfoldDefinitionAny? e)`. The helper
`reduceProjCont?` expects the unfolded result to have a `.proj` head so
it can apply `reduceProj?`. However, when `reducibleClassField` is
enabled, `unfoldDefault` in WHNF.lean already reduces the `.proj` node
during unfolding, so `reduceProjCont?` discards the fully-reduced
result.
- The fix uses `unfoldDefinitionAny?` directly, bypassing
`reduceProjCont?`. The dsimp traversal revisits the result (via
`.visit`) and handles any remaining `.proj` nodes naturally.
🤖 Generated with [Claude Code](https://claude.com/claude-code)
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR fixes a bug where `reduceRecMatcher?` and `reduceProj?` bypassed
the `@[cbv_opaque]` attribute. These kernel-level reduction functions
use `whnf` internally, which does not know about `@[cbv_opaque]`. This
meant `@[cbv_opaque]` values were unfolded when they appeared as match
discriminants, recursor major premises, or projection targets. The fix
introduces `withCbvOpaqueGuard`, which wraps these calls with
`withCanUnfoldPred` to prevent `whnf` from unfolding `@[cbv_opaque]`
definitions.
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR fixes a flipped condition in `handleConst` that prevented `cbv`
from unfolding nullary (non-function) constant definitions like
`def myVal : Nat := 42`. The check `unless eType matches .forallE` was
intended to skip bare function constants (whose unfold theorems expect
arguments) but instead skipped value constants. The fix changes the
guard to `if eType matches .forallE`, matching the logic used in the
standard `simp` ground evaluator.
🤖 Generated with [Claude Code](https://claude.com/claude-code)
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR fixes a crash in the `cbv` tactic's `handleProj` simproc when
processing a dependent projection (e.g. `Sigma.snd`) whose struct is
rewritten via `@[cbv_eval]` to a non-definitionally-equal term that
cannot be further reduced.
- Previously, `handleProj` returned `.rfl (done := false)`, causing the
`.proj` expression to flow into `simpStep` which throws "unexpected
kernel projection term"
- The fix marks the result as `done := true` so that `cbv` gracefully
gets stuck instead of crashing
- Adds regression tests for dependent projections on `Sigma`, custom
structures, and `Subtype`
🤖 Generated with [Claude Code](https://claude.com/claude-code)
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR makes the derived value analysis in RC insertion recognize
`Array.uget` as another kind of
"projection-like" operation. This allows it to reduce reference count
pressure on elements accessed
through uget.
This PR is part 2 of the `implicit_reducible` refactoring (part 1:
#12567).
**Background.** When Lean checks definitional equality of function
applications
`f a₁ ... aₙ =?= f b₁ ... bₙ`, it compares arguments `aᵢ =?= bᵢ` at a
transparency level determined by the binder type. Previously, only
instance-implicit (`[C]`) arguments received a transparency bump to
`.instances`. With `backward.isDefEq.implicitBump` enabled, ALL implicit
arguments (`{x}`, `⦃x⦄`, and `[x]`) are bumped to `.instances`, so that
definitions marked `[implicit_reducible]` unfold when comparing implicit
arguments. This is important because implicit arguments often carry type
information (e.g., `P (i + 0)` vs `P i`) where the mismatch is in
non-proof positions (Sort arguments to `cast`) — proof irrelevance does
not
help here, so the relevant definitions must actually unfold.
**`[implicit_reducible]`** (renamed from `[instance_reducible]` in part
1) marks
definitions that should unfold at `TransparencyMode.instances` — between
`[reducible]` (unfolds at `.reducible` and above) and the default
`[semireducible]` (unfolds only at `.default` and above). This is the
right
level for core arithmetic operations that appear in type indices.
## Changes
- **Enable `backward.isDefEq.implicitBump` by default** and set it in
`stage0/src/stdlib_flags.h` so stage0 also compiles with it
- **Mark `Nat.add`, `Nat.mul`, `Nat.sub`, `Array.size` as
`[implicit_reducible]`**
so they unfold when comparing implicit arguments at `.instances`
transparency
- **Remove redundant unification hints** (`n + 0 =?= n`, `n - 0 =?= n`,
`n * 0 =?= 0`) that are now handled by `[implicit_reducible]`
- **Rename all remaining `[instance_reducible]` attribute usages** to
`[implicit_reducible]` across the codebase (the old name remains as an
alias)
- **Remove 28 `set_option backward.isDefEq.respectTransparency false
in`**
workarounds that are no longer needed
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Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
---------
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR adds a warning when using `cbv` or `decide_cbv` in tactic mode,
matching the existing warning in conv mode
(`src/Lean/Elab/Tactic/Conv/Cbv.lean`). The warning informs users that
these tactics are experimental and still under development. It can be
disabled with `set_option cbv.warning false`.
Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
This PR ports the RC insertion from IR to LCNF.
In doing so it makes the entire code monadic as opposed to simulating a
ReaderT StateRefT stack manually.
This PR removes unnecessary `simp` call in `simpAppFn` in `cbv` tactic
and updates the usage of `cbv_eval` attribute in
`tests/lean.run/cbv1.lean` to follow the new syntax that does not
require an explicit name of the function for which we are registering
the unfold lemma.
This PR fixes a bug with rendering of hygiene info nodes in embedded
Verso code examples. The embedded anonymous identifier was being
rendered as [anonymous] instead of being omitted.
This PR fixes#12554 where the `cbv` tactic throws "unexpected kernel
projection term during structural definitional equality" when a rewrite
theorem's pattern contains a lambda and the expression being matched has
a `.proj` (kernel projection) at the corresponding position.
The `Sym` pattern matching infrastructure (`isDefEqMain` in
`Pattern.lean`) does not handle `.proj` expressions and can throw an
exception. Rather than presenting it as an error in `cbv`, we fail
quietly and let the `cbv` tactic try other fallback paths.
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Co-authored-by: Claude Opus 4.6 <noreply@anthropic.com>
