This is mostly a refactoring that replaces other analyses with type
information, but due to the introduction of `tagged` it also has the
side effect of eliminating ref counting ops entirely for types that
always have a tagged scalar representation, e.g. `Unit`.
This PR fixes a bug at `mkCongrSimpCore?`. It fixes the issue reported
by @joehendrix at #9388.
The fix is just commit: afc4ba617fe2ca5828e0e252558d893d7791d56b. The
rest of the PR is just cleaning up the file.
closes#9388
This PR fixes an unsafe trick where a sentinel for a hash table of Exprs
(keyed by pointer) is created by constructing a value whose runtime
representation can never be a valid Expr. The value chosen for this
purpose was Unit.unit, which violates the inference that Expr has no
scalar constructors. Instead, we change this to a freshly allocated Unit
× Unit value.
A micro-benchmark for plain, mostly first-order rewriting of simp:
This uses axiom to make it independent of specific optimization (e.g.
for `Nat`).
It generates a “list” of 128 `b`s followed by 128 `a` and uses
bubble-sort to to sort it and compares it against the expected output.
This PR changes the dependency cloning mechanism in lake so the log
message that lake is cloning a
dependency occurs before it is finished doing so (and instead before it
starts). This has been a
huge source of confusion for users that don't understand why lake seems
to be just stuck for no
reason when setting up a new project, the output now is:
```
λ lake +lean4 new math math
info: downloading mathlib `lean-toolchain` file
info: math: no previous manifest, creating one from scratch
info: leanprover-community/mathlib: cloning https://github.com/leanprover-community/mathlib4
<hang>
info: leanprover-community/mathlib: checking out revision 'cd11c28c6a0d514a41dd7be9a862a9c8815f8599'
```
This PR fixes a performance issue that occurs when generating equation
lemmas for functions that use match-expressions containing several
literals. This issue was exposed by #9322 and arises from a combination
of factors:
1. Literal values are compiled into a chain of dependent if-then-else
expressions.
2. Dependent if-then-else expressions are significantly more expensive
to simplify than regular ones.
3. The `split` tactic selects a target, splits it, and then invokes
`simp` on the resulting subgoals. Moreover, `simp` traverses the entire
goal bottom-up and does not stop after reaching the target.
This PR addresses the issue by introducing a custom simproc that avoids
recursively simplifying nested if-then-else expressions. It does **not**
alter the user-facing behavior of the `split` tactic because such a
change would be highly disruptive. Instead, the PR adds a new flag,
`backward.split` to control the behavior of the user-facing `split`
tactic. It is currently set to `true`, i.e., the old behavior is still
the default one. In a future PR, we should set this flag to `false` by
default and begin repairing all affected proofs.
closes#9322
This PR modifies the encoding from `Nat` to `Int` used in `grind
cutsat`. It is simpler, more extensible, and similar to the generic
`ToInt`. After update stage0, we will be able to delete the leftovers.
This PR correctly populates the `xType` field of the `IR.FnBody.case`
constructor. It turns out that there is no obvious consequence for this
being incorrect, because it is conservatively recomputed by the `Boxing`
pass.
This PR changes the implementation of `trace.Compiler.result` to use the
decls as they are provided rather than looking them up in the LCNF mono
environment extension, which was seemingly done to save the trouble of
re-normalizing fvar IDs before printing the decl. This means that the
`._closed` decls created by the `extractClosed` pass will now be
included in the output, which was definitely confusing before if you
didn't know what was happening.
