This PR provides lemmas for the tree map function `minKeyD` and its
interations with other functions for which lemmas already exist.
---------
Co-authored-by: Paul Reichert <datokrat@users.noreply.github.com>
This PR adds missing docstrings and makes docstring style consistent for
`ForM`, `ForIn`, `ForIn'`, `ForInStep`, `IntCast`, and `NatCast`.
---------
Co-authored-by: Siddharth <siddu.druid@gmail.com>
This PR changes Lake to log messages from a Lean configuration the same
way it logs message from a Lean build. This, for instance, removes
redundant severity captions.
For example, Lake would previously log a configuration warning as
`warning: <source>: warning: <message>`. It now logs it as `warning:
<source>: <message>`.
This PR modifies how the aux structure default declarations are
generated; they now include all universe levels and all structure
parameters. This will let us simplify how parameter handling is done
when processing defaults, in structure instance notation, in the pretty
printer, and in `#print`.
This PR improves the caching computation of the atoms assignment in
bv_decide's reflection procedure.
Previously the cache was recomputed whenever a new atom was discovered
while we can instead defer recomputing it until the data it caches is
actually required. As this should only happens once all atoms are
discovered this means we actually only compute the cache once instead of
O(atoms) many times.
This PR provides lemmas about the tree map function `minKey!` and its
interactions with other functions for which lemmas already exist.
---------
Co-authored-by: Paul Reichert <datokrat@users.noreply.github.com>
This PR provides lemmas for the tree map function `minKey` and its
interations with other functions for which lemmas already exist.
---------
Co-authored-by: Paul Reichert <datokrat@users.noreply.github.com>
This PR changes the AIG representation of constants from `const (b :
Bool)` to a single constructor `false`. Since #7381 `Ref` contains an
`invert` flag meaning the constant `true` can be represented as a `Ref`
to `false` with `invert` set, so no expressivity is lost.
The main advantage to this representation is that it allows pattern
matching on constants to match just on the `invert` field rather than on
both `invert` and the constant value or having to XOR the two together.
This representation is also standard in other AIG frameworks, such as
the [Aiger standard](https://fmv.jku.at/aiger/FORMAT.aiger).
This PR also generalizes the idempotency rule in `mkGateCached` from `(a
/\ b) = a` when `(a = b)` to also cover `(¬a /\ ¬b) = ¬a` when `a = b`
as it was not covered.
This PR gives `#print` for structures the ability to show the default
values and auto-param tactics for fields.
Example:
```
#print Applicative
```
shows
```
class Applicative.{u, v} (f : Type u → Type v) : Type (max (u + 1) v)
[...]
fields:
Functor.map : {α β : Type u} → (α → β) → f α → f β :=
fun {α β} x y => pure x <*> y
Functor.mapConst : {α β : Type u} → α → f β → f α :=
fun {α β} => Functor.map ∘ Function.const β
Pure.pure : {α : Type u} → α → f α
Seq.seq : {α β : Type u} → f (α → β) → (Unit → f α) → f β
SeqLeft.seqLeft : {α β : Type u} → f α → (Unit → f β) → f α :=
fun {α β} a b => Function.const β <$> a <*> b ()
SeqRight.seqRight : {α β : Type u} → f α → (Unit → f β) → f β :=
fun {α β} a b => Function.const α id <$> a <*> b ()
[...]
```
This PR implements the Bitwuzla rewrites
[BV_EXTRACT_ADD_MUL](e09c50818b/src/rewrite/rewrites_bv.cpp (L1495-L1510)),
which witness that the high bits at `i >= len` do not affect the bits of
the product upto `len`.
```lean
theorem extractLsb'_mul {w len} {x y : BitVec w} (hlen : len < w) :
(x * y).extractLsb' 0 len = x.extractLsb' 0 len * y.extractLsb' 0 len
```
---------
Co-authored-by: Alex Keizer <alex@keizer.dev>
This PR adds SMT-LIB operators to detect overflow `BitVec.(usubOverflow,
ssubOverflow)`, according to the [SMTLIB
standard](https://github.com/SMT-LIB/SMT-LIB-2/blob/2.7/Theories/FixedSizeBitVectors.smt2),
and the theorems proving equivalence of such definition with the
`BitVec` library functions `BittVec.(usubOverflow_eq, ssubOverflow_eq)`.
Co-authored by @bollu.
---------
Co-authored-by: Siddharth <siddu.druid@gmail.com>
Co-authored-by: Alex Keizer <alex@keizer.dev>
This PR fixes a bug introduced in #7589, causing pretty printed
structure instances to not be hoverable in the Infoview.
This was caused by a choice node being introduced, since `{ $fields,* }`
is ambiguous syntax.
This PR adds a cache to the reflection procedure of bv_decide.
This was motivated by the following profile on QF_BV SMTLIB problem
`sage/app12/bench_3564.smt2`: https://share.firefox.dev/4iTG8KX. After
this change we roughly get a 10x speedup and `simp` is the bottleneck
again: https://share.firefox.dev/4iuezYT
This PR makes sure that the expression level cache in bv_decide is
maintained across the entire bitblaster instead of just locally per
BitVec expression.
The PR was split off from the first one (#7606) as this mostly entails
pulling the invariant through and is thus much more mechanical.
This PR implements the main logic for inheriting and overriding
autoParam fields in the `structure`/`class` commands, pending being
enabled in the structure instance notation elaborator. Adds term info to
overridden fields, so they now can be hovered over, and "go to
definition" goes to the structure the field is originally defined in.
Implementation notes:
- The inherited autoParams are all recorded in the flat constructor.
Defined/overridden autoParam auxiliary tactic declarations now have
names of the form `StructName.fieldName._autoParam`
- The field `StructureFieldInfo.autoParam?` is soon to be deprecated.
The elaborator is still setting it for now, since the structure instance
notation elaborator is still using it.
This PR implements basic model-based theory combination in `grind`.
`grind` can now solve examples such as
```lean
example (f : Int → Int) (x : Int)
: 0 ≤ x → x ≠ 0 → x ≤ 1 → f x = 2 → f 1 = 2 := by
grind
```
This PR augments the Lake configuration data structures declarations
(e.g., `PackageConfig`, `LeanLibConfig`) to produce additional metadata
which is used to automatically generate the Lean & TOML encoders and
decoders via metaprograms.
**Warning:** This refactor should not produce any significant
user-facing breaking changes. However, configurations have been tweaked,
so there is a chance something may have slipped through.
Lake TOML decoding and Lean syntax manipulation utilities have also
undergone significant rework to facilitate this PR. Such utilities are
considered internal and thus little has been done to mitigate possible
downstream breakages.
This PR changes how fields are elaborated in the `structure`/`class`
commands and also makes default values respect the structure resolution
order when there is diamond inheritance. Before, the details of
subobjects were exposed during elaboration, and in the local context any
fields that came from a subobject were defined to be projections of the
subobject field. Now, every field is represented as a local variable.
All parents (not just subobject parents) are now represented in the
local context, and they are now local variables defined to be parent
constructors applied to field variables (inverting the previous
relationship). Other notes:
- The entire collection of parents is processed, and all parent
projection names are checked for consistency. Every parent appears in
the local context now.
- For classes, every parent now contributes an instance, not just the
parents represented as subobjects.
- Default values are now processed according to the parent resolution
order. Default value definition/override auxiliary definitions are
stored at `StructName.fieldName._default`, and inherited values are
stored at `StructName.fieldName._inherited_default`. Metaprograms no
longer need to look at parents when doing calculations on default
values.
- Default value omission for structure instance notation pretty printing
has been updated in consideration of this.
- Now the elaborator generates a `_flat_ctor` constructor that will be
used for structure instance elaboration. All types in this constructor
are put in "field normal form" (projections of parent constructors are
reduced, and parent constructors are eta reduced), and all fields with
autoParams are annotated as such. This is not meant for users, but it
may be useful for metaprogramming.
- While elaborating fields, any metavariables whose type is one of the
parents is assigned to that parent. The hypothesis is that, for the
purpose of elaborating structure fields, parents are fixed: there is
only *one* instance of any given parent under consideration. See the
`Magma` test for an example of this being necessary. The hypothesis may
not be true when there are recursive structures, since different values
of the structure might not agree on parent fields.
Other notes:
- The elaborator has been refactored, and it now uses a monad to keep
track of the elaboration state.
- This PR was motivation for #7100, since we need to be able to make all
parents have consistent projection names when there is diamond
inheritance.
Still to do:
- Handle autoParams like we do default values. Inheritance for these is
not correct when there is diamond inheritance.
- Avoid splitting apart parents if the overlap is only on proof fields.
- Non-subobject parent projections do not have parameter binder kinds
that are consistent with other projections (i.e., all implicit by
default, no inst implicits). This needs to wait on adjustments to the
synthOrder algorithm.
- We could elide parents with no fields, letting their projections be
constant functions. This causes some trouble for defeq checking however
(maybe #2258 would address this).
This PR marks `Nat.div` and `Nat.modCore` as `irreducible`, to recover
the behavior from from before #7558.
Fixes#7612. H't to @tobiasgrosser for the good bug report.
This PR bumps the server version so that clients like NeoVim can detect
whether the server supports our recent language server extensions
(modulo the time that has passed since these extension PRs).
I'd like to have server capabilities for this at some point, but this
will have to do for now.
This PR adds the known bits optimization from the multiplication circuit
to the add one, allowing us to discover potentially even more symmetries
before going to the SAT solver.
