This project aims to provide Lean tactics that discharge goals into SMT solvers. It is under active development and is currently in a beta phase. While it is ready for use, it is important to note that there are still some rough edges and ongoing improvements being made.
lean-smt
currently supports the theories of Uninterpreted Functions and Linear
Integer/Real Arithmetic with quantifiers. Mathlib is currently required for
Arithmetic. Support for the theory of Bitvectors is at an experimental stage. We
are working on adding support for other theories as well.
lean-smt
depends on lean-cvc5
FFI,
which currently only supports Linux (x86_64) and macOS (AArch64 and x86_64).
To use lean-smt
in your project, add the following line to your list of
dependencies in lakefile.lean
:
require smt from git "https://github.com/ufmg-smite/lean-smt.git" @ "main"
def libcpp : String :=
if System.Platform.isWindows then "libstdc++-6.dll"
else if System.Platform.isOSX then "libc++.dylib"
else "libstdc++.so.6"
package foo where
moreLeanArgs := #[s!"--load-dynlib={libcpp}"]
moreGlobalServerArgs := #[s!"--load-dynlib={libcpp}"]
lean-smt
comes with one main tactic, smt
, that translates the current goal
into an SMT query, sends the query to cvc5, and (if the solver returns unsat
)
replays cvc5's proof in Lean. cvc5's proofs sometimes contain holes, which are
sent back to the user as Lean goals. The user can then fill in these holes
manually or by using other tactics.
To use the smt
tactic, you just need to import the Smt
library:
import Smt
example {U : Type} [Nonempty U] {f : U → U → U} {a b c d : U}
(h0 : a = b) (h1 : c = d) (h2 : p1 ∧ True) (h3 : (¬ p1) ∨ (p2 ∧ p3))
(h4 : (¬ p3) ∨ (¬ (f a c = f b d))) : False := by
smt [h0, h1, h2, h3, h4]