Nikolaj Bjorner
8a95dd4d65
A slice solver option for interactive use case
...
A slice solver prunes the set of active assertions based on symbol occurrences in a goal that is tracked as a @query.
Ground assertions that have symbols intersecting with the query are included in the solver state, and quantifiers that with patterns that intersect with the slice are included. The slice is the fixedpoint of including symbols from all included assertions.
Enable the functionality for command-line use by setting solver.slice=true
2024-10-08 09:24:52 -07:00
Nikolaj Bjorner
fd97be0e3e
move sat.smt.proof.check_rup into solver.proof.check_rup #6616
2023-03-01 21:03:27 -08:00
Nikolaj Bjorner
c7781f346d
move parameter sat.smt.proof to solver.proof.log
...
this update breaks use cases that set sat.smt.proof to True.
As it is such a new feature and the change affects possibly at most the tutorial it is made without compatibility layers.
2022-11-23 11:37:23 +07:00
Nikolaj Bjorner
b9cba82531
work on proof checking
...
- add outline of trim routine
- streamline how proof terms are checked and how residue units are extracted.
2022-09-30 13:04:19 -04:00
Nikolaj Bjorner
107981f099
update proof formats for new core
...
- update proof format for quantifier instantiation to track original literals
- update proof replay tools with ability to extract proof object
The formats and features are subject to heavy revisions.
Example
```
(set-option :sat.euf true)
(set-option :sat.smt.proof eufproof.smt2)
(declare-fun f (Int) Int)
(declare-const x Int)
(assert (or (= (f (f (f x))) x) (= (f (f x)) x)))
(assert (not (= (f (f (f (f (f (f x)))))) x)))
(check-sat)
```
eufproof.smt2 is:
```
(declare-fun x () Int)
(declare-fun f (Int) Int)
(define-const $24 Int (f x))
(define-const $25 Int (f $24))
(define-const $26 Int (f $25))
(define-const $27 Bool (= $26 x))
(define-const $28 Bool (= $25 x))
(assume $27 $28)
(define-const $30 Int (f $26))
(define-const $31 Int (f $30))
(define-const $32 Int (f $31))
(define-const $33 Bool (= $32 x))
(assume (not $33))
(declare-fun rup () Proof)
(infer (not $33) rup)
(declare-fun euf (Bool Bool Proof Proof Proof Proof) Proof)
(declare-fun cc (Bool) Proof)
(define-const $42 Bool (= $32 $30))
(define-const $43 Proof (cc $42))
(define-const $40 Bool (= $31 $24))
(define-const $41 Proof (cc $40))
(define-const $38 Bool (= $30 $25))
(define-const $39 Proof (cc $38))
(define-const $36 Bool (= $24 $26))
(define-const $37 Proof (cc $36))
(define-const $34 Bool (not $33))
(define-const $44 Proof (euf $34 $28 $37 $39 $41 $43))
(infer (not $28) $33 $44)
(infer (not $28) rup)
(infer $27 rup)
(declare-fun euf (Bool Bool Proof Proof Proof) Proof)
(define-const $49 Bool (= $32 $26))
(define-const $50 Proof (cc $49))
(define-const $47 Bool (= $31 $25))
(define-const $48 Proof (cc $47))
(define-const $45 Bool (= $24 $30))
(define-const $46 Proof (cc $45))
(define-const $51 Proof (euf $34 $27 $46 $48 $50))
(infer $33 $51)
(infer rup)
```
Example of inspecting proof from Python:
```
from z3 import *
def parse(file):
s = Solver()
set_option("solver.proof.save", True)
set_option("solver.proof.check", False)
s.from_file(file)
for step in s.proof().children():
print(step)
parse("../eufproof.smt2")
```
Proof checking (self-validation) is on by default.
Proof saving is off by default.
You can use the proof logs and the proof terms to retrieve quantifier instantiations from the new core.
The self-checker contains a few built-in tuned checkers but falls back to self-checking inferred clauses using SMT.
2022-09-28 10:40:43 -07:00
Nikolaj Bjorner
a628e4c4e5
updates to printer to get instantiations, take 1
2022-08-25 11:22:35 -07:00
Nikolaj Bjorner
78eaefe5a8
move solver-params to params
2022-08-08 11:34:41 +03:00
