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Add helper for printing polysat constraints

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This commit is contained in:
Jakob Rath 2023-03-12 16:15:25 +01:00
parent be72a37440
commit 50876a4dae
6 changed files with 268 additions and 1 deletions
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1
src/math/polysat/CMakeLists.txt
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@ -14,6 +14,7 @@ z3_add_component(polysat
linear_solver.cpp
log.cpp
op_constraint.cpp
polysat_ast.cpp
restart.cpp
saturation.cpp
search_state.cpp

2
src/math/polysat/clause.cpp
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@ -8,7 +8,7 @@ Module Name:
Author:
Nikolaj Bjorner (nbjorner) 2021-03-19
Jakob Rath 2021-04-6
Jakob Rath 2021-04-06
--*/

1
src/math/polysat/constraint.h
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@ -146,6 +146,7 @@ namespace polysat {
bool is_positive() const { return m_positive; }
bool is_negative() const { return !is_positive(); }
bool sign() const { return is_negative(); }
/** Evaluate the constraint under the empty assignment */
lbool eval() const { return is_positive() ? get()->eval() : ~get()->eval(); }

188
src/math/polysat/polysat_ast.cpp Normal file
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@ -0,0 +1,188 @@
/*++
Copyright (c) 2021 Microsoft Corporation
Module Name:
polysat to ast conversion
Author:
Nikolaj Bjorner (nbjorner) 2021-03-19
Jakob Rath 2021-04-06
--*/
#include "math/polysat/polysat_ast.h"
#include "math/polysat/solver.h"
#include "math/polysat/umul_ovfl_constraint.h"
#include "util/util.h"
#include "ast/ast.h"
#include "ast/reg_decl_plugins.h"
#include "ast/ast_smt2_pp.h"
#include "ast/ast_pp.h"
#include "util/uint_map.h"
namespace polysat {
struct polysat_ast_d {
ast_manager m;
scoped_ptr<bv_util> bv;
uint_map<expr> var_expr;
decl_ref_vector decls;
expr_ref_vector formulas;
// just keep all expressions alive
ast_ref_vector storage;
polysat_ast_d(): m(), decls(m), formulas(m), storage(m)
{
reg_decl_plugins(m);
bv = alloc(bv_util, m);
}
~polysat_ast_d() = default;
ast* store(ast* a) { storage.push_back(ast_ref{a, m}); return a; }
expr* store(expr* e) { storage.push_back(ast_ref{e, m}); return e; }
};
polysat_ast::polysat_ast(solver& s)
: s(s)
, d(alloc(polysat_ast_d))
{ }
polysat_ast::~polysat_ast() = default;
ast_manager& polysat_ast::m() const { return d->m; }
bv_util& polysat_ast::bv() const { return *d->bv; }
expr* polysat_ast::mk_val(rational const& val, unsigned bit_width) {
return d->store(bv().mk_numeral(val, bit_width));
}
expr* polysat_ast::mk_var(pvar x) {
expr* node;
if (!d->var_expr.find(x, node)) {
unsigned bit_width = s.size(x);
std::string name = "v";
name += std::to_string(x);
auto decl = m().mk_const_decl(name, bv().mk_sort(bit_width));
d->decls.push_back(decl);
node = d->store(m().mk_const(decl));
d->var_expr.insert(x, node);
// if x is defined by an op_constraint, add it as background assumption.
signed_constraint c = s.m_constraints.find_op_by_result_var(x);
if (c)
add(mk_lit(c));
}
return node;
}
expr* polysat_ast::mk_mono(dd::pdd_monomial const& mono, unsigned bit_width) {
if (mono.vars.empty())
return mk_val(mono.coeff, bit_width);
if (mono.coeff.is_one() && mono.vars.size() == 1)
return mk_var(mono.vars[0]);
ptr_vector<expr> args;
if (!mono.coeff.is_one())
args.push_back(mk_val(mono.coeff, bit_width));
for (pvar x : mono.vars) {
VERIFY_EQ(s.size(x), bit_width);
args.push_back(mk_var(x));
}
return d->store(bv().mk_bv_mul(args));
}
expr* polysat_ast::mk_poly(pdd const& p) {
unsigned const N = p.power_of_2();
if (p.is_val())
return mk_val(p.val(), N);
if (p.is_var())
return mk_var(p.var());
if (p.is_monomial())
return mk_mono(*p.begin(), N);
ptr_vector<expr> args;
for (auto const& mono : p)
args.push_back(mk_mono(mono, N));
return d->store(bv().mk_bv_add(args));
}
expr* polysat_ast::mk_not(expr* e) {
return d->store(m().mk_not(e));
}
expr* polysat_ast::mk_ule(pdd const& p, pdd const& q) {
if (q.is_zero())
return d->store(m().mk_eq(mk_poly(p), mk_poly(q)));
else
return d->store(bv().mk_ule(mk_poly(p), mk_poly(q)));
}
expr* polysat_ast::mk_ule(pdd const& p, pdd const& q, bool sign) {
expr* e = mk_ule(p, q);
if (sign)
e = mk_not(e);
return e;
}
expr* polysat_ast::mk_umul_ovfl(pdd const& p, pdd const& q, bool sign) {
expr* e = d->store(bv().mk_bvumul_no_ovfl(mk_poly(p), mk_poly(q)));
if (!sign)
e = mk_not(e);
return e;
}
expr* polysat_ast::mk_lit(sat::literal lit) {
return mk_lit(s.lit2cnstr(lit));
}
expr* polysat_ast::mk_lit(signed_constraint c) {
if (c->is_ule())
return mk_ule(c->to_ule().lhs(), c->to_ule().rhs(), c.sign());
if (c->is_umul_ovfl())
return mk_umul_ovfl(c->to_umul_ovfl().p(), c->to_umul_ovfl().q(), c.sign());
verbose_stream() << "polysat_ast not yet supported: " << c << "\n";
m_ok = false;
// NOT_IMPLEMENTED_YET();
return d->store(m().mk_true());
}
expr* polysat_ast::mk_clause(clause& cl) {
ptr_vector<expr> args;
for (sat::literal lit : cl)
args.push_back(mk_lit(lit));
return d->store(m().mk_or(args));
}
void polysat_ast::add(expr* e) {
d->formulas.push_back(e);
}
std::ostream& polysat_ast::display(std::ostream& out) const {
if (m_status == l_true)
out << "(set-info :status sat)\n";
else if (m_status == l_false)
out << "(set-info :status unsat)\n";
if (!m_description.empty()) {
out << "(set-info :source |\n";
out << m_description;
if (m_description.back() != '\n')
out << '\n';
out << "|)\n";
}
params_ref p;
p.set_uint("max_depth", 4294967295u);
p.set_uint("min_alias_size", 4294967295u);
for (decl* d : d->decls)
out << mk_pp(d, m(), p) << "\n";
for (expr* e : d->formulas) {
out << "(assert\n";
out << " " << mk_pp(e, m(), p, 4) << "\n";
out << ")\n";
}
out << "(check-sat)\n";
return out;
}
}

76
src/math/polysat/polysat_ast.h Normal file
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@ -0,0 +1,76 @@
/*++
Copyright (c) 2021 Microsoft Corporation
Module Name:
polysat to ast conversion
Author:
Nikolaj Bjorner (nbjorner) 2021-03-19
Jakob Rath 2021-04-06
--*/
#pragma once
#include "math/polysat/types.h"
class expr;
class ast_manager;
class bv_util;
namespace polysat {
struct polysat_ast_d;
class signed_constraint;
class polysat_ast {
solver& s;
scoped_ptr<polysat_ast_d> d;
std::string m_description;
lbool m_status = l_undef;
bool m_ok = true;
ast_manager& m() const;
bv_util& bv() const;
public:
polysat_ast(solver&);
~polysat_ast();
void set_description(std::string description) { m_description = description; }
void set_status(lbool status) { m_status = status; }
bool is_ok() { return m_ok; }
expr* mk_val(rational const& val, unsigned bit_width);
expr* mk_var(pvar x);
expr* mk_mono(dd::pdd_monomial const& mono, unsigned bit_width);
expr* mk_poly(pdd const& p);
// p <= q
expr* mk_ule(pdd const& p, pdd const& q);
expr* mk_ule(pdd const& p, pdd const& q, bool sign);
// p >= q
expr* mk_uge(pdd const& p, pdd const& q, bool sign) { return mk_ule(q, p, sign); }
// p > q
expr* mk_ugt(pdd const& p, pdd const& q, bool sign) { return mk_ule(p, q, !sign); }
// p < q
expr* mk_ult(pdd const& p, pdd const& q, bool sign) { return mk_ugt(q, p, sign); }
// ovfl*(p, q)
expr* mk_umul_ovfl(pdd const& p, pdd const& q, bool sign);
expr* mk_not(expr* e);
expr* mk_lit(sat::literal lit);
expr* mk_lit(signed_constraint c);
expr* mk_clause(clause& cl);
void add(expr* e);
std::ostream& display(std::ostream& out) const;
};
inline std::ostream& operator<<(std::ostream& out, polysat_ast const& x) { return x.display(out); }
}

1
src/math/polysat/solver.h
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@ -140,6 +140,7 @@ namespace polysat {
friend class test_polysat;
friend class test_fi;
friend struct inf_resolve_evaluated;
friend class polysat_ast;
reslimit& m_lim;
params_ref m_params;