z3-z3-4.13.0.src.ast.simplifiers.flatten_clauses.h Maven / Gradle / Ivy
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/*++
Copyright (c) 2022 Microsoft Corporation
Module Name:
flatten_clauses.h
Abstract:
flatten clauses
Author:
Nikolaj Bjorner (nbjorner) 2022-11-24
--*/
#pragma once
#include "ast/simplifiers/dependent_expr_state.h"
#include "ast/rewriter/th_rewriter.h"
#include "ast/ast_util.h"
class flatten_clauses : public dependent_expr_simplifier {
unsigned m_num_flat = 0;
bool is_literal(expr* a) {
m.is_not(a, a);
if (m.is_eq(a) && !m.is_iff(a))
return true;
if (!is_app(a))
return true;
return to_app(a)->get_family_id() != m.get_basic_family_id();
}
bool is_reducible(expr* a, expr* b) {
return b->get_ref_count() == 1 || is_literal(a);
}
public:
flatten_clauses(ast_manager& m, params_ref const& p, dependent_expr_state& fmls):
dependent_expr_simplifier(m, fmls) {
}
char const* name() const override { return "flatten-clauses"; }
void reset_statistics() override { m_num_flat = 0; }
void collect_statistics(statistics& st) const override {
st.update("flatten-clauses-rewrites", m_num_flat);
}
void reduce() override {
unsigned nf = m_num_flat + 1;
while (nf != m_num_flat) {
nf = m_num_flat;
for (unsigned idx : indices()) {
auto de = m_fmls[idx];
expr* f = de.fml(), *a, *b, *c;
bool decomposed = false;
// (or a (not (or b_i)) => and_i (or a (not b_i))
if (m.is_or(f, a, b) && m.is_not(b, b) && m.is_or(b) && is_reducible(a, b))
decomposed = true;
else if (m.is_or(f, b, a) && m.is_not(b, b) && m.is_or(b) && is_reducible(a, b))
decomposed = true;
if (decomposed) {
for (expr* arg : *to_app(b))
m_fmls.add(dependent_expr(m, m.mk_or(a, mk_not(m, arg)), nullptr, de.dep()));
m_fmls.update(idx, dependent_expr(m, m.mk_true(), nullptr, nullptr));
++m_num_flat;
continue;
}
// (or a (and b_i)) => and_i (or a b_i)
if (m.is_or(f, a, b) && m.is_and(b) && is_reducible(a, b))
decomposed = true;
else if (m.is_or(f, b, a) && m.is_and(b) && is_reducible(a, b))
decomposed = true;
if (decomposed) {
for (expr * arg : *to_app(b))
m_fmls.add(dependent_expr(m, m.mk_or(a, arg), nullptr, de.dep()));
m_fmls.update(idx, dependent_expr(m, m.mk_true(), nullptr, nullptr));
++m_num_flat;
continue;
}
// not (and a (or b_i)) => and_i (not a) or (not b_i)
if (m.is_not(f, c) && m.is_and(c, a, b) && m.is_or(b) && is_reducible(a, b))
decomposed = true;
else if (m.is_not(f, c) && m.is_and(c, b, a) && m.is_or(b) && is_reducible(a, b))
decomposed = true;
if (decomposed) {
expr* na = mk_not(m, a);
for (expr* arg : *to_app(b))
m_fmls.add(dependent_expr(m, m.mk_or(na, mk_not(m, arg)), nullptr, de.dep()));
m_fmls.update(idx, dependent_expr(m, m.mk_true(), nullptr, nullptr));
++m_num_flat;
continue;
}
if (m.is_implies(f, a, b)) {
m_fmls.update(idx, dependent_expr(m, m.mk_or(mk_not(m, a), b), nullptr, de.dep()));
++m_num_flat;
continue;
}
if (m.is_ite(f, a, b, c)) {
m_fmls.add(dependent_expr(m, m.mk_or(mk_not(m, a), b), nullptr, de.dep()));
m_fmls.add(dependent_expr(m, m.mk_or(a, c), nullptr, de.dep()));
m_fmls.update(idx, dependent_expr(m, m.mk_true(), nullptr, nullptr));
++m_num_flat;
continue;
}
}
}
}
};