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fixes in the interval processing in horner

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Signed-off-by: Lev Nachmanson <levnach@hotmail.com>
This commit is contained in:
Lev Nachmanson 2019-07-23 17:22:37 -07:00
parent ba2dbabe21
commit 2a02d04259
4 changed files with 45 additions and 55 deletions
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74
src/math/lp/horner.cpp
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@ -39,9 +39,9 @@ bool horner::row_is_interesting(const T& row) const {
}
void horner::lemmas_on_expr(nex& e) {
TRACE("nla_cn", tout << "e = " << e << "\n";);
TRACE("nla_horner", tout << "e = " << e << "\n";);
cross_nested cn(e, [this](const nex& n) {
TRACE("nla_cn", tout << "callback n = " << n << "\n";);
TRACE("nla_horner", tout << "callback n = " << n << "\n";);
auto i = interval_of_expr(n);
m_intervals.check_interval_for_conflict_on_zero(i);} );
cn.run();
@ -83,7 +83,7 @@ nex horner::nexvar(lpvar j) const {
}
template <typename T> nex horner::create_sum_from_row(const T& row) {
TRACE("nla_cn", tout << "row="; m_core->print_term(row, tout) << "\n";);
TRACE("nla_horner", tout << "row="; m_core->print_term(row, tout) << "\n";);
SASSERT(row.size() > 1);
nex e(expr_type::SUM);
for (const auto &p : row) {
@ -104,91 +104,93 @@ void horner::set_interval_for_scalar(interv& a, const rational& v) {
interv horner::interval_of_expr(const nex& e) {
TRACE("nla_cn_details", tout << e.type() << " e=" << e << std::endl;);
TRACE("nla_horner_details", tout << e.type() << " e=" << e << std::endl;);
interv a;
switch (e.type()) {
case expr_type::SCALAR:
set_interval_for_scalar(a, e.value());
return a;
case expr_type::SUM:
return interval_of_sum(e.children());
return interval_of_sum(e);
case expr_type::MUL:
return interval_of_mul(e.children());
return interval_of_mul(e);
case expr_type::VAR:
set_var_interval(e.var(), a);
return a;
default:
TRACE("nla_cn_details", tout << e.type() << "\n";);
TRACE("nla_horner_details", tout << e.type() << "\n";);
SASSERT(false);
return interv();
}
}
template <typename V>
interv horner::interval_of_mul(const V& es) {
interv horner::interval_of_mul(const nex& e) {
SASSERT(e.is_mul());
auto & es = e.children();
SASSERT(es.size());
TRACE("nla_horner_details", tout << "e=" << e << "\n";);
interv a = interval_of_expr(es[0]);
// std::cout << "a" << std::endl;
TRACE("nla_cn_details", tout << "es[0]= "<< es[0] << std::endl << "a = "; m_intervals.display(tout, a); tout << "\n";);
TRACE("nla_horner_details", tout << "es[0]= "<< es[0] << std::endl << "a = "; m_intervals.display(tout, a); );
for (unsigned k = 1; k < es.size(); k++) {
interv b = interval_of_expr(es[k]);
interv c;
interval_deps deps;
m_intervals.mul(a, b, c, deps);
m_intervals.set(a, c);
TRACE("nla_horner_details", tout << "c = "; m_intervals.display(tout, c); tout << "\n";);
m_intervals.add_deps(a, b, deps, a);
TRACE("nla_cn_details", tout << "es["<< k << "] = " << es[k] << std::endl << "a = "; m_intervals.display(tout, a); tout << "\n";);
m_intervals.set(a, c);
TRACE("nla_horner_details", tout << "es[" << k << "]=" << es[k] << ", a = "; m_intervals.display(tout, a); );
if (m_intervals.is_zero(a)) {
TRACE("nla_cn_details", tout << "got zero\n"; );
TRACE("nla_horner_details", tout << "got zero\n"; );
break;
}
}
TRACE("nla_cn_details",
for (const auto &e : es) {
tout << "("<< e << ")";
}
tout << " interv a = ";
m_intervals.display(tout, a) << "\n";);
TRACE("nla_horner_details", tout << "e=" << e << "\n";
tout << " interv = "; m_intervals.display(tout, a););
return a;
}
template <typename V>
interv horner::interval_of_sum(const V& es) {
interv horner::interval_of_sum(const nex& e) {
TRACE("nla_horner_details", tout << "e=" << e << "\n";);
SASSERT(e.is_sum());
auto & es = e.children();
interv a = interval_of_expr(es[0]);
TRACE("nla_cn_details", tout << "es[0]= " << es[0] << "\n"; m_intervals.display(tout, a) << "\n";);
if (m_intervals.is_inf(a)) {
TRACE("nla_horner_details", tout << "e=" << e << "\n";
tout << " interv = "; m_intervals.display(tout, a););
return a;
}
for (unsigned k = 1; k < es.size(); k++) {
TRACE("nla_cn_details", tout << "es[" << k << "]= " << es[k] << "\n";);
TRACE("nla_horner_details_sum", tout << "es[" << k << "]= " << es[k] << "\n";);
interv b = interval_of_expr(es[k]);
if (m_intervals.is_inf(b)) {
TRACE("nla_cn_details", tout << "got inf\n";);
TRACE("nla_horner_details", tout << "got inf\n";);
return b;
}
interv c;
interval_deps deps;
TRACE("nla_cn_details", tout << "a = "; m_intervals.display(tout, a) << "\nb = "; m_intervals.display(tout, b) << "\n";);
TRACE("nla_horner_details_sum", tout << "a = "; m_intervals.display(tout, a) << "\nb = "; m_intervals.display(tout, b) << "\n";);
m_intervals.add(a, b, c, deps);
TRACE("nla_cn_details", tout << "c = "; m_intervals.display(tout, c); tout << "\n";);
m_intervals.set(a, c);
TRACE("nla_cn_details", tout << "a = "; m_intervals.display(tout, a); tout << "\n";);
TRACE("nla_horner_details", tout << "c = "; m_intervals.display(tout, c); tout << "\n";);
m_intervals.add_deps(a, b, deps, a);
TRACE("nla_cn_details", tout << "final a with deps = "; m_intervals.display(tout, a); tout << "\n";);
m_intervals.set(a, c);
TRACE("nla_horner_details_sum", tout << "a = "; m_intervals.display(tout, a); tout << "\n";);
// m_intervals.add_deps(a, b, deps, a);
TRACE("nla_horner_details", tout << "final a with deps = "; m_intervals.display(tout, a); tout << "\n";);
if (m_intervals.is_inf(a)) {
TRACE("nla_cn_details", tout << "got infinity\n";);
TRACE("nla_horner_details", tout << "got infinity\n";);
return a;
}
}
TRACE("nla_horner_details", tout << "e=" << e << "\n";
tout << " interv = "; m_intervals.display(tout, a););
return a;
}
// sets the dependencies also
void horner::set_var_interval(lpvar v, interv& b) {
m_intervals.set_var_interval_with_deps(v, b);
TRACE("nla_cn_details", tout << "v = "; print_var(v, tout) << "\n"; m_intervals.display(tout, b)<< '\n';);
m_intervals.set_var_interval_with_deps(v, b);
TRACE("nla_horner_details", tout << "v = "; print_var(v, tout) << "\n"; m_intervals.display(tout, b););
}
}