Copyright (c) 2017 Microsoft Corporation
Module Name:
<name>
Abstract:
<abstract>
Author:
Lev Nachmanson (levnach)
Revision History:
--*/
#include "util/vector.h"
#include "math/lp/row_eta_matrix.h"
namespace lp {
template <typename T, typename X>
void row_eta_matrix<T, X>::apply_from_left(vector<X> & w, lp_settings &) {
auto & w_at_row = w[m_row];
for (auto & it : m_row_vector.m_data) {
w_at_row += w[it.first] * it.second;
}
}
template <typename T, typename X>
void row_eta_matrix<T, X>::apply_from_left_local_to_T(indexed_vector<T> & w, lp_settings & settings) {
auto w_at_row = w[m_row];
bool was_zero_at_m_row = is_zero(w_at_row);
for (auto & it : m_row_vector.m_data) {
w_at_row += w[it.first] * it.second;
}
if (!settings.abs_val_is_smaller_than_drop_tolerance(w_at_row)){
if (was_zero_at_m_row) {
w.m_index.push_back(m_row);
}
w[m_row] = w_at_row;
} else if (!was_zero_at_m_row){
w[m_row] = zero_of_type<T>();
auto it = std::find(w.m_index.begin(), w.m_index.end(), m_row);
w.m_index.erase(it);
}
}
template <typename T, typename X>
void row_eta_matrix<T, X>::apply_from_left_local_to_X(indexed_vector<X> & w, lp_settings & settings) {
auto w_at_row = w[m_row];
bool was_zero_at_m_row = is_zero(w_at_row);
for (auto & it : m_row_vector.m_data) {
w_at_row += w[it.first] * it.second;
}
if (!settings.abs_val_is_smaller_than_drop_tolerance(w_at_row)){
if (was_zero_at_m_row) {
w.m_index.push_back(m_row);
}
w[m_row] = w_at_row;
} else if (!was_zero_at_m_row){
w[m_row] = zero_of_type<X>();
auto it = std::find(w.m_index.begin(), w.m_index.end(), m_row);
w.m_index.erase(it);
}
}
template <typename T, typename X>
void row_eta_matrix<T, X>::apply_from_right(vector<T> & w) {
const T & w_row = w[m_row];
if (numeric_traits<T>::is_zero(w_row)) return;
#ifdef Z3DEBUG
#endif
for (auto & it : m_row_vector.m_data) {
w[it.first] += w_row * it.second;
}
#ifdef Z3DEBUG
#endif
}
template <typename T, typename X>
void row_eta_matrix<T, X>::apply_from_right(indexed_vector<T> & w) {
lp_assert(w.is_OK());
const T & w_row = w[m_row];
if (numeric_traits<T>::is_zero(w_row)) return;
#ifdef Z3DEBUG
#endif
if (numeric_traits<T>::precise()) {
for (auto & it : m_row_vector.m_data) {
unsigned j = it.first;
bool was_zero = numeric_traits<T>::is_zero(w[j]);
const T & v = w[j] += w_row * it.second;
if (was_zero) {
if (!numeric_traits<T>::is_zero(v))
w.m_index.push_back(j);
} else {
if (numeric_traits<T>::is_zero(v))
w.erase_from_index(j);
}
}
} else {
const double drop_eps = 1e-14;
for (auto & it : m_row_vector.m_data) {
unsigned j = it.first;
bool was_zero = numeric_traits<T>::is_zero(w[j]);
T & v = w[j] += w_row * it.second;
if (was_zero) {
if (!lp_settings::is_eps_small_general(v, drop_eps))
w.m_index.push_back(j);
else
v = zero_of_type<T>();
} else {
if (lp_settings::is_eps_small_general(v, drop_eps)) {
w.erase_from_index(j);
v = zero_of_type<T>();
}
}
}
}
#ifdef Z3DEBUG
#endif
}
template <typename T, typename X>
void row_eta_matrix<T, X>::conjugate_by_permutation(permutation_matrix<T, X> & p) {
#ifdef Z3DEBUG
#endif
m_row = p.apply_reverse(m_row);
vector<unsigned> columns;
for (auto & it : m_row_vector.m_data)
columns.push_back(it.first);
for (unsigned i = static_cast<unsigned>(columns.size()); i-- > 0;)
m_row_vector.m_data[i].first = p.get_rev(columns[i]);
#ifdef Z3DEBUG
#endif
}
#ifdef Z3DEBUG
template <typename T, typename X>
T row_eta_matrix<T, X>::get_elem(unsigned row, unsigned col) const {
if (row == m_row){
if (col == row) {
return numeric_traits<T>::one();
}
return m_row_vector[col];
}
return col == row ? numeric_traits<T>::one() : numeric_traits<T>::zero();
}
#endif
}