lemon/clp.cc
author Peter Kovacs <kpeter@inf.elte.hu>
Thu, 15 Nov 2012 07:17:48 +0100
changeset 1013 f6f6896a4724
parent 877 141f9c0db4a3
parent 988 8d281761dea4
child 1092 dceba191c00d
permissions -rw-r--r--
Ensure strongly polynomial running time for CycleCanceling (#436)
The number of iterations performed by Howard's algorithm is limited.
If the limit is reached, a strongly polynomial implementation,
HartmannOrlinMmc is executed to find a minimum mean cycle.
This iteration limit is typically not reached, thus the combined
method is practically equivalent to Howard's algorithm, while it
also ensures the strongly polynomial time bound.
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/* -*- mode: C++; indent-tabs-mode: nil; -*-
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 *
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 * This file is a part of LEMON, a generic C++ optimization library.
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 *
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 * Copyright (C) 2003-2010
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 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
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 * (Egervary Research Group on Combinatorial Optimization, EGRES).
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 *
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 * Permission to use, modify and distribute this software is granted
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 * provided that this copyright notice appears in all copies. For
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 * precise terms see the accompanying LICENSE file.
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 *
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 * This software is provided "AS IS" with no warranty of any kind,
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 * express or implied, and with no claim as to its suitability for any
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 * purpose.
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 *
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 */
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#include <lemon/clp.h>
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#include <coin/ClpSimplex.hpp>
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namespace lemon {
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  ClpLp::ClpLp() {
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    _prob = new ClpSimplex();
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    _init_temporals();
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    messageLevel(MESSAGE_NOTHING);
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  }
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  ClpLp::ClpLp(const ClpLp& other) {
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    _prob = new ClpSimplex(*other._prob);
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    rows = other.rows;
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    cols = other.cols;
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    _init_temporals();
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    messageLevel(MESSAGE_NOTHING);
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  }
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  ClpLp::~ClpLp() {
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    delete _prob;
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    _clear_temporals();
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  }
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  void ClpLp::_init_temporals() {
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    _primal_ray = 0;
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    _dual_ray = 0;
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  }
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  void ClpLp::_clear_temporals() {
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    if (_primal_ray) {
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      delete[] _primal_ray;
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      _primal_ray = 0;
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    }
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    if (_dual_ray) {
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      delete[] _dual_ray;
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      _dual_ray = 0;
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    }
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  }
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  ClpLp* ClpLp::newSolver() const {
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    ClpLp* newlp = new ClpLp;
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    return newlp;
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  }
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  ClpLp* ClpLp::cloneSolver() const {
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    ClpLp* copylp = new ClpLp(*this);
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    return copylp;
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  }
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  const char* ClpLp::_solverName() const { return "ClpLp"; }
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  int ClpLp::_addCol() {
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    _prob->addColumn(0, 0, 0, -COIN_DBL_MAX, COIN_DBL_MAX, 0.0);
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    return _prob->numberColumns() - 1;
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  }
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  int ClpLp::_addRow() {
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    _prob->addRow(0, 0, 0, -COIN_DBL_MAX, COIN_DBL_MAX);
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    return _prob->numberRows() - 1;
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  }
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  int ClpLp::_addRow(Value l, ExprIterator b, ExprIterator e, Value u) {
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    std::vector<int> indexes;
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    std::vector<Value> values;
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    for(ExprIterator it = b; it != e; ++it) {
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      indexes.push_back(it->first);
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      values.push_back(it->second);
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    }
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    _prob->addRow(values.size(), &indexes.front(), &values.front(), l, u);
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    return _prob->numberRows() - 1;
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  }
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  void ClpLp::_eraseCol(int c) {
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    _col_names_ref.erase(_prob->getColumnName(c));
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    _prob->deleteColumns(1, &c);
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  }
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  void ClpLp::_eraseRow(int r) {
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    _row_names_ref.erase(_prob->getRowName(r));
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    _prob->deleteRows(1, &r);
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  }
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  void ClpLp::_eraseColId(int i) {
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    cols.eraseIndex(i);
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    cols.shiftIndices(i);
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  }
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  void ClpLp::_eraseRowId(int i) {
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    rows.eraseIndex(i);
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    rows.shiftIndices(i);
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  }
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  void ClpLp::_getColName(int c, std::string& name) const {
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    name = _prob->getColumnName(c);
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  }
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  void ClpLp::_setColName(int c, const std::string& name) {
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    _prob->setColumnName(c, const_cast<std::string&>(name));
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    _col_names_ref[name] = c;
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  }
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  int ClpLp::_colByName(const std::string& name) const {
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    std::map<std::string, int>::const_iterator it = _col_names_ref.find(name);
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    return it != _col_names_ref.end() ? it->second : -1;
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  }
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  void ClpLp::_getRowName(int r, std::string& name) const {
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    name = _prob->getRowName(r);
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  }
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  void ClpLp::_setRowName(int r, const std::string& name) {
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    _prob->setRowName(r, const_cast<std::string&>(name));
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    _row_names_ref[name] = r;
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  }
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  int ClpLp::_rowByName(const std::string& name) const {
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    std::map<std::string, int>::const_iterator it = _row_names_ref.find(name);
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    return it != _row_names_ref.end() ? it->second : -1;
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  }
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  void ClpLp::_setRowCoeffs(int ix, ExprIterator b, ExprIterator e) {
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    std::map<int, Value> coeffs;
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    int n = _prob->clpMatrix()->getNumCols();
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    const int* indices = _prob->clpMatrix()->getIndices();
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    const double* elements = _prob->clpMatrix()->getElements();
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    for (int i = 0; i < n; ++i) {
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      CoinBigIndex begin = _prob->clpMatrix()->getVectorStarts()[i];
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      CoinBigIndex end = begin + _prob->clpMatrix()->getVectorLengths()[i];
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      const int* it = std::lower_bound(indices + begin, indices + end, ix);
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      if (it != indices + end && *it == ix && elements[it - indices] != 0.0) {
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        coeffs[i] = 0.0;
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      }
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    }
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    for (ExprIterator it = b; it != e; ++it) {
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      coeffs[it->first] = it->second;
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    }
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    for (std::map<int, Value>::iterator it = coeffs.begin();
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         it != coeffs.end(); ++it) {
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      _prob->modifyCoefficient(ix, it->first, it->second);
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    }
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  }
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  void ClpLp::_getRowCoeffs(int ix, InsertIterator b) const {
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    int n = _prob->clpMatrix()->getNumCols();
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    const int* indices = _prob->clpMatrix()->getIndices();
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    const double* elements = _prob->clpMatrix()->getElements();
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    for (int i = 0; i < n; ++i) {
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      CoinBigIndex begin = _prob->clpMatrix()->getVectorStarts()[i];
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      CoinBigIndex end = begin + _prob->clpMatrix()->getVectorLengths()[i];
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      const int* it = std::lower_bound(indices + begin, indices + end, ix);
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      if (it != indices + end && *it == ix) {
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        *b = std::make_pair(i, elements[it - indices]);
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      }
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    }
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  }
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  void ClpLp::_setColCoeffs(int ix, ExprIterator b, ExprIterator e) {
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    std::map<int, Value> coeffs;
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    CoinBigIndex begin = _prob->clpMatrix()->getVectorStarts()[ix];
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    CoinBigIndex end = begin + _prob->clpMatrix()->getVectorLengths()[ix];
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    const int* indices = _prob->clpMatrix()->getIndices();
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    const double* elements = _prob->clpMatrix()->getElements();
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    for (CoinBigIndex i = begin; i != end; ++i) {
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      if (elements[i] != 0.0) {
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        coeffs[indices[i]] = 0.0;
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      }
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    }
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    for (ExprIterator it = b; it != e; ++it) {
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      coeffs[it->first] = it->second;
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    }
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    for (std::map<int, Value>::iterator it = coeffs.begin();
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         it != coeffs.end(); ++it) {
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      _prob->modifyCoefficient(it->first, ix, it->second);
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    }
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  }
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  void ClpLp::_getColCoeffs(int ix, InsertIterator b) const {
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    CoinBigIndex begin = _prob->clpMatrix()->getVectorStarts()[ix];
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    CoinBigIndex end = begin + _prob->clpMatrix()->getVectorLengths()[ix];
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    const int* indices = _prob->clpMatrix()->getIndices();
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    const double* elements = _prob->clpMatrix()->getElements();
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    for (CoinBigIndex i = begin; i != end; ++i) {
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      *b = std::make_pair(indices[i], elements[i]);
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      ++b;
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    }
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  }
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  void ClpLp::_setCoeff(int ix, int jx, Value value) {
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    _prob->modifyCoefficient(ix, jx, value);
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  }
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  ClpLp::Value ClpLp::_getCoeff(int ix, int jx) const {
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    CoinBigIndex begin = _prob->clpMatrix()->getVectorStarts()[ix];
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    CoinBigIndex end = begin + _prob->clpMatrix()->getVectorLengths()[ix];
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    const int* indices = _prob->clpMatrix()->getIndices();
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    const double* elements = _prob->clpMatrix()->getElements();
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    const int* it = std::lower_bound(indices + begin, indices + end, jx);
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    if (it != indices + end && *it == jx) {
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      return elements[it - indices];
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    } else {
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      return 0.0;
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    }
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  }
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  void ClpLp::_setColLowerBound(int i, Value lo) {
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    _prob->setColumnLower(i, lo == - INF ? - COIN_DBL_MAX : lo);
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  }
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  ClpLp::Value ClpLp::_getColLowerBound(int i) const {
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    double val = _prob->getColLower()[i];
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    return val == - COIN_DBL_MAX ? - INF : val;
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  }
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  void ClpLp::_setColUpperBound(int i, Value up) {
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    _prob->setColumnUpper(i, up == INF ? COIN_DBL_MAX : up);
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  }
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  ClpLp::Value ClpLp::_getColUpperBound(int i) const {
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    double val = _prob->getColUpper()[i];
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    return val == COIN_DBL_MAX ? INF : val;
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  }
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  void ClpLp::_setRowLowerBound(int i, Value lo) {
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    _prob->setRowLower(i, lo == - INF ? - COIN_DBL_MAX : lo);
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  }
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  ClpLp::Value ClpLp::_getRowLowerBound(int i) const {
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    double val = _prob->getRowLower()[i];
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    return val == - COIN_DBL_MAX ? - INF : val;
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  }
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  void ClpLp::_setRowUpperBound(int i, Value up) {
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    _prob->setRowUpper(i, up == INF ? COIN_DBL_MAX : up);
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  }
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  ClpLp::Value ClpLp::_getRowUpperBound(int i) const {
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    double val = _prob->getRowUpper()[i];
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    return val == COIN_DBL_MAX ? INF : val;
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  }
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  void ClpLp::_setObjCoeffs(ExprIterator b, ExprIterator e) {
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    int num = _prob->clpMatrix()->getNumCols();
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    for (int i = 0; i < num; ++i) {
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      _prob->setObjectiveCoefficient(i, 0.0);
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    }
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    for (ExprIterator it = b; it != e; ++it) {
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      _prob->setObjectiveCoefficient(it->first, it->second);
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    }
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  }
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  void ClpLp::_getObjCoeffs(InsertIterator b) const {
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    int num = _prob->clpMatrix()->getNumCols();
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    for (int i = 0; i < num; ++i) {
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      Value coef = _prob->getObjCoefficients()[i];
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      if (coef != 0.0) {
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        *b = std::make_pair(i, coef);
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        ++b;
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      }
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    }
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  }
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  void ClpLp::_setObjCoeff(int i, Value obj_coef) {
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    _prob->setObjectiveCoefficient(i, obj_coef);
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  }
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  ClpLp::Value ClpLp::_getObjCoeff(int i) const {
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    return _prob->getObjCoefficients()[i];
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  }
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  ClpLp::SolveExitStatus ClpLp::_solve() {
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    return _prob->primal() >= 0 ? SOLVED : UNSOLVED;
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  }
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  ClpLp::SolveExitStatus ClpLp::solvePrimal() {
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    return _prob->primal() >= 0 ? SOLVED : UNSOLVED;
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  }
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  ClpLp::SolveExitStatus ClpLp::solveDual() {
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    return _prob->dual() >= 0 ? SOLVED : UNSOLVED;
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  }
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  ClpLp::SolveExitStatus ClpLp::solveBarrier() {
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    return _prob->barrier() >= 0 ? SOLVED : UNSOLVED;
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  }
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  ClpLp::Value ClpLp::_getPrimal(int i) const {
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    return _prob->primalColumnSolution()[i];
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  }
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  ClpLp::Value ClpLp::_getPrimalValue() const {
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    return _prob->objectiveValue();
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  }
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  ClpLp::Value ClpLp::_getDual(int i) const {
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    return _prob->dualRowSolution()[i];
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  }
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  ClpLp::Value ClpLp::_getPrimalRay(int i) const {
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    if (!_primal_ray) {
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      _primal_ray = _prob->unboundedRay();
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      LEMON_ASSERT(_primal_ray != 0, "Primal ray is not provided");
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    }
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    return _primal_ray[i];
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  }
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  ClpLp::Value ClpLp::_getDualRay(int i) const {
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    if (!_dual_ray) {
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      _dual_ray = _prob->infeasibilityRay();
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      LEMON_ASSERT(_dual_ray != 0, "Dual ray is not provided");
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    }
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    return _dual_ray[i];
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  }
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  ClpLp::VarStatus ClpLp::_getColStatus(int i) const {
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    switch (_prob->getColumnStatus(i)) {
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    case ClpSimplex::basic:
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      return BASIC;
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    case ClpSimplex::isFree:
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      return FREE;
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    case ClpSimplex::atUpperBound:
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      return UPPER;
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    case ClpSimplex::atLowerBound:
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      return LOWER;
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    case ClpSimplex::isFixed:
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      return FIXED;
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    case ClpSimplex::superBasic:
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      return FREE;
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    default:
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      LEMON_ASSERT(false, "Wrong column status");
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      return VarStatus();
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   369
    }
alpar@461
   370
  }
alpar@461
   371
alpar@462
   372
  ClpLp::VarStatus ClpLp::_getRowStatus(int i) const {
alpar@461
   373
    switch (_prob->getColumnStatus(i)) {
alpar@461
   374
    case ClpSimplex::basic:
alpar@461
   375
      return BASIC;
alpar@461
   376
    case ClpSimplex::isFree:
alpar@461
   377
      return FREE;
alpar@461
   378
    case ClpSimplex::atUpperBound:
alpar@461
   379
      return UPPER;
alpar@461
   380
    case ClpSimplex::atLowerBound:
alpar@461
   381
      return LOWER;
alpar@461
   382
    case ClpSimplex::isFixed:
alpar@461
   383
      return FIXED;
alpar@461
   384
    case ClpSimplex::superBasic:
alpar@461
   385
      return FREE;
alpar@461
   386
    default:
alpar@461
   387
      LEMON_ASSERT(false, "Wrong row status");
alpar@461
   388
      return VarStatus();
alpar@461
   389
    }
alpar@461
   390
  }
alpar@461
   391
alpar@461
   392
alpar@462
   393
  ClpLp::ProblemType ClpLp::_getPrimalType() const {
alpar@461
   394
    if (_prob->isProvenOptimal()) {
alpar@461
   395
      return OPTIMAL;
alpar@461
   396
    } else if (_prob->isProvenPrimalInfeasible()) {
alpar@461
   397
      return INFEASIBLE;
alpar@461
   398
    } else if (_prob->isProvenDualInfeasible()) {
alpar@461
   399
      return UNBOUNDED;
alpar@461
   400
    } else {
alpar@461
   401
      return UNDEFINED;
alpar@461
   402
    }
alpar@461
   403
  }
alpar@461
   404
alpar@462
   405
  ClpLp::ProblemType ClpLp::_getDualType() const {
alpar@461
   406
    if (_prob->isProvenOptimal()) {
alpar@461
   407
      return OPTIMAL;
alpar@461
   408
    } else if (_prob->isProvenDualInfeasible()) {
alpar@461
   409
      return INFEASIBLE;
alpar@461
   410
    } else if (_prob->isProvenPrimalInfeasible()) {
alpar@461
   411
      return INFEASIBLE;
alpar@461
   412
    } else {
alpar@461
   413
      return UNDEFINED;
alpar@461
   414
    }
alpar@461
   415
  }
alpar@461
   416
alpar@462
   417
  void ClpLp::_setSense(ClpLp::Sense sense) {
alpar@461
   418
    switch (sense) {
alpar@461
   419
    case MIN:
alpar@461
   420
      _prob->setOptimizationDirection(1);
alpar@461
   421
      break;
alpar@461
   422
    case MAX:
alpar@461
   423
      _prob->setOptimizationDirection(-1);
alpar@461
   424
      break;
alpar@461
   425
    }
alpar@461
   426
  }
alpar@461
   427
alpar@462
   428
  ClpLp::Sense ClpLp::_getSense() const {
alpar@461
   429
    double dir = _prob->optimizationDirection();
alpar@461
   430
    if (dir > 0.0) {
alpar@461
   431
      return MIN;
alpar@461
   432
    } else {
alpar@461
   433
      return MAX;
alpar@461
   434
    }
alpar@461
   435
  }
alpar@461
   436
alpar@462
   437
  void ClpLp::_clear() {
alpar@461
   438
    delete _prob;
alpar@461
   439
    _prob = new ClpSimplex();
alpar@461
   440
    _col_names_ref.clear();
alpar@461
   441
    _clear_temporals();
alpar@461
   442
  }
alpar@461
   443
deba@576
   444
  void ClpLp::_messageLevel(MessageLevel level) {
deba@576
   445
    switch (level) {
deba@576
   446
    case MESSAGE_NOTHING:
deba@576
   447
      _prob->setLogLevel(0);
deba@576
   448
      break;
deba@576
   449
    case MESSAGE_ERROR:
deba@576
   450
      _prob->setLogLevel(1);
deba@576
   451
      break;
deba@576
   452
    case MESSAGE_WARNING:
deba@576
   453
      _prob->setLogLevel(2);
deba@576
   454
      break;
deba@576
   455
    case MESSAGE_NORMAL:
deba@576
   456
      _prob->setLogLevel(3);
deba@576
   457
      break;
deba@576
   458
    case MESSAGE_VERBOSE:
deba@576
   459
      _prob->setLogLevel(4);
deba@576
   460
      break;
deba@576
   461
    }
alpar@461
   462
  }
alpar@461
   463
alpar@461
   464
} //END OF NAMESPACE LEMON