lin_expr.h removed
authoralpar
Fri, 08 Apr 2005 05:36:16 +0000
changeset 13209863b5d51beb
parent 1319 6e277ba3fc76
child 1321 bc3a4c498eb2
lin_expr.h removed
src/work/athos/lp/lin_expr.h
     1.1 --- a/src/work/athos/lp/lin_expr.h	Thu Apr 07 15:22:03 2005 +0000
     1.2 +++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
     1.3 @@ -1,498 +0,0 @@
     1.4 -/* -*- C++ -*-
     1.5 - * src/lemon/lin_expr.h - Part of LEMON, a generic C++ optimization library
     1.6 - *
     1.7 - * Copyright (C) 2005 Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
     1.8 - * (Egervary Combinatorial Optimization Research Group, EGRES).
     1.9 - *
    1.10 - * Permission to use, modify and distribute this software is granted
    1.11 - * provided that this copyright notice appears in all copies. For
    1.12 - * precise terms see the accompanying LICENSE file.
    1.13 - *
    1.14 - * This software is provided "AS IS" with no warranty of any kind,
    1.15 - * express or implied, and with no claim as to its suitability for any
    1.16 - * purpose.
    1.17 - *
    1.18 - */
    1.19 -
    1.20 -#ifndef LEMON_LIN_EXPR_H
    1.21 -#define LEMON_LIN_EXPR_H
    1.22 -
    1.23 -#include<vector>
    1.24 -#include<map>
    1.25 -#include<lemon/utility.h>
    1.26 -///\file
    1.27 -///\brief Classes to handle linear expressions
    1.28 -namespace lemon {
    1.29 -  
    1.30 -  /// Class to handle sparse linear expressions
    1.31 -  template <class _V>
    1.32 -  class SparseLinExpr : public std::map<_V, typename _V::ExprValue>
    1.33 -  {
    1.34 -  public:
    1.35 -    typedef _V Var; 
    1.36 -    typedef typename _V::ExprValue Coeff;
    1.37 -    
    1.38 -  protected:
    1.39 -    typedef typename std::map<_V, typename _V::ExprValue> Base;
    1.40 -
    1.41 -    Coeff const_comp;
    1.42 -  public:
    1.43 -    typedef True IsLinExpression;
    1.44 -    ///\e
    1.45 -    SparseLinExpr() : Base(), const_comp(0) { }
    1.46 -    ///\e
    1.47 -    SparseLinExpr(const Var &v) : const_comp(0) {
    1.48 -      Base::insert(std::make_pair(v, 1));
    1.49 -    }
    1.50 -    ///\e
    1.51 -    SparseLinExpr(const Coeff &v) : const_comp(v) {}
    1.52 -    
    1.53 -    ///\e
    1.54 -    void set(const Var &v,const Coeff &c) {
    1.55 -      return Base::insert(std::make_pair(v, c));
    1.56 -    }
    1.57 -//     Coeff &operator[](const Var &v) { return data[v]; }
    1.58 -//     const Coeff &operator[](const Var &v) const { return data[v]; }
    1.59 -
    1.60 -    ///\e
    1.61 -    Coeff &constComp() { return const_comp; }
    1.62 -    ///\e
    1.63 -    const Coeff &constComp() const { return const_comp; }
    1.64 -
    1.65 -    ///Removes the components with zero coefficient.
    1.66 -    void simplify() {
    1.67 -      for (typename Base::iterator i=Base::begin(); i!=Base::end();) {
    1.68 -	typename Base::iterator j=i;
    1.69 -	++j;
    1.70 -	if ((*i).second==0) Base::erase(i);
    1.71 -	j=i;
    1.72 -      }
    1.73 -    }
    1.74 -   
    1.75 -    ///\e
    1.76 -    SparseLinExpr &operator+=(const SparseLinExpr &e) {
    1.77 -      for (typename Base::const_iterator j=e.begin(); j!=e.end(); ++j)
    1.78 -	(*this)[j->first]+=j->second;
    1.79 -      ///\todo it might be speeded up using "hints"
    1.80 -      const_comp+=e.const_comp;
    1.81 -      return *this;
    1.82 -    }
    1.83 -    ///\e
    1.84 -    SparseLinExpr &operator-=(const SparseLinExpr &e) {
    1.85 -      for (typename Base::const_iterator j=e.begin(); j!=e.end(); ++j)
    1.86 -	(*this)[j->first]-=j->second;
    1.87 -      const_comp-=e.const_comp;
    1.88 -      return *this;
    1.89 -    }
    1.90 -    ///\e
    1.91 -    SparseLinExpr &operator*=(const Coeff &c) {
    1.92 -      for (typename Base::iterator j=Base::begin(); j!=Base::end(); ++j)
    1.93 -	j->second*=c;
    1.94 -      const_comp*=c;
    1.95 -      return *this;
    1.96 -    }
    1.97 -    ///\e
    1.98 -    SparseLinExpr &operator/=(const Coeff &c) {
    1.99 -      for (typename Base::iterator j=Base::begin(); j!=Base::end(); ++j)
   1.100 -	j->second/=c;
   1.101 -      const_comp/=c;
   1.102 -      return *this;
   1.103 -    }
   1.104 -    
   1.105 -  };
   1.106 -
   1.107 -  ///\e
   1.108 -  
   1.109 -  ///\relates SparseLinExpr
   1.110 -  ///
   1.111 -  template <class V>
   1.112 -  SparseLinExpr<V> operator+(const SparseLinExpr<V> &a,
   1.113 -				const SparseLinExpr<V> &b) {
   1.114 -    SparseLinExpr<V> tmp(a);
   1.115 -    tmp+=b; ///\todo Don't STL have some special 'merge' algorithm?
   1.116 -    return tmp;
   1.117 -  }
   1.118 -  
   1.119 -  ///\e
   1.120 -  
   1.121 -  ///\relates SparseLinExpr
   1.122 -  ///
   1.123 -  template <class V>
   1.124 -  SparseLinExpr<V> operator-(const SparseLinExpr<V> &a,
   1.125 -				const SparseLinExpr<V> &b) {
   1.126 -    SparseLinExpr<V> tmp(a);
   1.127 -    tmp-=b; ///\todo Don't STL have some special 'merge' algorithm?
   1.128 -    return tmp;
   1.129 -  }
   1.130 -  
   1.131 -  ///\e
   1.132 -  
   1.133 -  ///\relates SparseLinExpr
   1.134 -  ///
   1.135 -  template <class V>
   1.136 -  SparseLinExpr<V> operator*(const typename V::ExprValue &c,
   1.137 -			       const SparseLinExpr<V> &e) {
   1.138 -    SparseLinExpr<V> tmp(e);
   1.139 -    tmp*=c;
   1.140 -    return tmp;
   1.141 -  }
   1.142 -  
   1.143 -  ///\e
   1.144 -  
   1.145 -  ///\relates SparseLinExpr
   1.146 -  ///
   1.147 -  template <class V>
   1.148 -  SparseLinExpr<V> operator*(const SparseLinExpr<V> &e,
   1.149 -			       const typename V::ExprValue &c) {
   1.150 -    SparseLinExpr<V> tmp(e);
   1.151 -    tmp*=c;
   1.152 -    return tmp;
   1.153 -  }
   1.154 -  
   1.155 -  
   1.156 -  ///\e
   1.157 -  
   1.158 -  ///\relates SparseLinExpr
   1.159 -  ///
   1.160 -  template <class V>
   1.161 -  SparseLinExpr<V> operator/(const SparseLinExpr<V> &e,
   1.162 -			       const typename V::ExprValue &c) {
   1.163 -    SparseLinExpr<V> tmp(e);
   1.164 -    tmp/=c;
   1.165 -    return tmp;
   1.166 -  }
   1.167 -  
   1.168 -  ///\e
   1.169 -  
   1.170 -  ///\relates SparseLinExpr
   1.171 -  ///
   1.172 -  template <class V>
   1.173 -  SparseLinExpr<V> operator+(const typename V::ExprValue &c,
   1.174 -			     const SparseLinExpr<V> &e) {
   1.175 -    SparseLinExpr<V> tmp(e);
   1.176 -    tmp.constComp()+=c;
   1.177 -    return tmp;
   1.178 -  }
   1.179 -
   1.180 -  ///\e
   1.181 -  
   1.182 -  ///\relates SparseLinExpr
   1.183 -  ///
   1.184 -  template <class V>
   1.185 -  SparseLinExpr<V> operator+(const SparseLinExpr<V> &e,
   1.186 -			     const typename V::ExprValue &c) {
   1.187 -    SparseLinExpr<V> tmp(e);
   1.188 -    tmp.constComp()+=c;
   1.189 -    return tmp;
   1.190 -  }
   1.191 -
   1.192 -  ///\e
   1.193 -  
   1.194 -  ///\relates SparseLinExpr
   1.195 -  ///
   1.196 -  template <class V>
   1.197 -  SparseLinExpr<V> operator+(const V &v,const SparseLinExpr<V> &e) {
   1.198 -    SparseLinExpr<V> tmp(e);
   1.199 -    tmp[v]+=1;
   1.200 -    return tmp;
   1.201 -  }
   1.202 -
   1.203 -  ///\e
   1.204 -  
   1.205 -  ///\relates SparseLinExpr
   1.206 -  ///
   1.207 -  template <class V>
   1.208 -  SparseLinExpr<V> operator+(const SparseLinExpr<V> &e,const V &v) {
   1.209 -    SparseLinExpr<V> tmp(e);
   1.210 -    tmp[v]+=1;
   1.211 -    return tmp;
   1.212 -  }
   1.213 -
   1.214 -  ///\e
   1.215 -  
   1.216 -  ///\relates SparseLinExpr
   1.217 -  ///
   1.218 -  template <class V>
   1.219 -  SparseLinExpr<V> operator-(const typename V::ExprValue &c,
   1.220 -			     const SparseLinExpr<V> &e) {
   1.221 -    SparseLinExpr<V> tmp(e);
   1.222 -    tmp*=-1;
   1.223 -    tmp.constComp()+=c;
   1.224 -    return tmp;
   1.225 -  }
   1.226 -
   1.227 -  ///\e
   1.228 -  
   1.229 -  ///\relates SparseLinExpr
   1.230 -  ///
   1.231 -  template <class V>
   1.232 -  SparseLinExpr<V> operator-(const SparseLinExpr<V> &e,
   1.233 -			     const typename V::ExprValue &c) {
   1.234 -    SparseLinExpr<V> tmp(e);
   1.235 -    tmp.constComp()-=c;
   1.236 -    return tmp;
   1.237 -  }
   1.238 -
   1.239 -  ///\e
   1.240 -  
   1.241 -  ///\relates SparseLinExpr
   1.242 -  ///
   1.243 -  template <class V>
   1.244 -  SparseLinExpr<V> operator-(const V &v,const SparseLinExpr<V> &e) {
   1.245 -    SparseLinExpr<V> tmp(e);
   1.246 -    tmp*=-1;
   1.247 -    tmp[v]+=1;
   1.248 -    return tmp;
   1.249 -  }
   1.250 -
   1.251 -  ///\e
   1.252 -  
   1.253 -  ///\relates SparseLinExpr
   1.254 -  ///
   1.255 -  template <class V>
   1.256 -  SparseLinExpr<V> operator-(const SparseLinExpr<V> &e,const V &v) {
   1.257 -    SparseLinExpr<V> tmp(e);
   1.258 -    tmp[v]-=1;
   1.259 -    return tmp;
   1.260 -  }
   1.261 -
   1.262 -  ///\e
   1.263 -  
   1.264 -  ///\relates SparseLinExpr
   1.265 -  ///
   1.266 -  template <class V>
   1.267 -  SparseLinExpr<V> operator+(const V &v,const typename V::ExprValue &c) {
   1.268 -    SparseLinExpr<V> tmp(v);
   1.269 -    tmp.constComp()=c;
   1.270 -    return tmp;
   1.271 -  }
   1.272 -
   1.273 -  ///\e
   1.274 -  
   1.275 -  ///\relates SparseLinExpr
   1.276 -  ///
   1.277 -  template <class V>
   1.278 -  SparseLinExpr<V> operator-(const V &v,const typename V::ExprValue &c) {
   1.279 -    SparseLinExpr<V> tmp(v);
   1.280 -    tmp.constComp()=-c;
   1.281 -    return tmp;
   1.282 -  }
   1.283 -
   1.284 -  ///\e
   1.285 -  
   1.286 -  ///\relates SparseLinExpr
   1.287 -  ///
   1.288 -  template <class V>
   1.289 -  SparseLinExpr<V> operator+(const typename V::ExprValue &c,const V &v) {
   1.290 -    SparseLinExpr<V> tmp(v);
   1.291 -    tmp.constComp()=c;
   1.292 -    return tmp;
   1.293 -  }
   1.294 -
   1.295 -  ///\e
   1.296 -  
   1.297 -  ///\relates SparseLinExpr
   1.298 -  ///
   1.299 -  template <class V>
   1.300 -  SparseLinExpr<V> operator-(const typename V::ExprValue &c,const V &v) {
   1.301 -    SparseLinExpr<V> tmp(c);
   1.302 -    tmp[v]=-1;
   1.303 -    return tmp;
   1.304 -  }
   1.305 -
   1.306 -  ///\e
   1.307 -  
   1.308 -  ///\relates SparseLinExpr
   1.309 -  ///
   1.310 -  template <class V>
   1.311 -  SparseLinExpr<V> operator+(const V &v1,const V &v2) {
   1.312 -    SparseLinExpr<V> tmp(v1);
   1.313 -    tmp[v2]+=1;
   1.314 -    return tmp;
   1.315 -  }
   1.316 -
   1.317 -  ///\e
   1.318 -  
   1.319 -  ///\relates SparseLinExpr
   1.320 -  ///
   1.321 -  template <class V>
   1.322 -  SparseLinExpr<V> operator*(const V &v,const typename V::ExprValue &c) {
   1.323 -    SparseLinExpr<V> tmp;
   1.324 -    tmp[v]=c;
   1.325 -    return tmp;
   1.326 -  }
   1.327 -
   1.328 -  ///\e
   1.329 -  
   1.330 -  ///\relates SparseLinExpr
   1.331 -  ///
   1.332 -  template <class V>
   1.333 -  SparseLinExpr<V> operator*(const typename V::ExprValue &c,const V &v) {
   1.334 -    SparseLinExpr<V> tmp;
   1.335 -    tmp[v]=c;
   1.336 -    return tmp;
   1.337 -  }
   1.338 -
   1.339 -  ///\e
   1.340 -  
   1.341 -  ///\relates SparseLinExpr
   1.342 -  ///
   1.343 -  template <class V>
   1.344 -  SparseLinExpr<V> operator/(const V &v,const typename V::ExprValue &c) {
   1.345 -    SparseLinExpr<V> tmp;
   1.346 -    tmp[v]=1/c;
   1.347 -    return tmp;
   1.348 -  }
   1.349 -
   1.350 -
   1.351 -  //////////////////////////////////////////////////////////////////////
   1.352 -  /// Constraints
   1.353 -  //////////////////////////////////////////////////////////////////////
   1.354 -  
   1.355 -  template <class E>
   1.356 -  class LinConstr
   1.357 -  {
   1.358 -  public:
   1.359 -    typedef E Expr;
   1.360 -    typedef typename E::Var Var;
   1.361 -    typedef typename E::Coeff Coeff;
   1.362 -    
   1.363 -    static const Coeff INF;
   1.364 -    static const Coeff NaN;
   1.365 -//     static const Coeff INF=0;
   1.366 -//     static const Coeff NaN=1;
   1.367 -
   1.368 -    Expr expr;
   1.369 -    Coeff lb,ub;
   1.370 -    
   1.371 -    LinConstr() : expr(), lb(NaN), ub(NaN) {}
   1.372 -    LinConstr(Coeff _lb,const Expr &e,Coeff _ub) :
   1.373 -      expr(e), lb(_lb), ub(_ub) {}
   1.374 -    LinConstr(const Expr &e,Coeff _ub) : 
   1.375 -      expr(e), lb(NaN), ub(_ub) {}
   1.376 -    LinConstr(Coeff _lb,const Expr &e) :
   1.377 -      expr(e), lb(_lb), ub(NaN) {}
   1.378 -  };
   1.379 -
   1.380 -  template<class E>
   1.381 -  const typename LinConstr<E>::Coeff LinConstr<E>::INF=
   1.382 -    std::numeric_limits<Coeff>::infinity();
   1.383 -  template<class E>
   1.384 -  const typename LinConstr<E>::Coeff LinConstr<E>::NaN=
   1.385 -    std::numeric_limits<Coeff>::quiet_NaN();
   1.386 -
   1.387 -  
   1.388 -  template<class E>
   1.389 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.390 -  operator<=(const E &e,const E &f) 
   1.391 -  {
   1.392 -    return LinConstr<E>(-LinConstr<E>::INF,e-f,0);
   1.393 -  }
   1.394 -
   1.395 -  template<class E>
   1.396 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.397 -  operator>=(const E &e,const E &f) 
   1.398 -  {
   1.399 -    return LinConstr<E>(-LinConstr<E>::INF,f-e,0);
   1.400 -  }
   1.401 -
   1.402 -  template<class E>
   1.403 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.404 -  operator==(const E &e,const E &f) 
   1.405 -  {
   1.406 -    return LinConstr<E>(0,e-f,0);
   1.407 -  }
   1.408 -  
   1.409 -  //////////////////////////////
   1.410 -
   1.411 -  template<class E>
   1.412 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.413 -  operator<=(const E &e,const typename E::Coeff &n) 
   1.414 -  {
   1.415 -    return LinConstr<E>(e,n);
   1.416 -  }
   1.417 -
   1.418 -  template<class E>
   1.419 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.420 -  operator>=(const E &e,const typename E::Coeff &n) 
   1.421 -  {
   1.422 -    return LinConstr<E>(n,e);
   1.423 -  }
   1.424 -
   1.425 -  template<class E>
   1.426 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.427 -  operator==(const E &e,const typename E::Coeff &n) 
   1.428 -  {
   1.429 -    return LinConstr<E>(n,e,n);
   1.430 -  }
   1.431 -
   1.432 -  //////////////////////////////
   1.433 -
   1.434 -  template<class E>
   1.435 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.436 -  operator<=(const typename E::Coeff &n,const E &e) 
   1.437 -  {
   1.438 -    return LinConstr<E>(n,e);
   1.439 -  }
   1.440 -
   1.441 -  template<class E>
   1.442 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.443 -  operator>=(const typename E::Coeff &n,const E &e) 
   1.444 -  {
   1.445 -    return LinConstr<E>(e,n);
   1.446 -  }
   1.447 -
   1.448 -  template<class E>
   1.449 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.450 -  operator==(const typename E::Coeff &n,const E &e) 
   1.451 -  {
   1.452 -    return LinConstr<E>(n,e,n);
   1.453 -  }
   1.454 -
   1.455 -  //////////////////////////////
   1.456 -
   1.457 -  template<class E>
   1.458 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.459 -  operator<=(const typename E::Coeff &n,const LinConstr<E> &c) 
   1.460 -  {
   1.461 -    LinConstr<E> tmp(c);
   1.462 -    if(tmp.lb!=tmp.NaN) throw LogicError();
   1.463 -    else tmp.lb=n;
   1.464 -    return tmp;
   1.465 -  }
   1.466 -
   1.467 -  template<class E>
   1.468 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.469 -  operator>=(const typename E::Coeff &n,const LinConstr<E> &c) 
   1.470 -  {
   1.471 -    LinConstr<E> tmp(c);
   1.472 -    if(tmp.ub!=tmp.NaN) throw LogicError();
   1.473 -    else tmp.ub=n;
   1.474 -    return tmp;
   1.475 -  }
   1.476 -
   1.477 -  template<class E>
   1.478 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.479 -  operator<=(const LinConstr<E> &c,const typename E::Coeff &n) 
   1.480 -  {
   1.481 -    LinConstr<E> tmp(c);
   1.482 -    if(tmp.ub!=tmp.NaN) throw LogicError();
   1.483 -    else tmp.ub=n;
   1.484 -    return tmp;
   1.485 -  }
   1.486 -
   1.487 -  template<class E>
   1.488 -  typename enable_if<typename E::IsLinExpression, LinConstr<E> >::type
   1.489 -  operator>=(const LinConstr<E> &c,const typename E::Coeff &n) 
   1.490 -  {
   1.491 -    LinConstr<E> tmp(c);
   1.492 -    if(tmp.lb!=tmp.NaN) throw LogicError();
   1.493 -    else tmp.lb=n;
   1.494 -    return tmp;
   1.495 -  }
   1.496 -
   1.497 -  
   1.498 -
   1.499 -} //namespace lemon
   1.500 -
   1.501 -#endif //LEMON_LIN_EXPR_H