test/lp_test.cc
author Peter Kovacs <kpeter@inf.elte.hu>
Tue, 24 Mar 2009 00:18:25 +0100
changeset 596 8c3112a66878
parent 461 08d495d48089
child 525 0fec6a017ead
child 528 9db62975c32b
permissions -rw-r--r--
Use XTI implementation instead of ATI in NetworkSimplex (#234)

XTI (eXtended Threaded Index) is an imporved version of the widely
known ATI (Augmented Threaded Index) method for storing and updating
the spanning tree structure in Network Simplex algorithms.

In the ATI data structure three indices are stored for each node:
predecessor, thread and depth. In the XTI data structure depth is
replaced by the number of successors and the last successor
(according to the thread index).
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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) 2003-2008
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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 <sstream>
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#include <lemon/lp_skeleton.h>
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#include "test_tools.h"
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#include <lemon/tolerance.h>
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#ifdef HAVE_CONFIG_H
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#include <lemon/config.h>
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#endif
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#ifdef HAVE_GLPK
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#include <lemon/glpk.h>
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#endif
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#ifdef HAVE_CPLEX
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#include <lemon/cplex.h>
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#endif
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#ifdef HAVE_SOPLEX
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#include <lemon/soplex.h>
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#endif
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#ifdef HAVE_CLP
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#include <lemon/clp.h>
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#endif
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using namespace lemon;
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void lpTest(LpSolver& lp)
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{
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  typedef LpSolver LP;
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  std::vector<LP::Col> x(10);
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  //  for(int i=0;i<10;i++) x.push_back(lp.addCol());
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  lp.addColSet(x);
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  lp.colLowerBound(x,1);
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  lp.colUpperBound(x,1);
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  lp.colBounds(x,1,2);
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  std::vector<LP::Col> y(10);
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  lp.addColSet(y);
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  lp.colLowerBound(y,1);
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  lp.colUpperBound(y,1);
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  lp.colBounds(y,1,2);
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  std::map<int,LP::Col> z;
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  z.insert(std::make_pair(12,INVALID));
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  z.insert(std::make_pair(2,INVALID));
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  z.insert(std::make_pair(7,INVALID));
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  z.insert(std::make_pair(5,INVALID));
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  lp.addColSet(z);
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  lp.colLowerBound(z,1);
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  lp.colUpperBound(z,1);
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  lp.colBounds(z,1,2);
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  {
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    LP::Expr e,f,g;
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    LP::Col p1,p2,p3,p4,p5;
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    LP::Constr c;
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    p1=lp.addCol();
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    p2=lp.addCol();
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    p3=lp.addCol();
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    p4=lp.addCol();
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    p5=lp.addCol();
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    e[p1]=2;
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    *e=12;
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    e[p1]+=2;
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    *e+=12;
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    e[p1]-=2;
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    *e-=12;
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    e=2;
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    e=2.2;
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    e=p1;
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    e=f;
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    e+=2;
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    e+=2.2;
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    e+=p1;
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    e+=f;
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    e-=2;
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    e-=2.2;
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    e-=p1;
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    e-=f;
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    e*=2;
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    e*=2.2;
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    e/=2;
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    e/=2.2;
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    e=((p1+p2)+(p1-p2)+(p1+12)+(12+p1)+(p1-12)+(12-p1)+
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       (f+12)+(12+f)+(p1+f)+(f+p1)+(f+g)+
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       (f-12)+(12-f)+(p1-f)+(f-p1)+(f-g)+
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       2.2*f+f*2.2+f/2.2+
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       2*f+f*2+f/2+
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       2.2*p1+p1*2.2+p1/2.2+
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       2*p1+p1*2+p1/2
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       );
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    c = (e  <= f  );
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    c = (e  <= 2.2);
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    c = (e  <= 2  );
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    c = (e  <= p1 );
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    c = (2.2<= f  );
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    c = (2  <= f  );
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    c = (p1 <= f  );
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    c = (p1 <= p2 );
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    c = (p1 <= 2.2);
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    c = (p1 <= 2  );
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    c = (2.2<= p2 );
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    c = (2  <= p2 );
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    c = (e  >= f  );
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    c = (e  >= 2.2);
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    c = (e  >= 2  );
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    c = (e  >= p1 );
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    c = (2.2>= f  );
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    c = (2  >= f  );
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    c = (p1 >= f  );
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    c = (p1 >= p2 );
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    c = (p1 >= 2.2);
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    c = (p1 >= 2  );
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    c = (2.2>= p2 );
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    c = (2  >= p2 );
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    c = (e  == f  );
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    c = (e  == 2.2);
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    c = (e  == 2  );
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    c = (e  == p1 );
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    c = (2.2== f  );
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    c = (2  == f  );
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    c = (p1 == f  );
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    //c = (p1 == p2 );
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    c = (p1 == 2.2);
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    c = (p1 == 2  );
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    c = (2.2== p2 );
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    c = (2  == p2 );
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    c = ((2 <= e) <= 3);
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    c = ((2 <= p1) <= 3);
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    c = ((2 >= e) >= 3);
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    c = ((2 >= p1) >= 3);
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    e[x[3]]=2;
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    e[x[3]]=4;
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    e[x[3]]=1;
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    *e=12;
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    lp.addRow(-LP::INF,e,23);
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    lp.addRow(-LP::INF,3.0*(x[1]+x[2]/2)-x[3],23);
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    lp.addRow(-LP::INF,3.0*(x[1]+x[2]*2-5*x[3]+12-x[4]/3)+2*x[4]-4,23);
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    lp.addRow(x[1]+x[3]<=x[5]-3);
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    lp.addRow((-7<=x[1]+x[3]-12)<=3);
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    lp.addRow(x[1]<=x[5]);
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    std::ostringstream buf;
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    e=((p1+p2)+(p1-0.99*p2));
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    //e.prettyPrint(std::cout);
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    //(e<=2).prettyPrint(std::cout);
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    double tolerance=0.001;
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    e.simplify(tolerance);
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    buf << "Coeff. of p2 should be 0.01";
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    check(e[p2]>0, buf.str());
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    tolerance=0.02;
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    e.simplify(tolerance);
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    buf << "Coeff. of p2 should be 0";
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    check(const_cast<const LpSolver::Expr&>(e)[p2]==0, buf.str());
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  }
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  {
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    LP::DualExpr e,f,g;
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    LP::Row p1 = INVALID, p2 = INVALID, p3 = INVALID,
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      p4 = INVALID, p5 = INVALID;
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    e[p1]=2;
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    e[p1]+=2;
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    e[p1]-=2;
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    e=p1;
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    e=f;
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    e+=p1;
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    e+=f;
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    e-=p1;
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    e-=f;
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    e*=2;
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    e*=2.2;
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    e/=2;
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    e/=2.2;
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    e=((p1+p2)+(p1-p2)+
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       (p1+f)+(f+p1)+(f+g)+
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       (p1-f)+(f-p1)+(f-g)+
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       2.2*f+f*2.2+f/2.2+
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       2*f+f*2+f/2+
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       2.2*p1+p1*2.2+p1/2.2+
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       2*p1+p1*2+p1/2
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       );
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  }
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}
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void solveAndCheck(LpSolver& lp, LpSolver::ProblemType stat,
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                   double exp_opt) {
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  using std::string;
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  lp.solve();
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  std::ostringstream buf;
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  buf << "PrimalType should be: " << int(stat) << int(lp.primalType());
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  check(lp.primalType()==stat, buf.str());
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  if (stat ==  LpSolver::OPTIMAL) {
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    std::ostringstream sbuf;
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    sbuf << "Wrong optimal value: the right optimum is " << exp_opt;
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    check(std::abs(lp.primal()-exp_opt) < 1e-3, sbuf.str());
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  }
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}
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void aTest(LpSolver & lp)
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{
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  typedef LpSolver LP;
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 //The following example is very simple
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  typedef LpSolver::Row Row;
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  typedef LpSolver::Col Col;
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  Col x1 = lp.addCol();
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  Col x2 = lp.addCol();
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  //Constraints
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  Row upright=lp.addRow(x1+2*x2 <=1);
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  lp.addRow(x1+x2 >=-1);
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  lp.addRow(x1-x2 <=1);
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  lp.addRow(x1-x2 >=-1);
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  //Nonnegativity of the variables
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  lp.colLowerBound(x1, 0);
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  lp.colLowerBound(x2, 0);
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  //Objective function
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  lp.obj(x1+x2);
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  lp.sense(lp.MAX);
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  //Testing the problem retrieving routines
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  check(lp.objCoeff(x1)==1,"First term should be 1 in the obj function!");
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  check(lp.sense() == lp.MAX,"This is a maximization!");
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  check(lp.coeff(upright,x1)==1,"The coefficient in question is 1!");
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  check(lp.colLowerBound(x1)==0,
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        "The lower bound for variable x1 should be 0.");
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  check(lp.colUpperBound(x1)==LpSolver::INF,
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        "The upper bound for variable x1 should be infty.");
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  check(lp.rowLowerBound(upright) == -LpSolver::INF,
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        "The lower bound for the first row should be -infty.");
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  check(lp.rowUpperBound(upright)==1,
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        "The upper bound for the first row should be 1.");
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  LpSolver::Expr e = lp.row(upright);
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  check(e[x1] == 1, "The first coefficient should 1.");
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  check(e[x2] == 2, "The second coefficient should 1.");
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  lp.row(upright, x1+x2 <=1);
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  e = lp.row(upright);
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  check(e[x1] == 1, "The first coefficient should 1.");
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  check(e[x2] == 1, "The second coefficient should 1.");
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  LpSolver::DualExpr de = lp.col(x1);
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  check(  de[upright] == 1, "The first coefficient should 1.");
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  LpSolver* clp = lp.cloneSolver();
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  //Testing the problem retrieving routines
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  check(clp->objCoeff(x1)==1,"First term should be 1 in the obj function!");
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  check(clp->sense() == clp->MAX,"This is a maximization!");
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  check(clp->coeff(upright,x1)==1,"The coefficient in question is 1!");
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  //  std::cout<<lp.colLowerBound(x1)<<std::endl;
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  check(clp->colLowerBound(x1)==0,
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        "The lower bound for variable x1 should be 0.");
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  check(clp->colUpperBound(x1)==LpSolver::INF,
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        "The upper bound for variable x1 should be infty.");
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  check(lp.rowLowerBound(upright)==-LpSolver::INF,
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        "The lower bound for the first row should be -infty.");
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  check(lp.rowUpperBound(upright)==1,
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        "The upper bound for the first row should be 1.");
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  e = clp->row(upright);
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  check(e[x1] == 1, "The first coefficient should 1.");
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  check(e[x2] == 1, "The second coefficient should 1.");
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  de = clp->col(x1);
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  check(de[upright] == 1, "The first coefficient should 1.");
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  delete clp;
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  //Maximization of x1+x2
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  //over the triangle with vertices (0,0) (0,1) (1,0)
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  double expected_opt=1;
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  solveAndCheck(lp, LpSolver::OPTIMAL, expected_opt);
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  //Minimization
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  lp.sense(lp.MIN);
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  expected_opt=0;
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  solveAndCheck(lp, LpSolver::OPTIMAL, expected_opt);
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  //Vertex (-1,0) instead of (0,0)
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  lp.colLowerBound(x1, -LpSolver::INF);
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  expected_opt=-1;
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  solveAndCheck(lp, LpSolver::OPTIMAL, expected_opt);
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  //Erase one constraint and return to maximization
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  lp.erase(upright);
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  lp.sense(lp.MAX);
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  expected_opt=LpSolver::INF;
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  solveAndCheck(lp, LpSolver::UNBOUNDED, expected_opt);
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  //Infeasibilty
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  lp.addRow(x1+x2 <=-2);
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  solveAndCheck(lp, LpSolver::INFEASIBLE, expected_opt);
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}
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int main()
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{
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  LpSkeleton lp_skel;
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  lpTest(lp_skel);
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#ifdef HAVE_GLPK
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  {
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    GlpkLp lp_glpk1,lp_glpk2;
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    lpTest(lp_glpk1);
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    aTest(lp_glpk2);
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  }
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#endif
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#ifdef HAVE_CPLEX
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  try {
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    CplexLp lp_cplex1,lp_cplex2;
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    lpTest(lp_cplex1);
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    aTest(lp_cplex2);
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  } catch (CplexEnv::LicenseError& error) {
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#ifdef LEMON_FORCE_CPLEX_CHECK
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    check(false, error.what());
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#else
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    std::cerr << error.what() << std::endl;
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    std::cerr << "Cplex license check failed, lp check skipped" << std::endl;
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#endif
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  }
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#endif
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#ifdef HAVE_SOPLEX
deba@459
   387
  {
alpar@462
   388
    SoplexLp lp_soplex1,lp_soplex2;
deba@459
   389
    lpTest(lp_soplex1);
deba@459
   390
    aTest(lp_soplex2);
deba@459
   391
  }
deba@459
   392
#endif
deba@459
   393
deba@459
   394
#ifdef HAVE_CLP
deba@459
   395
  {
alpar@462
   396
    ClpLp lp_clp1,lp_clp2;
deba@459
   397
    lpTest(lp_clp1);
deba@459
   398
    aTest(lp_clp2);
deba@459
   399
  }
deba@458
   400
#endif
deba@458
   401
deba@458
   402
  return 0;
deba@458
   403
}