alpar@2086: /* -*- C++ -*-
alpar@2086:  *
alpar@2086:  * This file is a part of LEMON, a generic C++ optimization library
alpar@2086:  *
alpar@2086:  * Copyright (C) 2003-2006
alpar@2086:  * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
alpar@2086:  * (Egervary Research Group on Combinatorial Optimization, EGRES).
alpar@2086:  *
alpar@2086:  * Permission to use, modify and distribute this software is granted
alpar@2086:  * provided that this copyright notice appears in all copies. For
alpar@2086:  * precise terms see the accompanying LICENSE file.
alpar@2086:  *
alpar@2086:  * This software is provided "AS IS" with no warranty of any kind,
alpar@2086:  * express or implied, and with no claim as to its suitability for any
alpar@2086:  * purpose.
alpar@2086:  *
alpar@2086:  */
alpar@2086: 
alpar@2086: #include <lemon/polynomial.h>
alpar@2207: #include <lemon/dim2.h>
alpar@2086: #include <iostream>
alpar@2086: #include "test_tools.h"
alpar@2086: 
alpar@2086: using namespace std;
alpar@2086: using namespace lemon;
alpar@2086: int main()
alpar@2086: {
alpar@2086:   Polynomial<int> pi(5);
alpar@2086:   check(pi.deg()==5,"Something is wrong here.");
alpar@2086:   pi[0]=12;
alpar@2086:   pi[5]=3;
alpar@2086:   pi[2]=7;
alpar@2086:   check(pi[1]==0,"Uninitialized elements should be(?) zero.");
alpar@2086:   {
alpar@2086:     Polynomial<double> pd=pi;
alpar@2086:     check(pd.deg()==5,"Something is wrong here.");
alpar@2086:     check(pd[0]==12,"Something is wrong here.");
alpar@2086:     check(pd[5]==3,"Something is wrong here.");
alpar@2086: 
alpar@2086:   }
alpar@2086: 
alpar@2086:   Polynomial<double> pd;
alpar@2086:   pd=pi;
alpar@2086:   check(pd.deg()==5,"Something is wrong here.");
alpar@2086:   check(pd[0]==12,"Something is wrong here.");
alpar@2086:   check(pd[5]==3,"Something is wrong here.");
alpar@2086: 
alpar@2086:   check(pd(0)==12,"Something is wrong here.");
alpar@2086:   check(pd(1)==22,"Something is wrong here.");
alpar@2086:   check(pd(2)==136,"Something is wrong here.");
alpar@2086: 
alpar@2086:   check((pd*pi).deg()==10,"Something is wrong here.");
alpar@2086:   check((pd*pi)[10]==9,"Something is wrong here.");
alpar@2086:   check((pd*pi)[7]==42,"Something is wrong here.");
alpar@2086: 
alpar@2086:   Polynomial<double> pd2=pd+pi;
alpar@2086:   check(pd2[5]==6,"Something is wrong here.");
alpar@2086:   pd2+=pd;
alpar@2086:   pd2+=pi;
alpar@2086:   check(pd2[5]==12,"Something is wrong here.");
alpar@2086:   pd2-=pd;
alpar@2086:   pd2-=pi;
alpar@2086:   check(pd2[5]==6,"Something is wrong here.");
alpar@2086:   check((pd-pi)[5]==0,"Something is wrong here.");
alpar@2086: 
alpar@2086:   Polynomial<double> pdd=pd.derivate();
alpar@2086:   pd.derivateMyself();
alpar@2086:   check(pdd==pd,"Something is wrong here.");
alpar@2086:   check(pd.deg()==4,"Something is wrong here.");
alpar@2086:   check(pd[4]==15,"Something is wrong here.");
alpar@2086: 
alpar@2086:   
alpar@2086:   Polynomial<double> pdi=pd.integrate();
alpar@2086:   pd.integrateMyself();
alpar@2086:   check(pdi==pd,"Something is wrong here.");
alpar@2086:   check(pd.deg()==5,"Something is wrong here.");
alpar@2086:   check(pd[5]==3,"Something is wrong here.");
alpar@2086:   check(pd[0]==0,"Something is wrong here.");
alpar@2086:   
alpar@2086:   
alpar@2086: }