test/maps_test.cc
author Peter Kovacs <kpeter@inf.elte.hu>
Tue, 24 Mar 2009 00:18:25 +0100
changeset 651 8c3112a66878
parent 463 88ed40ad0d4f
child 731 7b1a6e963018
child 740 7bda7860e0a8
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) 2003-2009
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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 <deque>
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#include <set>
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#include <lemon/concept_check.h>
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#include <lemon/concepts/maps.h>
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#include <lemon/maps.h>
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#include "test_tools.h"
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using namespace lemon;
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using namespace lemon::concepts;
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struct A {};
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inline bool operator<(A, A) { return true; }
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struct B {};
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class C {
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  int x;
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public:
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  C(int _x) : x(_x) {}
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};
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class F {
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public:
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  typedef A argument_type;
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  typedef B result_type;
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  B operator()(const A&) const { return B(); }
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private:
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  F& operator=(const F&);
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};
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int func(A) { return 3; }
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int binc(int a, B) { return a+1; }
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typedef ReadMap<A, double> DoubleMap;
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typedef ReadWriteMap<A, double> DoubleWriteMap;
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typedef ReferenceMap<A, double, double&, const double&> DoubleRefMap;
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typedef ReadMap<A, bool> BoolMap;
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typedef ReadWriteMap<A, bool> BoolWriteMap;
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typedef ReferenceMap<A, bool, bool&, const bool&> BoolRefMap;
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int main()
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{
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  // Map concepts
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  checkConcept<ReadMap<A,B>, ReadMap<A,B> >();
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  checkConcept<ReadMap<A,C>, ReadMap<A,C> >();
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  checkConcept<WriteMap<A,B>, WriteMap<A,B> >();
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  checkConcept<WriteMap<A,C>, WriteMap<A,C> >();
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  checkConcept<ReadWriteMap<A,B>, ReadWriteMap<A,B> >();
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  checkConcept<ReadWriteMap<A,C>, ReadWriteMap<A,C> >();
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  checkConcept<ReferenceMap<A,B,B&,const B&>, ReferenceMap<A,B,B&,const B&> >();
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  checkConcept<ReferenceMap<A,C,C&,const C&>, ReferenceMap<A,C,C&,const C&> >();
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  // NullMap
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  {
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    checkConcept<ReadWriteMap<A,B>, NullMap<A,B> >();
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    NullMap<A,B> map1;
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    NullMap<A,B> map2 = map1;
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    map1 = nullMap<A,B>();
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  }
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  // ConstMap
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  {
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    checkConcept<ReadWriteMap<A,B>, ConstMap<A,B> >();
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    checkConcept<ReadWriteMap<A,C>, ConstMap<A,C> >();
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    ConstMap<A,B> map1;
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    ConstMap<A,B> map2 = B();
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    ConstMap<A,B> map3 = map1;
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    map1 = constMap<A>(B());
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    map1 = constMap<A,B>();
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    map1.setAll(B());
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    ConstMap<A,C> map4(C(1));
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    ConstMap<A,C> map5 = map4;
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    map4 = constMap<A>(C(2));
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    map4.setAll(C(3));
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    checkConcept<ReadWriteMap<A,int>, ConstMap<A,int> >();
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    check(constMap<A>(10)[A()] == 10, "Something is wrong with ConstMap");
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    checkConcept<ReadWriteMap<A,int>, ConstMap<A,Const<int,10> > >();
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    ConstMap<A,Const<int,10> > map6;
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    ConstMap<A,Const<int,10> > map7 = map6;
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    map6 = constMap<A,int,10>();
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    map7 = constMap<A,Const<int,10> >();
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    check(map6[A()] == 10 && map7[A()] == 10,
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          "Something is wrong with ConstMap");
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  }
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  // IdentityMap
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  {
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    checkConcept<ReadMap<A,A>, IdentityMap<A> >();
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    IdentityMap<A> map1;
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    IdentityMap<A> map2 = map1;
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    map1 = identityMap<A>();
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    checkConcept<ReadMap<double,double>, IdentityMap<double> >();
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    check(identityMap<double>()[1.0] == 1.0 &&
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          identityMap<double>()[3.14] == 3.14,
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          "Something is wrong with IdentityMap");
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  }
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  // RangeMap
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  {
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    checkConcept<ReferenceMap<int,B,B&,const B&>, RangeMap<B> >();
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    RangeMap<B> map1;
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    RangeMap<B> map2(10);
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    RangeMap<B> map3(10,B());
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    RangeMap<B> map4 = map1;
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    RangeMap<B> map5 = rangeMap<B>();
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    RangeMap<B> map6 = rangeMap<B>(10);
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    RangeMap<B> map7 = rangeMap(10,B());
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    checkConcept< ReferenceMap<int, double, double&, const double&>,
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                  RangeMap<double> >();
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    std::vector<double> v(10, 0);
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    v[5] = 100;
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    RangeMap<double> map8(v);
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    RangeMap<double> map9 = rangeMap(v);
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    check(map9.size() == 10 && map9[2] == 0 && map9[5] == 100,
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          "Something is wrong with RangeMap");
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  }
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  // SparseMap
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  {
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    checkConcept<ReferenceMap<A,B,B&,const B&>, SparseMap<A,B> >();
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    SparseMap<A,B> map1;
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    SparseMap<A,B> map2 = B();
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    SparseMap<A,B> map3 = sparseMap<A,B>();
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    SparseMap<A,B> map4 = sparseMap<A>(B());
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    checkConcept< ReferenceMap<double, int, int&, const int&>,
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                  SparseMap<double, int> >();
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    std::map<double, int> m;
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    SparseMap<double, int> map5(m);
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    SparseMap<double, int> map6(m,10);
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    SparseMap<double, int> map7 = sparseMap(m);
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    SparseMap<double, int> map8 = sparseMap(m,10);
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    check(map5[1.0] == 0 && map5[3.14] == 0 &&
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          map6[1.0] == 10 && map6[3.14] == 10,
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          "Something is wrong with SparseMap");
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    map5[1.0] = map6[3.14] = 100;
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    check(map5[1.0] == 100 && map5[3.14] == 0 &&
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          map6[1.0] == 10 && map6[3.14] == 100,
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          "Something is wrong with SparseMap");
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  }
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  // ComposeMap
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  {
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    typedef ComposeMap<DoubleMap, ReadMap<B,A> > CompMap;
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    checkConcept<ReadMap<B,double>, CompMap>();
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    CompMap map1 = CompMap(DoubleMap(),ReadMap<B,A>());
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    CompMap map2 = composeMap(DoubleMap(), ReadMap<B,A>());
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    SparseMap<double, bool> m1(false); m1[3.14] = true;
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    RangeMap<double> m2(2); m2[0] = 3.0; m2[1] = 3.14;
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    check(!composeMap(m1,m2)[0] && composeMap(m1,m2)[1],
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          "Something is wrong with ComposeMap")
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  }
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  // CombineMap
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  {
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    typedef CombineMap<DoubleMap, DoubleMap, std::plus<double> > CombMap;
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    checkConcept<ReadMap<A,double>, CombMap>();
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    CombMap map1 = CombMap(DoubleMap(), DoubleMap());
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    CombMap map2 = combineMap(DoubleMap(), DoubleMap(), std::plus<double>());
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    check(combineMap(constMap<B,int,2>(), identityMap<B>(), &binc)[B()] == 3,
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          "Something is wrong with CombineMap");
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  }
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  // FunctorToMap, MapToFunctor
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  {
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    checkConcept<ReadMap<A,B>, FunctorToMap<F,A,B> >();
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    checkConcept<ReadMap<A,B>, FunctorToMap<F> >();
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    FunctorToMap<F> map1;
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    FunctorToMap<F> map2 = FunctorToMap<F>(F());
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    B b = functorToMap(F())[A()];
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    checkConcept<ReadMap<A,B>, MapToFunctor<ReadMap<A,B> > >();
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    MapToFunctor<ReadMap<A,B> > map = MapToFunctor<ReadMap<A,B> >(ReadMap<A,B>());
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    check(functorToMap(&func)[A()] == 3,
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          "Something is wrong with FunctorToMap");
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    check(mapToFunctor(constMap<A,int>(2))(A()) == 2,
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          "Something is wrong with MapToFunctor");
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    check(mapToFunctor(functorToMap(&func))(A()) == 3 &&
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          mapToFunctor(functorToMap(&func))[A()] == 3,
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          "Something is wrong with FunctorToMap or MapToFunctor");
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    check(functorToMap(mapToFunctor(constMap<A,int>(2)))[A()] == 2,
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          "Something is wrong with FunctorToMap or MapToFunctor");
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  }
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  // ConvertMap
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  {
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    checkConcept<ReadMap<double,double>,
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      ConvertMap<ReadMap<double, int>, double> >();
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    ConvertMap<RangeMap<bool>, int> map1(rangeMap(1, true));
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    ConvertMap<RangeMap<bool>, int> map2 = convertMap<int>(rangeMap(2, false));
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  }
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  // ForkMap
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  {
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    checkConcept<DoubleWriteMap, ForkMap<DoubleWriteMap, DoubleWriteMap> >();
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    typedef RangeMap<double> RM;
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    typedef SparseMap<int, double> SM;
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    RM m1(10, -1);
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    SM m2(-1);
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    checkConcept<ReadWriteMap<int, double>, ForkMap<RM, SM> >();
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    checkConcept<ReadWriteMap<int, double>, ForkMap<SM, RM> >();
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    ForkMap<RM, SM> map1(m1,m2);
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    ForkMap<SM, RM> map2 = forkMap(m2,m1);
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    map2.set(5, 10);
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    check(m1[1] == -1 && m1[5] == 10 && m2[1] == -1 &&
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          m2[5] == 10 && map2[1] == -1 && map2[5] == 10,
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          "Something is wrong with ForkMap");
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  }
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  // Arithmetic maps:
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  // - AddMap, SubMap, MulMap, DivMap
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  // - ShiftMap, ShiftWriteMap, ScaleMap, ScaleWriteMap
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  // - NegMap, NegWriteMap, AbsMap
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  {
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    checkConcept<DoubleMap, AddMap<DoubleMap,DoubleMap> >();
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    checkConcept<DoubleMap, SubMap<DoubleMap,DoubleMap> >();
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    checkConcept<DoubleMap, MulMap<DoubleMap,DoubleMap> >();
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    checkConcept<DoubleMap, DivMap<DoubleMap,DoubleMap> >();
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    ConstMap<int, double> c1(1.0), c2(3.14);
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    IdentityMap<int> im;
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    ConvertMap<IdentityMap<int>, double> id(im);
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    check(addMap(c1,id)[0] == 1.0  && addMap(c1,id)[10] == 11.0,
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          "Something is wrong with AddMap");
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    check(subMap(id,c1)[0] == -1.0 && subMap(id,c1)[10] == 9.0,
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          "Something is wrong with SubMap");
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    check(mulMap(id,c2)[0] == 0    && mulMap(id,c2)[2]  == 6.28,
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          "Something is wrong with MulMap");
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    check(divMap(c2,id)[1] == 3.14 && divMap(c2,id)[2]  == 1.57,
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          "Something is wrong with DivMap");
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    checkConcept<DoubleMap, ShiftMap<DoubleMap> >();
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    checkConcept<DoubleWriteMap, ShiftWriteMap<DoubleWriteMap> >();
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    checkConcept<DoubleMap, ScaleMap<DoubleMap> >();
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    checkConcept<DoubleWriteMap, ScaleWriteMap<DoubleWriteMap> >();
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    checkConcept<DoubleMap, NegMap<DoubleMap> >();
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    checkConcept<DoubleWriteMap, NegWriteMap<DoubleWriteMap> >();
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    checkConcept<DoubleMap, AbsMap<DoubleMap> >();
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    check(shiftMap(id, 2.0)[1] == 3.0 && shiftMap(id, 2.0)[10] == 12.0,
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          "Something is wrong with ShiftMap");
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    check(shiftWriteMap(id, 2.0)[1] == 3.0 &&
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          shiftWriteMap(id, 2.0)[10] == 12.0,
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          "Something is wrong with ShiftWriteMap");
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    check(scaleMap(id, 2.0)[1] == 2.0 && scaleMap(id, 2.0)[10] == 20.0,
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          "Something is wrong with ScaleMap");
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    check(scaleWriteMap(id, 2.0)[1] == 2.0 &&
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          scaleWriteMap(id, 2.0)[10] == 20.0,
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          "Something is wrong with ScaleWriteMap");
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    check(negMap(id)[1] == -1.0 && negMap(id)[-10] == 10.0,
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          "Something is wrong with NegMap");
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    check(negWriteMap(id)[1] == -1.0 && negWriteMap(id)[-10] == 10.0,
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          "Something is wrong with NegWriteMap");
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    check(absMap(id)[1] == 1.0 && absMap(id)[-10] == 10.0,
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          "Something is wrong with AbsMap");
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  }
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  // Logical maps:
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  // - TrueMap, FalseMap
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  // - AndMap, OrMap
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  // - NotMap, NotWriteMap
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  // - EqualMap, LessMap
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  {
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    checkConcept<BoolMap, TrueMap<A> >();
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    checkConcept<BoolMap, FalseMap<A> >();
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    checkConcept<BoolMap, AndMap<BoolMap,BoolMap> >();
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    checkConcept<BoolMap, OrMap<BoolMap,BoolMap> >();
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    checkConcept<BoolMap, NotMap<BoolMap> >();
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    checkConcept<BoolWriteMap, NotWriteMap<BoolWriteMap> >();
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    checkConcept<BoolMap, EqualMap<DoubleMap,DoubleMap> >();
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    checkConcept<BoolMap, LessMap<DoubleMap,DoubleMap> >();
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    TrueMap<int> tm;
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    FalseMap<int> fm;
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    RangeMap<bool> rm(2);
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    rm[0] = true; rm[1] = false;
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    check(andMap(tm,rm)[0] && !andMap(tm,rm)[1] &&
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          !andMap(fm,rm)[0] && !andMap(fm,rm)[1],
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          "Something is wrong with AndMap");
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    check(orMap(tm,rm)[0] && orMap(tm,rm)[1] &&
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          orMap(fm,rm)[0] && !orMap(fm,rm)[1],
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          "Something is wrong with OrMap");
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    check(!notMap(rm)[0] && notMap(rm)[1],
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          "Something is wrong with NotMap");
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    check(!notWriteMap(rm)[0] && notWriteMap(rm)[1],
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          "Something is wrong with NotWriteMap");
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    ConstMap<int, double> cm(2.0);
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    IdentityMap<int> im;
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    ConvertMap<IdentityMap<int>, double> id(im);
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    check(lessMap(id,cm)[1] && !lessMap(id,cm)[2] && !lessMap(id,cm)[3],
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          "Something is wrong with LessMap");
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    check(!equalMap(id,cm)[1] && equalMap(id,cm)[2] && !equalMap(id,cm)[3],
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          "Something is wrong with EqualMap");
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  }
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  // LoggerBoolMap
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  {
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    typedef std::vector<int> vec;
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    vec v1;
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    vec v2(10);
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    LoggerBoolMap<std::back_insert_iterator<vec> >
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      map1(std::back_inserter(v1));
kpeter@167
   335
    LoggerBoolMap<vec::iterator> map2(v2.begin());
kpeter@159
   336
    map1.set(10, false);
kpeter@159
   337
    map1.set(20, true);   map2.set(20, true);
kpeter@159
   338
    map1.set(30, false);  map2.set(40, false);
kpeter@159
   339
    map1.set(50, true);   map2.set(50, true);
kpeter@159
   340
    map1.set(60, true);   map2.set(60, true);
kpeter@159
   341
    check(v1.size() == 3 && v2.size() == 10 &&
alpar@210
   342
          v1[0]==20 && v1[1]==50 && v1[2]==60 &&
alpar@210
   343
          v2[0]==20 && v2[1]==50 && v2[2]==60,
kpeter@167
   344
          "Something is wrong with LoggerBoolMap");
alpar@209
   345
kpeter@159
   346
    int i = 0;
kpeter@167
   347
    for ( LoggerBoolMap<vec::iterator>::Iterator it = map2.begin();
kpeter@159
   348
          it != map2.end(); ++it )
kpeter@167
   349
      check(v1[i++] == *it, "Something is wrong with LoggerBoolMap");
kpeter@159
   350
  }
alpar@25
   351
alpar@25
   352
  return 0;
alpar@25
   353
}