Location: LEMON/LEMON-main/test/maps_test.cc

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ladanyi@tmit.bme.hu
Add check target for CMake (#388)
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/* -*- mode: C++; indent-tabs-mode: nil; -*-
*
* This file is a part of LEMON, a generic C++ optimization library.
*
* Copyright (C) 2003-2010
* Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
* (Egervary Research Group on Combinatorial Optimization, EGRES).
*
* Permission to use, modify and distribute this software is granted
* provided that this copyright notice appears in all copies. For
* precise terms see the accompanying LICENSE file.
*
* This software is provided "AS IS" with no warranty of any kind,
* express or implied, and with no claim as to its suitability for any
* purpose.
*
*/
#include <deque>
#include <set>
#include <lemon/concept_check.h>
#include <lemon/concepts/maps.h>
#include <lemon/maps.h>
#include <lemon/list_graph.h>
#include <lemon/smart_graph.h>
#include <lemon/adaptors.h>
#include <lemon/dfs.h>
#include <algorithm>
#include "test_tools.h"
using namespace lemon;
using namespace lemon::concepts;
struct A {};
inline bool operator<(A, A) { return true; }
struct B {};
class C {
int _x;
public:
C(int x) : _x(x) {}
int get() const { return _x; }
};
inline bool operator<(C c1, C c2) { return c1.get() < c2.get(); }
inline bool operator==(C c1, C c2) { return c1.get() == c2.get(); }
C createC(int x) { return C(x); }
template <typename T>
class Less {
T _t;
public:
Less(T t): _t(t) {}
bool operator()(const T& t) const { return t < _t; }
};
class F {
public:
typedef A argument_type;
typedef B result_type;
B operator()(const A&) const { return B(); }
private:
F& operator=(const F&);
};
int func(A) { return 3; }
int binc(int a, B) { return a+1; }
template <typename T>
class Sum {
T& _sum;
public:
Sum(T& sum) : _sum(sum) {}
void operator()(const T& t) { _sum += t; }
};
typedef ReadMap<A, double> DoubleMap;
typedef ReadWriteMap<A, double> DoubleWriteMap;
typedef ReferenceMap<A, double, double&, const double&> DoubleRefMap;
typedef ReadMap<A, bool> BoolMap;
typedef ReadWriteMap<A, bool> BoolWriteMap;
typedef ReferenceMap<A, bool, bool&, const bool&> BoolRefMap;
int main()
{
// Map concepts
checkConcept<ReadMap<A,B>, ReadMap<A,B> >();
checkConcept<ReadMap<A,C>, ReadMap<A,C> >();
checkConcept<WriteMap<A,B>, WriteMap<A,B> >();
checkConcept<WriteMap<A,C>, WriteMap<A,C> >();
checkConcept<ReadWriteMap<A,B>, ReadWriteMap<A,B> >();
checkConcept<ReadWriteMap<A,C>, ReadWriteMap<A,C> >();
checkConcept<ReferenceMap<A,B,B&,const B&>, ReferenceMap<A,B,B&,const B&> >();
checkConcept<ReferenceMap<A,C,C&,const C&>, ReferenceMap<A,C,C&,const C&> >();
// NullMap
{
checkConcept<ReadWriteMap<A,B>, NullMap<A,B> >();
NullMap<A,B> map1;
NullMap<A,B> map2 = map1;
map1 = nullMap<A,B>();
}
// ConstMap
{
checkConcept<ReadWriteMap<A,B>, ConstMap<A,B> >();
checkConcept<ReadWriteMap<A,C>, ConstMap<A,C> >();
ConstMap<A,B> map1;
ConstMap<A,B> map2 = B();
ConstMap<A,B> map3 = map1;
map1 = constMap<A>(B());
map1 = constMap<A,B>();
map1.setAll(B());
ConstMap<A,C> map4(C(1));
ConstMap<A,C> map5 = map4;
map4 = constMap<A>(C(2));
map4.setAll(C(3));
checkConcept<ReadWriteMap<A,int>, ConstMap<A,int> >();
check(constMap<A>(10)[A()] == 10, "Something is wrong with ConstMap");
checkConcept<ReadWriteMap<A,int>, ConstMap<A,Const<int,10> > >();
ConstMap<A,Const<int,10> > map6;
ConstMap<A,Const<int,10> > map7 = map6;
map6 = constMap<A,int,10>();
map7 = constMap<A,Const<int,10> >();
check(map6[A()] == 10 && map7[A()] == 10,
"Something is wrong with ConstMap");
}
// IdentityMap
{
checkConcept<ReadMap<A,A>, IdentityMap<A> >();
IdentityMap<A> map1;
IdentityMap<A> map2 = map1;
map1 = identityMap<A>();
checkConcept<ReadMap<double,double>, IdentityMap<double> >();
check(identityMap<double>()[1.0] == 1.0 &&
identityMap<double>()[3.14] == 3.14,
"Something is wrong with IdentityMap");
}
// RangeMap
{
checkConcept<ReferenceMap<int,B,B&,const B&>, RangeMap<B> >();
RangeMap<B> map1;
RangeMap<B> map2(10);
RangeMap<B> map3(10,B());
RangeMap<B> map4 = map1;
RangeMap<B> map5 = rangeMap<B>();
RangeMap<B> map6 = rangeMap<B>(10);
RangeMap<B> map7 = rangeMap(10,B());
checkConcept< ReferenceMap<int, double, double&, const double&>,
RangeMap<double> >();
std::vector<double> v(10, 0);
v[5] = 100;
RangeMap<double> map8(v);
RangeMap<double> map9 = rangeMap(v);
check(map9.size() == 10 && map9[2] == 0 && map9[5] == 100,
"Something is wrong with RangeMap");
}
// SparseMap
{
checkConcept<ReferenceMap<A,B,B&,const B&>, SparseMap<A,B> >();
SparseMap<A,B> map1;
SparseMap<A,B> map2 = B();
SparseMap<A,B> map3 = sparseMap<A,B>();
SparseMap<A,B> map4 = sparseMap<A>(B());
checkConcept< ReferenceMap<double, int, int&, const int&>,
SparseMap<double, int> >();
std::map<double, int> m;
SparseMap<double, int> map5(m);
SparseMap<double, int> map6(m,10);
SparseMap<double, int> map7 = sparseMap(m);
SparseMap<double, int> map8 = sparseMap(m,10);
check(map5[1.0] == 0 && map5[3.14] == 0 &&
map6[1.0] == 10 && map6[3.14] == 10,
"Something is wrong with SparseMap");
map5[1.0] = map6[3.14] = 100;
check(map5[1.0] == 100 && map5[3.14] == 0 &&
map6[1.0] == 10 && map6[3.14] == 100,
"Something is wrong with SparseMap");
}
// ComposeMap
{
typedef ComposeMap<DoubleMap, ReadMap<B,A> > CompMap;
checkConcept<ReadMap<B,double>, CompMap>();
CompMap map1 = CompMap(DoubleMap(),ReadMap<B,A>());
CompMap map2 = composeMap(DoubleMap(), ReadMap<B,A>());
SparseMap<double, bool> m1(false); m1[3.14] = true;
RangeMap<double> m2(2); m2[0] = 3.0; m2[1] = 3.14;
check(!composeMap(m1,m2)[0] && composeMap(m1,m2)[1],
"Something is wrong with ComposeMap")
}
// CombineMap
{
typedef CombineMap<DoubleMap, DoubleMap, std::plus<double> > CombMap;
checkConcept<ReadMap<A,double>, CombMap>();
CombMap map1 = CombMap(DoubleMap(), DoubleMap());
CombMap map2 = combineMap(DoubleMap(), DoubleMap(), std::plus<double>());
check(combineMap(constMap<B,int,2>(), identityMap<B>(), &binc)[B()] == 3,
"Something is wrong with CombineMap");
}
// FunctorToMap, MapToFunctor
{
checkConcept<ReadMap<A,B>, FunctorToMap<F,A,B> >();
checkConcept<ReadMap<A,B>, FunctorToMap<F> >();
FunctorToMap<F> map1;
FunctorToMap<F> map2 = FunctorToMap<F>(F());
B b = functorToMap(F())[A()];
checkConcept<ReadMap<A,B>, MapToFunctor<ReadMap<A,B> > >();
MapToFunctor<ReadMap<A,B> > map =
MapToFunctor<ReadMap<A,B> >(ReadMap<A,B>());
check(functorToMap(&func)[A()] == 3,
"Something is wrong with FunctorToMap");
check(mapToFunctor(constMap<A,int>(2))(A()) == 2,
"Something is wrong with MapToFunctor");
check(mapToFunctor(functorToMap(&func))(A()) == 3 &&
mapToFunctor(functorToMap(&func))[A()] == 3,
"Something is wrong with FunctorToMap or MapToFunctor");
check(functorToMap(mapToFunctor(constMap<A,int>(2)))[A()] == 2,
"Something is wrong with FunctorToMap or MapToFunctor");
}
// ConvertMap
{
checkConcept<ReadMap<double,double>,
ConvertMap<ReadMap<double, int>, double> >();
ConvertMap<RangeMap<bool>, int> map1(rangeMap(1, true));
ConvertMap<RangeMap<bool>, int> map2 = convertMap<int>(rangeMap(2, false));
}
// ForkMap
{
checkConcept<DoubleWriteMap, ForkMap<DoubleWriteMap, DoubleWriteMap> >();
typedef RangeMap<double> RM;
typedef SparseMap<int, double> SM;
RM m1(10, -1);
SM m2(-1);
checkConcept<ReadWriteMap<int, double>, ForkMap<RM, SM> >();
checkConcept<ReadWriteMap<int, double>, ForkMap<SM, RM> >();
ForkMap<RM, SM> map1(m1,m2);
ForkMap<SM, RM> map2 = forkMap(m2,m1);
map2.set(5, 10);
check(m1[1] == -1 && m1[5] == 10 && m2[1] == -1 &&
m2[5] == 10 && map2[1] == -1 && map2[5] == 10,
"Something is wrong with ForkMap");
}
// Arithmetic maps:
// - AddMap, SubMap, MulMap, DivMap
// - ShiftMap, ShiftWriteMap, ScaleMap, ScaleWriteMap
// - NegMap, NegWriteMap, AbsMap
{
checkConcept<DoubleMap, AddMap<DoubleMap,DoubleMap> >();
checkConcept<DoubleMap, SubMap<DoubleMap,DoubleMap> >();
checkConcept<DoubleMap, MulMap<DoubleMap,DoubleMap> >();
checkConcept<DoubleMap, DivMap<DoubleMap,DoubleMap> >();
ConstMap<int, double> c1(1.0), c2(3.14);
IdentityMap<int> im;
ConvertMap<IdentityMap<int>, double> id(im);
check(addMap(c1,id)[0] == 1.0 && addMap(c1,id)[10] == 11.0,
"Something is wrong with AddMap");
check(subMap(id,c1)[0] == -1.0 && subMap(id,c1)[10] == 9.0,
"Something is wrong with SubMap");
check(mulMap(id,c2)[0] == 0 && mulMap(id,c2)[2] == 6.28,
"Something is wrong with MulMap");
check(divMap(c2,id)[1] == 3.14 && divMap(c2,id)[2] == 1.57,
"Something is wrong with DivMap");
checkConcept<DoubleMap, ShiftMap<DoubleMap> >();
checkConcept<DoubleWriteMap, ShiftWriteMap<DoubleWriteMap> >();
checkConcept<DoubleMap, ScaleMap<DoubleMap> >();
checkConcept<DoubleWriteMap, ScaleWriteMap<DoubleWriteMap> >();
checkConcept<DoubleMap, NegMap<DoubleMap> >();
checkConcept<DoubleWriteMap, NegWriteMap<DoubleWriteMap> >();
checkConcept<DoubleMap, AbsMap<DoubleMap> >();
check(shiftMap(id, 2.0)[1] == 3.0 && shiftMap(id, 2.0)[10] == 12.0,
"Something is wrong with ShiftMap");
check(shiftWriteMap(id, 2.0)[1] == 3.0 &&
shiftWriteMap(id, 2.0)[10] == 12.0,
"Something is wrong with ShiftWriteMap");
check(scaleMap(id, 2.0)[1] == 2.0 && scaleMap(id, 2.0)[10] == 20.0,
"Something is wrong with ScaleMap");
check(scaleWriteMap(id, 2.0)[1] == 2.0 &&
scaleWriteMap(id, 2.0)[10] == 20.0,
"Something is wrong with ScaleWriteMap");
check(negMap(id)[1] == -1.0 && negMap(id)[-10] == 10.0,
"Something is wrong with NegMap");
check(negWriteMap(id)[1] == -1.0 && negWriteMap(id)[-10] == 10.0,
"Something is wrong with NegWriteMap");
check(absMap(id)[1] == 1.0 && absMap(id)[-10] == 10.0,
"Something is wrong with AbsMap");
}
// Logical maps:
// - TrueMap, FalseMap
// - AndMap, OrMap
// - NotMap, NotWriteMap
// - EqualMap, LessMap
{
checkConcept<BoolMap, TrueMap<A> >();
checkConcept<BoolMap, FalseMap<A> >();
checkConcept<BoolMap, AndMap<BoolMap,BoolMap> >();
checkConcept<BoolMap, OrMap<BoolMap,BoolMap> >();
checkConcept<BoolMap, NotMap<BoolMap> >();
checkConcept<BoolWriteMap, NotWriteMap<BoolWriteMap> >();
checkConcept<BoolMap, EqualMap<DoubleMap,DoubleMap> >();
checkConcept<BoolMap, LessMap<DoubleMap,DoubleMap> >();
TrueMap<int> tm;
FalseMap<int> fm;
RangeMap<bool> rm(2);
rm[0] = true; rm[1] = false;
check(andMap(tm,rm)[0] && !andMap(tm,rm)[1] &&
!andMap(fm,rm)[0] && !andMap(fm,rm)[1],
"Something is wrong with AndMap");
check(orMap(tm,rm)[0] && orMap(tm,rm)[1] &&
orMap(fm,rm)[0] && !orMap(fm,rm)[1],
"Something is wrong with OrMap");
check(!notMap(rm)[0] && notMap(rm)[1],
"Something is wrong with NotMap");
check(!notWriteMap(rm)[0] && notWriteMap(rm)[1],
"Something is wrong with NotWriteMap");
ConstMap<int, double> cm(2.0);
IdentityMap<int> im;
ConvertMap<IdentityMap<int>, double> id(im);
check(lessMap(id,cm)[1] && !lessMap(id,cm)[2] && !lessMap(id,cm)[3],
"Something is wrong with LessMap");
check(!equalMap(id,cm)[1] && equalMap(id,cm)[2] && !equalMap(id,cm)[3],
"Something is wrong with EqualMap");
}
// LoggerBoolMap
{
typedef std::vector<int> vec;
checkConcept<WriteMap<int, bool>, LoggerBoolMap<vec::iterator> >();
checkConcept<WriteMap<int, bool>,
LoggerBoolMap<std::back_insert_iterator<vec> > >();
vec v1;
vec v2(10);
LoggerBoolMap<std::back_insert_iterator<vec> >
map1(std::back_inserter(v1));
LoggerBoolMap<vec::iterator> map2(v2.begin());
map1.set(10, false);
map1.set(20, true); map2.set(20, true);
map1.set(30, false); map2.set(40, false);
map1.set(50, true); map2.set(50, true);
map1.set(60, true); map2.set(60, true);
check(v1.size() == 3 && v2.size() == 10 &&
v1[0]==20 && v1[1]==50 && v1[2]==60 &&
v2[0]==20 && v2[1]==50 && v2[2]==60,
"Something is wrong with LoggerBoolMap");
int i = 0;
for ( LoggerBoolMap<vec::iterator>::Iterator it = map2.begin();
it != map2.end(); ++it )
check(v1[i++] == *it, "Something is wrong with LoggerBoolMap");
typedef ListDigraph Graph;
DIGRAPH_TYPEDEFS(Graph);
Graph gr;
Node n0 = gr.addNode();
Node n1 = gr.addNode();
Node n2 = gr.addNode();
Node n3 = gr.addNode();
gr.addArc(n3, n0);
gr.addArc(n3, n2);
gr.addArc(n0, n2);
gr.addArc(n2, n1);
gr.addArc(n0, n1);
{
std::vector<Node> v;
dfs(gr).processedMap(loggerBoolMap(std::back_inserter(v))).run();
check(v.size()==4 && v[0]==n1 && v[1]==n2 && v[2]==n0 && v[3]==n3,
"Something is wrong with LoggerBoolMap");
}
{
std::vector<Node> v(countNodes(gr));
dfs(gr).processedMap(loggerBoolMap(v.begin())).run();
check(v.size()==4 && v[0]==n1 && v[1]==n2 && v[2]==n0 && v[3]==n3,
"Something is wrong with LoggerBoolMap");
}
}
// IdMap, RangeIdMap
{
typedef ListDigraph Graph;
DIGRAPH_TYPEDEFS(Graph);
checkConcept<ReadMap<Node, int>, IdMap<Graph, Node> >();
checkConcept<ReadMap<Arc, int>, IdMap<Graph, Arc> >();
checkConcept<ReadMap<Node, int>, RangeIdMap<Graph, Node> >();
checkConcept<ReadMap<Arc, int>, RangeIdMap<Graph, Arc> >();
Graph gr;
IdMap<Graph, Node> nmap(gr);
IdMap<Graph, Arc> amap(gr);
RangeIdMap<Graph, Node> nrmap(gr);
RangeIdMap<Graph, Arc> armap(gr);
Node n0 = gr.addNode();
Node n1 = gr.addNode();
Node n2 = gr.addNode();
Arc a0 = gr.addArc(n0, n1);
Arc a1 = gr.addArc(n0, n2);
Arc a2 = gr.addArc(n2, n1);
Arc a3 = gr.addArc(n2, n0);
check(nmap[n0] == gr.id(n0) && nmap(gr.id(n0)) == n0, "Wrong IdMap");
check(nmap[n1] == gr.id(n1) && nmap(gr.id(n1)) == n1, "Wrong IdMap");
check(nmap[n2] == gr.id(n2) && nmap(gr.id(n2)) == n2, "Wrong IdMap");
check(amap[a0] == gr.id(a0) && amap(gr.id(a0)) == a0, "Wrong IdMap");
check(amap[a1] == gr.id(a1) && amap(gr.id(a1)) == a1, "Wrong IdMap");
check(amap[a2] == gr.id(a2) && amap(gr.id(a2)) == a2, "Wrong IdMap");
check(amap[a3] == gr.id(a3) && amap(gr.id(a3)) == a3, "Wrong IdMap");
check(nmap.inverse()[gr.id(n0)] == n0, "Wrong IdMap::InverseMap");
check(amap.inverse()[gr.id(a0)] == a0, "Wrong IdMap::InverseMap");
check(nrmap.size() == 3 && armap.size() == 4,
"Wrong RangeIdMap::size()");
check(nrmap[n0] == 0 && nrmap(0) == n0, "Wrong RangeIdMap");
check(nrmap[n1] == 1 && nrmap(1) == n1, "Wrong RangeIdMap");
check(nrmap[n2] == 2 && nrmap(2) == n2, "Wrong RangeIdMap");
check(armap[a0] == 0 && armap(0) == a0, "Wrong RangeIdMap");
check(armap[a1] == 1 && armap(1) == a1, "Wrong RangeIdMap");
check(armap[a2] == 2 && armap(2) == a2, "Wrong RangeIdMap");
check(armap[a3] == 3 && armap(3) == a3, "Wrong RangeIdMap");
check(nrmap.inverse()[0] == n0, "Wrong RangeIdMap::InverseMap");
check(armap.inverse()[0] == a0, "Wrong RangeIdMap::InverseMap");
gr.erase(n1);
if (nrmap[n0] == 1) nrmap.swap(n0, n2);
nrmap.swap(n2, n0);
if (armap[a1] == 1) armap.swap(a1, a3);
armap.swap(a3, a1);
check(nrmap.size() == 2 && armap.size() == 2,
"Wrong RangeIdMap::size()");
check(nrmap[n0] == 1 && nrmap(1) == n0, "Wrong RangeIdMap");
check(nrmap[n2] == 0 && nrmap(0) == n2, "Wrong RangeIdMap");
check(armap[a1] == 1 && armap(1) == a1, "Wrong RangeIdMap");
check(armap[a3] == 0 && armap(0) == a3, "Wrong RangeIdMap");
check(nrmap.inverse()[0] == n2, "Wrong RangeIdMap::InverseMap");
check(armap.inverse()[0] == a3, "Wrong RangeIdMap::InverseMap");
}
// SourceMap, TargetMap, ForwardMap, BackwardMap, InDegMap, OutDegMap
{
typedef ListGraph Graph;
GRAPH_TYPEDEFS(Graph);
checkConcept<ReadMap<Arc, Node>, SourceMap<Graph> >();
checkConcept<ReadMap<Arc, Node>, TargetMap<Graph> >();
checkConcept<ReadMap<Edge, Arc>, ForwardMap<Graph> >();
checkConcept<ReadMap<Edge, Arc>, BackwardMap<Graph> >();
checkConcept<ReadMap<Node, int>, InDegMap<Graph> >();
checkConcept<ReadMap<Node, int>, OutDegMap<Graph> >();
Graph gr;
Node n0 = gr.addNode();
Node n1 = gr.addNode();
Node n2 = gr.addNode();
gr.addEdge(n0,n1);
gr.addEdge(n1,n2);
gr.addEdge(n0,n2);
gr.addEdge(n2,n1);
gr.addEdge(n1,n2);
gr.addEdge(n0,n1);
for (EdgeIt e(gr); e != INVALID; ++e) {
check(forwardMap(gr)[e] == gr.direct(e, true), "Wrong ForwardMap");
check(backwardMap(gr)[e] == gr.direct(e, false), "Wrong BackwardMap");
}
check(mapCompare(gr,
sourceMap(orienter(gr, constMap<Edge, bool>(true))),
targetMap(orienter(gr, constMap<Edge, bool>(false)))),
"Wrong SourceMap or TargetMap");
typedef Orienter<Graph, const ConstMap<Edge, bool> > Digraph;
Digraph dgr(gr, constMap<Edge, bool>(true));
OutDegMap<Digraph> odm(dgr);
InDegMap<Digraph> idm(dgr);
check(odm[n0] == 3 && odm[n1] == 2 && odm[n2] == 1, "Wrong OutDegMap");
check(idm[n0] == 0 && idm[n1] == 3 && idm[n2] == 3, "Wrong InDegMap");
gr.addEdge(n2, n0);
check(odm[n0] == 3 && odm[n1] == 2 && odm[n2] == 2, "Wrong OutDegMap");
check(idm[n0] == 1 && idm[n1] == 3 && idm[n2] == 3, "Wrong InDegMap");
}
// CrossRefMap
{
typedef ListDigraph Graph;
DIGRAPH_TYPEDEFS(Graph);
checkConcept<ReadWriteMap<Node, int>,
CrossRefMap<Graph, Node, int> >();
checkConcept<ReadWriteMap<Node, bool>,
CrossRefMap<Graph, Node, bool> >();
checkConcept<ReadWriteMap<Node, double>,
CrossRefMap<Graph, Node, double> >();
Graph gr;
typedef CrossRefMap<Graph, Node, char> CRMap;
CRMap map(gr);
Node n0 = gr.addNode();
Node n1 = gr.addNode();
Node n2 = gr.addNode();
map.set(n0, 'A');
map.set(n1, 'B');
map.set(n2, 'C');
check(map[n0] == 'A' && map('A') == n0 && map.inverse()['A'] == n0,
"Wrong CrossRefMap");
check(map[n1] == 'B' && map('B') == n1 && map.inverse()['B'] == n1,
"Wrong CrossRefMap");
check(map[n2] == 'C' && map('C') == n2 && map.inverse()['C'] == n2,
"Wrong CrossRefMap");
check(map.count('A') == 1 && map.count('B') == 1 && map.count('C') == 1,
"Wrong CrossRefMap::count()");
CRMap::ValueIt it = map.beginValue();
check(*it++ == 'A' && *it++ == 'B' && *it++ == 'C' &&
it == map.endValue(), "Wrong value iterator");
map.set(n2, 'A');
check(map[n0] == 'A' && map[n1] == 'B' && map[n2] == 'A',
"Wrong CrossRefMap");
check(map('A') == n0 && map.inverse()['A'] == n0, "Wrong CrossRefMap");
check(map('B') == n1 && map.inverse()['B'] == n1, "Wrong CrossRefMap");
check(map('C') == INVALID && map.inverse()['C'] == INVALID,
"Wrong CrossRefMap");
check(map.count('A') == 2 && map.count('B') == 1 && map.count('C') == 0,
"Wrong CrossRefMap::count()");
it = map.beginValue();
check(*it++ == 'A' && *it++ == 'A' && *it++ == 'B' &&
it == map.endValue(), "Wrong value iterator");
map.set(n0, 'C');
check(map[n0] == 'C' && map[n1] == 'B' && map[n2] == 'A',
"Wrong CrossRefMap");
check(map('A') == n2 && map.inverse()['A'] == n2, "Wrong CrossRefMap");
check(map('B') == n1 && map.inverse()['B'] == n1, "Wrong CrossRefMap");
check(map('C') == n0 && map.inverse()['C'] == n0, "Wrong CrossRefMap");
check(map.count('A') == 1 && map.count('B') == 1 && map.count('C') == 1,
"Wrong CrossRefMap::count()");
it = map.beginValue();
check(*it++ == 'A' && *it++ == 'B' && *it++ == 'C' &&
it == map.endValue(), "Wrong value iterator");
}
// CrossRefMap
{
typedef SmartDigraph Graph;
DIGRAPH_TYPEDEFS(Graph);
checkConcept<ReadWriteMap<Node, int>,
CrossRefMap<Graph, Node, int> >();
Graph gr;
typedef CrossRefMap<Graph, Node, char> CRMap;
typedef CRMap::ValueIterator ValueIt;
CRMap map(gr);
Node n0 = gr.addNode();
Node n1 = gr.addNode();
Node n2 = gr.addNode();
map.set(n0, 'A');
map.set(n1, 'B');
map.set(n2, 'C');
map.set(n2, 'A');
map.set(n0, 'C');
check(map[n0] == 'C' && map[n1] == 'B' && map[n2] == 'A',
"Wrong CrossRefMap");
check(map('A') == n2 && map.inverse()['A'] == n2, "Wrong CrossRefMap");
check(map('B') == n1 && map.inverse()['B'] == n1, "Wrong CrossRefMap");
check(map('C') == n0 && map.inverse()['C'] == n0, "Wrong CrossRefMap");
ValueIt it = map.beginValue();
check(*it++ == 'A' && *it++ == 'B' && *it++ == 'C' &&
it == map.endValue(), "Wrong value iterator");
}
// Iterable bool map
{
typedef SmartGraph Graph;
typedef SmartGraph::Node Item;
typedef IterableBoolMap<SmartGraph, SmartGraph::Node> Ibm;
checkConcept<ReferenceMap<Item, bool, bool&, const bool&>, Ibm>();
const int num = 10;
Graph g;
std::vector<Item> items;
for (int i = 0; i < num; ++i) {
items.push_back(g.addNode());
}
Ibm map1(g, true);
int n = 0;
for (Ibm::TrueIt it(map1); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)], "Wrong TrueIt");
++n;
}
check(n == num, "Wrong number");
n = 0;
for (Ibm::ItemIt it(map1, true); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)], "Wrong ItemIt for true");
++n;
}
check(n == num, "Wrong number");
check(Ibm::FalseIt(map1) == INVALID, "Wrong FalseIt");
check(Ibm::ItemIt(map1, false) == INVALID, "Wrong ItemIt for false");
map1[items[5]] = true;
n = 0;
for (Ibm::ItemIt it(map1, true); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)], "Wrong ItemIt for true");
++n;
}
check(n == num, "Wrong number");
map1[items[num / 2]] = false;
check(map1[items[num / 2]] == false, "Wrong map value");
n = 0;
for (Ibm::TrueIt it(map1); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)], "Wrong TrueIt for true");
++n;
}
check(n == num - 1, "Wrong number");
n = 0;
for (Ibm::FalseIt it(map1); it != INVALID; ++it) {
check(!map1[static_cast<Item>(it)], "Wrong FalseIt for true");
++n;
}
check(n == 1, "Wrong number");
map1[items[0]] = false;
check(map1[items[0]] == false, "Wrong map value");
map1[items[num - 1]] = false;
check(map1[items[num - 1]] == false, "Wrong map value");
n = 0;
for (Ibm::TrueIt it(map1); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)], "Wrong TrueIt for true");
++n;
}
check(n == num - 3, "Wrong number");
check(map1.trueNum() == num - 3, "Wrong number");
n = 0;
for (Ibm::FalseIt it(map1); it != INVALID; ++it) {
check(!map1[static_cast<Item>(it)], "Wrong FalseIt for true");
++n;
}
check(n == 3, "Wrong number");
check(map1.falseNum() == 3, "Wrong number");
}
// Iterable int map
{
typedef SmartGraph Graph;
typedef SmartGraph::Node Item;
typedef IterableIntMap<SmartGraph, SmartGraph::Node> Iim;
checkConcept<ReferenceMap<Item, int, int&, const int&>, Iim>();
const int num = 10;
Graph g;
std::vector<Item> items;
for (int i = 0; i < num; ++i) {
items.push_back(g.addNode());
}
Iim map1(g);
check(map1.size() == 0, "Wrong size");
for (int i = 0; i < num; ++i) {
map1[items[i]] = i;
}
check(map1.size() == num, "Wrong size");
for (int i = 0; i < num; ++i) {
Iim::ItemIt it(map1, i);
check(static_cast<Item>(it) == items[i], "Wrong value");
++it;
check(static_cast<Item>(it) == INVALID, "Wrong value");
}
for (int i = 0; i < num; ++i) {
map1[items[i]] = i % 2;
}
check(map1.size() == 2, "Wrong size");
int n = 0;
for (Iim::ItemIt it(map1, 0); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)] == 0, "Wrong value");
++n;
}
check(n == (num + 1) / 2, "Wrong number");
for (Iim::ItemIt it(map1, 1); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)] == 1, "Wrong value");
++n;
}
check(n == num, "Wrong number");
}
// Iterable value map
{
typedef SmartGraph Graph;
typedef SmartGraph::Node Item;
typedef IterableValueMap<SmartGraph, SmartGraph::Node, double> Ivm;
checkConcept<ReadWriteMap<Item, double>, Ivm>();
const int num = 10;
Graph g;
std::vector<Item> items;
for (int i = 0; i < num; ++i) {
items.push_back(g.addNode());
}
Ivm map1(g, 0.0);
check(distance(map1.beginValue(), map1.endValue()) == 1, "Wrong size");
check(*map1.beginValue() == 0.0, "Wrong value");
for (int i = 0; i < num; ++i) {
map1.set(items[i], static_cast<double>(i));
}
check(distance(map1.beginValue(), map1.endValue()) == num, "Wrong size");
for (int i = 0; i < num; ++i) {
Ivm::ItemIt it(map1, static_cast<double>(i));
check(static_cast<Item>(it) == items[i], "Wrong value");
++it;
check(static_cast<Item>(it) == INVALID, "Wrong value");
}
for (Ivm::ValueIt vit = map1.beginValue();
vit != map1.endValue(); ++vit) {
check(map1[static_cast<Item>(Ivm::ItemIt(map1, *vit))] == *vit,
"Wrong ValueIt");
}
for (int i = 0; i < num; ++i) {
map1.set(items[i], static_cast<double>(i % 2));
}
check(distance(map1.beginValue(), map1.endValue()) == 2, "Wrong size");
int n = 0;
for (Ivm::ItemIt it(map1, 0.0); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)] == 0.0, "Wrong value");
++n;
}
check(n == (num + 1) / 2, "Wrong number");
for (Ivm::ItemIt it(map1, 1.0); it != INVALID; ++it) {
check(map1[static_cast<Item>(it)] == 1.0, "Wrong value");
++n;
}
check(n == num, "Wrong number");
}
// Graph map utilities:
// mapMin(), mapMax(), mapMinValue(), mapMaxValue()
// mapFind(), mapFindIf(), mapCount(), mapCountIf()
// mapCopy(), mapCompare(), mapFill()
{
DIGRAPH_TYPEDEFS(SmartDigraph);
SmartDigraph g;
Node n1 = g.addNode();
Node n2 = g.addNode();
Node n3 = g.addNode();
SmartDigraph::NodeMap<int> map1(g);
SmartDigraph::ArcMap<char> map2(g);
ConstMap<Node, A> cmap1 = A();
ConstMap<Arc, C> cmap2 = C(0);
map1[n1] = 10;
map1[n2] = 5;
map1[n3] = 12;
// mapMin(), mapMax(), mapMinValue(), mapMaxValue()
check(mapMin(g, map1) == n2, "Wrong mapMin()");
check(mapMax(g, map1) == n3, "Wrong mapMax()");
check(mapMin(g, map1, std::greater<int>()) == n3, "Wrong mapMin()");
check(mapMax(g, map1, std::greater<int>()) == n2, "Wrong mapMax()");
check(mapMinValue(g, map1) == 5, "Wrong mapMinValue()");
check(mapMaxValue(g, map1) == 12, "Wrong mapMaxValue()");
check(mapMin(g, map2) == INVALID, "Wrong mapMin()");
check(mapMax(g, map2) == INVALID, "Wrong mapMax()");
check(mapMin(g, cmap1) != INVALID, "Wrong mapMin()");
check(mapMax(g, cmap2) == INVALID, "Wrong mapMax()");
Arc a1 = g.addArc(n1, n2);
Arc a2 = g.addArc(n1, n3);
Arc a3 = g.addArc(n2, n3);
Arc a4 = g.addArc(n3, n1);
map2[a1] = 'b';
map2[a2] = 'a';
map2[a3] = 'b';
map2[a4] = 'c';
// mapMin(), mapMax(), mapMinValue(), mapMaxValue()
check(mapMin(g, map2) == a2, "Wrong mapMin()");
check(mapMax(g, map2) == a4, "Wrong mapMax()");
check(mapMin(g, map2, std::greater<int>()) == a4, "Wrong mapMin()");
check(mapMax(g, map2, std::greater<int>()) == a2, "Wrong mapMax()");
check(mapMinValue(g, map2, std::greater<int>()) == 'c',
"Wrong mapMinValue()");
check(mapMaxValue(g, map2, std::greater<int>()) == 'a',
"Wrong mapMaxValue()");
check(mapMin(g, cmap1) != INVALID, "Wrong mapMin()");
check(mapMax(g, cmap2) != INVALID, "Wrong mapMax()");
check(mapMaxValue(g, cmap2) == C(0), "Wrong mapMaxValue()");
check(mapMin(g, composeMap(functorToMap(&createC), map2)) == a2,
"Wrong mapMin()");
check(mapMax(g, composeMap(functorToMap(&createC), map2)) == a4,
"Wrong mapMax()");
check(mapMinValue(g, composeMap(functorToMap(&createC), map2)) == C('a'),
"Wrong mapMinValue()");
check(mapMaxValue(g, composeMap(functorToMap(&createC), map2)) == C('c'),
"Wrong mapMaxValue()");
// mapFind(), mapFindIf()
check(mapFind(g, map1, 5) == n2, "Wrong mapFind()");
check(mapFind(g, map1, 6) == INVALID, "Wrong mapFind()");
check(mapFind(g, map2, 'a') == a2, "Wrong mapFind()");
check(mapFind(g, map2, 'e') == INVALID, "Wrong mapFind()");
check(mapFind(g, cmap2, C(0)) == ArcIt(g), "Wrong mapFind()");
check(mapFind(g, cmap2, C(1)) == INVALID, "Wrong mapFind()");
check(mapFindIf(g, map1, Less<int>(7)) == n2,
"Wrong mapFindIf()");
check(mapFindIf(g, map1, Less<int>(5)) == INVALID,
"Wrong mapFindIf()");
check(mapFindIf(g, map2, Less<char>('d')) == ArcIt(g),
"Wrong mapFindIf()");
check(mapFindIf(g, map2, Less<char>('a')) == INVALID,
"Wrong mapFindIf()");
// mapCount(), mapCountIf()
check(mapCount(g, map1, 5) == 1, "Wrong mapCount()");
check(mapCount(g, map1, 6) == 0, "Wrong mapCount()");
check(mapCount(g, map2, 'a') == 1, "Wrong mapCount()");
check(mapCount(g, map2, 'b') == 2, "Wrong mapCount()");
check(mapCount(g, map2, 'e') == 0, "Wrong mapCount()");
check(mapCount(g, cmap2, C(0)) == 4, "Wrong mapCount()");
check(mapCount(g, cmap2, C(1)) == 0, "Wrong mapCount()");
check(mapCountIf(g, map1, Less<int>(11)) == 2,
"Wrong mapCountIf()");
check(mapCountIf(g, map1, Less<int>(13)) == 3,
"Wrong mapCountIf()");
check(mapCountIf(g, map1, Less<int>(5)) == 0,
"Wrong mapCountIf()");
check(mapCountIf(g, map2, Less<char>('d')) == 4,
"Wrong mapCountIf()");
check(mapCountIf(g, map2, Less<char>('c')) == 3,
"Wrong mapCountIf()");
check(mapCountIf(g, map2, Less<char>('a')) == 0,
"Wrong mapCountIf()");
// MapIt, ConstMapIt
/*
These tests can be used after applying bugfix #330
typedef SmartDigraph::NodeMap<int>::MapIt MapIt;
typedef SmartDigraph::NodeMap<int>::ConstMapIt ConstMapIt;
check(*std::min_element(MapIt(map1), MapIt(INVALID)) == 5,
"Wrong NodeMap<>::MapIt");
check(*std::max_element(ConstMapIt(map1), ConstMapIt(INVALID)) == 12,
"Wrong NodeMap<>::MapIt");
int sum = 0;
std::for_each(MapIt(map1), MapIt(INVALID), Sum<int>(sum));
check(sum == 27, "Wrong NodeMap<>::MapIt");
std::for_each(ConstMapIt(map1), ConstMapIt(INVALID), Sum<int>(sum));
check(sum == 54, "Wrong NodeMap<>::ConstMapIt");
*/
// mapCopy(), mapCompare(), mapFill()
check(mapCompare(g, map1, map1), "Wrong mapCompare()");
check(mapCompare(g, cmap2, cmap2), "Wrong mapCompare()");
check(mapCompare(g, map1, shiftMap(map1, 0)), "Wrong mapCompare()");
check(mapCompare(g, map2, scaleMap(map2, 1)), "Wrong mapCompare()");
check(!mapCompare(g, map1, shiftMap(map1, 1)), "Wrong mapCompare()");
SmartDigraph::NodeMap<int> map3(g, 0);
SmartDigraph::ArcMap<char> map4(g, 'a');
check(!mapCompare(g, map1, map3), "Wrong mapCompare()");
check(!mapCompare(g, map2, map4), "Wrong mapCompare()");
mapCopy(g, map1, map3);
mapCopy(g, map2, map4);
check(mapCompare(g, map1, map3), "Wrong mapCompare() or mapCopy()");
check(mapCompare(g, map2, map4), "Wrong mapCompare() or mapCopy()");
Undirector<SmartDigraph> ug(g);
Undirector<SmartDigraph>::EdgeMap<char> umap1(ug, 'x');
Undirector<SmartDigraph>::ArcMap<double> umap2(ug, 3.14);
check(!mapCompare(g, map2, umap1), "Wrong mapCompare() or mapCopy()");
check(!mapCompare(g, umap1, map2), "Wrong mapCompare() or mapCopy()");
check(!mapCompare(ug, map2, umap1), "Wrong mapCompare() or mapCopy()");
check(!mapCompare(ug, umap1, map2), "Wrong mapCompare() or mapCopy()");
mapCopy(g, map2, umap1);
check(mapCompare(g, map2, umap1), "Wrong mapCompare() or mapCopy()");
check(mapCompare(g, umap1, map2), "Wrong mapCompare() or mapCopy()");
check(mapCompare(ug, map2, umap1), "Wrong mapCompare() or mapCopy()");
check(mapCompare(ug, umap1, map2), "Wrong mapCompare() or mapCopy()");
mapCopy(g, map2, umap1);
mapCopy(g, umap1, map2);
mapCopy(ug, map2, umap1);
mapCopy(ug, umap1, map2);
check(!mapCompare(ug, umap1, umap2), "Wrong mapCompare() or mapCopy()");
mapCopy(ug, umap1, umap2);
check(mapCompare(ug, umap1, umap2), "Wrong mapCompare() or mapCopy()");
check(!mapCompare(g, map1, constMap<Node>(2)), "Wrong mapCompare()");
mapFill(g, map1, 2);
check(mapCompare(g, constMap<Node>(2), map1), "Wrong mapFill()");
check(!mapCompare(g, map2, constMap<Arc>('z')), "Wrong mapCompare()");
mapCopy(g, constMap<Arc>('z'), map2);
check(mapCompare(g, constMap<Arc>('z'), map2), "Wrong mapCopy()");
}
return 0;
}