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Differential D5594 Diff 18104 extern/quadriflow/3rd/lemon-1.3.1/test/graph_test.h

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extern/quadriflow/3rd/lemon-1.3.1/test/graph_test.h

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/* -*- mode: C++; indent-tabs-mode: nil; -*-
*
* This file is a part of LEMON, a generic C++ optimization library.
*
* Copyright (C) 2003-2013
* 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.
*
*/
#ifndef LEMON_TEST_GRAPH_TEST_H
#define LEMON_TEST_GRAPH_TEST_H
#include <set>
#include <lemon/core.h>
#include <lemon/maps.h>
#include "test_tools.h"
namespace lemon {
template<class Graph>
void checkGraphNodeList(const Graph &G, int cnt)
{
typename Graph::NodeIt n(G);
for(int i=0;i<cnt;i++) {
check(n!=INVALID,"Wrong Node list linking.");
++n;
}
check(n==INVALID,"Wrong Node list linking.");
check(countNodes(G)==cnt,"Wrong Node number.");
}
template<class Graph>
void checkGraphRedNodeList(const Graph &G, int cnt)
{
typename Graph::RedNodeIt n(G);
for(int i=0;i<cnt;i++) {
check(n!=INVALID,"Wrong red Node list linking.");
check(G.red(n),"Wrong node set check.");
check(!G.blue(n),"Wrong node set check.");
typename Graph::Node nn = n;
check(G.asRedNodeUnsafe(nn) == n,"Wrong node conversion.");
check(G.asRedNode(nn) == n,"Wrong node conversion.");
check(G.asBlueNode(nn) == INVALID,"Wrong node conversion.");
++n;
}
check(n==INVALID,"Wrong red Node list linking.");
check(countRedNodes(G)==cnt,"Wrong red Node number.");
}
template<class Graph>
void checkGraphBlueNodeList(const Graph &G, int cnt)
{
typename Graph::BlueNodeIt n(G);
for(int i=0;i<cnt;i++) {
check(n!=INVALID,"Wrong blue Node list linking.");
check(G.blue(n),"Wrong node set check.");
check(!G.red(n),"Wrong node set check.");
typename Graph::Node nn = n;
check(G.asBlueNodeUnsafe(nn) == n,"Wrong node conversion.");
check(G.asBlueNode(nn) == n,"Wrong node conversion.");
check(G.asRedNode(nn) == INVALID,"Wrong node conversion.");
++n;
}
check(n==INVALID,"Wrong blue Node list linking.");
check(countBlueNodes(G)==cnt,"Wrong blue Node number.");
}
template<class Graph>
void checkGraphArcList(const Graph &G, int cnt)
{
typename Graph::ArcIt e(G);
for(int i=0;i<cnt;i++) {
check(e!=INVALID,"Wrong Arc list linking.");
check(G.oppositeNode(G.source(e), e) == G.target(e),
"Wrong opposite node");
check(G.oppositeNode(G.target(e), e) == G.source(e),
"Wrong opposite node");
++e;
}
check(e==INVALID,"Wrong Arc list linking.");
check(countArcs(G)==cnt,"Wrong Arc number.");
}
template<class Graph>
void checkGraphOutArcList(const Graph &G, typename Graph::Node n, int cnt)
{
typename Graph::OutArcIt e(G,n);
for(int i=0;i<cnt;i++) {
check(e!=INVALID,"Wrong OutArc list linking.");
check(n==G.source(e),"Wrong OutArc list linking.");
check(n==G.baseNode(e),"Wrong OutArc list linking.");
check(G.target(e)==G.runningNode(e),"Wrong OutArc list linking.");
++e;
}
check(e==INVALID,"Wrong OutArc list linking.");
check(countOutArcs(G,n)==cnt,"Wrong OutArc number.");
}
template<class Graph>
void checkGraphInArcList(const Graph &G, typename Graph::Node n, int cnt)
{
typename Graph::InArcIt e(G,n);
for(int i=0;i<cnt;i++) {
check(e!=INVALID,"Wrong InArc list linking.");
check(n==G.target(e),"Wrong InArc list linking.");
check(n==G.baseNode(e),"Wrong OutArc list linking.");
check(G.source(e)==G.runningNode(e),"Wrong OutArc list linking.");
++e;
}
check(e==INVALID,"Wrong InArc list linking.");
check(countInArcs(G,n)==cnt,"Wrong InArc number.");
}
template<class Graph>
void checkGraphEdgeList(const Graph &G, int cnt)
{
typename Graph::EdgeIt e(G);
for(int i=0;i<cnt;i++) {
check(e!=INVALID,"Wrong Edge list linking.");
check(G.oppositeNode(G.u(e), e) == G.v(e), "Wrong opposite node");
check(G.oppositeNode(G.v(e), e) == G.u(e), "Wrong opposite node");
++e;
}
check(e==INVALID,"Wrong Edge list linking.");
check(countEdges(G)==cnt,"Wrong Edge number.");
}
template<class Graph>
void checkGraphIncEdgeList(const Graph &G, typename Graph::Node n, int cnt)
{
typename Graph::IncEdgeIt e(G,n);
for(int i=0;i<cnt;i++) {
check(e!=INVALID,"Wrong IncEdge list linking.");
check(n==G.u(e) || n==G.v(e),"Wrong IncEdge list linking.");
check(n==G.baseNode(e),"Wrong OutArc list linking.");
check(G.u(e)==G.runningNode(e) || G.v(e)==G.runningNode(e),
"Wrong OutArc list linking.");
++e;
}
check(e==INVALID,"Wrong IncEdge list linking.");
check(countIncEdges(G,n)==cnt,"Wrong IncEdge number.");
}
template <class Graph>
void checkGraphIncEdgeArcLists(const Graph &G, typename Graph::Node n,
int cnt)
{
checkGraphIncEdgeList(G, n, cnt);
checkGraphOutArcList(G, n, cnt);
checkGraphInArcList(G, n, cnt);
}
template <class Graph>
void checkGraphConArcList(const Graph &G, int cnt) {
int i = 0;
for (typename Graph::NodeIt u(G); u != INVALID; ++u) {
for (typename Graph::NodeIt v(G); v != INVALID; ++v) {
for (ConArcIt<Graph> a(G, u, v); a != INVALID; ++a) {
check(G.source(a) == u, "Wrong iterator.");
check(G.target(a) == v, "Wrong iterator.");
++i;
}
}
}
check(cnt == i, "Wrong iterator.");
}
template <class Graph>
void checkGraphConEdgeList(const Graph &G, int cnt) {
int i = 0;
for (typename Graph::NodeIt u(G); u != INVALID; ++u) {
for (typename Graph::NodeIt v(G); v != INVALID; ++v) {
for (ConEdgeIt<Graph> e(G, u, v); e != INVALID; ++e) {
check((G.u(e) == u && G.v(e) == v) ||
(G.u(e) == v && G.v(e) == u), "Wrong iterator.");
i += u == v ? 2 : 1;
}
}
}
check(2 * cnt == i, "Wrong iterator.");
}
template <typename Graph>
void checkArcDirections(const Graph& G) {
for (typename Graph::ArcIt a(G); a != INVALID; ++a) {
check(G.source(a) == G.target(G.oppositeArc(a)), "Wrong direction");
check(G.target(a) == G.source(G.oppositeArc(a)), "Wrong direction");
check(G.direct(a, G.direction(a)) == a, "Wrong direction");
}
}
template <typename Graph>
void checkNodeIds(const Graph& G) {
typedef typename Graph::Node Node;
std::set<int> values;
for (typename Graph::NodeIt n(G); n != INVALID; ++n) {
check(G.nodeFromId(G.id(n)) == n, "Wrong id");
check(values.find(G.id(n)) == values.end(), "Wrong id");
check(G.id(n) <= G.maxNodeId(), "Wrong maximum id");
values.insert(G.id(n));
}
check(G.maxId(Node()) <= G.maxNodeId(), "Wrong maximum id");
}
template <typename Graph>
void checkRedNodeIds(const Graph& G) {
typedef typename Graph::RedNode RedNode;
std::set<int> values;
for (typename Graph::RedNodeIt n(G); n != INVALID; ++n) {
check(G.red(n), "Wrong partition");
check(values.find(G.id(n)) == values.end(), "Wrong id");
check(G.id(n) <= G.maxRedId(), "Wrong maximum id");
values.insert(G.id(n));
}
check(G.maxId(RedNode()) == G.maxRedId(), "Wrong maximum id");
}
template <typename Graph>
void checkBlueNodeIds(const Graph& G) {
typedef typename Graph::BlueNode BlueNode;
std::set<int> values;
for (typename Graph::BlueNodeIt n(G); n != INVALID; ++n) {
check(G.blue(n), "Wrong partition");
check(values.find(G.id(n)) == values.end(), "Wrong id");
check(G.id(n) <= G.maxBlueId(), "Wrong maximum id");
values.insert(G.id(n));
}
check(G.maxId(BlueNode()) == G.maxBlueId(), "Wrong maximum id");
}
template <typename Graph>
void checkArcIds(const Graph& G) {
typedef typename Graph::Arc Arc;
std::set<int> values;
for (typename Graph::ArcIt a(G); a != INVALID; ++a) {
check(G.arcFromId(G.id(a)) == a, "Wrong id");
check(values.find(G.id(a)) == values.end(), "Wrong id");
check(G.id(a) <= G.maxArcId(), "Wrong maximum id");
values.insert(G.id(a));
}
check(G.maxId(Arc()) <= G.maxArcId(), "Wrong maximum id");
}
template <typename Graph>
void checkEdgeIds(const Graph& G) {
typedef typename Graph::Edge Edge;
std::set<int> values;
for (typename Graph::EdgeIt e(G); e != INVALID; ++e) {
check(G.edgeFromId(G.id(e)) == e, "Wrong id");
check(values.find(G.id(e)) == values.end(), "Wrong id");
check(G.id(e) <= G.maxEdgeId(), "Wrong maximum id");
values.insert(G.id(e));
}
check(G.maxId(Edge()) <= G.maxEdgeId(), "Wrong maximum id");
}
template <typename Graph>
void checkGraphNodeMap(const Graph& G) {
typedef typename Graph::Node Node;
typedef typename Graph::NodeIt NodeIt;
typedef typename Graph::template NodeMap<int> IntNodeMap;
IntNodeMap map(G, 42);
for (NodeIt it(G); it != INVALID; ++it) {
check(map[it] == 42, "Wrong map constructor.");
}
int s = 0;
for (NodeIt it(G); it != INVALID; ++it) {
map[it] = 0;
check(map[it] == 0, "Wrong operator[].");
map.set(it, s);
check(map[it] == s, "Wrong set.");
++s;
}
s = s * (s - 1) / 2;
for (NodeIt it(G); it != INVALID; ++it) {
s -= map[it];
}
check(s == 0, "Wrong sum.");
// map = constMap<Node>(12);
// for (NodeIt it(G); it != INVALID; ++it) {
// check(map[it] == 12, "Wrong operator[].");
// }
}
template <typename Graph>
void checkGraphRedNodeMap(const Graph& G) {
typedef typename Graph::Node Node;
typedef typename Graph::RedNodeIt RedNodeIt;
typedef typename Graph::template RedNodeMap<int> IntRedNodeMap;
IntRedNodeMap map(G, 42);
for (RedNodeIt it(G); it != INVALID; ++it) {
check(map[it] == 42, "Wrong map constructor.");
}
int s = 0;
for (RedNodeIt it(G); it != INVALID; ++it) {
map[it] = 0;
check(map[it] == 0, "Wrong operator[].");
map.set(it, s);
check(map[it] == s, "Wrong set.");
++s;
}
s = s * (s - 1) / 2;
for (RedNodeIt it(G); it != INVALID; ++it) {
s -= map[it];
}
check(s == 0, "Wrong sum.");
// map = constMap<Node>(12);
// for (NodeIt it(G); it != INVALID; ++it) {
// check(map[it] == 12, "Wrong operator[].");
// }
}
template <typename Graph>
void checkGraphBlueNodeMap(const Graph& G) {
typedef typename Graph::Node Node;
typedef typename Graph::BlueNodeIt BlueNodeIt;
typedef typename Graph::template BlueNodeMap<int> IntBlueNodeMap;
IntBlueNodeMap map(G, 42);
for (BlueNodeIt it(G); it != INVALID; ++it) {
check(map[it] == 42, "Wrong map constructor.");
}
int s = 0;
for (BlueNodeIt it(G); it != INVALID; ++it) {
map[it] = 0;
check(map[it] == 0, "Wrong operator[].");
map.set(it, s);
check(map[it] == s, "Wrong set.");
++s;
}
s = s * (s - 1) / 2;
for (BlueNodeIt it(G); it != INVALID; ++it) {
s -= map[it];
}
check(s == 0, "Wrong sum.");
// map = constMap<Node>(12);
// for (NodeIt it(G); it != INVALID; ++it) {
// check(map[it] == 12, "Wrong operator[].");
// }
}
template <typename Graph>
void checkGraphArcMap(const Graph& G) {
typedef typename Graph::Arc Arc;
typedef typename Graph::ArcIt ArcIt;
typedef typename Graph::template ArcMap<int> IntArcMap;
IntArcMap map(G, 42);
for (ArcIt it(G); it != INVALID; ++it) {
check(map[it] == 42, "Wrong map constructor.");
}
int s = 0;
for (ArcIt it(G); it != INVALID; ++it) {
map[it] = 0;
check(map[it] == 0, "Wrong operator[].");
map.set(it, s);
check(map[it] == s, "Wrong set.");
++s;
}
s = s * (s - 1) / 2;
for (ArcIt it(G); it != INVALID; ++it) {
s -= map[it];
}
check(s == 0, "Wrong sum.");
// map = constMap<Arc>(12);
// for (ArcIt it(G); it != INVALID; ++it) {
// check(map[it] == 12, "Wrong operator[].");
// }
}
template <typename Graph>
void checkGraphEdgeMap(const Graph& G) {
typedef typename Graph::Edge Edge;
typedef typename Graph::EdgeIt EdgeIt;
typedef typename Graph::template EdgeMap<int> IntEdgeMap;
IntEdgeMap map(G, 42);
for (EdgeIt it(G); it != INVALID; ++it) {
check(map[it] == 42, "Wrong map constructor.");
}
int s = 0;
for (EdgeIt it(G); it != INVALID; ++it) {
map[it] = 0;
check(map[it] == 0, "Wrong operator[].");
map.set(it, s);
check(map[it] == s, "Wrong set.");
++s;
}
s = s * (s - 1) / 2;
for (EdgeIt it(G); it != INVALID; ++it) {
s -= map[it];
}
check(s == 0, "Wrong sum.");
// map = constMap<Edge>(12);
// for (EdgeIt it(G); it != INVALID; ++it) {
// check(map[it] == 12, "Wrong operator[].");
// }
}
} //namespace lemon
#endif