lemon-0.x: src/test/graph_test.cc@efaa79ee8d14 (annotated)

alpar@503	1	#include<iostream>
ladanyi@542	2	#include<hugo/smart_graph.h>
alpar@564	3	#include<hugo/skeletons/graph.h>
alpar@567	4	#include"test_tools.h"
alpar@567	5
alpar@550	6	//#include<../work/alpar/list_graph.h>
alpar@503	7
alpar@503	8	/*
alpar@503	9	This test makes consistency checks of list graph structures.
alpar@503	10
alpar@503	11	G.addNode(), G.addEdge(), G.valid(), G.tail(), G.head()
alpar@503	12
alpar@503	13	*/
alpar@503	14
alpar@503	15	using namespace hugo;
alpar@503	16
alpar@503	17	template<class Graph> void checkCompile(Graph &G)
alpar@503	18	{
alpar@503	19	typedef typename Graph::Node Node;
alpar@503	20	typedef typename Graph::NodeIt NodeIt;
alpar@503	21	typedef typename Graph::Edge Edge;
alpar@503	22	typedef typename Graph::EdgeIt EdgeIt;
alpar@503	23	typedef typename Graph::InEdgeIt InEdgeIt;
alpar@503	24	typedef typename Graph::OutEdgeIt OutEdgeIt;
alpar@503	25
alpar@503	26	{
alpar@503	27	Node i; Node j(i); Node k(INVALID);
alpar@503	28	i=j;
alpar@503	29	bool b=G.valid(i); b=b;
alpar@503	30	b=(i==j); b=(i!=j); b=(i<j);
alpar@503	31	}
alpar@503	32	{
alpar@503	33	NodeIt i; NodeIt j(i); NodeIt k(INVALID); NodeIt l(G);
alpar@503	34	i=j;
alpar@503	35	j=G.first(i);
alpar@503	36	j=G.next(i);
alpar@503	37	bool b=G.valid(i); b=b;
alpar@503	38	Node n(i);
alpar@503	39	n=i;
alpar@503	40	b=(i==j); b=(i!=j); b=(i<j);
alpar@503	41	}
alpar@503	42	{
alpar@503	43	Edge i; Edge j(i); Edge k(INVALID);
alpar@503	44	i=j;
alpar@503	45	bool b=G.valid(i); b=b;
alpar@503	46	b=(i==j); b=(i!=j); b=(i<j);
alpar@503	47	}
alpar@503	48	{
alpar@503	49	EdgeIt i; EdgeIt j(i); EdgeIt k(INVALID); EdgeIt l(G);
alpar@503	50	i=j;
alpar@503	51	j=G.first(i);
alpar@503	52	j=G.next(i);
alpar@503	53	bool b=G.valid(i); b=b;
alpar@503	54	Edge e(i);
alpar@503	55	e=i;
alpar@503	56	b=(i==j); b=(i!=j); b=(i<j);
alpar@503	57	}
alpar@503	58	{
alpar@503	59	Node n;
alpar@503	60	InEdgeIt i; InEdgeIt j(i); InEdgeIt k(INVALID); InEdgeIt l(G,n);
alpar@503	61	i=j;
alpar@503	62	j=G.first(i,n);
alpar@503	63	j=G.next(i);
alpar@503	64	bool b=G.valid(i); b=b;
alpar@503	65	Edge e(i);
alpar@503	66	e=i;
alpar@503	67	b=(i==j); b=(i!=j); b=(i<j);
alpar@503	68	}
alpar@503	69	{
alpar@503	70	Node n;
alpar@503	71	OutEdgeIt i; OutEdgeIt j(i); OutEdgeIt k(INVALID); OutEdgeIt l(G,n);
alpar@503	72	i=j;
alpar@503	73	j=G.first(i,n);
alpar@503	74	j=G.next(i);
alpar@503	75	bool b=G.valid(i); b=b;
alpar@503	76	Edge e(i);
alpar@503	77	e=i;
alpar@503	78	b=(i==j); b=(i!=j); b=(i<j);
alpar@503	79	}
alpar@503	80
alpar@503	81	Node n,m;
alpar@503	82	n=G.addNode();
alpar@503	83	Edge e;
alpar@503	84	e=G.addEdge(n,m);
alpar@503	85	n=G.tail(e);
alpar@503	86	n=G.head(e);
alpar@503	87
alpar@503	88	//aNode, bNode ?
alpar@503	89
alpar@503	90	// id tests
alpar@503	91	{ int i=G.id(n); i=i; }
alpar@503	92	{ int i=G.id(e); i=i; }
alpar@503	93
alpar@503	94	G.clear();
alpar@503	95
alpar@503	96	//NodeMap tests
alpar@503	97	{
alpar@503	98	Node k;
alpar@515	99	typename Graph::template NodeMap<int> m(G);
alpar@515	100	typename Graph::template NodeMap<int> const &cm = m; //Const map
alpar@515	101	//Inicialize with default value
alpar@515	102	typename Graph::template NodeMap<int> mdef(G,12);
alpar@515	103	typename Graph::template NodeMap<int> mm(cm); //Copy
alpar@515	104	typename Graph::template NodeMap<double> dm(cm); //Copy from another type
alpar@503	105	int v;
alpar@503	106	v=m[k]; m[k]=v; m.set(k,v);
alpar@503	107	v=cm[k];
alpar@503	108
alpar@503	109	m=cm;
alpar@503	110	dm=cm; //Copy from another type
alpar@503	111	}
alpar@503	112	{ //bool NodeMap
alpar@503	113	Node k;
alpar@515	114	typename Graph::template NodeMap<bool> m(G);
alpar@515	115	typename Graph::template NodeMap<bool> const &cm = m; //Const map
alpar@515	116	//Inicialize with default value
alpar@515	117	typename Graph::template NodeMap<bool> mdef(G,12);
alpar@515	118	typename Graph::template NodeMap<bool> mm(cm); //Copy
alpar@515	119	typename Graph::template NodeMap<int> dm(cm); //Copy from another type
alpar@503	120	bool v;
alpar@503	121	v=m[k]; m[k]=v; m.set(k,v);
alpar@503	122	v=cm[k];
alpar@503	123
alpar@503	124	m=cm;
alpar@503	125	dm=cm; //Copy from another type
alpar@504	126	m=dm; //Copy to another type
alpar@503	127	}
alpar@503	128	//EdgeMap tests
alpar@503	129	{
alpar@503	130	Edge k;
alpar@515	131	typename Graph::template EdgeMap<int> m(G);
alpar@515	132	typename Graph::template EdgeMap<int> const &cm = m; //Const map
alpar@515	133	//Inicialize with default value
alpar@515	134	typename Graph::template EdgeMap<int> mdef(G,12);
alpar@515	135	typename Graph::template EdgeMap<int> mm(cm); //Copy
alpar@515	136	typename Graph::template EdgeMap<double> dm(cm); //Copy from another type
alpar@503	137	int v;
alpar@503	138	v=m[k]; m[k]=v; m.set(k,v);
alpar@503	139	v=cm[k];
alpar@503	140
alpar@503	141	m=cm;
alpar@503	142	dm=cm; //Copy from another type
alpar@503	143	}
alpar@503	144	{ //bool EdgeMap
alpar@503	145	Edge k;
alpar@515	146	typename Graph::template EdgeMap<bool> m(G);
alpar@515	147	typename Graph::template EdgeMap<bool> const &cm = m; //Const map
alpar@515	148	//Inicialize with default value
alpar@515	149	typename Graph::template EdgeMap<bool> mdef(G,12);
alpar@515	150	typename Graph::template EdgeMap<bool> mm(cm); //Copy
alpar@515	151	typename Graph::template EdgeMap<int> dm(cm); //Copy from another type
alpar@503	152	bool v;
alpar@503	153	v=m[k]; m[k]=v; m.set(k,v);
alpar@503	154	v=cm[k];
alpar@503	155
alpar@503	156	m=cm;
alpar@503	157	dm=cm; //Copy from another type
alpar@504	158	m=dm; //Copy to another type
alpar@503	159	}
alpar@503	160
alpar@503	161	}
alpar@503	162
alpar@503	163	template<class Graph> void checkNodeList(Graph &G, int nn)
alpar@503	164	{
alpar@503	165	typename Graph::NodeIt n(G);
alpar@503	166	for(int i=0;i<nn;i++) {
alpar@503	167	check(G.valid(n),"Wrong Node list linking.");
alpar@503	168	G.next(n);
alpar@503	169	}
alpar@503	170	check(!G.valid(n),"Wrong Node list linking.");
alpar@503	171	}
alpar@503	172
alpar@503	173	template<class Graph> void checkEdgeList(Graph &G, int nn)
alpar@503	174	{
alpar@503	175	typedef typename Graph::EdgeIt EdgeIt;
alpar@503	176
alpar@503	177	EdgeIt e(G);
alpar@503	178	for(int i=0;i<nn;i++) {
alpar@503	179	check(G.valid(e),"Wrong Edge list linking.");
alpar@503	180	G.next(e);
alpar@503	181	}
alpar@503	182	check(!G.valid(e),"Wrong Edge list linking.");
alpar@503	183	}
alpar@503	184
alpar@503	185	template<class Graph> void checkOutEdgeList(Graph &G,
alpar@503	186	typename Graph::Node n,
alpar@503	187	int nn)
alpar@503	188	{
alpar@503	189	typename Graph::OutEdgeIt e(G,n);
alpar@503	190	for(int i=0;i<nn;i++) {
alpar@503	191	check(G.valid(e),"Wrong OutEdge list linking.");
alpar@503	192	G.next(e);
alpar@503	193	}
alpar@503	194	check(!G.valid(e),"Wrong OutEdge list linking.");
alpar@503	195	}
alpar@503	196
alpar@503	197	template<class Graph> void checkInEdgeList(Graph &G,
alpar@503	198	typename Graph::Node n,
alpar@503	199	int nn)
alpar@503	200	{
alpar@503	201	typename Graph::InEdgeIt e(G,n);
alpar@503	202	for(int i=0;i<nn;i++) {
alpar@503	203	check(G.valid(e),"Wrong InEdge list linking.");
alpar@503	204	G.next(e);
alpar@503	205	}
alpar@503	206	check(!G.valid(e),"Wrong InEdge list linking.");
alpar@503	207	}
alpar@503	208
alpar@503	209	//Checks head(), tail() as well;
alpar@503	210	template<class Graph> void bidirPetersen(Graph &G)
alpar@503	211	{
alpar@503	212	typedef typename Graph::Edge Edge;
alpar@503	213	typedef typename Graph::EdgeIt EdgeIt;
alpar@503	214
alpar@503	215	checkEdgeList(G,15);
alpar@503	216
alpar@503	217	std::vector<Edge> ee;
alpar@503	218
alpar@503	219	for(EdgeIt e(G);G.valid(e);G.next(e)) ee.push_back(e);
alpar@503	220
alpar@503	221	for(typename std::vector<Edge>::iterator p=ee.begin();p!=ee.end();p++)
alpar@503	222	G.addEdge(G.head(p),G.tail(p));
alpar@503	223	}
alpar@503	224
alpar@503	225	template<class Graph> void checkPetersen(Graph &G)
alpar@503	226	{
alpar@503	227	typedef typename Graph::Node Node;
alpar@503	228
alpar@503	229	typedef typename Graph::EdgeIt EdgeIt;
alpar@503	230	typedef typename Graph::NodeIt NodeIt;
alpar@503	231
alpar@503	232	checkNodeList(G,10);
alpar@503	233	checkEdgeList(G,30);
alpar@503	234
alpar@503	235	for(NodeIt n(G);G.valid(n);G.next(n)) {
alpar@503	236	checkInEdgeList(G,n,3);
alpar@503	237	checkOutEdgeList(G,n,3);
alpar@503	238	G.next(n);
alpar@503	239	}
alpar@503	240	}
alpar@503	241
alpar@564	242	template void checkCompile<GraphSkeleton>(GraphSkeleton &);
alpar@503	243	template void checkCompile<SmartGraph>(SmartGraph &);
alpar@503	244	template void checkCompile<SymSmartGraph>(SymSmartGraph &);
alpar@550	245	//template void checkCompile<ListGraph>(ListGraph &);
alpar@550	246	//template void checkCompile<SymListGraph>(SymListGraph &);
alpar@550	247
alpar@503	248	//Due to some mysterious and some conceptual problems it does not work.
alpar@503	249	//template void checkCompile<EdgeSet <ListGraph> >(EdgeSet <ListGraph> &);
alpar@503	250
alpar@503	251	int main()
alpar@503	252	{
alpar@503	253	{
alpar@503	254	SmartGraph G;
alpar@503	255	addPetersen(G);
alpar@503	256	bidirPetersen(G);
alpar@503	257	checkPetersen(G);
alpar@503	258	}
alpar@564	259	// {
alpar@564	260	// ListGraph G;
alpar@564	261	// addPetersen(G);
alpar@564	262	// bidirPetersen(G);
alpar@564	263	// checkPetersen(G);
alpar@564	264	// }
alpar@503	265	{
alpar@503	266	SymSmartGraph G;
alpar@503	267	addPetersen(G);
alpar@503	268	checkPetersen(G);
alpar@503	269	}
alpar@564	270	// {
alpar@564	271	// SymListGraph G;
alpar@564	272	// addPetersen(G);
alpar@564	273	// checkPetersen(G);
alpar@564	274	// }
alpar@503	275
alpar@503	276	//\todo map tests.
alpar@503	277	//\todo copy constr tests.
alpar@503	278
alpar@503	279	std::cout << __FILE__ ": All tests passed.\n";
alpar@503	280
alpar@503	281	}

author	alpar
	Fri, 07 May 2004 06:57:50 +0000
changeset 567	efaa79ee8d14
parent 564	f84611a14a33
child 578	159f1cbf8a45
permissions	-rw-r--r--