lemon-main: lemon/vf2pp.h@eba5aa390aca (annotated)

madarasip@1186	1	/* -- mode: C++; indent-tabs-mode: nil; --
madarasip@1186	2	*
madarasip@1186	3	* This file is a part of LEMON, a generic C++ optimization library.
madarasip@1186	4	*
madarasip@1186	5	* Copyright (C) 2015-2017
madarasip@1186	6	* EMAXA Kutato-fejleszto Kft. (EMAXA Research Ltd.)
madarasip@1186	7	*
madarasip@1186	8	* Permission to use, modify and distribute this software is granted
madarasip@1186	9	* provided that this copyright notice appears in all copies. For
madarasip@1186	10	* precise terms see the accompanying LICENSE file.
madarasip@1186	11	*
madarasip@1186	12	* This software is provided "AS IS" with no warranty of any kind,
madarasip@1186	13	* express or implied, and with no claim as to its suitability for any
madarasip@1186	14	* purpose.
madarasip@1186	15	*
madarasip@1186	16	*/
madarasip@1186	17
madarasip@1186	18	#ifndef LEMON_VF2PP_H
madarasip@1186	19	#define LEMON_VF2PP_H
madarasip@1186	20
madarasip@1186	21	///\ingroup graph_properties
madarasip@1186	22	///\file
madarasip@1186	23	///\brief VF2 Plus Plus algorithm.
madarasip@1186	24
madarasip@1186	25	#include <lemon/core.h>
madarasip@1186	26	#include <lemon/concepts/graph.h>
madarasip@1186	27	#include <lemon/bits/vf2_internals.h>
madarasip@1186	28
madarasip@1186	29	#include <vector>
madarasip@1186	30	#include <algorithm>
madarasip@1186	31	#include <utility>
madarasip@1186	32
madarasip@1186	33	namespace lemon {
madarasip@1186	34
alpar@1195	35	///%VF2 Plus Plus algorithm class \cite VF2PP.
madarasip@1186	36
madarasip@1186	37	///\ingroup graph_isomorphism This class provides an efficient
alpar@1195	38	///implementation of the %VF2 Plus Plus algorithm \cite VF2PP
madarasip@1186	39	///for variants of the (Sub)graph Isomorphism problem.
madarasip@1186	40	///
madarasip@1186	41	///There is also a \ref vf2pp() "function-type interface" called
madarasip@1186	42	///\ref vf2pp() for the %VF2 Plus Plus algorithm, which is probably
kpeter@1188	43	///more convenient in most use cases.
madarasip@1186	44	///
madarasip@1186	45	///\tparam G1 The type of the graph to be embedded.
kpeter@1191	46	///The default type is \ref ListGraph.
madarasip@1186	47	///\tparam G2 The type of the graph g1 will be embedded into.
kpeter@1191	48	///The default type is \ref ListGraph.
madarasip@1186	49	///\tparam M The type of the NodeMap storing the mapping.
madarasip@1186	50	///By default, it is G1::NodeMap<G2::Node>
madarasip@1186	51	///\tparam M1 The type of the NodeMap storing the integer node labels of G1.
madarasip@1186	52	///The labels must be the numbers {0,1,2,..,K-1}, where K is the number of
madarasip@1186	53	///different labels. By default, it is G1::NodeMap<int>.
madarasip@1186	54	///\tparam M2 The type of the NodeMap storing the integer node labels of G2.
madarasip@1186	55	///The labels must be the numbers {0,1,2,..,K-1}, where K is the number of
madarasip@1186	56	///different labels. By default, it is G2::NodeMap<int>.
madarasip@1186	57	///
madarasip@1186	58	///\sa vf2pp()
madarasip@1186	59	#ifdef DOXYGEN
madarasip@1186	60	template<class G1, class G2, class M, class M1, class M2 >
madarasip@1186	61	#else
kpeter@1191	62	template<class G1 = ListGraph,
kpeter@1191	63	class G2 = ListGraph,
kpeter@1188	64	class M = typename G1::template NodeMap<G2::Node>,
madarasip@1186	65	class M1 = typename G1::template NodeMap<int>,
madarasip@1186	66	class M2 = typename G2::template NodeMap<int> >
madarasip@1186	67	#endif
madarasip@1186	68	class Vf2pp {
kpeter@1188	69	//The graph to be embedded
madarasip@1186	70	const G1 &_g1;
madarasip@1186	71
kpeter@1188	72	//The graph into which g1 is to be embedded
madarasip@1186	73	const G2 &_g2;
madarasip@1186	74
kpeter@1194	75	//Current depth in the search tree
kpeter@1189	76	int _depth;
kpeter@1189	77
kpeter@1189	78	//The current mapping. _mapping[v1]=v2 iff v1 has been mapped to v2,
kpeter@1189	79	//where v1 is a node of G1 and v2 is a node of G2
kpeter@1189	80	M &_mapping;
kpeter@1189	81
kpeter@1189	82	//_order[i] is a node of g1 for which a pair is searched if depth=i
kpeter@1189	83	std::vector<typename G1::Node> _order;
kpeter@1189	84
kpeter@1189	85	//_conn[v2] = number of covered neighbours of v2
kpeter@1189	86	typename G2::template NodeMap<int> _conn;
kpeter@1189	87
kpeter@1189	88	//_currEdgeIts[i] is the last used edge iterator in the i-th
kpeter@1189	89	//depth to find a pair for node _order[i]
kpeter@1189	90	std::vector<typename G2::IncEdgeIt> _currEdgeIts;
kpeter@1189	91
kpeter@1189	92	//_rNewLabels1[v] is a pair of form
madarasip@1186	93	//(label; num. of uncov. nodes with such label and no covered neighbours)
madarasip@1186	94	typename G1::template NodeMap<std::vector<std::pair<int,int> > >
kpeter@1189	95	_rNewLabels1;
madarasip@1186	96
kpeter@1189	97	//_rInOutLabels1[v] is the number of covered neighbours of v for each label
madarasip@1186	98	//in form (label,number of such labels)
madarasip@1186	99	typename G1::template NodeMap<std::vector<std::pair<int,int> > >
kpeter@1189	100	_rInOutLabels1;
madarasip@1186	101
kpeter@1188	102	//_intLabels1[v]==i means that node v has label i in _g1
kpeter@1188	103	//(i is in {0,1,2,..,K-1}, where K is the number of diff. labels)
madarasip@1186	104	M1 &_intLabels1;
madarasip@1186	105
kpeter@1188	106	//_intLabels2[v]==i means that node v has label i in _g2
kpeter@1188	107	//(i is in {0,1,2,..,K-1}, where K is the number of diff. labels)
madarasip@1186	108	M2 &_intLabels2;
madarasip@1186	109
madarasip@1186	110	//largest label
kpeter@1189	111	const int _maxLabel;
madarasip@1186	112
madarasip@1186	113	//lookup tables for manipulating with label class cardinalities
kpeter@1188	114	//(after use they have to be reset to 0..0)
kpeter@1189	115	std::vector<int> _labelTmp1,_labelTmp2;
madarasip@1186	116
madarasip@1186	117	MappingType _mapping_type;
madarasip@1186	118
kpeter@1188	119	//indicates whether the mapping or the labels must be deleted in the destructor
madarasip@1186	120	bool _deallocMappingAfterUse,_deallocLabelsAfterUse;
madarasip@1186	121
madarasip@1186	122
madarasip@1186	123	//improved cutting function
madarasip@1186	124	template<MappingType MT>
madarasip@1186	125	bool cutByLabels(const typename G1::Node n1,const typename G2::Node n2) {
madarasip@1186	126	for(typename G2::IncEdgeIt e2(_g2,n2); e2!=INVALID; ++e2) {
madarasip@1186	127	const typename G2::Node currNode=_g2.oppositeNode(n2,e2);
madarasip@1186	128	if(_conn[currNode]>0)
kpeter@1189	129	--_labelTmp1[_intLabels2[currNode]];
madarasip@1186	130	else if(MT!=SUBGRAPH&&_conn[currNode]==0)
kpeter@1189	131	--_labelTmp2[_intLabels2[currNode]];
madarasip@1186	132	}
madarasip@1186	133
madarasip@1186	134	bool ret=1;
madarasip@1186	135	if(ret) {
kpeter@1189	136	for(unsigned int i = 0; i < _rInOutLabels1[n1].size(); ++i)
kpeter@1189	137	_labelTmp1[_rInOutLabels1[n1][i].first]+=_rInOutLabels1[n1][i].second;
madarasip@1186	138
madarasip@1186	139	if(MT!=SUBGRAPH)
kpeter@1189	140	for(unsigned int i = 0; i < _rNewLabels1[n1].size(); ++i)
kpeter@1189	141	_labelTmp2[_rNewLabels1[n1][i].first]+=_rNewLabels1[n1][i].second;
madarasip@1186	142
madarasip@1186	143	switch(MT) {
madarasip@1186	144	case INDUCED:
kpeter@1189	145	for(unsigned int i = 0; i < _rInOutLabels1[n1].size(); ++i)
kpeter@1189	146	if(_labelTmp1[_rInOutLabels1[n1][i].first]>0) {
madarasip@1186	147	ret=0;
madarasip@1186	148	break;
madarasip@1186	149	}
madarasip@1186	150	if(ret)
kpeter@1189	151	for(unsigned int i = 0; i < _rNewLabels1[n1].size(); ++i)
kpeter@1189	152	if(_labelTmp2[_rNewLabels1[n1][i].first]>0) {
madarasip@1186	153	ret=0;
madarasip@1186	154	break;
madarasip@1186	155	}
madarasip@1186	156	break;
madarasip@1186	157	case SUBGRAPH:
kpeter@1189	158	for(unsigned int i = 0; i < _rInOutLabels1[n1].size(); ++i)
kpeter@1189	159	if(_labelTmp1[_rInOutLabels1[n1][i].first]>0) {
madarasip@1186	160	ret=0;
madarasip@1186	161	break;
madarasip@1186	162	}
madarasip@1186	163	break;
madarasip@1186	164	case ISOMORPH:
kpeter@1189	165	for(unsigned int i = 0; i < _rInOutLabels1[n1].size(); ++i)
kpeter@1189	166	if(_labelTmp1[_rInOutLabels1[n1][i].first]!=0) {
madarasip@1186	167	ret=0;
madarasip@1186	168	break;
madarasip@1186	169	}
madarasip@1186	170	if(ret)
kpeter@1189	171	for(unsigned int i = 0; i < _rNewLabels1[n1].size(); ++i)
kpeter@1189	172	if(_labelTmp2[_rNewLabels1[n1][i].first]!=0) {
madarasip@1186	173	ret=0;
madarasip@1186	174	break;
madarasip@1186	175	}
madarasip@1186	176	break;
madarasip@1186	177	default:
madarasip@1186	178	return false;
madarasip@1186	179	}
kpeter@1189	180	for(unsigned int i = 0; i < _rInOutLabels1[n1].size(); ++i)
kpeter@1189	181	_labelTmp1[_rInOutLabels1[n1][i].first]=0;
madarasip@1186	182
madarasip@1186	183	if(MT!=SUBGRAPH)
kpeter@1189	184	for(unsigned int i = 0; i < _rNewLabels1[n1].size(); ++i)
kpeter@1189	185	_labelTmp2[_rNewLabels1[n1][i].first]=0;
madarasip@1186	186	}
madarasip@1186	187
madarasip@1186	188	for(typename G2::IncEdgeIt e2(_g2,n2); e2!=INVALID; ++e2) {
madarasip@1186	189	const typename G2::Node currNode=_g2.oppositeNode(n2,e2);
kpeter@1189	190	_labelTmp1[_intLabels2[currNode]]=0;
madarasip@1186	191	if(MT!=SUBGRAPH&&_conn[currNode]==0)
kpeter@1189	192	_labelTmp2[_intLabels2[currNode]]=0;
madarasip@1186	193	}
madarasip@1186	194
madarasip@1186	195	return ret;
madarasip@1186	196	}
madarasip@1186	197
madarasip@1186	198
madarasip@1186	199	//try to exclude the matching of n1 and n2
madarasip@1186	200	template<MappingType MT>
madarasip@1186	201	bool feas(const typename G1::Node n1,const typename G2::Node n2) {
madarasip@1186	202	if(_intLabels1[n1]!=_intLabels2[n2])
madarasip@1186	203	return 0;
madarasip@1186	204
madarasip@1186	205	for(typename G1::IncEdgeIt e1(_g1,n1); e1!=INVALID; ++e1) {
madarasip@1186	206	const typename G1::Node& currNode=_g1.oppositeNode(n1,e1);
madarasip@1186	207	if(_mapping[currNode]!=INVALID)
madarasip@1186	208	--_conn[_mapping[currNode]];
madarasip@1186	209	}
madarasip@1186	210
madarasip@1186	211	bool isIso=1;
madarasip@1186	212	for(typename G2::IncEdgeIt e2(_g2,n2); e2!=INVALID; ++e2) {
madarasip@1186	213	int& connCurrNode = _conn[_g2.oppositeNode(n2,e2)];
madarasip@1186	214	if(connCurrNode<-1)
madarasip@1186	215	++connCurrNode;
madarasip@1186	216	else if(MT!=SUBGRAPH&&connCurrNode==-1) {
madarasip@1186	217	isIso=0;
madarasip@1186	218	break;
madarasip@1186	219	}
madarasip@1186	220	}
madarasip@1186	221
madarasip@1186	222	if(isIso)
madarasip@1186	223	for(typename G1::IncEdgeIt e1(_g1,n1); e1!=INVALID; ++e1) {
madarasip@1186	224	const typename G2::Node& currNodePair =
madarasip@1186	225	_mapping[_g1.oppositeNode(n1,e1)];
madarasip@1186	226	int& connCurrNodePair=_conn[currNodePair];
madarasip@1186	227	if(currNodePair!=INVALID&&connCurrNodePair!=-1) {
madarasip@1186	228	switch(MT){
madarasip@1186	229	case INDUCED:
madarasip@1186	230	case ISOMORPH:
madarasip@1186	231	isIso=0;
madarasip@1186	232	break;
madarasip@1186	233	case SUBGRAPH:
madarasip@1186	234	if(connCurrNodePair<-1)
madarasip@1186	235	isIso=0;
madarasip@1186	236	break;
madarasip@1186	237	}
madarasip@1186	238	connCurrNodePair=-1;
madarasip@1186	239	}
madarasip@1186	240	}
madarasip@1186	241	else
madarasip@1186	242	for(typename G1::IncEdgeIt e1(_g1,n1); e1!=INVALID; ++e1) {
madarasip@1186	243	const typename G2::Node currNode=_mapping[_g1.oppositeNode(n1,e1)];
madarasip@1186	244	if(currNode!=INVALID/&&_conn[currNode]!=-1/)
madarasip@1186	245	_conn[currNode]=-1;
madarasip@1186	246	}
madarasip@1186	247
madarasip@1186	248	return isIso&&cutByLabels<MT>(n1,n2);
madarasip@1186	249	}
madarasip@1186	250
kpeter@1188	251	//maps n1 to n2
madarasip@1186	252	void addPair(const typename G1::Node n1,const typename G2::Node n2) {
madarasip@1186	253	_conn[n2]=-1;
madarasip@1186	254	_mapping.set(n1,n2);
madarasip@1186	255	for(typename G2::IncEdgeIt e2(_g2,n2); e2!=INVALID; ++e2) {
madarasip@1186	256	int& currConn = _conn[_g2.oppositeNode(n2,e2)];
madarasip@1186	257	if(currConn!=-1)
madarasip@1186	258	++currConn;
madarasip@1186	259	}
madarasip@1186	260	}
madarasip@1186	261
kpeter@1188	262	//removes mapping of n1 to n2
madarasip@1186	263	void subPair(const typename G1::Node n1,const typename G2::Node n2) {
madarasip@1186	264	_conn[n2]=0;
madarasip@1186	265	_mapping.set(n1,INVALID);
madarasip@1186	266	for(typename G2::IncEdgeIt e2(_g2,n2); e2!=INVALID; ++e2){
madarasip@1186	267	int& currConn = _conn[_g2.oppositeNode(n2,e2)];
madarasip@1186	268	if(currConn>0)
madarasip@1186	269	--currConn;
madarasip@1186	270	else if(currConn==-1)
madarasip@1186	271	++_conn[n2];
madarasip@1186	272	}
madarasip@1186	273	}
madarasip@1186	274
kpeter@1193	275	void processBfsTree(typename G1::Node source,unsigned int& orderIndex,
madarasip@1186	276	typename G1::template NodeMap<int>& dm1,
madarasip@1186	277	typename G1::template NodeMap<bool>& added) {
kpeter@1189	278	_order[orderIndex]=source;
madarasip@1186	279	added[source]=1;
madarasip@1186	280
madarasip@1186	281	unsigned int endPosOfLevel=orderIndex,
madarasip@1186	282	startPosOfLevel=orderIndex,
madarasip@1186	283	lastAdded=orderIndex;
madarasip@1186	284
madarasip@1186	285	typename G1::template NodeMap<int> currConn(_g1,0);
madarasip@1186	286
madarasip@1186	287	while(orderIndex<=lastAdded){
kpeter@1189	288	typename G1::Node currNode = _order[orderIndex];
madarasip@1186	289	for(typename G1::IncEdgeIt e(_g1,currNode); e!=INVALID; ++e) {
madarasip@1186	290	typename G1::Node n = _g1.oppositeNode(currNode,e);
madarasip@1186	291	if(!added[n]) {
kpeter@1189	292	_order[++lastAdded]=n;
madarasip@1186	293	added[n]=1;
madarasip@1186	294	}
madarasip@1186	295	}
madarasip@1186	296	if(orderIndex>endPosOfLevel){
madarasip@1186	297	for(unsigned int j = startPosOfLevel; j <= endPosOfLevel; ++j) {
madarasip@1186	298	int minInd=j;
madarasip@1186	299	for(unsigned int i = j+1; i <= endPosOfLevel; ++i)
kpeter@1189	300	if(currConn[_order[i]]>currConn[_order[minInd]]\|\|
kpeter@1189	301	(currConn[_order[i]]==currConn[_order[minInd]]&&
kpeter@1189	302	(dm1[_order[i]]>dm1[_order[minInd]]\|\|
kpeter@1189	303	(dm1[_order[i]]==dm1[_order[minInd]]&&
kpeter@1189	304	_labelTmp1[_intLabels1[_order[minInd]]]>
kpeter@1189	305	_labelTmp1[_intLabels1[_order[i]]]))))
madarasip@1186	306	minInd=i;
madarasip@1186	307
kpeter@1189	308	--_labelTmp1[_intLabels1[_order[minInd]]];
kpeter@1189	309	for(typename G1::IncEdgeIt e(_g1,_order[minInd]); e!=INVALID; ++e)
kpeter@1189	310	++currConn[_g1.oppositeNode(_order[minInd],e)];
kpeter@1189	311	std::swap(_order[j],_order[minInd]);
madarasip@1186	312	}
madarasip@1186	313	startPosOfLevel=endPosOfLevel+1;
madarasip@1186	314	endPosOfLevel=lastAdded;
madarasip@1186	315	}
madarasip@1186	316	++orderIndex;
madarasip@1186	317	}
madarasip@1186	318	}
madarasip@1186	319
madarasip@1186	320
madarasip@1186	321	//we will find pairs for the nodes of g1 in this order
kpeter@1190	322	void initOrder(){
madarasip@1186	323	for(typename G2::NodeIt n2(_g2); n2!=INVALID; ++n2)
kpeter@1189	324	++_labelTmp1[_intLabels2[n2]];
madarasip@1186	325
madarasip@1186	326	typename G1::template NodeMap<int> dm1(_g1,0);
madarasip@1186	327	for(typename G1::EdgeIt e(_g1); e!=INVALID; ++e) {
madarasip@1186	328	++dm1[_g1.u(e)];
madarasip@1186	329	++dm1[_g1.v(e)];
madarasip@1186	330	}
madarasip@1186	331
madarasip@1186	332	typename G1::template NodeMap<bool> added(_g1,0);
madarasip@1186	333	unsigned int orderIndex=0;
madarasip@1186	334
madarasip@1186	335	for(typename G1::NodeIt n(_g1); n!=INVALID;) {
madarasip@1186	336	if(!added[n]){
madarasip@1186	337	typename G1::Node minNode = n;
madarasip@1186	338	for(typename G1::NodeIt n1(_g1,minNode); n1!=INVALID; ++n1)
madarasip@1186	339	if(!added[n1] &&
kpeter@1189	340	(_labelTmp1[_intLabels1[minNode]]>
kpeter@1189	341	_labelTmp1[_intLabels1[n1]]\|\|(dm1[minNode]<dm1[n1]&&
kpeter@1189	342	_labelTmp1[_intLabels1[minNode]]==
kpeter@1189	343	_labelTmp1[_intLabels1[n1]])))
madarasip@1186	344	minNode=n1;
kpeter@1193	345	processBfsTree(minNode,orderIndex,dm1,added);
madarasip@1186	346	}
madarasip@1186	347	else
madarasip@1186	348	++n;
madarasip@1186	349	}
kpeter@1189	350	for(unsigned int i = 0; i < _labelTmp1.size(); ++i)
kpeter@1189	351	_labelTmp1[i]=0;
madarasip@1186	352	}
madarasip@1186	353
madarasip@1186	354
madarasip@1186	355	template<MappingType MT>
madarasip@1186	356	bool extMatch(){
madarasip@1186	357	while(_depth>=0) {
kpeter@1189	358	if(_depth==static_cast<int>(_order.size())) {
kpeter@1188	359	//all nodes of g1 are mapped to nodes of g2
madarasip@1186	360	--_depth;
madarasip@1186	361	return true;
madarasip@1186	362	}
kpeter@1189	363	typename G1::Node& nodeOfDepth = _order[_depth];
madarasip@1186	364	const typename G2::Node& pairOfNodeOfDepth = _mapping[nodeOfDepth];
kpeter@1189	365	typename G2::IncEdgeIt &edgeItOfDepth = _currEdgeIts[_depth];
kpeter@1188	366	//the node of g2 whose neighbours are the candidates for
kpeter@1189	367	//the pair of _order[_depth]
madarasip@1186	368	typename G2::Node currPNode;
madarasip@1186	369	if(edgeItOfDepth==INVALID){
madarasip@1186	370	typename G1::IncEdgeIt fstMatchedE(_g1,nodeOfDepth);
kpeter@1189	371	//if _mapping[_order[_depth]]!=INVALID, we don't need fstMatchedE
kpeter@1188	372	if(pairOfNodeOfDepth==INVALID) {
madarasip@1186	373	for(; fstMatchedE!=INVALID &&
madarasip@1186	374	_mapping[_g1.oppositeNode(nodeOfDepth,
madarasip@1186	375	fstMatchedE)]==INVALID;
madarasip@1186	376	++fstMatchedE); //find fstMatchedE, it could be preprocessed
kpeter@1188	377	}
madarasip@1186	378	if(fstMatchedE==INVALID\|\|pairOfNodeOfDepth!=INVALID) {
kpeter@1188	379	//We found no covered neighbours, this means that
kpeter@1188	380	//the graph is not connected (or _depth==0). Each
kpeter@1188	381	//uncovered (and there are some other properties due
madarasip@1186	382	//to the spec. problem types) node of g2 is
kpeter@1188	383	//candidate. We can read the iterator of the last
madarasip@1186	384	//tried node from the match if it is not the first
kpeter@1188	385	//try (match[nodeOfDepth]!=INVALID)
madarasip@1186	386	typename G2::NodeIt n2(_g2);
madarasip@1186	387	//if it's not the first try
madarasip@1186	388	if(pairOfNodeOfDepth!=INVALID) {
madarasip@1186	389	n2=++typename G2::NodeIt(_g2,pairOfNodeOfDepth);
madarasip@1186	390	subPair(nodeOfDepth,pairOfNodeOfDepth);
madarasip@1186	391	}
madarasip@1186	392	for(; n2!=INVALID; ++n2)
madarasip@1186	393	if(MT!=SUBGRAPH) {
madarasip@1186	394	if(_conn[n2]==0&&feas<MT>(nodeOfDepth,n2))
madarasip@1186	395	break;
madarasip@1186	396	}
madarasip@1186	397	else if(_conn[n2]>=0&&feas<MT>(nodeOfDepth,n2))
madarasip@1186	398	break;
madarasip@1186	399	// n2 is the next candidate
madarasip@1186	400	if(n2!=INVALID) {
madarasip@1186	401	addPair(nodeOfDepth,n2);
madarasip@1186	402	++_depth;
madarasip@1186	403	}
madarasip@1186	404	else // there are no more candidates
madarasip@1186	405	--_depth;
madarasip@1186	406	continue;
madarasip@1186	407	}
kpeter@1188	408	else {
madarasip@1186	409	currPNode=_mapping[_g1.oppositeNode(nodeOfDepth,
madarasip@1186	410	fstMatchedE)];
madarasip@1186	411	edgeItOfDepth=typename G2::IncEdgeIt(_g2,currPNode);
madarasip@1186	412	}
madarasip@1186	413	}
kpeter@1188	414	else {
madarasip@1186	415	currPNode=_g2.oppositeNode(pairOfNodeOfDepth,
madarasip@1186	416	edgeItOfDepth);
madarasip@1186	417	subPair(nodeOfDepth,pairOfNodeOfDepth);
madarasip@1186	418	++edgeItOfDepth;
madarasip@1186	419	}
madarasip@1186	420	for(; edgeItOfDepth!=INVALID; ++edgeItOfDepth) {
madarasip@1186	421	const typename G2::Node currNode =
madarasip@1186	422	_g2.oppositeNode(currPNode, edgeItOfDepth);
madarasip@1186	423	if(_conn[currNode]>0&&feas<MT>(nodeOfDepth,currNode)) {
madarasip@1186	424	addPair(nodeOfDepth,currNode);
madarasip@1186	425	break;
madarasip@1186	426	}
madarasip@1186	427	}
madarasip@1186	428	edgeItOfDepth==INVALID?--_depth:++_depth;
madarasip@1186	429	}
madarasip@1186	430	return false;
madarasip@1186	431	}
madarasip@1186	432
kpeter@1188	433	//calculate the lookup table for cutting the search tree
kpeter@1190	434	void initRNew1tRInOut1t(){
madarasip@1186	435	typename G1::template NodeMap<int> tmp(_g1,0);
kpeter@1189	436	for(unsigned int i=0; i<_order.size(); ++i) {
kpeter@1189	437	tmp[_order[i]]=-1;
kpeter@1189	438	for(typename G1::IncEdgeIt e1(_g1,_order[i]); e1!=INVALID; ++e1) {
kpeter@1189	439	const typename G1::Node currNode=_g1.oppositeNode(_order[i],e1);
madarasip@1186	440	if(tmp[currNode]>0)
kpeter@1189	441	++_labelTmp1[_intLabels1[currNode]];
madarasip@1186	442	else if(tmp[currNode]==0)
kpeter@1189	443	++_labelTmp2[_intLabels1[currNode]];
madarasip@1186	444	}
kpeter@1189	445	//_labelTmp1[i]=number of neightbours with label i in set rInOut
kpeter@1189	446	//_labelTmp2[i]=number of neightbours with label i in set rNew
kpeter@1189	447	for(typename G1::IncEdgeIt e1(_g1,_order[i]); e1!=INVALID; ++e1) {
kpeter@1189	448	const int& currIntLabel = _intLabels1[_g1.oppositeNode(_order[i],e1)];
kpeter@1189	449	if(_labelTmp1[currIntLabel]>0) {
kpeter@1189	450	_rInOutLabels1[_order[i]]
madarasip@1186	451	.push_back(std::make_pair(currIntLabel,
kpeter@1189	452	_labelTmp1[currIntLabel]));
kpeter@1189	453	_labelTmp1[currIntLabel]=0;
madarasip@1186	454	}
kpeter@1189	455	else if(_labelTmp2[currIntLabel]>0) {
kpeter@1189	456	_rNewLabels1[_order[i]].
kpeter@1189	457	push_back(std::make_pair(currIntLabel,_labelTmp2[currIntLabel]));
kpeter@1189	458	_labelTmp2[currIntLabel]=0;
madarasip@1186	459	}
madarasip@1186	460	}
madarasip@1186	461
kpeter@1189	462	for(typename G1::IncEdgeIt e1(_g1,_order[i]); e1!=INVALID; ++e1) {
kpeter@1189	463	int& tmpCurrNode=tmp[_g1.oppositeNode(_order[i],e1)];
madarasip@1186	464	if(tmpCurrNode!=-1)
madarasip@1186	465	++tmpCurrNode;
madarasip@1186	466	}
madarasip@1186	467	}
madarasip@1186	468	}
madarasip@1186	469
madarasip@1186	470	int getMaxLabel() const{
madarasip@1186	471	int m=-1;
madarasip@1186	472	for(typename G1::NodeIt n1(_g1); n1!=INVALID; ++n1) {
madarasip@1186	473	const int& currIntLabel = _intLabels1[n1];
madarasip@1186	474	if(currIntLabel>m)
madarasip@1186	475	m=currIntLabel;
madarasip@1186	476	}
madarasip@1186	477	for(typename G2::NodeIt n2(_g2); n2!=INVALID; ++n2) {
madarasip@1186	478	const int& currIntLabel = _intLabels2[n2];
madarasip@1186	479	if(currIntLabel>m)
madarasip@1186	480	m=currIntLabel;
madarasip@1186	481	}
madarasip@1186	482	return m;
madarasip@1186	483	}
madarasip@1186	484
madarasip@1186	485	public:
madarasip@1186	486	///Constructor
madarasip@1186	487
madarasip@1186	488	///Constructor.
madarasip@1186	489	///\param g1 The graph to be embedded.
madarasip@1186	490	///\param g2 The graph \e g1 will be embedded into.
madarasip@1186	491	///\param m The type of the NodeMap storing the mapping.
madarasip@1186	492	///By default, it is G1::NodeMap<G2::Node>
madarasip@1186	493	///\param intLabel1 The NodeMap storing the integer node labels of G1.
madarasip@1186	494	///The labels must be the numbers {0,1,2,..,K-1}, where K is the number of
madarasip@1186	495	///different labels.
madarasip@1186	496	///\param intLabel1 The NodeMap storing the integer node labels of G2.
madarasip@1186	497	///The labels must be the numbers {0,1,2,..,K-1}, where K is the number of
madarasip@1186	498	///different labels.
madarasip@1186	499	Vf2pp(const G1 &g1, const G2 &g2,M &m, M1 &intLabels1, M2 &intLabels2) :
kpeter@1189	500	_g1(g1), _g2(g2), _depth(0), _mapping(m), _order(countNodes(g1),INVALID),
kpeter@1189	501	_conn(g2,0), _currEdgeIts(countNodes(g1),INVALID), _rNewLabels1(_g1),
kpeter@1189	502	_rInOutLabels1(_g1), _intLabels1(intLabels1) ,_intLabels2(intLabels2),
kpeter@1189	503	_maxLabel(getMaxLabel()), _labelTmp1(_maxLabel+1),_labelTmp2(_maxLabel+1),
madarasip@1186	504	_mapping_type(SUBGRAPH), _deallocMappingAfterUse(0),
madarasip@1186	505	_deallocLabelsAfterUse(0)
madarasip@1186	506	{
kpeter@1190	507	initOrder();
kpeter@1190	508	initRNew1tRInOut1t();
madarasip@1186	509
madarasip@1186	510	//reset mapping
madarasip@1186	511	for(typename G1::NodeIt n(g1);n!=INVALID;++n)
madarasip@1186	512	m[n]=INVALID;
madarasip@1186	513	}
madarasip@1186	514
madarasip@1186	515	///Destructor
madarasip@1186	516
madarasip@1186	517	///Destructor.
madarasip@1186	518	///
madarasip@1186	519	~Vf2pp()
madarasip@1186	520	{
madarasip@1186	521	if(_deallocMappingAfterUse)
madarasip@1186	522	delete &_mapping;
madarasip@1186	523	if(_deallocLabelsAfterUse) {
madarasip@1186	524	delete &_intLabels1;
madarasip@1186	525	delete &_intLabels2;
madarasip@1186	526	}
madarasip@1186	527	}
madarasip@1186	528
madarasip@1186	529	///Returns the current mapping type.
madarasip@1186	530
madarasip@1186	531	///Returns the current mapping type.
madarasip@1186	532	///
madarasip@1186	533	MappingType mappingType() const
madarasip@1186	534	{
madarasip@1186	535	return _mapping_type;
madarasip@1186	536	}
madarasip@1186	537
madarasip@1186	538	///Sets the mapping type
madarasip@1186	539
madarasip@1186	540	///Sets the mapping type.
madarasip@1186	541	///
madarasip@1186	542	///The mapping type is set to \ref SUBGRAPH by default.
madarasip@1186	543	///
madarasip@1186	544	///\sa See \ref MappingType for the possible values.
madarasip@1186	545	void mappingType(MappingType m_type)
madarasip@1186	546	{
madarasip@1186	547	_mapping_type = m_type;
madarasip@1186	548	}
madarasip@1186	549
madarasip@1186	550	///Finds a mapping.
madarasip@1186	551
madarasip@1186	552	///This method finds a mapping from g1 into g2 according to the mapping
madarasip@1186	553	///type set by \ref mappingType(MappingType) "mappingType()".
madarasip@1186	554	///
madarasip@1186	555	///By subsequent calls, it returns all possible mappings one-by-one.
madarasip@1186	556	///
madarasip@1186	557	///\retval true if a mapping is found.
madarasip@1186	558	///\retval false if there is no (more) mapping.
madarasip@1186	559	bool find()
madarasip@1186	560	{
madarasip@1186	561	switch(_mapping_type)
madarasip@1186	562	{
madarasip@1186	563	case SUBGRAPH:
madarasip@1186	564	return extMatch<SUBGRAPH>();
madarasip@1186	565	case INDUCED:
madarasip@1186	566	return extMatch<INDUCED>();
madarasip@1186	567	case ISOMORPH:
madarasip@1186	568	return extMatch<ISOMORPH>();
madarasip@1186	569	default:
madarasip@1186	570	return false;
madarasip@1186	571	}
madarasip@1186	572	}
madarasip@1186	573	};
madarasip@1186	574
madarasip@1186	575	template<typename G1, typename G2>
madarasip@1186	576	class Vf2ppWizardBase {
madarasip@1186	577	protected:
madarasip@1186	578	typedef G1 Graph1;
madarasip@1186	579	typedef G2 Graph2;
madarasip@1186	580
madarasip@1186	581	const G1 &_g1;
madarasip@1186	582	const G2 &_g2;
madarasip@1186	583
madarasip@1186	584	MappingType _mapping_type;
madarasip@1186	585
madarasip@1186	586	typedef typename G1::template NodeMap<typename G2::Node> Mapping;
madarasip@1186	587	bool _local_mapping;
madarasip@1186	588	void *_mapping;
madarasip@1186	589	void createMapping() {
madarasip@1186	590	_mapping = new Mapping(_g1);
madarasip@1186	591	}
madarasip@1186	592
madarasip@1186	593	bool _local_nodeLabels;
madarasip@1186	594	typedef typename G1::template NodeMap<int> NodeLabels1;
madarasip@1186	595	typedef typename G2::template NodeMap<int> NodeLabels2;
madarasip@1186	596	void _nodeLabels1, _nodeLabels2;
madarasip@1186	597	void createNodeLabels() {
madarasip@1186	598	_nodeLabels1 = new NodeLabels1(_g1,0);
madarasip@1186	599	_nodeLabels2 = new NodeLabels2(_g2,0);
madarasip@1186	600	}
madarasip@1186	601
madarasip@1186	602	Vf2ppWizardBase(const G1 &g1,const G2 &g2)
madarasip@1186	603	: _g1(g1), _g2(g2), _mapping_type(SUBGRAPH),
madarasip@1186	604	_local_mapping(1), _local_nodeLabels(1) { }
madarasip@1186	605	};
madarasip@1186	606
madarasip@1186	607
madarasip@1186	608	/// \brief Auxiliary class for the function-type interface of %VF2
madarasip@1186	609	/// Plus Plus algorithm.
madarasip@1186	610	///
madarasip@1186	611	/// This auxiliary class implements the named parameters of
madarasip@1186	612	/// \ref vf2pp() "function-type interface" of \ref Vf2pp algorithm.
madarasip@1186	613	///
madarasip@1186	614	/// \warning This class is not to be used directly.
madarasip@1186	615	///
madarasip@1186	616	/// \tparam TR The traits class that defines various types used by the
madarasip@1186	617	/// algorithm.
madarasip@1186	618	template<typename TR>
madarasip@1186	619	class Vf2ppWizard : public TR {
madarasip@1186	620	typedef TR Base;
madarasip@1186	621	typedef typename TR::Graph1 Graph1;
madarasip@1186	622	typedef typename TR::Graph2 Graph2;
madarasip@1186	623	typedef typename TR::Mapping Mapping;
madarasip@1186	624	typedef typename TR::NodeLabels1 NodeLabels1;
madarasip@1186	625	typedef typename TR::NodeLabels2 NodeLabels2;
madarasip@1186	626
madarasip@1186	627	using TR::_g1;
madarasip@1186	628	using TR::_g2;
madarasip@1186	629	using TR::_mapping_type;
madarasip@1186	630	using TR::_mapping;
madarasip@1186	631	using TR::_nodeLabels1;
madarasip@1186	632	using TR::_nodeLabels2;
madarasip@1186	633
madarasip@1186	634	public:
madarasip@1186	635	///Constructor
kpeter@1188	636	Vf2ppWizard(const Graph1 &g1,const Graph2 &g2) : Base(g1,g2) {}
madarasip@1186	637
madarasip@1186	638	///Copy constructor
madarasip@1186	639	Vf2ppWizard(const Base &b) : Base(b) {}
madarasip@1186	640
madarasip@1186	641
madarasip@1186	642	template<typename T>
madarasip@1186	643	struct SetMappingBase : public Base {
madarasip@1186	644	typedef T Mapping;
kpeter@1188	645	SetMappingBase(const Base &b) : Base(b) {}
madarasip@1186	646	};
madarasip@1186	647
madarasip@1186	648	///\brief \ref named-templ-param "Named parameter" for setting
madarasip@1186	649	///the mapping.
madarasip@1186	650	///
madarasip@1186	651	///\ref named-templ-param "Named parameter" function for setting
madarasip@1186	652	///the map that stores the found embedding.
madarasip@1186	653	template<typename T>
madarasip@1186	654	Vf2ppWizard< SetMappingBase<T> > mapping(const T &t) {
madarasip@1186	655	Base::_mapping=reinterpret_cast<void>(const_cast<T>(&t));
madarasip@1186	656	Base::_local_mapping = 0;
madarasip@1186	657	return Vf2ppWizard<SetMappingBase<T> >(*this);
madarasip@1186	658	}
madarasip@1186	659
madarasip@1186	660	template<typename NL1, typename NL2>
madarasip@1186	661	struct SetNodeLabelsBase : public Base {
madarasip@1186	662	typedef NL1 NodeLabels1;
madarasip@1186	663	typedef NL2 NodeLabels2;
madarasip@1186	664	SetNodeLabelsBase(const Base &b) : Base(b) { }
madarasip@1186	665	};
madarasip@1186	666
madarasip@1186	667	///\brief \ref named-templ-param "Named parameter" for setting the
madarasip@1186	668	///node labels.
madarasip@1186	669	///
madarasip@1186	670	///\ref named-templ-param "Named parameter" function for setting
madarasip@1186	671	///the node labels.
madarasip@1186	672	///
madarasip@1186	673	///\param nodeLabels1 A \ref concepts::ReadMap "readable node map"
kpeter@1188	674	///of g1 with integer values. In case of K different labels, the labels
kpeter@1188	675	///must be the numbers {0,1,..,K-1}.
madarasip@1186	676	///\param nodeLabels2 A \ref concepts::ReadMap "readable node map"
kpeter@1188	677	///of g2 with integer values. In case of K different labels, the labels
kpeter@1188	678	///must be the numbers {0,1,..,K-1}.
madarasip@1186	679	template<typename NL1, typename NL2>
madarasip@1186	680	Vf2ppWizard< SetNodeLabelsBase<NL1,NL2> >
madarasip@1186	681	nodeLabels(const NL1 &nodeLabels1, const NL2 &nodeLabels2) {
madarasip@1186	682	Base::_local_nodeLabels = 0;
madarasip@1186	683	Base::_nodeLabels1=
madarasip@1186	684	reinterpret_cast<void>(const_cast<NL1>(&nodeLabels1));
madarasip@1186	685	Base::_nodeLabels2=
madarasip@1186	686	reinterpret_cast<void>(const_cast<NL2>(&nodeLabels2));
madarasip@1186	687	return Vf2ppWizard<SetNodeLabelsBase<NL1,NL2> >
madarasip@1186	688	(SetNodeLabelsBase<NL1,NL2>(*this));
madarasip@1186	689	}
madarasip@1186	690
madarasip@1186	691
madarasip@1186	692	///\brief \ref named-templ-param "Named parameter" for setting
madarasip@1186	693	///the mapping type.
madarasip@1186	694	///
madarasip@1186	695	///\ref named-templ-param "Named parameter" for setting
madarasip@1186	696	///the mapping type.
madarasip@1186	697	///
madarasip@1186	698	///The mapping type is set to \ref SUBGRAPH by default.
madarasip@1186	699	///
madarasip@1186	700	///\sa See \ref MappingType for the possible values.
madarasip@1186	701	Vf2ppWizard<Base> &mappingType(MappingType m_type) {
madarasip@1186	702	_mapping_type = m_type;
madarasip@1186	703	return *this;
madarasip@1186	704	}
madarasip@1186	705
madarasip@1186	706	///\brief \ref named-templ-param "Named parameter" for setting
madarasip@1186	707	///the mapping type to \ref INDUCED.
madarasip@1186	708	///
madarasip@1186	709	///\ref named-templ-param "Named parameter" for setting
madarasip@1186	710	///the mapping type to \ref INDUCED.
madarasip@1186	711	Vf2ppWizard<Base> &induced() {
madarasip@1186	712	_mapping_type = INDUCED;
madarasip@1186	713	return *this;
madarasip@1186	714	}
madarasip@1186	715
madarasip@1186	716	///\brief \ref named-templ-param "Named parameter" for setting
madarasip@1186	717	///the mapping type to \ref ISOMORPH.
madarasip@1186	718	///
madarasip@1186	719	///\ref named-templ-param "Named parameter" for setting
madarasip@1186	720	///the mapping type to \ref ISOMORPH.
madarasip@1186	721	Vf2ppWizard<Base> &iso() {
madarasip@1186	722	_mapping_type = ISOMORPH;
madarasip@1186	723	return *this;
madarasip@1186	724	}
madarasip@1186	725
madarasip@1186	726	///Runs the %VF2 Plus Plus algorithm.
madarasip@1186	727
madarasip@1186	728	///This method runs the VF2 Plus Plus algorithm.
madarasip@1186	729	///
madarasip@1186	730	///\retval true if a mapping is found.
madarasip@1186	731	///\retval false if there is no mapping.
madarasip@1186	732	bool run() {
madarasip@1186	733	if(Base::_local_mapping)
madarasip@1186	734	Base::createMapping();
madarasip@1186	735	if(Base::_local_nodeLabels)
madarasip@1186	736	Base::createNodeLabels();
madarasip@1186	737
madarasip@1186	738	Vf2pp<Graph1, Graph2, Mapping, NodeLabels1, NodeLabels2 >
madarasip@1186	739	alg(_g1, _g2, reinterpret_cast<Mapping>(_mapping),
madarasip@1186	740	reinterpret_cast<NodeLabels1>(_nodeLabels1),
madarasip@1186	741	reinterpret_cast<NodeLabels2>(_nodeLabels2));
madarasip@1186	742
madarasip@1186	743	alg.mappingType(_mapping_type);
madarasip@1186	744
madarasip@1186	745	const bool ret = alg.find();
madarasip@1186	746
madarasip@1186	747	if(Base::_local_nodeLabels) {
madarasip@1186	748	delete reinterpret_cast<NodeLabels1*>(_nodeLabels1);
madarasip@1186	749	delete reinterpret_cast<NodeLabels2*>(_nodeLabels2);
madarasip@1186	750	}
madarasip@1186	751	if(Base::_local_mapping)
madarasip@1186	752	delete reinterpret_cast<Mapping*>(_mapping);
madarasip@1186	753
madarasip@1186	754	return ret;
madarasip@1186	755	}
madarasip@1186	756
madarasip@1186	757	///Get a pointer to the generated Vf2pp object.
madarasip@1186	758
madarasip@1186	759	///Gives a pointer to the generated Vf2pp object.
madarasip@1186	760	///
madarasip@1186	761	///\return Pointer to the generated Vf2pp object.
madarasip@1186	762	///\warning Don't forget to delete the referred Vf2pp object after use.
madarasip@1186	763	Vf2pp<Graph1, Graph2, Mapping, NodeLabels1, NodeLabels2 >*
madarasip@1186	764	getPtrToVf2ppObject(){
madarasip@1186	765	if(Base::_local_mapping)
madarasip@1186	766	Base::createMapping();
madarasip@1186	767	if(Base::_local_nodeLabels)
madarasip@1186	768	Base::createNodeLabels();
madarasip@1186	769
madarasip@1186	770	Vf2pp<Graph1, Graph2, Mapping, NodeLabels1, NodeLabels2 >* ptr =
madarasip@1186	771	new Vf2pp<Graph1, Graph2, Mapping, NodeLabels1, NodeLabels2>
madarasip@1186	772	(_g1, _g2, reinterpret_cast<Mapping>(_mapping),
madarasip@1186	773	reinterpret_cast<NodeLabels1>(_nodeLabels1),
madarasip@1186	774	reinterpret_cast<NodeLabels2>(_nodeLabels2));
madarasip@1186	775	ptr->mappingType(_mapping_type);
madarasip@1186	776	if(Base::_local_mapping)
madarasip@1186	777	ptr->_deallocMappingAfterUse=true;
madarasip@1186	778	if(Base::_local_nodeLabels)
madarasip@1186	779	ptr->_deallocLabelMapsAfterUse=true;
madarasip@1186	780
madarasip@1186	781	return ptr;
madarasip@1186	782	}
madarasip@1186	783
madarasip@1186	784	///Counts the number of mappings.
madarasip@1186	785
madarasip@1186	786	///This method counts the number of mappings.
madarasip@1186	787	///
madarasip@1186	788	/// \return The number of mappings.
madarasip@1186	789	int count() {
madarasip@1186	790	if(Base::_local_mapping)
madarasip@1186	791	Base::createMapping();
madarasip@1186	792	if(Base::_local_nodeLabels)
madarasip@1186	793	Base::createNodeLabels();
madarasip@1186	794
madarasip@1186	795	Vf2pp<Graph1, Graph2, Mapping, NodeLabels1, NodeLabels2>
madarasip@1186	796	alg(_g1, _g2, reinterpret_cast<Mapping>(_mapping),
madarasip@1186	797	reinterpret_cast<NodeLabels1>(_nodeLabels1),
madarasip@1186	798	reinterpret_cast<NodeLabels2>(_nodeLabels2));
madarasip@1186	799
madarasip@1186	800	alg.mappingType(_mapping_type);
madarasip@1186	801
madarasip@1186	802	int ret = 0;
madarasip@1186	803	while(alg.find())
madarasip@1186	804	++ret;
madarasip@1186	805
madarasip@1186	806	if(Base::_local_nodeLabels) {
madarasip@1186	807	delete reinterpret_cast<NodeLabels1*>(_nodeLabels1);
madarasip@1186	808	delete reinterpret_cast<NodeLabels2*>(_nodeLabels2);
madarasip@1186	809	}
madarasip@1186	810	if(Base::_local_mapping)
madarasip@1186	811	delete reinterpret_cast<Mapping*>(_mapping);
madarasip@1186	812
madarasip@1186	813	return ret;
madarasip@1186	814	}
madarasip@1186	815	};
madarasip@1186	816
madarasip@1186	817
madarasip@1186	818	///Function-type interface for VF2 Plus Plus algorithm.
madarasip@1186	819
madarasip@1186	820	/// \ingroup graph_isomorphism
madarasip@1186	821	///Function-type interface for VF2 Plus Plus algorithm.
madarasip@1186	822	///
madarasip@1186	823	///This function has several \ref named-func-param "named parameters"
madarasip@1186	824	///declared as the members of class \ref Vf2ppWizard.
madarasip@1186	825	///The following examples show how to use these parameters.
madarasip@1186	826	///\code
madarasip@1186	827	/// ListGraph::NodeMap<ListGraph::Node> m(g);
madarasip@1186	828	/// // Find an embedding of graph g1 into graph g2
madarasip@1186	829	/// vf2pp(g1,g2).mapping(m).run();
madarasip@1186	830	///
madarasip@1186	831	/// // Check whether graphs g1 and g2 are isomorphic
madarasip@1186	832	/// bool is_iso = vf2pp(g1,g2).iso().run();
madarasip@1186	833	///
madarasip@1186	834	/// // Count the number of isomorphisms
madarasip@1186	835	/// int num_isos = vf2pp(g1,g2).iso().count();
madarasip@1186	836	///
madarasip@1186	837	/// // Iterate through all the induced subgraph mappings
kpeter@1188	838	/// // of graph g1 into g2 using the labels c1 and c2
madarasip@1186	839	/// auto* myVf2pp = vf2pp(g1,g2).mapping(m).nodeLabels(c1,c2)
madarasip@1186	840	/// .induced().getPtrToVf2Object();
madarasip@1186	841	/// while(myVf2pp->find()){
madarasip@1186	842	/// //process the current mapping m
madarasip@1186	843	/// }
madarasip@1186	844	/// delete myVf22pp;
madarasip@1186	845	///\endcode
madarasip@1186	846	///\warning Don't forget to put the \ref Vf2ppWizard::run() "run()",
madarasip@1186	847	///\ref Vf2ppWizard::count() "count()" or
madarasip@1186	848	///the \ref Vf2ppWizard::getPtrToVf2ppObject() "getPtrToVf2ppObject()"
madarasip@1186	849	///to the end of the expression.
madarasip@1186	850	///\sa Vf2ppWizard
madarasip@1186	851	///\sa Vf2pp
madarasip@1186	852	template<class G1, class G2>
madarasip@1186	853	Vf2ppWizard<Vf2ppWizardBase<G1,G2> > vf2pp(const G1 &g1, const G2 &g2) {
madarasip@1186	854	return Vf2ppWizard<Vf2ppWizardBase<G1,G2> >(g1,g2);
madarasip@1186	855	}
madarasip@1186	856
madarasip@1186	857	}
madarasip@1186	858
madarasip@1186	859	#endif
madarasip@1186	860

author	Alpar Juttner <alpar@cs.elte.hu>
	Thu, 21 Jan 2021 18:58:37 +0100
changeset 1207	eba5aa390aca
parent 1194	e68f0ef37e77
permissions	-rw-r--r--