vamp-build-and-test: DEPENDENCIES/generic/include/boost/graph/isomorphism.hpp annotate

annotate DEPENDENCIES/generic/include/boost/graph/isomorphism.hpp @ 133:4acb5d8d80b6 tip

Don't fail environmental check if README.md exists (but .txt and no-suffix don't)

author	Chris Cannam
date	Tue, 30 Jul 2019 12:25:44 +0100
parents	2665513ce2d3
children

rev	line source
Chris@16	1 // Copyright (C) 2001 Jeremy Siek, Douglas Gregor, Brian Osman
Chris@16	2 //
Chris@16	3 // Distributed under the Boost Software License, Version 1.0. (See
Chris@16	4 // accompanying file LICENSE_1_0.txt or copy at
Chris@16	5 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16	6 #ifndef BOOST_GRAPH_ISOMORPHISM_HPP
Chris@16	7 #define BOOST_GRAPH_ISOMORPHISM_HPP
Chris@16	8
Chris@16	9 #include <utility>
Chris@16	10 #include <vector>
Chris@16	11 #include <iterator>
Chris@16	12 #include <algorithm>
Chris@16	13 #include <boost/config.hpp>
Chris@16	14 #include <boost/assert.hpp>
Chris@16	15 #include <boost/smart_ptr.hpp>
Chris@16	16 #include <boost/graph/depth_first_search.hpp>
Chris@16	17 #include <boost/detail/algorithm.hpp>
Chris@16	18 #include <boost/pending/indirect_cmp.hpp> // for make_indirect_pmap
Chris@16	19 #include <boost/concept/assert.hpp>
Chris@16	20
Chris@16	21 #ifndef BOOST_GRAPH_ITERATION_MACROS_HPP
Chris@16	22 #define BOOST_ISO_INCLUDED_ITER_MACROS // local macro, see bottom of file
Chris@16	23 #include <boost/graph/iteration_macros.hpp>
Chris@16	24 #endif
Chris@16	25
Chris@16	26 namespace boost {
Chris@16	27
Chris@16	28 namespace detail {
Chris@16	29
Chris@16	30 template <typename Graph1, typename Graph2, typename IsoMapping,
Chris@16	31 typename Invariant1, typename Invariant2,
Chris@16	32 typename IndexMap1, typename IndexMap2>
Chris@16	33 class isomorphism_algo
Chris@16	34 {
Chris@16	35 typedef typename graph_traits<Graph1>::vertex_descriptor vertex1_t;
Chris@16	36 typedef typename graph_traits<Graph2>::vertex_descriptor vertex2_t;
Chris@16	37 typedef typename graph_traits<Graph1>::edge_descriptor edge1_t;
Chris@16	38 typedef typename graph_traits<Graph1>::vertices_size_type size_type;
Chris@16	39 typedef typename Invariant1::result_type invar1_value;
Chris@16	40 typedef typename Invariant2::result_type invar2_value;
Chris@16	41
Chris@16	42 const Graph1& G1;
Chris@16	43 const Graph2& G2;
Chris@16	44 IsoMapping f;
Chris@16	45 Invariant1 invariant1;
Chris@16	46 Invariant2 invariant2;
Chris@16	47 std::size_t max_invariant;
Chris@16	48 IndexMap1 index_map1;
Chris@16	49 IndexMap2 index_map2;
Chris@16	50
Chris@16	51 std::vector<vertex1_t> dfs_vertices;
Chris@16	52 typedef typename std::vector<vertex1_t>::iterator vertex_iter;
Chris@16	53 std::vector<int> dfs_num_vec;
Chris@16	54 typedef safe_iterator_property_map<typename std::vector<int>::iterator,
Chris@16	55 IndexMap1
Chris@16	56 #ifdef BOOST_NO_STD_ITERATOR_TRAITS
Chris@16	57 , int, int&
Chris@16	58 #endif /* BOOST_NO_STD_ITERATOR_TRAITS */
Chris@16	59 > DFSNumMap;
Chris@16	60 DFSNumMap dfs_num;
Chris@16	61 std::vector<edge1_t> ordered_edges;
Chris@16	62 typedef typename std::vector<edge1_t>::iterator edge_iter;
Chris@16	63
Chris@16	64 std::vector<char> in_S_vec;
Chris@16	65 typedef safe_iterator_property_map<typename std::vector<char>::iterator,
Chris@16	66 IndexMap2
Chris@16	67 #ifdef BOOST_NO_STD_ITERATOR_TRAITS
Chris@16	68 , char, char&
Chris@16	69 #endif /* BOOST_NO_STD_ITERATOR_TRAITS */
Chris@16	70 > InSMap;
Chris@16	71 InSMap in_S;
Chris@16	72
Chris@16	73 int num_edges_on_k;
Chris@16	74
Chris@16	75 friend struct compare_multiplicity;
Chris@16	76 struct compare_multiplicity
Chris@16	77 {
Chris@16	78 compare_multiplicity(Invariant1 invariant1, size_type* multiplicity)
Chris@16	79 : invariant1(invariant1), multiplicity(multiplicity) { }
Chris@16	80 bool operator()(const vertex1_t& x, const vertex1_t& y) const {
Chris@16	81 return multiplicity[invariant1(x)] < multiplicity[invariant1(y)];
Chris@16	82 }
Chris@16	83 Invariant1 invariant1;
Chris@16	84 size_type* multiplicity;
Chris@16	85 };
Chris@16	86
Chris@16	87 struct record_dfs_order : default_dfs_visitor
Chris@16	88 {
Chris@16	89 record_dfs_order(std::vector<vertex1_t>& v, std::vector<edge1_t>& e)
Chris@16	90 : vertices(v), edges(e) { }
Chris@16	91
Chris@16	92 void discover_vertex(vertex1_t v, const Graph1&) const {
Chris@16	93 vertices.push_back(v);
Chris@16	94 }
Chris@16	95 void examine_edge(edge1_t e, const Graph1&) const {
Chris@16	96 edges.push_back(e);
Chris@16	97 }
Chris@16	98 std::vector<vertex1_t>& vertices;
Chris@16	99 std::vector<edge1_t>& edges;
Chris@16	100 };
Chris@16	101
Chris@16	102 struct edge_cmp {
Chris@16	103 edge_cmp(const Graph1& G1, DFSNumMap dfs_num)
Chris@16	104 : G1(G1), dfs_num(dfs_num) { }
Chris@16	105 bool operator()(const edge1_t& e1, const edge1_t& e2) const {
Chris@16	106 using namespace std;
Chris@16	107 int u1 = dfs_num[source(e1,G1)], v1 = dfs_num[target(e1,G1)];
Chris@16	108 int u2 = dfs_num[source(e2,G1)], v2 = dfs_num[target(e2,G1)];
Chris@16	109 int m1 = (max)(u1, v1);
Chris@16	110 int m2 = (max)(u2, v2);
Chris@16	111 // lexicographical comparison
Chris@16	112 return std::make_pair(m1, std::make_pair(u1, v1))
Chris@16	113 < std::make_pair(m2, std::make_pair(u2, v2));
Chris@16	114 }
Chris@16	115 const Graph1& G1;
Chris@16	116 DFSNumMap dfs_num;
Chris@16	117 };
Chris@16	118
Chris@16	119 public:
Chris@16	120 isomorphism_algo(const Graph1& G1, const Graph2& G2, IsoMapping f,
Chris@16	121 Invariant1 invariant1, Invariant2 invariant2, std::size_t max_invariant,
Chris@16	122 IndexMap1 index_map1, IndexMap2 index_map2)
Chris@16	123 : G1(G1), G2(G2), f(f), invariant1(invariant1), invariant2(invariant2),
Chris@16	124 max_invariant(max_invariant),
Chris@16	125 index_map1(index_map1), index_map2(index_map2)
Chris@16	126 {
Chris@16	127 in_S_vec.resize(num_vertices(G1));
Chris@16	128 in_S = make_safe_iterator_property_map
Chris@16	129 (in_S_vec.begin(), in_S_vec.size(), index_map2
Chris@16	130 #ifdef BOOST_NO_STD_ITERATOR_TRAITS
Chris@16	131 , in_S_vec.front()
Chris@16	132 #endif /* BOOST_NO_STD_ITERATOR_TRAITS */
Chris@16	133 );
Chris@16	134 }
Chris@16	135
Chris@16	136 bool test_isomorphism()
Chris@16	137 {
Chris@16	138 // reset isomapping
Chris@16	139 BGL_FORALL_VERTICES_T(v, G1, Graph1)
Chris@16	140 f[v] = graph_traits<Graph2>::null_vertex();
Chris@16	141
Chris@16	142 {
Chris@16	143 std::vector<invar1_value> invar1_array;
Chris@16	144 BGL_FORALL_VERTICES_T(v, G1, Graph1)
Chris@16	145 invar1_array.push_back(invariant1(v));
Chris@16	146 sort(invar1_array);
Chris@16	147
Chris@16	148 std::vector<invar2_value> invar2_array;
Chris@16	149 BGL_FORALL_VERTICES_T(v, G2, Graph2)
Chris@16	150 invar2_array.push_back(invariant2(v));
Chris@16	151 sort(invar2_array);
Chris@16	152 if (! equal(invar1_array, invar2_array))
Chris@16	153 return false;
Chris@16	154 }
Chris@16	155
Chris@16	156 std::vector<vertex1_t> V_mult;
Chris@16	157 BGL_FORALL_VERTICES_T(v, G1, Graph1)
Chris@16	158 V_mult.push_back(v);
Chris@16	159 {
Chris@16	160 std::vector<size_type> multiplicity(max_invariant, 0);
Chris@16	161 BGL_FORALL_VERTICES_T(v, G1, Graph1)
Chris@16	162 ++multiplicity.at(invariant1(v));
Chris@16	163 sort(V_mult, compare_multiplicity(invariant1, &multiplicity[0]));
Chris@16	164 }
Chris@16	165
Chris@16	166 std::vector<default_color_type> color_vec(num_vertices(G1));
Chris@16	167 safe_iterator_property_map<std::vector<default_color_type>::iterator,
Chris@16	168 IndexMap1
Chris@16	169 #ifdef BOOST_NO_STD_ITERATOR_TRAITS
Chris@16	170 , default_color_type, default_color_type&
Chris@16	171 #endif /* BOOST_NO_STD_ITERATOR_TRAITS */
Chris@16	172 >
Chris@16	173 color_map(color_vec.begin(), color_vec.size(), index_map1);
Chris@16	174 record_dfs_order dfs_visitor(dfs_vertices, ordered_edges);
Chris@16	175 typedef color_traits<default_color_type> Color;
Chris@16	176 for (vertex_iter u = V_mult.begin(); u != V_mult.end(); ++u) {
Chris@16	177 if (color_map[*u] == Color::white()) {
Chris@16	178 dfs_visitor.start_vertex(*u, G1);
Chris@16	179 depth_first_visit(G1, *u, dfs_visitor, color_map);
Chris@16	180 }
Chris@16	181 }
Chris@16	182 // Create the dfs_num array and dfs_num_map
Chris@16	183 dfs_num_vec.resize(num_vertices(G1));
Chris@16	184 dfs_num = make_safe_iterator_property_map(dfs_num_vec.begin(),
Chris@16	185 dfs_num_vec.size(),
Chris@16	186 index_map1
Chris@16	187 #ifdef BOOST_NO_STD_ITERATOR_TRAITS
Chris@16	188 , dfs_num_vec.front()
Chris@16	189 #endif /* BOOST_NO_STD_ITERATOR_TRAITS */
Chris@16	190 );
Chris@16	191 size_type n = 0;
Chris@16	192 for (vertex_iter v = dfs_vertices.begin(); v != dfs_vertices.end(); ++v)
Chris@16	193 dfs_num[*v] = n++;
Chris@16	194
Chris@16	195 sort(ordered_edges, edge_cmp(G1, dfs_num));
Chris@16	196
Chris@16	197
Chris@16	198 int dfs_num_k = -1;
Chris@16	199 return this->match(ordered_edges.begin(), dfs_num_k);
Chris@16	200 }
Chris@16	201
Chris@16	202 private:
Chris@16	203 struct match_continuation {
Chris@16	204 enum {pos_G2_vertex_loop, pos_fi_adj_loop, pos_dfs_num} position;
Chris@16	205 typedef typename graph_traits<Graph2>::vertex_iterator vertex_iterator;
Chris@16	206 std::pair<vertex_iterator, vertex_iterator> G2_verts;
Chris@16	207 typedef typename graph_traits<Graph2>::adjacency_iterator adjacency_iterator;
Chris@16	208 std::pair<adjacency_iterator, adjacency_iterator> fi_adj;
Chris@16	209 edge_iter iter;
Chris@16	210 int dfs_num_k;
Chris@16	211 };
Chris@16	212
Chris@16	213 bool match(edge_iter iter, int dfs_num_k)
Chris@16	214 {
Chris@16	215 std::vector<match_continuation> k;
Chris@16	216 typedef typename graph_traits<Graph2>::vertex_iterator vertex_iterator;
Chris@16	217 std::pair<vertex_iterator, vertex_iterator> G2_verts(vertices(G2));
Chris@16	218 typedef typename graph_traits<Graph2>::adjacency_iterator adjacency_iterator;
Chris@16	219 std::pair<adjacency_iterator, adjacency_iterator> fi_adj;
Chris@16	220 vertex1_t i, j;
Chris@16	221
Chris@16	222 recur:
Chris@16	223 if (iter != ordered_edges.end()) {
Chris@16	224 i = source(*iter, G1);
Chris@16	225 j = target(*iter, G1);
Chris@16	226 if (dfs_num[i] > dfs_num_k) {
Chris@16	227 G2_verts = vertices(G2);
Chris@16	228 while (G2_verts.first != G2_verts.second) {
Chris@16	229 {
Chris@16	230 vertex2_t u = *G2_verts.first;
Chris@16	231 vertex1_t kp1 = dfs_vertices[dfs_num_k + 1];
Chris@16	232 if (invariant1(kp1) == invariant2(u) && in_S[u] == false) {
Chris@16	233 {
Chris@16	234 f[kp1] = u;
Chris@16	235 in_S[u] = true;
Chris@16	236 num_edges_on_k = 0;
Chris@16	237
Chris@16	238 match_continuation new_k;
Chris@16	239 new_k.position = match_continuation::pos_G2_vertex_loop;
Chris@16	240 new_k.G2_verts = G2_verts;
Chris@16	241 new_k.iter = iter;
Chris@16	242 new_k.dfs_num_k = dfs_num_k;
Chris@16	243 k.push_back(new_k);
Chris@16	244 ++dfs_num_k;
Chris@16	245 goto recur;
Chris@16	246 }
Chris@16	247 }
Chris@16	248 }
Chris@16	249 G2_loop_k: ++G2_verts.first;
Chris@16	250 }
Chris@16	251
Chris@16	252 }
Chris@16	253 else if (dfs_num[j] > dfs_num_k) {
Chris@16	254 {
Chris@16	255 vertex1_t vk = dfs_vertices[dfs_num_k];
Chris@16	256 num_edges_on_k -=
Chris@16	257 count_if(adjacent_vertices(f[vk], G2), make_indirect_pmap(in_S));
Chris@16	258
Chris@16	259 for (int jj = 0; jj < dfs_num_k; ++jj) {
Chris@16	260 vertex1_t j = dfs_vertices[jj];
Chris@16	261 num_edges_on_k -= count(adjacent_vertices(f[j], G2), f[vk]);
Chris@16	262 }
Chris@16	263 }
Chris@16	264
Chris@16	265 if (num_edges_on_k != 0)
Chris@16	266 goto return_point_false;
Chris@16	267 fi_adj = adjacent_vertices(f[i], G2);
Chris@16	268 while (fi_adj.first != fi_adj.second) {
Chris@16	269 {
Chris@16	270 vertex2_t v = *fi_adj.first;
Chris@16	271 if (invariant2(v) == invariant1(j) && in_S[v] == false) {
Chris@16	272 f[j] = v;
Chris@16	273 in_S[v] = true;
Chris@16	274 num_edges_on_k = 1;
Chris@16	275 BOOST_USING_STD_MAX();
Chris@16	276 int next_k = max BOOST_PREVENT_MACRO_SUBSTITUTION(dfs_num_k, max BOOST_PREVENT_MACRO_SUBSTITUTION(dfs_num[i], dfs_num[j]));
Chris@16	277 match_continuation new_k;
Chris@16	278 new_k.position = match_continuation::pos_fi_adj_loop;
Chris@16	279 new_k.fi_adj = fi_adj;
Chris@16	280 new_k.iter = iter;
Chris@16	281 new_k.dfs_num_k = dfs_num_k;
Chris@16	282 ++iter;
Chris@16	283 dfs_num_k = next_k;
Chris@16	284 k.push_back(new_k);
Chris@16	285 goto recur;
Chris@16	286 }
Chris@16	287 }
Chris@16	288 fi_adj_loop_k:++fi_adj.first;
Chris@16	289 }
Chris@16	290 }
Chris@16	291 else {
Chris@16	292 if (container_contains(adjacent_vertices(f[i], G2), f[j])) {
Chris@16	293 ++num_edges_on_k;
Chris@16	294 match_continuation new_k;
Chris@16	295 new_k.position = match_continuation::pos_dfs_num;
Chris@16	296 k.push_back(new_k);
Chris@16	297 ++iter;
Chris@16	298 goto recur;
Chris@16	299 }
Chris@16	300
Chris@16	301 }
Chris@16	302 } else
Chris@16	303 goto return_point_true;
Chris@16	304 goto return_point_false;
Chris@16	305
Chris@16	306 {
Chris@16	307 return_point_true: return true;
Chris@16	308
Chris@16	309 return_point_false:
Chris@16	310 if (k.empty()) return false;
Chris@16	311 const match_continuation& this_k = k.back();
Chris@16	312 switch (this_k.position) {
Chris@16	313 case match_continuation::pos_G2_vertex_loop: {G2_verts = this_k.G2_verts; iter = this_k.iter; dfs_num_k = this_k.dfs_num_k; k.pop_back(); in_S[G2_verts.first] = false; i = source(iter, G1); j = target(*iter, G1); goto G2_loop_k;}
Chris@16	314 case match_continuation::pos_fi_adj_loop: {fi_adj = this_k.fi_adj; iter = this_k.iter; dfs_num_k = this_k.dfs_num_k; k.pop_back(); in_S[fi_adj.first] = false; i = source(iter, G1); j = target(*iter, G1); goto fi_adj_loop_k;}
Chris@16	315 case match_continuation::pos_dfs_num: {k.pop_back(); goto return_point_false;}
Chris@16	316 default: {
Chris@16	317 BOOST_ASSERT(!"Bad position");
Chris@16	318 #ifdef UNDER_CE
Chris@16	319 exit(-1);
Chris@16	320 #else
Chris@16	321 abort();
Chris@16	322 #endif
Chris@16	323 }
Chris@16	324 }
Chris@16	325 }
Chris@16	326 }
Chris@16	327 };
Chris@16	328
Chris@16	329
Chris@16	330 template <typename Graph, typename InDegreeMap>
Chris@16	331 void compute_in_degree(const Graph& g, InDegreeMap in_degree_map)
Chris@16	332 {
Chris@16	333 BGL_FORALL_VERTICES_T(v, g, Graph)
Chris@16	334 put(in_degree_map, v, 0);
Chris@16	335
Chris@16	336 BGL_FORALL_VERTICES_T(u, g, Graph)
Chris@16	337 BGL_FORALL_ADJ_T(u, v, g, Graph)
Chris@16	338 put(in_degree_map, v, get(in_degree_map, v) + 1);
Chris@16	339 }
Chris@16	340
Chris@16	341 } // namespace detail
Chris@16	342
Chris@16	343
Chris@16	344 template <typename InDegreeMap, typename Graph>
Chris@16	345 class degree_vertex_invariant
Chris@16	346 {
Chris@16	347 typedef typename graph_traits<Graph>::vertex_descriptor vertex_t;
Chris@16	348 typedef typename graph_traits<Graph>::degree_size_type size_type;
Chris@16	349 public:
Chris@16	350 typedef vertex_t argument_type;
Chris@16	351 typedef size_type result_type;
Chris@16	352
Chris@16	353 degree_vertex_invariant(const InDegreeMap& in_degree_map, const Graph& g)
Chris@16	354 : m_in_degree_map(in_degree_map),
Chris@16	355 m_max_vertex_in_degree(0),
Chris@16	356 m_max_vertex_out_degree(0),
Chris@16	357 m_g(g) {
Chris@16	358 BGL_FORALL_VERTICES_T(v, g, Graph) {
Chris@16	359 m_max_vertex_in_degree =
Chris@16	360 (std::max)(m_max_vertex_in_degree, get(m_in_degree_map, v));
Chris@16	361 m_max_vertex_out_degree =
Chris@16	362 (std::max)(m_max_vertex_out_degree, out_degree(v, g));
Chris@16	363 }
Chris@16	364 }
Chris@16	365
Chris@16	366 size_type operator()(vertex_t v) const {
Chris@16	367 return (m_max_vertex_in_degree + 1) * out_degree(v, m_g)
Chris@16	368 + get(m_in_degree_map, v);
Chris@16	369 }
Chris@16	370 // The largest possible vertex invariant number
Chris@16	371 size_type max BOOST_PREVENT_MACRO_SUBSTITUTION () const {
Chris@16	372 return (m_max_vertex_in_degree + 1) * (m_max_vertex_out_degree + 1);
Chris@16	373 }
Chris@16	374 private:
Chris@16	375 InDegreeMap m_in_degree_map;
Chris@16	376 size_type m_max_vertex_in_degree;
Chris@16	377 size_type m_max_vertex_out_degree;
Chris@16	378 const Graph& m_g;
Chris@16	379 };
Chris@16	380
Chris@16	381 // Count actual number of vertices, even in filtered graphs.
Chris@16	382 template <typename Graph>
Chris@16	383 size_t count_vertices(const Graph& g)
Chris@16	384 {
Chris@16	385 size_t n = 0;
Chris@16	386 BGL_FORALL_VERTICES_T(v, g, Graph) {(void)v; ++n;}
Chris@16	387 return n;
Chris@16	388 }
Chris@16	389
Chris@16	390 template <typename Graph1, typename Graph2, typename IsoMapping,
Chris@16	391 typename Invariant1, typename Invariant2,
Chris@16	392 typename IndexMap1, typename IndexMap2>
Chris@16	393 bool isomorphism(const Graph1& G1, const Graph2& G2, IsoMapping f,
Chris@16	394 Invariant1 invariant1, Invariant2 invariant2,
Chris@16	395 std::size_t max_invariant,
Chris@16	396 IndexMap1 index_map1, IndexMap2 index_map2)
Chris@16	397
Chris@16	398 {
Chris@16	399 // Graph requirements
Chris@16	400 BOOST_CONCEPT_ASSERT(( VertexListGraphConcept<Graph1> ));
Chris@16	401 BOOST_CONCEPT_ASSERT(( EdgeListGraphConcept<Graph1> ));
Chris@16	402 BOOST_CONCEPT_ASSERT(( VertexListGraphConcept<Graph2> ));
Chris@16	403 //BOOST_CONCEPT_ASSERT(( BidirectionalGraphConcept<Graph2> ));
Chris@16	404
Chris@16	405 typedef typename graph_traits<Graph1>::vertex_descriptor vertex1_t;
Chris@16	406 typedef typename graph_traits<Graph2>::vertex_descriptor vertex2_t;
Chris@16	407 typedef typename graph_traits<Graph1>::vertices_size_type size_type;
Chris@16	408
Chris@16	409 // Vertex invariant requirement
Chris@16	410 BOOST_CONCEPT_ASSERT(( AdaptableUnaryFunctionConcept<Invariant1,
Chris@16	411 size_type, vertex1_t> ));
Chris@16	412 BOOST_CONCEPT_ASSERT(( AdaptableUnaryFunctionConcept<Invariant2,
Chris@16	413 size_type, vertex2_t> ));
Chris@16	414
Chris@16	415 // Property map requirements
Chris@16	416 BOOST_CONCEPT_ASSERT(( ReadWritePropertyMapConcept<IsoMapping, vertex1_t> ));
Chris@16	417 typedef typename property_traits<IsoMapping>::value_type IsoMappingValue;
Chris@16	418 BOOST_STATIC_ASSERT((is_convertible<IsoMappingValue, vertex2_t>::value));
Chris@16	419
Chris@16	420 BOOST_CONCEPT_ASSERT(( ReadablePropertyMapConcept<IndexMap1, vertex1_t> ));
Chris@16	421 typedef typename property_traits<IndexMap1>::value_type IndexMap1Value;
Chris@16	422 BOOST_STATIC_ASSERT((is_convertible<IndexMap1Value, size_type>::value));
Chris@16	423
Chris@16	424 BOOST_CONCEPT_ASSERT(( ReadablePropertyMapConcept<IndexMap2, vertex2_t> ));
Chris@16	425 typedef typename property_traits<IndexMap2>::value_type IndexMap2Value;
Chris@16	426 BOOST_STATIC_ASSERT((is_convertible<IndexMap2Value, size_type>::value));
Chris@16	427
Chris@16	428 if (count_vertices(G1) != count_vertices(G2))
Chris@16	429 return false;
Chris@16	430 if (count_vertices(G1) == 0 && count_vertices(G2) == 0)
Chris@16	431 return true;
Chris@16	432
Chris@16	433 detail::isomorphism_algo<Graph1, Graph2, IsoMapping, Invariant1,
Chris@16	434 Invariant2, IndexMap1, IndexMap2>
Chris@16	435 algo(G1, G2, f, invariant1, invariant2, max_invariant,
Chris@16	436 index_map1, index_map2);
Chris@16	437 return algo.test_isomorphism();
Chris@16	438 }
Chris@16	439
Chris@16	440
Chris@16	441 namespace detail {
Chris@16	442
Chris@16	443 template <typename Graph1, typename Graph2,
Chris@16	444 typename IsoMapping,
Chris@16	445 typename IndexMap1, typename IndexMap2,
Chris@16	446 typename P, typename T, typename R>
Chris@16	447 bool isomorphism_impl(const Graph1& G1, const Graph2& G2,
Chris@16	448 IsoMapping f, IndexMap1 index_map1, IndexMap2 index_map2,
Chris@16	449 const bgl_named_params<P,T,R>& params)
Chris@16	450 {
Chris@16	451 std::vector<std::size_t> in_degree1_vec(num_vertices(G1));
Chris@16	452 typedef safe_iterator_property_map<std::vector<std::size_t>::iterator,
Chris@16	453 IndexMap1
Chris@16	454 #ifdef BOOST_NO_STD_ITERATOR_TRAITS
Chris@16	455 , std::size_t, std::size_t&
Chris@16	456 #endif /* BOOST_NO_STD_ITERATOR_TRAITS */
Chris@16	457 > InDeg1;
Chris@16	458 InDeg1 in_degree1(in_degree1_vec.begin(), in_degree1_vec.size(), index_map1);
Chris@16	459 compute_in_degree(G1, in_degree1);
Chris@16	460
Chris@16	461 std::vector<std::size_t> in_degree2_vec(num_vertices(G2));
Chris@16	462 typedef safe_iterator_property_map<std::vector<std::size_t>::iterator,
Chris@16	463 IndexMap2
Chris@16	464 #ifdef BOOST_NO_STD_ITERATOR_TRAITS
Chris@16	465 , std::size_t, std::size_t&
Chris@16	466 #endif /* BOOST_NO_STD_ITERATOR_TRAITS */
Chris@16	467 > InDeg2;
Chris@16	468 InDeg2 in_degree2(in_degree2_vec.begin(), in_degree2_vec.size(), index_map2);
Chris@16	469 compute_in_degree(G2, in_degree2);
Chris@16	470
Chris@16	471 degree_vertex_invariant<InDeg1, Graph1> invariant1(in_degree1, G1);
Chris@16	472 degree_vertex_invariant<InDeg2, Graph2> invariant2(in_degree2, G2);
Chris@16	473
Chris@16	474 return isomorphism(G1, G2, f,
Chris@16	475 choose_param(get_param(params, vertex_invariant1_t()), invariant1),
Chris@16	476 choose_param(get_param(params, vertex_invariant2_t()), invariant2),
Chris@16	477 choose_param(get_param(params, vertex_max_invariant_t()), (invariant2.max)()),
Chris@16	478 index_map1, index_map2
Chris@16	479 );
Chris@16	480 }
Chris@16	481
Chris@16	482 template <typename G, typename Index>
Chris@16	483 struct make_degree_invariant {
Chris@16	484 const G& g;
Chris@16	485 const Index& index;
Chris@16	486 make_degree_invariant(const G& g, const Index& index): g(g), index(index) {}
Chris@16	487 typedef typename boost::graph_traits<G>::degree_size_type degree_size_type;
Chris@16	488 typedef shared_array_property_map<degree_size_type, Index> prop_map_type;
Chris@16	489 typedef degree_vertex_invariant<prop_map_type, G> result_type;
Chris@16	490 result_type operator()() const {
Chris@16	491 prop_map_type pm = make_shared_array_property_map(num_vertices(g), degree_size_type(), index);
Chris@16	492 compute_in_degree(g, pm);
Chris@16	493 return result_type(pm, g);
Chris@16	494 }
Chris@16	495 };
Chris@16	496
Chris@16	497 } // namespace detail
Chris@16	498
Chris@16	499 namespace graph {
Chris@16	500 namespace detail {
Chris@16	501 template <typename Graph1, typename Graph2>
Chris@16	502 struct isomorphism_impl {
Chris@16	503 typedef bool result_type;
Chris@16	504 template <typename ArgPack>
Chris@16	505 bool operator()(const Graph1& g1, const Graph2& g2, const ArgPack& arg_pack) const {
Chris@16	506 using namespace boost::graph::keywords;
Chris@16	507 typedef typename boost::detail::override_const_property_result<ArgPack, tag::vertex_index1_map, boost::vertex_index_t, Graph1>::type index1_map_type;
Chris@16	508 typedef typename boost::detail::override_const_property_result<ArgPack, tag::vertex_index2_map, boost::vertex_index_t, Graph2>::type index2_map_type;
Chris@16	509 index1_map_type index1_map = boost::detail::override_const_property(arg_pack, _vertex_index1_map, g1, boost::vertex_index);
Chris@16	510 index2_map_type index2_map = boost::detail::override_const_property(arg_pack, _vertex_index2_map, g2, boost::vertex_index);
Chris@16	511 typedef typename graph_traits<Graph2>::vertex_descriptor vertex2_t;
Chris@16	512 typename std::vector<vertex2_t>::size_type n = (typename std::vector<vertex2_t>::size_type)num_vertices(g1);
Chris@16	513 std::vector<vertex2_t> f(n);
Chris@16	514 typename boost::parameter::lazy_binding<
Chris@16	515 ArgPack,
Chris@16	516 tag::vertex_invariant1,
Chris@16	517 boost::detail::make_degree_invariant<Graph1, index1_map_type> >::type
Chris@16	518 invariant1 =
Chris@16	519 arg_pack[_vertex_invariant1 \|\| boost::detail::make_degree_invariant<Graph1, index1_map_type>(g1, index1_map)];
Chris@16	520 typename boost::parameter::lazy_binding<
Chris@16	521 ArgPack,
Chris@16	522 tag::vertex_invariant2,
Chris@16	523 boost::detail::make_degree_invariant<Graph2, index2_map_type> >::type
Chris@16	524 invariant2 =
Chris@16	525 arg_pack[_vertex_invariant2 \|\| boost::detail::make_degree_invariant<Graph2, index2_map_type>(g2, index2_map)];
Chris@16	526 return boost::isomorphism
Chris@16	527 (g1, g2,
Chris@16	528 choose_param(arg_pack[_isomorphism_map \| boost::param_not_found()],
Chris@16	529 make_shared_array_property_map(num_vertices(g1), vertex2_t(), index1_map)),
Chris@16	530 invariant1,
Chris@16	531 invariant2,
Chris@16	532 arg_pack[_vertex_max_invariant \| (invariant2.max)()],
Chris@16	533 index1_map,
Chris@16	534 index2_map);
Chris@16	535 }
Chris@16	536 };
Chris@16	537 }
Chris@16	538 BOOST_GRAPH_MAKE_FORWARDING_FUNCTION(isomorphism, 2, 6)
Chris@16	539 }
Chris@16	540
Chris@16	541 // Named parameter interface
Chris@16	542 BOOST_GRAPH_MAKE_OLD_STYLE_PARAMETER_FUNCTION(isomorphism, 2)
Chris@16	543
Chris@16	544 // Verify that the given mapping iso_map from the vertices of g1 to the
Chris@16	545 // vertices of g2 describes an isomorphism.
Chris@16	546 // Note: this could be made much faster by specializing based on the graph
Chris@16	547 // concepts modeled, but since we're verifying an O(n^(lg n)) algorithm,
Chris@16	548 // O(n^4) won't hurt us.
Chris@16	549 template<typename Graph1, typename Graph2, typename IsoMap>
Chris@16	550 inline bool verify_isomorphism(const Graph1& g1, const Graph2& g2, IsoMap iso_map)
Chris@16	551 {
Chris@16	552 #if 0
Chris@16	553 // problematic for filtered_graph!
Chris@16	554 if (num_vertices(g1) != num_vertices(g2) \|\| num_edges(g1) != num_edges(g2))
Chris@16	555 return false;
Chris@16	556 #endif
Chris@16	557
Chris@16	558 BGL_FORALL_EDGES_T(e1, g1, Graph1) {
Chris@16	559 bool found_edge = false;
Chris@16	560 BGL_FORALL_EDGES_T(e2, g2, Graph2) {
Chris@16	561 if (source(e2, g2) == get(iso_map, source(e1, g1)) &&
Chris@16	562 target(e2, g2) == get(iso_map, target(e1, g1))) {
Chris@16	563 found_edge = true;
Chris@16	564 }
Chris@16	565 }
Chris@16	566
Chris@16	567 if (!found_edge)
Chris@16	568 return false;
Chris@16	569 }
Chris@16	570
Chris@16	571 return true;
Chris@16	572 }
Chris@16	573
Chris@16	574 } // namespace boost
Chris@16	575
Chris@16	576 #ifdef BOOST_ISO_INCLUDED_ITER_MACROS
Chris@16	577 #undef BOOST_ISO_INCLUDED_ITER_MACROS
Chris@16	578 #include <boost/graph/iteration_macros_undef.hpp>
Chris@16	579 #endif
Chris@16	580
Chris@16	581 #endif // BOOST_GRAPH_ISOMORPHISM_HPP

Mercurial > hg > vamp-build-and-test

annotate DEPENDENCIES/generic/include/boost/graph/isomorphism.hpp @ 133:4acb5d8d80b6 tip