trunk preprocessor: various minor changes in MinimumFeedbackSet.{cc,hh}
git-svn-id: https://www.dynare.org/svn/dynare/trunk@2797 ac1d8469-bf42-47a9-8791-bf33cf982152time-shift
parent
7174c5f3ce
commit
1f22698295
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@ -17,6 +17,8 @@
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* along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include <iostream>
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#include "MinimumFeedbackSet.hh"
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namespace MFS
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@ -24,8 +26,6 @@ namespace MFS
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void
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Suppress(AdjacencyList_type::vertex_descriptor vertex_to_eliminate, AdjacencyList_type& G)
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{
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/*clear all in and out edges of vertex_to_eliminate
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and remove vertex_to_eliminate from the graph*/
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clear_vertex(vertex_to_eliminate, G);
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remove_vertex(vertex_to_eliminate, G);
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}
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@ -41,8 +41,7 @@ namespace MFS
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void
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Eliminate(AdjacencyList_type::vertex_descriptor vertex_to_eliminate, AdjacencyList_type& G)
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{
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/*before the vertex i suppression replace all edges e_k_i and e_i_j by e_k_j*/
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if (in_degree (vertex_to_eliminate, G) > 0 and out_degree (vertex_to_eliminate, G) > 0)
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if (in_degree (vertex_to_eliminate, G) > 0 && out_degree (vertex_to_eliminate, G) > 0)
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{
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AdjacencyList_type::in_edge_iterator it_in, in_end;
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AdjacencyList_type::out_edge_iterator it_out, out_end;
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@ -67,16 +66,15 @@ namespace MFS
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color[u] = gray_color;
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graph_traits<AdjacencyList_type>::out_edge_iterator vi, vi_end;
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for (tie(vi, vi_end) = out_edges(u, g); vi != vi_end; ++vi)
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if (color[target(*vi, g)] == white_color)
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{
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if (has_cycle_dfs(g, target(*vi, g), color, circuit_stack))
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if (color[target(*vi, g)] == white_color && has_cycle_dfs(g, target(*vi, g), color, circuit_stack))
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{
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// cycle detected, return immediately
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circuit_stack.push_back(v_index[target(*vi, g)]);
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return true; // cycle detected, return immediately
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return true;
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}
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}
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else if (color[target(*vi, g)] == gray_color) // *vi is an ancestor!
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else if (color[target(*vi, g)] == gray_color)
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{
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// *vi is an ancestor!
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circuit_stack.push_back(v_index[target(*vi, g)]);
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return true;
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}
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@ -85,31 +83,26 @@ namespace MFS
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}
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bool
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has_cylce(AdjacencyList_type& g, vector<int> &circuit_stack)
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has_cycle(vector<int> &circuit_stack, AdjacencyList_type& g)
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{
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// Initialize color map to white
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color_type color;
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graph_traits<AdjacencyList_type>::vertex_iterator vi, vi_end;
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for (tie(vi, vi_end) = vertices(g); vi != vi_end; vi++)
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for (tie(vi, vi_end) = vertices(g); vi != vi_end; ++vi)
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color[*vi] = white_color;
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property_map<AdjacencyList_type, vertex_index_t>::type v_index = get(vertex_index, g);
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for (tie(vi, vi_end) = vertices(g); vi != vi_end; vi++)
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if (color[*vi] == white_color)
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if (has_cycle_dfs(g, *vi, color, circuit_stack))
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// Perform depth-first search
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for (tie(vi, vi_end) = vertices(g); vi != vi_end; ++vi)
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if (color[*vi] == white_color && has_cycle_dfs(g, *vi, color, circuit_stack))
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return true;
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return false;
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}
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bool
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has_cycle(vector<int> &circuit_stack, AdjacencyList_type& G)
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{
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return has_cylce(G, circuit_stack);
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}
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void
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Print(AdjacencyList_type& G)
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{
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AdjacencyList_type::vertex_iterator it, it_end, it_begin;
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AdjacencyList_type::vertex_iterator it, it_end;
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property_map<AdjacencyList_type, vertex_index_t>::type v_index = get(vertex_index, G);
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cout << "Graph\n";
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cout << "-----\n";
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@ -150,7 +143,7 @@ namespace MFS
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void
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Print(GraphvizDigraph& G)
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{
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GraphvizDigraph::vertex_iterator it, it_end, it_begin;
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GraphvizDigraph::vertex_iterator it, it_end;
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property_map<GraphvizDigraph, vertex_index_t>::type v_index = get(vertex_index, G);
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cout << "Graph\n";
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cout << "-----\n";
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@ -192,14 +185,14 @@ namespace MFS
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property_map<GraphvizDigraph, vertex_index_t>::type v1_index = get(vertex_index, G1);
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set<int>::iterator it = select_index.begin();
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map<int,int> reverse_index;
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for (unsigned int i = 0;i < n;i++, it++)
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for (unsigned int i = 0;i < n;i++, ++it)
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{
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reverse_index[v1_index[*it]]=i;
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put(v_index, vertex(i, G), v1_index[*it]);
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put(v_index1, vertex(i, G), i);
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}
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unsigned int i;
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for (it = select_index.begin(), i = 0;i < n;i++, it++)
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for (it = select_index.begin(), i = 0;i < n;i++, ++it)
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{
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GraphvizDigraph::out_edge_iterator it_out, out_end;
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GraphvizDigraph::vertex_descriptor vi = vertex(*it, G1);
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@ -216,15 +209,13 @@ namespace MFS
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vector_vertex_descriptor
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Collect_Doublet(AdjacencyList_type::vertex_descriptor vertex, AdjacencyList_type& G)
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{
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/*collect all doublet (for each edge e_i_k there is an edge e_k_i with k!=i) in the graph
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and return the vector of doublet*/
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AdjacencyList_type::in_edge_iterator it_in, in_end;
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AdjacencyList_type::out_edge_iterator it_out, out_end;
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vector<AdjacencyList_type::vertex_descriptor> Doublet;
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if (in_degree(vertex, G) > 0 and out_degree(vertex, G) > 0)
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if (in_degree(vertex, G) > 0 && out_degree(vertex, G) > 0)
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for (tie(it_in, in_end) = in_edges(vertex, G); it_in != in_end; ++it_in)
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for (tie(it_out, out_end) = out_edges(vertex, G); it_out != out_end; ++it_out)
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if (source(*it_in, G) == target(*it_out, G) and source(*it_in, G) != target(*it_in, G)) // not a loop
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if (source(*it_in, G) == target(*it_out, G) && source(*it_in, G) != target(*it_in, G)) // not a loop
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Doublet.push_back(source(*it_in, G));
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return Doublet;
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}
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@ -232,35 +223,34 @@ namespace MFS
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bool
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Vertex_Belong_to_a_Clique(AdjacencyList_type::vertex_descriptor vertex, AdjacencyList_type& G)
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{
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/*Detect all the clique (all vertex in a clique are related to each other) in the graph*/
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vector<AdjacencyList_type::vertex_descriptor> liste;
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bool agree = true;
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AdjacencyList_type::in_edge_iterator it_in, in_end;
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AdjacencyList_type::out_edge_iterator it_out, out_end;
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tie(it_in, in_end) = in_edges(vertex, G);
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tie(it_out, out_end) = out_edges(vertex, G);
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while (it_in != in_end and it_out != out_end and agree)
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while (it_in != in_end && it_out != out_end && agree)
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{
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agree = (source(*it_in, G) == target(*it_out, G) and source(*it_in, G) != target(*it_in, G)); //not a loop
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agree = (source(*it_in, G) == target(*it_out, G) && source(*it_in, G) != target(*it_in, G)); //not a loop
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liste.push_back(source(*it_in, G));
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it_in++;
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it_out++;
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++it_in;
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++it_out;
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}
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if (agree)
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{
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if (it_in != in_end or it_out != out_end)
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if (it_in != in_end || it_out != out_end)
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agree = false;
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unsigned int i = 1;
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while (i < liste.size() and agree)
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while (i < liste.size() && agree)
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{
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unsigned int j = i + 1;
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while (j < liste.size() and agree)
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while (j < liste.size() && agree)
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{
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AdjacencyList_type::edge_descriptor ed;
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bool exist1, exist2;
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tie(ed, exist1) = edge(liste[i], liste[j] , G);
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tie(ed, exist2) = edge(liste[j], liste[i] , G);
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agree = (exist1 and exist2);
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agree = (exist1 && exist2);
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j++;
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}
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i++;
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@ -269,28 +259,22 @@ namespace MFS
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return agree;
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}
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bool
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Elimination_of_Vertex_With_One_or_Less_Indegree_or_Outdegree_Step(AdjacencyList_type& G)
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{
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/*Graph reduction: eliminating purely intermediate variables or variables outside of any circuit*/
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bool something_has_been_done = false;
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bool not_a_loop;
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int i;
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AdjacencyList_type::vertex_iterator it, it1, ita, it_end, it_begin;
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tie(it, it_end) = vertices(G);
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it_begin = it;
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AdjacencyList_type::vertex_iterator it, it1, ita, it_end;
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property_map<AdjacencyList_type, vertex_index_t>::type v_index = get(vertex_index, G);
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for ( i = 0; it != it_end; ++it, i++)
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for (tie(it, it_end) = vertices(G), i = 0; it != it_end; ++it, i++)
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{
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int in_degree_n = in_degree(*it, G);
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int out_degree_n = out_degree(*it, G);
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if (in_degree_n <= 1 or out_degree_n <= 1)
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if (in_degree_n <= 1 || out_degree_n <= 1)
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{
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not_a_loop = true;
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if (in_degree_n >= 1 and out_degree_n >= 1) //do not eliminate a vertex if it loops on its self!
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if (in_degree_n >= 1 && out_degree_n >= 1) // Do not eliminate a vertex if it loops on itself!
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{
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AdjacencyList_type::in_edge_iterator it_in, in_end;
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for (tie(it_in, in_end) = in_edges(*it, G); it_in != in_end; ++it_in)
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return something_has_been_done;
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}
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bool
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Elimination_of_Vertex_belonging_to_a_clique_Step(AdjacencyList_type& G)
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{
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/*Graphe reduction: elimination of a vertex inside a clique*/
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AdjacencyList_type::vertex_iterator it, it1, ita, it_end, it_begin;
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AdjacencyList_type::vertex_iterator it, it1, ita, it_end;
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bool something_has_been_done = false;
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int i;
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tie(it, it_end) = vertices(G);
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it_begin = it;
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for (i = 0;it != it_end; ++it, i++)
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for (tie(it, it_end) = vertices(G), i = 0; it != it_end; ++it, i++)
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{
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if (Vertex_Belong_to_a_Clique(*it, G))
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{
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return something_has_been_done;
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}
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bool
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Suppression_of_Vertex_X_if_it_loops_store_in_set_of_feedback_vertex_Step(set<int> &feed_back_vertices, AdjacencyList_type& G)
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{
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/*If a vertex loop on itself it's a feedback variable
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we eliminate it from the graph and store the vertex
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in the minimum feedback set*/
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bool something_has_been_done = false;
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AdjacencyList_type::vertex_iterator it, it_end, it_begin, ita;
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AdjacencyList_type::vertex_iterator it, it_end, ita;
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int i = 0;
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tie(it, it_end) = vertices(G);
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it_begin = it;
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for (;it != it_end; ++it, i++)
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for (tie(it, it_end) = vertices(G); it != it_end; ++it, i++)
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{
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AdjacencyList_type::edge_descriptor ed;
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bool exist;
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AdjacencyList_type G(G1);
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while (num_vertices(G) > 0)
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{
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while (something_has_been_done and num_vertices(G) > 0)
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while (something_has_been_done && num_vertices(G) > 0)
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{
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//Rule 1
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something_has_been_done = (Elimination_of_Vertex_With_One_or_Less_Indegree_or_Outdegree_Step(G) /*or something_has_been_done*/);
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#endif
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//Rule 2
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something_has_been_done = (Elimination_of_Vertex_belonging_to_a_clique_Step(G) or something_has_been_done);
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something_has_been_done = (Elimination_of_Vertex_belonging_to_a_clique_Step(G) || something_has_been_done);
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#ifdef verbose
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cout << "2 something_has_been_done=" << something_has_been_done << "\n";
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#endif
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//Rule 3
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something_has_been_done = (Suppression_of_Vertex_X_if_it_loops_store_in_set_of_feedback_vertex_Step(feed_back_vertices, G) or something_has_been_done);
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something_has_been_done = (Suppression_of_Vertex_X_if_it_loops_store_in_set_of_feedback_vertex_Step(feed_back_vertices, G) || something_has_been_done);
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#ifdef verbose
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cout << "3 something_has_been_done=" << something_has_been_done << "\n";
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#endif
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@ -436,7 +408,7 @@ namespace MFS
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vector<int> circuit;
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if (!has_cycle(circuit, G))
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{
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#ifdef verobse
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#ifdef verbose
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cout << "has_cycle=false\n";
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#endif
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//sort(feed_back_vertices.begin(), feed_back_vertices.end());
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for (its = feedback_vertices.begin(); its != feedback_vertices.end(); its++)
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fv.insert(*its);
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int i=0;
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for (its = fv.begin(); its != fv.end(); its++, i++)
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for (its = fv.begin(); its != fv.end(); ++its, i++)
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{
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//cout << "supress " << v_index[vertex(*its, G)]+1 << " " << *its << "\n";
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Suppress(*its, G);
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while (something_has_been_done)
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{
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something_has_been_done = false;
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AdjacencyList_type::vertex_iterator it, it_end, it_begin, ita;
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tie(it, it_end) = vertices(G);
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int i = 0;
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for (it_begin = it;it != it_end; ++it, i++)
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AdjacencyList_type::vertex_iterator it, it_end, ita;
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for (tie(it, it_end) = vertices(G), i = 0; it != it_end; ++it, i++)
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{
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if (in_degree(*it, G) == 0)
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{
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cout << "Error in the computation of feedback vertex set\n";
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return Reordered_Vertices;
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}
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}
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@ -17,10 +17,9 @@
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* along with Dynare. If not, see <http://www.gnu.org/licenses/>.
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*/
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#ifndef MFE_BOOST
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#define MFE_BOOST
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#ifndef _MINIMUMFEEDBACKSET_HH
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#define _MINIMUMFEEDBACKSET_HH
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#include <iostream>
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#include <map>
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#include <vector>
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#include <boost/graph/graphviz.hpp>
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using namespace std;
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using namespace boost;
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//#define verbose
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namespace MFS
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{
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typedef property<vertex_index_t, int,
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property<vertex_index1_t, int,
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property<vertex_degree_t, int,
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@ -40,23 +39,21 @@ using namespace boost;
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typedef map<graph_traits<AdjacencyList_type>::vertex_descriptor,default_color_type> color_type;
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typedef vector<AdjacencyList_type::vertex_descriptor> vector_vertex_descriptor;
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namespace MFS
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{
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//! Eliminate a vertex i:
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//! Eliminate a vertex i
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/*! For a vertex i replace all edges e_k_i and e_i_j by a shorcut e_k_j and then Suppress the vertex i*/
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void Eliminate(AdjacencyList_type::vertex_descriptor vertex_to_eliminate, AdjacencyList_type& G);
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//!collect all doublet (for each edge e_i_k there is an edge e_k_i with k!=i) in the graph
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/*! and return the vector of doublet*/
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//! Collect all doublets (edges e_i_k such that there is an edge e_k_i with k!=i in the graph)
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/*! Returns the vector of doublets */
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vector_vertex_descriptor Collect_Doublet(AdjacencyList_type::vertex_descriptor vertex, AdjacencyList_type& G);
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//! Detect all the clique (all vertex in a clique are related to each other) in the graph
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bool Vertex_Belong_to_a_Clique(AdjacencyList_type::vertex_descriptor vertex, AdjacencyList_type& G);
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//! Graph reduction: eliminating purely intermediate variables or variables outside of any circuit
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bool Elimination_of_Vertex_With_One_or_Less_Indegree_or_Outdegree_Step(AdjacencyList_type& G);
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//! Graphe reduction: elimination of a vertex inside a clique
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//! Graph reduction: elimination of a vertex inside a clique
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bool Elimination_of_Vertex_belonging_to_a_clique_Step(AdjacencyList_type& G);
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//! A vertex belong to the feedback vertex set if the vertex loop on itself.
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//! A vertex belong to the feedback vertex set if the vertex loops on itself.
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/*! We have to suppress this vertex and store it into the feedback set.*/
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bool Suppression_of_Vertex_X_if_it_loops_store_in_set_of_feedback_vertex_Step(vector<pair<int, AdjacencyList_type::vertex_descriptor> > &looping_variable, AdjacencyList_type& G);
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bool Suppression_of_Vertex_X_if_it_loops_store_in_set_of_feedback_vertex_Step(set<int> &feed_back_vertices, AdjacencyList_type& G1);
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//! Print the Graph
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void Print(GraphvizDigraph& G);
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void Print(AdjacencyList_type& G);
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@ -67,18 +64,16 @@ namespace MFS
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//! Create an adjacency graph from a GraphvizDigraph
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AdjacencyList_type GraphvizDigraph_2_AdjacencyList(GraphvizDigraph& G1, set<int> select_index);
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//! Check if the graph contains any cycle (true if the model contains at least one cycle, false otherwise)
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bool has_cycle(vector<int> &circuit_stack, AdjacencyList_type& g);
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bool has_cycle_dfs(AdjacencyList_type& g, AdjacencyList_type::vertex_descriptor u, color_type& color, vector<int> &circuit_stack);
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bool has_cylce(AdjacencyList_type& g, vector<int> &circuit_stack, int size);
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bool has_cycle(vector<int> &circuit_stack, AdjacencyList_type& G);
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//! Return the feedback set
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AdjacencyList_type Minimal_set_of_feedback_vertex(set<int> &feed_back_vertices, const AdjacencyList_type& G);
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//! clear all in and out edges of vertex_to_eliminate
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/*! and remove vertex_to_eliminate from the graph*/
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//! Clear all in and out edges of vertex_to_eliminate and remove vertex_to_eliminate from the graph
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void Suppress(AdjacencyList_type::vertex_descriptor vertex_to_eliminate, AdjacencyList_type& G);
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void Suppress(int vertex_num, AdjacencyList_type& G);
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//! reorder the recursive variable:
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//! Reorder the recursive variables
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/*! They appear first in a quasi triangular form and they are followed by the feedback variables */
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vector<int> Reorder_the_recursive_variables(const AdjacencyList_type& G1, set<int> &feed_back_vertices);
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};
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#endif
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#endif // _MINIMUMFEEDBACKSET_HH
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