A
- add_edge, igraph_add_edge — Adds a single edge to a graph.
- add_edges, igraph_add_edges — Adds edges to a graph object.
- add_vertices, igraph_add_vertices — Adds vertices to a graph.
- adhesion, igraph_adhesion — Graph adhesion, this is (almost) the same as edge connectivity.
- adjacency, igraph_adjacency — Creates a graph from an adjacency matrix.
- adjacency_spectral_embedding, igraph_adjacency_spectral_embedding — Adjacency spectral embedding
- adjacent_triangles, igraph_adjacent_triangles — Count the number of triangles a vertex is part of.
- adjlist, igraph_adjlist — Creates a graph from an adjacency list.
- adjlist_clear, igraph_adjlist_clear — Removes all edges from an adjacency list.
- adjlist_destroy, igraph_adjlist_destroy — Deallocates an adjacency list.
- adjlist_get, igraph_adjlist_get — Query a vector in an adjacency list.
- adjlist_init, igraph_adjlist_init — Constructs an adjacency list of vertices from a given graph.
- adjlist_init_complementer, igraph_adjlist_init_complementer — Adjacency lists for the complementer graph.
- adjlist_init_empty, igraph_adjlist_init_empty — Initializes an empty adjacency list.
- adjlist_simplify, igraph_adjlist_simplify — Simplifies an adjacency list.
- adjlist_size, igraph_adjlist_size — Returns the number of vertices in an adjacency list.
- adjlist_sort, igraph_adjlist_sort — Sorts each vector in an adjacency list.
- all_minimal_st_separators, igraph_all_minimal_st_separators — List all vertex sets that are minimal (s,t) separators for some s and t.
- all_st_cuts, igraph_all_st_cuts — List all edge-cuts between two vertices in a directed graph
- all_st_mincuts, igraph_all_st_mincuts — All minimum s-t cuts of a directed graph
- are_connected, igraph_are_connected — Decides whether two vertices are connected
- arpack_function_t, igraph_arpack_function_t — Type of the ARPACK callback function
- arpack_options_init, igraph_arpack_options_init — Initialize ARPACK options
- arpack_options_t, igraph_arpack_options_t — Options for ARPACK
- arpack_rnsolve, igraph_arpack_rnsolve — ARPACK solver for non-symmetric matrices
- arpack_rssolve, igraph_arpack_rssolve — ARPACK solver for symmetric matrices
- arpack_storage_destroy, igraph_arpack_storage_destroy — Deallocate ARPACK storage
- arpack_storage_init, igraph_arpack_storage_init — Initialize ARPACK storage
- arpack_storage_t, igraph_arpack_storage_t — Storage for ARPACK
- arpack_unpack_complex, igraph_arpack_unpack_complex — Make the result of the non-symmetric ARPACK solver more readable
- articulation_points, igraph_articulation_points — Find the articulation points in a graph.
- ASSERT, IGRAPH_ASSERT — igraph-specific replacement for assert().
- assortativity, igraph_assortativity — Assortativity based on numeric properties of vertices
- assortativity_degree, igraph_assortativity_degree — Assortativity of a graph based on vertex degree
- assortativity_nominal, igraph_assortativity_nominal — Assortativity of a graph based on vertex categories
- asymmetric_preference_game, igraph_asymmetric_preference_game — Generates a graph with asymmetric vertex types and connection preferences.
- atlas, igraph_atlas — Create a small graph from the “Graph Atlas”.
- attribute_combination_add, igraph_attribute_combination_add — Add combination record to attribute combination list.
- attribute_combination_destroy, igraph_attribute_combination_destroy — Destroy attribute combination list.
- attribute_combination_init, igraph_attribute_combination_init — Initialize attribute combination list.
- attribute_combination_remove, igraph_attribute_combination_remove — Remove a record from an attribute combination list.
- attribute_combination_type_t, igraph_attribute_combination_type_t — The possible types of attribute combinations.
- attribute_table_t, igraph_attribute_table_t — Table of functions to perform operations on attributes
- attribute_type_t, igraph_attribute_type_t — The possible types of the attributes.
- authority_score, igraph_authority_score — Kleinerg's authority scores.
- automorphisms, igraph_automorphisms — Number of automorphisms using Bliss.
- automorphism_group, igraph_automorphism_group — Automorphism group generators using Bliss.
- average_local_efficiency, igraph_average_local_efficiency — Calculates the average local efficiency in a network.
- average_path_length, igraph_average_path_length — Calculates the average unweighted shortest path length between all vertex pairs.
- average_path_length_dijkstra, igraph_average_path_length_dijkstra — Calculates the average weighted shortest path length between all vertex pairs.
- avg_nearest_neighbor_degree, igraph_avg_nearest_neighbor_degree — Average neighbor degree.
B
- barabasi_aging_game, igraph_barabasi_aging_game — Preferential attachment with aging of vertices.
- barabasi_game, igraph_barabasi_game — Generates a graph based on the Barabási-Albert model.
- betweenness, igraph_betweenness — Betweenness centrality of some vertices.
- betweenness_cutoff, igraph_betweenness_cutoff — Range-limited betweenness centrality.
- bfs, igraph_bfs — Breadth-first search
- bfshandler_t, igraph_bfshandler_t — Callback type for BFS function
- bfs_simple, igraph_bfs_simple — Breadth-first search, single-source version
- bibcoupling, igraph_bibcoupling — Bibliographic coupling.
- biconnected_components, igraph_biconnected_components — Calculate biconnected components
- bipartite_game, igraph_bipartite_game — Generate a bipartite random graph (similar to Erdős-Rényi).
- bipartite_projection, igraph_bipartite_projection — Create one or both projections of a bipartite (two-mode) network.
- bipartite_projection_size, igraph_bipartite_projection_size — Calculate the number of vertices and edges in the bipartite projections.
- blas_ddot, igraph_blas_ddot — Dot product of two vectors.
- blas_dgemv, igraph_blas_dgemv — Matrix-vector multiplication using BLAS, vector version.
- blas_dgemv_array, igraph_blas_dgemv_array — Matrix-vector multiplication using BLAS, array version.
- blas_dnrm2, igraph_blas_dnrm2 — Euclidean norm of a vector.
- bliss_info_t, igraph_bliss_info_t — Information about a BLISS run
- bliss_sh_t, igraph_bliss_sh_t — Splitting heuristics for Bliss.
- bridges, igraph_bridges — Find all bridges in a graph.
C
- callaway_traits_game, igraph_callaway_traits_game — Simulates a growing network with vertex types.
- canonical_permutation, igraph_canonical_permutation — Canonical permutation using Bliss.
- cattribute_EAB, igraph_cattribute_EAB — Query a boolean edge attribute.
- cattribute_EABV, igraph_cattribute_EABV — Query a boolean edge attribute for many edges
- cattribute_EAB_set, igraph_cattribute_EAB_set — Set a boolean edge attribute
- cattribute_EAB_setv, igraph_cattribute_EAB_setv — Set a boolean edge attribute for all edges.
- cattribute_EAN, igraph_cattribute_EAN — Query a numeric edge attribute.
- cattribute_EANV, igraph_cattribute_EANV — Query a numeric edge attribute for many edges
- cattribute_EAN_set, igraph_cattribute_EAN_set — Set a numeric edge attribute
- cattribute_EAN_setv, igraph_cattribute_EAN_setv — Set a numeric edge attribute for all edges.
- cattribute_EAS, igraph_cattribute_EAS — Query a string edge attribute.
- cattribute_EASV, igraph_cattribute_EASV — Query a string edge attribute for many edges
- cattribute_EAS_set, igraph_cattribute_EAS_set — Set a string edge attribute
- cattribute_EAS_setv, igraph_cattribute_EAS_setv — Set a string edge attribute for all edges.
- cattribute_GAB, igraph_cattribute_GAB — Query a boolean graph attribute.
- cattribute_GAB_set, igraph_cattribute_GAB_set — Set a boolean graph attribute
- cattribute_GAN, igraph_cattribute_GAN — Query a numeric graph attribute.
- cattribute_GAN_set, igraph_cattribute_GAN_set — Set a numeric graph attribute
- cattribute_GAS, igraph_cattribute_GAS — Query a string graph attribute.
- cattribute_GAS_set, igraph_cattribute_GAS_set — Set a string graph attribute.
- cattribute_has_attr, igraph_cattribute_has_attr — Checks whether a (graph, vertex or edge) attribute exists
- cattribute_list, igraph_cattribute_list — List all attributes
- cattribute_remove_all, igraph_cattribute_remove_all — Remove all graph/vertex/edge attributes
- cattribute_remove_e, igraph_cattribute_remove_e — Remove an edge attribute
- cattribute_remove_g, igraph_cattribute_remove_g — Remove a graph attribute
- cattribute_remove_v, igraph_cattribute_remove_v — Remove a vertex attribute
- cattribute_VAB, igraph_cattribute_VAB — Query a boolean vertex attribute.
- cattribute_VABV, igraph_cattribute_VABV — Query a boolean vertex attribute for many vertices
- cattribute_VAB_set, igraph_cattribute_VAB_set — Set a boolean vertex attribute
- cattribute_VAB_setv, igraph_cattribute_VAB_setv — Set a boolean vertex attribute for all vertices.
- cattribute_VAN, igraph_cattribute_VAN — Query a numeric vertex attribute.
- cattribute_VANV, igraph_cattribute_VANV — Query a numeric vertex attribute for many vertices
- cattribute_VAN_set, igraph_cattribute_VAN_set — Set a numeric vertex attribute
- cattribute_VAN_setv, igraph_cattribute_VAN_setv — Set a numeric vertex attribute for all vertices.
- cattribute_VAS, igraph_cattribute_VAS — Query a string vertex attribute.
- cattribute_VASV, igraph_cattribute_VASV — Query a string vertex attribute for many vertices
- cattribute_VAS_set, igraph_cattribute_VAS_set — Set a string vertex attribute
- cattribute_VAS_setv, igraph_cattribute_VAS_setv — Set a string vertex attribute for all vertices.
- centralization, igraph_centralization — Calculate the centralization score from the node level scores
- centralization_betweenness, igraph_centralization_betweenness — Calculate vertex betweenness and graph centralization
- centralization_betweenness_tmax, igraph_centralization_betweenness_tmax — Theoretical maximum for graph centralization based on betweenness
- centralization_closeness, igraph_centralization_closeness — Calculate vertex closeness and graph centralization
- centralization_closeness_tmax, igraph_centralization_closeness_tmax — Theoretical maximum for graph centralization based on closeness
- centralization_degree, igraph_centralization_degree — Calculate vertex degree and graph centralization
- centralization_degree_tmax, igraph_centralization_degree_tmax — Theoretical maximum for graph centralization based on degree
- centralization_eigenvector_centrality, igraph_centralization_eigenvector_centrality — Calculate eigenvector centrality scores and graph centralization
- centralization_eigenvector_centrality_tmax, igraph_centralization_eigenvector_centrality_tmax — Theoretical maximum centralization for eigenvector centrality
- CHECK, IGRAPH_CHECK — Checks the return value of a function call.
- cited_type_game, igraph_cited_type_game — Simulates a citation based on vertex types.
- citing_cited_type_game, igraph_citing_cited_type_game — Simulates a citation network based on vertex types.
- cliques, igraph_cliques — Finds all or some cliques in a graph.
- cliques_callback, igraph_cliques_callback — Calls a function for each clique in the graph.
- clique_handler_t, igraph_clique_handler_t — Type of clique handler functions.
- clique_number, igraph_clique_number — Finds the clique number of the graph.
- clique_size_hist, igraph_clique_size_hist — Counts cliques of each size in the graph.
- closeness, igraph_closeness — Closeness centrality calculations for some vertices.
- closeness_cutoff, igraph_closeness_cutoff — Range limited closeness centrality.
- clusters, igraph_clusters — Calculates the (weakly or strongly) connected components in a graph.
- cocitation, igraph_cocitation — Cocitation coupling.
- cohesion, igraph_cohesion — Graph cohesion, this is the same as vertex connectivity.
- cohesive_blocks, igraph_cohesive_blocks — Identifies the hierarchical cohesive block structure of a graph
- coloring_greedy_t, igraph_coloring_greedy_t — Ordering heuristics for greedy graph coloring.
- community_eb_get_merges, igraph_community_eb_get_merges — Calculating the merges, i.e. the dendrogram for an edge betweenness community structure.
- community_edge_betweenness, igraph_community_edge_betweenness — Community finding based on edge betweenness.
- community_fastgreedy, igraph_community_fastgreedy — Finding community structure by greedy optimization of modularity.
- community_fluid_communities, igraph_community_fluid_communities — Community detection based on fluids interacting on the graph.
- community_infomap, igraph_community_infomap — Find community structure that minimizes the expected
- community_label_propagation, igraph_community_label_propagation — Community detection based on label propagation.
- community_leading_eigenvector, igraph_community_leading_eigenvector — Leading eigenvector community finding (proper version).
- community_leading_eigenvector_callback_t, igraph_community_leading_eigenvector_callback_t — Callback for the leading eigenvector community finding method.
- community_leiden, igraph_community_leiden — Finding community structure using the Leiden algorithm.
- community_multilevel, igraph_community_multilevel — Finding community structure by multi-level optimization of modularity.
- community_optimal_modularity, igraph_community_optimal_modularity — Calculate the community structure with the highest modularity value
- community_spinglass, igraph_community_spinglass — Community detection based on statistical mechanics
- community_spinglass_single, igraph_community_spinglass_single — Community of a single node based on statistical mechanics
- community_to_membership, igraph_community_to_membership — Create membership vector from community structure dendrogram
- community_walktrap, igraph_community_walktrap — This function is the implementation of the Walktrap community
- compare_communities, igraph_compare_communities — Compares community structures using various metrics
- complementer, igraph_complementer — Create the complementer of a graph
- compose, igraph_compose — Calculates the composition of two graphs
- connect_neighborhood, igraph_connect_neighborhood — Connects every vertex to its neighborhood
- constraint, igraph_constraint — Burt's constraint scores.
- contract_vertices, igraph_contract_vertices — Replace multiple vertices with a single one.
- convergence_degree, igraph_convergence_degree — Calculates the convergence degree of each edge in a graph.
- convex_hull, igraph_convex_hull — Determines the convex hull of a given set of points in the 2D plane
- copy, igraph_copy — Creates an exact (deep) copy of a graph.
- coreness, igraph_coreness — Finding the coreness of the vertices in a network.
- correlated_game, igraph_correlated_game — Generates a random graph correlated to an existing graph.
- correlated_pair_game, igraph_correlated_pair_game — Generates pairs of correlated random graphs.
- count_isomorphisms_vf2, igraph_count_isomorphisms_vf2 — Number of isomorphisms via VF2
- count_multiple, igraph_count_multiple — Count the number of appearances of the edges in a graph.
- count_subisomorphisms_vf2, igraph_count_subisomorphisms_vf2 — Number of subgraph isomorphisms using VF2
- create, igraph_create — Creates a graph with the specified edges.
- create_bipartite, igraph_create_bipartite — Create a bipartite graph.
D
- decompose, igraph_decompose — Decompose a graph into connected components.
- decompose_destroy, igraph_decompose_destroy — Free the memory allocated by igraph_decompose().
- degree, igraph_degree — The degree of some vertices in a graph.
- degree_sequence_game, igraph_degree_sequence_game — Generates a random graph with a given degree sequence.
- DELALL, DELALL — Remove all attributes.
- DELEA, DELEA — Remove an edge attribute.
- DELEAS, DELEAS — Remove all edge attributes.
- delete_edges, igraph_delete_edges — Removes edges from a graph.
- delete_vertices, igraph_delete_vertices — Removes vertices (with all their edges) from the graph.
- DELGA, DELGA — Remove a graph attribute.
- DELGAS, DELGAS — Remove all graph attributes.
- DELVA, DELVA — Remove a vertex attribute.
- DELVAS, DELVAS — Remove all vertex attributes.
- density, igraph_density — Calculate the density of a graph.
- destroy, igraph_destroy — Frees the memory allocated for a graph object.
- deterministic_optimal_imitation, igraph_deterministic_optimal_imitation — Adopt a strategy via deterministic optimal imitation.
- de_bruijn, igraph_de_bruijn — Generate a de Bruijn graph.
- dfs, igraph_dfs — Depth-first search
- dfshandler_t, igraph_dfshandler_t — Callback type for the DFS function
- diameter, igraph_diameter — Calculates the diameter of a graph (longest geodesic).
- diameter_dijkstra, igraph_diameter_dijkstra — Calculates the weighted diameter of a graph using Dijkstra's algorithm.
- difference, igraph_difference — Calculate the difference of two graphs
- dim_select, igraph_dim_select — Dimensionality selection
- disjoint_union, igraph_disjoint_union — Creates the union of two disjoint graphs
- disjoint_union_many, igraph_disjoint_union_many — The disjint union of many graphs.
- diversity, igraph_diversity — Structural diversity index of the vertices
- dominator_tree, igraph_dominator_tree — Calculates the dominator tree of a flowgraph
- dot_product_game, igraph_dot_product_game — Generates a random dot product graph.
- dqueue_back, igraph_dqueue_back — Tail of the queue.
- dqueue_clear, igraph_dqueue_clear — Remove all elements from the queue.
- dqueue_destroy, igraph_dqueue_destroy — Destroy a double ended queue.
- dqueue_empty, igraph_dqueue_empty — Decide whether the queue is empty.
- dqueue_full, igraph_dqueue_full — Check whether the queue is full.
- dqueue_head, igraph_dqueue_head — Head of the queue.
- dqueue_init, igraph_dqueue_init — Initialize a double ended queue (deque).
- dqueue_pop, igraph_dqueue_pop — Remove the head.
- dqueue_pop_back, igraph_dqueue_pop_back — Remove the tail
- dqueue_push, igraph_dqueue_push — Appends an element.
- dqueue_size, igraph_dqueue_size — Number of elements in the queue.
- dyad_census, igraph_dyad_census — Calculating the dyad census as defined by Holland and Leinhardt.
E
- EAB, EAB — Query a boolean edge attribute.
- EABV, EABV — Query a boolean edge attribute for all edges.
- EAN, EAN — Query a numeric edge attribute.
- EANV, EANV — Query a numeric edge attribute for all edges.
- EAS, EAS — Query a string edge attribute.
- EASV, EASV — Query a string edge attribute for all edges.
- eccentricity, igraph_eccentricity — Eccentricity of some vertices.
- ecount, igraph_ecount — The number of edges in a graph.
- edge, igraph_edge — Gives the head and tail vertices of an edge.
- edges, igraph_edges — Gives the head and tail vertices of a series of edges.
- edge_betweenness, igraph_edge_betweenness — Betweenness centrality of the edges.
- edge_betweenness_cutoff, igraph_edge_betweenness_cutoff — Range-limited betweenness centrality of the edges.
- edge_connectivity, igraph_edge_connectivity — The minimum edge connectivity in a graph.
- edge_disjoint_paths, igraph_edge_disjoint_paths — The maximum number of edge-disjoint paths between two vertices.
- eigenvector_centrality, igraph_eigenvector_centrality — Eigenvector centrality of the vertices
- eit_create, igraph_eit_create — Creates an edge iterator from an edge selector.
- eit_destroy, igraph_eit_destroy — Destroys an edge iterator.
- EIT_END, IGRAPH_EIT_END — Are we at the end?
- EIT_GET, IGRAPH_EIT_GET — Query an edge iterator.
- EIT_NEXT, IGRAPH_EIT_NEXT — Next edge.
- EIT_RESET, IGRAPH_EIT_RESET — Reset an edge iterator.
- EIT_SIZE, IGRAPH_EIT_SIZE — Number of edges in the iterator.
- empty, igraph_empty — Creates an empty graph with some vertices and no edges.
- empty_attrs, igraph_empty_attrs — Creates an empty graph with some vertices, no edges and some graph attributes.
- erdos_renyi_game, igraph_erdos_renyi_game — Generates a random (Erdős-Rényi) graph.
- ERROR, IGRAPH_ERROR — Trigger an error.
- error, igraph_error — Triggers an error.
- ERRORF, IGRAPH_ERRORF — Triggers an error, with printf-like syntax.
- errorf, igraph_errorf — Triggers an error, printf-like version.
- error_handler_abort, igraph_error_handler_abort — Abort program in case of error.
- error_handler_ignore, igraph_error_handler_ignore — Ignore errors.
- error_handler_printignore, igraph_error_handler_printignore — Print and ignore errors.
- error_handler_t, igraph_error_handler_t — The type of error handler functions.
- error_type_t, igraph_error_type_t — Error code type.
- ess_1, igraph_ess_1 — Immediate version of the single edge edge selector.
- ess_all, igraph_ess_all — Edge set, all edges (immediate version)
- ess_none, igraph_ess_none — Immediate empty edge selector.
- ess_seq, igraph_ess_seq — Immediate version of the sequence edge selector.
- ess_vector, igraph_ess_vector — Immediate vector view edge selector.
- establishment_game, igraph_establishment_game — Generates a graph with a simple growing model with vertex types.
- es_1, igraph_es_1 — Edge selector containing a single edge.
- es_all, igraph_es_all — Edge set, all edges.
- es_as_vector, igraph_es_as_vector — Transform edge selector into vector.
- es_copy, igraph_es_copy — Creates a copy of an edge selector.
- es_destroy, igraph_es_destroy — Destroys an edge selector object.
- es_fromto, igraph_es_fromto — Edge selector, all edges between two vertex sets.
- es_incident, igraph_es_incident — Edges incident on a given vertex.
- es_is_all, igraph_es_is_all — Check whether an edge selector includes all edges.
- es_none, igraph_es_none — Empty edge selector.
- es_pairs, igraph_es_pairs — Edge selector, multiple edges defined by their endpoints in a vector.
- es_pairs_small, igraph_es_pairs_small — Edge selector, multiple edges defined by their endpoints as arguments.
- es_path, igraph_es_path — Edge selector, edge ids on a path.
- es_seq, igraph_es_seq — Edge selector, a sequence of edge ids.
- es_size, igraph_es_size — Returns the size of the edge selector.
- es_type, igraph_es_type — Returns the type of the edge selector.
- es_vector, igraph_es_vector — Handle a vector as an edge selector.
- es_vector_copy, igraph_es_vector_copy — Edge set, based on a vector, with copying.
- eulerian_cycle, igraph_eulerian_cycle — Finds an Eulerian cycle
- eulerian_path, igraph_eulerian_path — Finds an Eulerian path
- even_tarjan_reduction, igraph_even_tarjan_reduction — Even-Tarjan reduction of a graph
- extended_chordal_ring, igraph_extended_chordal_ring — Create an extended chordal ring.
F
- famous, igraph_famous — Create a famous graph by simply providing its name.
- FATAL, IGRAPH_FATAL — Triggers a fatal error.
- fatal, igraph_fatal — Triggers a fatal error.
- FATALF, IGRAPH_FATALF — Triggers a fatal error, with printf-like syntax.
- fatalf, igraph_fatalf — Triggers a fatal error, printf-like syntax.
- fatal_handler_abort, igraph_fatal_handler_abort — Abort program in case of fatal error.
- fatal_handler_t, igraph_fatal_handler_t — The type of igraph fatal error handler functions.
- feedback_arc_set, igraph_feedback_arc_set — Calculates a feedback arc set of the graph using different
- FINALLY, IGRAPH_FINALLY — Registers an object for deallocation.
- FINALLY_CLEAN, IGRAPH_FINALLY_CLEAN — Signals clean deallocation of objects.
- FINALLY_FREE, IGRAPH_FINALLY_FREE — Deallocates all registered objects.
- forest_fire_game, igraph_forest_fire_game — Generates a network according to the “forest fire game”.
- free, igraph_free — Deallocate memory that was allocated by igraph functions.
- FROM, IGRAPH_FROM — The source vertex of an edge.
- from_prufer, igraph_from_prufer — Generates a tree from a Prüfer sequence.
- full, igraph_full — Creates a full graph (directed or undirected, with or without loops).
- full_bipartite, igraph_full_bipartite — Create a full bipartite network.
- full_citation, igraph_full_citation — Creates a full citation graph
G
- GAB, GAB — Query a boolean graph attribute.
- GAN, GAN — Query a numeric graph attribute.
- GAS, GAS — Query a string graph attribute.
- get_adjacency, igraph_get_adjacency — Returns the adjacency matrix of a graph
- get_all_shortest_paths, igraph_get_all_shortest_paths — All shortest paths (geodesics) from a vertex.
- get_all_shortest_paths_dijkstra, igraph_get_all_shortest_paths_dijkstra — All weighted shortest paths (geodesics) from a vertex.
- get_all_simple_paths, igraph_get_all_simple_paths — List all simple paths from one source.
- get_edgelist, igraph_get_edgelist — Returns the list of edges in a graph
- get_eid, igraph_get_eid — Get the edge id from the end points of an edge.
- get_eids, igraph_get_eids — Return edge ids based on the adjacent vertices.
- get_eids_multi, igraph_get_eids_multi — Query edge ids based on their adjacent vertices, handle multiple edges.
- get_incidence, igraph_get_incidence — Convert a bipartite graph into an incidence matrix.
- get_isomorphisms_vf2, igraph_get_isomorphisms_vf2 — Collect all isomorphic mappings of two graphs.
- get_shortest_path, igraph_get_shortest_path — Shortest path from one vertex to another one.
- get_shortest_paths, igraph_get_shortest_paths — Shortest paths from a vertex.
- get_shortest_paths_bellman_ford, igraph_get_shortest_paths_bellman_ford — Weighted shortest paths from a vertex, allowing negative weights.
- get_shortest_paths_dijkstra, igraph_get_shortest_paths_dijkstra — Weighted shortest paths from a vertex.
- get_shortest_path_bellman_ford, igraph_get_shortest_path_bellman_ford — Weighted shortest path from one vertex to another one.
- get_shortest_path_dijkstra, igraph_get_shortest_path_dijkstra — Weighted shortest path from one vertex to another one.
- get_sparsemat, igraph_get_sparsemat — Converts an igraph graph to a sparse matrix.
- get_stochastic, igraph_get_stochastic — Stochastic adjacency matrix of a graph
- get_stochastic_sparsemat, igraph_get_stochastic_sparsemat — Stochastic adjacency matrix of a graph
- get_subisomorphisms_vf2, igraph_get_subisomorphisms_vf2 — Return all subgraph isomorphic mappings.
- girth, igraph_girth — The girth of a graph is the length of the shortest cycle in it.
- global_efficiency, igraph_global_efficiency — Calculates the global efficiency of a network.
- gomory_hu_tree, igraph_gomory_hu_tree — Gomory-Hu tree of a graph.
- graphlets, igraph_graphlets — Calculate graphlets basis and project the graph on it
- graphlets_candidate_basis, igraph_graphlets_candidate_basis — Calculate a candidate graphlets basis
- graphlets_project, igraph_graphlets_project — Project a graph on a graphlets basis
- grg_game, igraph_grg_game — Generates a geometric random graph.
- growing_random_game, igraph_growing_random_game — Generates a growing random graph.
H
- harmonic_centrality, igraph_harmonic_centrality — Harmonic centrality for some vertices.
- harmonic_centrality_cutoff, igraph_harmonic_centrality_cutoff — Range limited harmonic centrality.
- has_multiple, igraph_has_multiple — Check whether the graph has at least one multiple edge.
- heap_delete_top, igraph_heap_delete_top — Return and removes the top element
- heap_destroy, igraph_heap_destroy — Destroys an initialized heap object.
- heap_empty, igraph_heap_empty — Decides whether a heap object is empty.
- heap_init, igraph_heap_init — Initializes an empty heap object.
- heap_init_array, igraph_heap_init_array — Build a heap from an array.
- heap_push, igraph_heap_push — Add an element.
- heap_reserve, igraph_heap_reserve — Allocate more memory
- heap_size, igraph_heap_size — Number of elements
- heap_top, igraph_heap_top — Top element.
- hrg_consensus, igraph_hrg_consensus — Calculate a consensus tree for a HRG.
- hrg_create, igraph_hrg_create — Create a HRG from an igraph graph.
- hrg_dendrogram, igraph_hrg_dendrogram — Create a dendrogram from a hierarchical random graph.
- hrg_destroy, igraph_hrg_destroy — Deallocate memory for an HRG.
- hrg_fit, igraph_hrg_fit — Fit a hierarchical random graph model to a network
- hrg_game, igraph_hrg_game — Generate a hierarchical random graph
- hrg_init, igraph_hrg_init — Allocate memory for a HRG.
- hrg_predict, igraph_hrg_predict — Predict missing edges in a graph, based on HRG models
- hrg_resize, igraph_hrg_resize — Resize a HRG.
- hrg_sample, igraph_hrg_sample — Sample from a hierarchical random graph model
- hrg_size, igraph_hrg_size — Returns the size of the HRG, the number of leaf nodes.
- hrg_t, igraph_hrg_t — Data structure to store a hierarchical random graph
- hsbm_game, igraph_hsbm_game — Hierarchical stochastic block model.
- hsbm_list_game, igraph_hsbm_list_game — Hierarchical stochastic block model, more general version.
- hub_score, igraph_hub_score — Kleinberg's hub scores.
I
- incidence, igraph_incidence — Creates a bipartite graph from an incidence matrix.
- incident, igraph_incident — Gives the incident edges of a vertex.
- inclist_clear, igraph_inclist_clear — Removes all edges from an incidence list.
- inclist_destroy, igraph_inclist_destroy — Frees all memory allocated for an incidence list.
- inclist_get, igraph_inclist_get — Query a vector in an incidence list.
- inclist_init, igraph_inclist_init — Initializes an incidence list.
- inclist_size, igraph_inclist_size — Returns the number of vertices in an incidence list.
- independence_number, igraph_independence_number — Finds the independence number of the graph.
- independent_vertex_sets, igraph_independent_vertex_sets — Finds all independent vertex sets in a graph.
- induced_subgraph, igraph_induced_subgraph — Creates a subgraph induced by the specified vertices.
- intersection, igraph_intersection — Collect the common edges from two graphs.
- intersection_many, igraph_intersection_many — The intersection of more than two graphs.
- isoclass, igraph_isoclass — Determine the isomorphism class of small graphs.
- isoclass_create, igraph_isoclass_create — Creates a graph from the given isomorphism class.
- isoclass_subgraph, igraph_isoclass_subgraph — The isomorphism class of a subgraph of a graph.
- isocompat_t, igraph_isocompat_t — Callback type, called to check whether two vertices or edges are compatible
- isohandler_t, igraph_isohandler_t — Callback type, called when an isomorphism was found
- isomorphic, igraph_isomorphic — Decides whether two graphs are isomorphic
- isomorphic_34, igraph_isomorphic_34 — Graph isomorphism for 3-4 vertices
- isomorphic_bliss, igraph_isomorphic_bliss — Graph isomorphism via Bliss.
- isomorphic_function_vf2, igraph_isomorphic_function_vf2 — The generic VF2 interface
- isomorphic_vf2, igraph_isomorphic_vf2 — Isomorphism via VF2
- is_bigraphical, igraph_is_bigraphical — Is there a bipartite graph with the given bi-degree-sequence?
- is_bipartite, igraph_is_bipartite — Check whether a graph is bipartite.
- is_chordal, igraph_is_chordal — Decides whether a graph is chordal.
- is_connected, igraph_is_connected — Decides whether the graph is (weakly or strongly) connected.
- is_dag, igraph_is_dag — Checks whether a graph is a directed acyclic graph (DAG).
- is_degree_sequence, igraph_is_degree_sequence — Determines whether a degree sequence is valid.
- is_directed, igraph_is_directed — Is this a directed graph?
- is_eulerian, igraph_is_eulerian — Checks whether an Eulerian path or cycle exists
- is_graphical, igraph_is_graphical — Is there a graph with the given degree sequence?
- is_graphical_degree_sequence, igraph_is_graphical_degree_sequence — Determines whether a sequence of integers can be the degree sequence of some simple graph.
- is_loop, igraph_is_loop — Find the loop edges in a graph.
- is_matching, igraph_is_matching — Checks whether the given matching is valid for the given graph.
- is_maximal_matching, igraph_is_maximal_matching — Checks whether a matching in a graph is maximal.
- is_minimal_separator, igraph_is_minimal_separator — Decides whether a set of vertices is a minimal separator.
- is_multiple, igraph_is_multiple — Find the multiple edges in a graph.
- is_mutual, igraph_is_mutual — Check whether the edges of a directed graph are mutual.
- is_same_graph, igraph_is_same_graph — Are two graphs identical as labelled graphs?
- is_separator, igraph_is_separator — Would removing this set of vertices disconnect the graph?
- is_simple, igraph_is_simple — Decides whether the input graph is a simple graph.
- is_tree, igraph_is_tree — Decides whether the graph is a tree.
L
- lapack_dgeev, igraph_lapack_dgeev — Eigenvalues and optionally eigenvectors of a non-symmetric matrix
- lapack_dgeevx, igraph_lapack_dgeevx — Eigenvalues/vectors of nonsymmetric matrices, expert mode
- lapack_dgesv, igraph_lapack_dgesv — Solve system of linear equations with LU factorization
- lapack_dgetrf, igraph_lapack_dgetrf — LU factorization of a general M-by-N matrix.
- lapack_dgetrs, igraph_lapack_dgetrs — Solve general system of linear equations using LU factorization.
- lapack_dsyevr, igraph_lapack_dsyevr — Selected eigenvalues and optionally eigenvectors of a symmetric matrix
- laplacian, igraph_laplacian — Returns the Laplacian matrix of a graph
- laplacian_spectral_embedding, igraph_laplacian_spectral_embedding — Spectral embedding of the Laplacian of a graph
- largest_cliques, igraph_largest_cliques — Finds the largest clique(s) in a graph.
- largest_independent_vertex_sets, igraph_largest_independent_vertex_sets — Finds the largest independent vertex set(s) in a graph.
- largest_weighted_cliques, igraph_largest_weighted_cliques — Finds the largest weight clique(s) in a graph.
- lastcit_game, igraph_lastcit_game — Simulates a citation network, based on time passed since the last citation.
- lattice, igraph_lattice — Arbitrary dimensional square lattices.
- layout_bipartite, igraph_layout_bipartite — Simple layout for bipartite graphs.
- layout_circle, igraph_layout_circle — Places the vertices uniformly on a circle, in the order of vertex ids.
- layout_davidson_harel, igraph_layout_davidson_harel — Davidson-Harel layout algorithm
- layout_drl, igraph_layout_drl — The DrL layout generator
- layout_drl_3d, igraph_layout_drl_3d — The DrL layout generator, 3d version.
- layout_drl_default_t, igraph_layout_drl_default_t — Predefined parameter templates for the DrL layout generator
- layout_drl_options_init, igraph_layout_drl_options_init — Initialize parameters for the DrL layout generator
- layout_drl_options_t, igraph_layout_drl_options_t — Parameters for the DrL layout generator
- layout_fruchterman_reingold, igraph_layout_fruchterman_reingold — Places the vertices on a plane according to the Fruchterman-Reingold algorithm.
- layout_fruchterman_reingold_3d, igraph_layout_fruchterman_reingold_3d — 3D Fruchterman-Reingold algorithm.
- layout_gem, igraph_layout_gem — The GEM layout algorithm, as described in Arne Frick, Andreas Ludwig,
- layout_graphopt, igraph_layout_graphopt — Optimizes vertex layout via the graphopt algorithm.
- layout_grid, igraph_layout_grid — Places the vertices on a regular grid on the plane.
- layout_grid_3d, igraph_layout_grid_3d — Places the vertices on a regular grid in the 3D space.
- layout_kamada_kawai, igraph_layout_kamada_kawai — Places the vertices on a plane according to the Kamada-Kawai algorithm.
- layout_kamada_kawai_3d, igraph_layout_kamada_kawai_3d — 3D version of the Kamada-Kawai layout generator.
- layout_lgl, igraph_layout_lgl — Force based layout algorithm for large graphs.
- layout_mds, igraph_layout_mds — Place the vertices on a plane using multidimensional scaling.
- layout_merge_dla, igraph_layout_merge_dla — Merge multiple layouts by using a DLA algorithm
- layout_random, igraph_layout_random — Places the vertices uniform randomly on a plane.
- layout_random_3d, igraph_layout_random_3d — Places the vertices uniform randomly in a cube.
- layout_reingold_tilford, igraph_layout_reingold_tilford — Reingold-Tilford layout for tree graphs
- layout_reingold_tilford_circular, igraph_layout_reingold_tilford_circular — Circular Reingold-Tilford layout for trees
- layout_sphere, igraph_layout_sphere — Places vertices (more or less) uniformly on a sphere.
- layout_star, igraph_layout_star — Generates a star-like layout.
- layout_sugiyama, igraph_layout_sugiyama — Sugiyama layout algorithm for layered directed acyclic graphs.
- lazy_adjlist_clear, igraph_lazy_adjlist_clear — Removes all edges from a lazy adjacency list.
- lazy_adjlist_destroy, igraph_lazy_adjlist_destroy — Deallocate a lazt adjacency list.
- lazy_adjlist_get, igraph_lazy_adjlist_get — Query neighbor vertices.
- lazy_adjlist_init, igraph_lazy_adjlist_init — Initialized a lazy adjacency list.
- lazy_adjlist_size, igraph_lazy_adjlist_size — Returns the number of vertices in a lazy adjacency list.
- lazy_inclist_clear, igraph_lazy_inclist_clear — Removes all edges from a lazy incidence list.
- lazy_inclist_destroy, igraph_lazy_inclist_destroy — Deallocates a lazy incidence list.
- lazy_inclist_get, igraph_lazy_inclist_get — Query incident edges.
- lazy_inclist_init, igraph_lazy_inclist_init — Initializes a lazy incidence list of edges.
- lazy_inclist_size, igraph_lazy_inclist_size — Returns the number of vertices in a lazy incidence list.
- lcf, igraph_lcf — Creates a graph from LCF notation.
- lcf_vector, igraph_lcf_vector — Creates a graph from LCF notation.
- le_community_to_membership, igraph_le_community_to_membership — Vertex membership from the leading eigenvector community structure
- linegraph, igraph_linegraph — Create the line graph of a graph.
- list_triangles, igraph_list_triangles — Find all triangles in a graph.
- local_efficiency, igraph_local_efficiency — Calculates the local efficiency around each vertex in a network.
- local_scan_0, igraph_local_scan_0 — Local scan-statistics, k=0
- local_scan_0_them, igraph_local_scan_0_them — Local THEM scan-statistics, k=0
- local_scan_1_ecount, igraph_local_scan_1_ecount — Local scan-statistics, k=1, edge count and sum of weights
- local_scan_1_ecount_them, igraph_local_scan_1_ecount_them — Local THEM scan-statistics, k=1, edge count and sum of weights
- local_scan_k_ecount, igraph_local_scan_k_ecount — Sum the number of edges or the weights in k-neighborhood of every vertex.
- local_scan_k_ecount_them, igraph_local_scan_k_ecount_them — Local THEM scan-statistics, general function, edge count and sum of weights
- local_scan_neighborhood_ecount, igraph_local_scan_neighborhood_ecount — Local scan-statistics with pre-calculated neighborhoods
M
- malloc, igraph_malloc — Allocate memory that can be safely deallocated by igraph functions.
- MATRIX, MATRIX — Accessing an element of a matrix.
- matrix_add, igraph_matrix_add — Add two matrices.
- matrix_add_cols, igraph_matrix_add_cols — Adds columns to a matrix.
- matrix_add_constant, igraph_matrix_add_constant — Add a constant to every element.
- matrix_add_rows, igraph_matrix_add_rows — Adds rows to a matrix.
- matrix_all_e, igraph_matrix_all_e — Are all elements equal?
- matrix_all_g, igraph_matrix_all_g — Are all elements greater?
- matrix_all_ge, igraph_matrix_all_ge — Are all elements greater or equal?
- matrix_all_l, igraph_matrix_all_l — Are all elements less?
- matrix_all_le, igraph_matrix_all_le — Are all elements less or equal?
- matrix_as_sparsemat, igraph_matrix_as_sparsemat — Converts a dense matrix to a sparse matrix.
- matrix_capacity, igraph_matrix_capacity — Returns the number of elements allocated for a matrix.
- matrix_cbind, igraph_matrix_cbind — Combine matrices columnwise.
- matrix_colsum, igraph_matrix_colsum — Columnwise sum.
- matrix_contains, igraph_matrix_contains — Search for an element.
- matrix_copy, igraph_matrix_copy — Copies a matrix.
- matrix_copy_to, igraph_matrix_copy_to — Copies a matrix to a regular C array.
- matrix_destroy, igraph_matrix_destroy — Destroys a matrix object.
- matrix_div_elements, igraph_matrix_div_elements — Elementwise division.
- matrix_e, igraph_matrix_e — Extract an element from a matrix.
- matrix_empty, igraph_matrix_empty — Check for an empty matrix.
- matrix_e_ptr, igraph_matrix_e_ptr — Pointer to an element of a matrix.
- matrix_fill, igraph_matrix_fill — Fill with an element.
- matrix_get_col, igraph_matrix_get_col — Select a column.
- matrix_get_row, igraph_matrix_get_row — Extract a row.
- matrix_init, igraph_matrix_init — Initializes a matrix.
- matrix_isnull, igraph_matrix_isnull — Check for a null matrix.
- matrix_is_symmetric, igraph_matrix_is_symmetric — Check for symmetric matrix.
- matrix_max, igraph_matrix_max — Largest element of a matrix.
- matrix_maxdifference, igraph_matrix_maxdifference — Maximum absolute difference between two matrices.
- matrix_min, igraph_matrix_min — Smallest element of a matrix.
- matrix_minmax, igraph_matrix_minmax — Minimum and maximum elements of a matrix.
- matrix_mul_elements, igraph_matrix_mul_elements — Elementwise multiplication.
- matrix_ncol, igraph_matrix_ncol — The number of columns in a matrix.
- matrix_nrow, igraph_matrix_nrow — The number of rows in a matrix.
- matrix_null, igraph_matrix_null — Sets all elements in a matrix to zero.
- matrix_prod, igraph_matrix_prod — Product of the elements.
- matrix_rbind, igraph_matrix_rbind — Combine two matrices rowwise.
- matrix_remove_col, igraph_matrix_remove_col — Removes a column from a matrix.
- matrix_remove_row, igraph_matrix_remove_row — Remove a row.
- matrix_resize, igraph_matrix_resize — Resizes a matrix.
- matrix_resize_min, igraph_matrix_resize_min — Deallocates unused memory for a matrix.
- matrix_rowsum, igraph_matrix_rowsum — Rowwise sum.
- matrix_scale, igraph_matrix_scale — Multiplies each element of the matrix by a constant.
- matrix_search, igraph_matrix_search — Search from a given position.
- matrix_select_cols, igraph_matrix_select_cols — Select some columns of a matrix.
- matrix_select_rows, igraph_matrix_select_rows — Select some rows of a matrix.
- matrix_select_rows_cols, igraph_matrix_select_rows_cols — Select some rows and columns of a matrix.
- matrix_set, igraph_matrix_set — Set an element.
- matrix_set_col, igraph_matrix_set_col — Set a column from a vector.
- matrix_set_row, igraph_matrix_set_row — Set a row from a vector.
- matrix_size, igraph_matrix_size — The number of elements in a matrix.
- matrix_sub, igraph_matrix_sub — Difference of two matrices.
- matrix_sum, igraph_matrix_sum — Sum of elements.
- matrix_swap, igraph_matrix_swap — Swap two matrices.
- matrix_swap_cols, igraph_matrix_swap_cols — Swap two columns.
- matrix_swap_rows, igraph_matrix_swap_rows — Swap two rows.
- matrix_transpose, igraph_matrix_transpose — Transpose a matrix.
- matrix_update, igraph_matrix_update — Update from another matrix.
- matrix_which_max, igraph_matrix_which_max — Indices of the largest element.
- matrix_which_min, igraph_matrix_which_min — Indices of the smallest element.
- matrix_which_minmax, igraph_matrix_which_minmax — Indices of the minimum and maximum elements
- maxdegree, igraph_maxdegree — The maximum degree in a graph (or set of vertices).
- maxflow, igraph_maxflow — Maximum network flow between a pair of vertices
- maxflow_stats_t, igraph_maxflow_stats_t — A simple data type to return some statistics from the
- maxflow_value, igraph_maxflow_value — Maximum flow in a network with the push/relabel algorithm
- maximal_cliques, igraph_maximal_cliques — Finds all maximal cliques in a graph.
- maximal_cliques_callback, igraph_maximal_cliques_callback — Finds maximal cliques in a graph and calls a function for each one.
- maximal_cliques_count, igraph_maximal_cliques_count — Count the number of maximal cliques in a graph
- maximal_cliques_file, igraph_maximal_cliques_file — Find maximal cliques and write them to a file.
- maximal_cliques_hist, igraph_maximal_cliques_hist — Counts the number of maximal cliques of each size in a graph.
- maximal_cliques_subset, igraph_maximal_cliques_subset — Maximal cliques for a subset of initial vertices
- maximal_independent_vertex_sets, igraph_maximal_independent_vertex_sets — Finds all maximal independent vertex sets of a graph.
- maximum_bipartite_matching, igraph_maximum_bipartite_matching — Calculates a maximum matching in a bipartite graph.
- maximum_cardinality_search, igraph_maximum_cardinality_search — Maximum cardinality search.
- mincut, igraph_mincut — Calculates the minimum cut in a graph.
- mincut_value, igraph_mincut_value — The minimum edge cut in a graph
- minimum_size_separators, igraph_minimum_size_separators — Find all minimum size separating vertex sets.
- minimum_spanning_tree, igraph_minimum_spanning_tree — Calculates one minimum spanning tree of a graph.
- minimum_spanning_tree_prim, igraph_minimum_spanning_tree_prim — Calculates one minimum spanning tree of a weighted graph.
- minimum_spanning_tree_unweighted, igraph_minimum_spanning_tree_unweighted — Calculates one minimum spanning tree of an unweighted graph.
- modularity, igraph_modularity — Calculate the modularity of a graph with respect to some clusters or vertex types.
- modularity_matrix, igraph_modularity_matrix — Calculate the modularity matrix
- moran_process, igraph_moran_process — The Moran process in a network setting.
- motifs_handler_t, igraph_motifs_handler_t — Callback type for igraph_motifs_randesu_callback
- motifs_randesu, igraph_motifs_randesu — Count the number of motifs in a graph.
- motifs_randesu_callback, igraph_motifs_randesu_callback — Finds motifs in a graph and calls a function for each of them.
- motifs_randesu_estimate, igraph_motifs_randesu_estimate — Estimate the total number of motifs in a graph.
- motifs_randesu_no, igraph_motifs_randesu_no — Count the total number of motifs in a graph.
P
- pagerank, igraph_pagerank — Calculates the Google PageRank for the specified vertices.
- pagerank_algo_t, igraph_pagerank_algo_t — PageRank algorithm implementation
- path_length_hist, igraph_path_length_hist — Create a histogram of all shortest path lengths.
- permute_vertices, igraph_permute_vertices — Permute the vertices
- personalized_pagerank, igraph_personalized_pagerank — Calculates the personalized Google PageRank for the specified vertices.
- personalized_pagerank_vs, igraph_personalized_pagerank_vs — Calculates the personalized Google PageRank for the specified vertices.
- plfit_result_t, igraph_plfit_result_t — Result of fitting a power-law distribution to a vector
- power_law_fit, igraph_power_law_fit — Fits a power-law distribution to a vector of numbers
- preference_game, igraph_preference_game — Generates a graph with vertex types and connection preferences.
- PROGRESS, IGRAPH_PROGRESS — Report progress.
- progress, igraph_progress — Report progress
- progressf, igraph_progressf — Report progress, printf-like version
- progress_handler_stderr, igraph_progress_handler_stderr — A simple predefined progress handler.
- progress_handler_t, igraph_progress_handler_t — Type of progress handler functions
- psumtree_destroy, igraph_psumtree_destroy — Destroys a partial prefix sum tree.
- psumtree_get, igraph_psumtree_get — Retrieves the value corresponding to an item in the tree.
- psumtree_init, igraph_psumtree_init — Initializes a partial prefix sum tree.
- psumtree_search, igraph_psumtree_search — Finds an item in the tree, given a value.
- psumtree_size, igraph_psumtree_size — Returns the size of the tree.
- psumtree_sum, igraph_psumtree_sum — Returns the sum of the values of the leaves in the tree.
- psumtree_update, igraph_psumtree_update — Updates the value associated to an item in the tree.
R
- radius, igraph_radius — Radius of a graph.
- random_edge_walk, igraph_random_edge_walk — Perform a random walk on a graph and return the traversed edges
- random_sample, igraph_random_sample — Generates an increasing random sequence of integers.
- random_spanning_tree, igraph_random_spanning_tree — Uniformly sample the spanning trees of a graph
- random_walk, igraph_random_walk — Perform a random walk on a graph
- read_graph_dimacs, igraph_read_graph_dimacs — Read a graph in DIMACS format.
- read_graph_dl, igraph_read_graph_dl — Read a file in the DL format of UCINET
- read_graph_edgelist, igraph_read_graph_edgelist — Reads an edge list from a file and creates a graph.
- read_graph_gml, igraph_read_graph_gml — Read a graph in GML format.
- read_graph_graphdb, igraph_read_graph_graphdb — Read a graph in the binary graph database format.
- read_graph_graphml, igraph_read_graph_graphml — Reads a graph from a GraphML file.
- read_graph_lgl, igraph_read_graph_lgl — Reads a graph from an .lgl file
- read_graph_ncol, igraph_read_graph_ncol — Reads an .ncol file used by LGL.
- read_graph_pajek, igraph_read_graph_pajek — Reads a file in Pajek format
- realize_degree_sequence, igraph_realize_degree_sequence — Generates a graph with the given degree sequence.
- recent_degree_aging_game, igraph_recent_degree_aging_game — Preferential attachment based on the number of edges gained recently, with aging of vertices.
- recent_degree_game, igraph_recent_degree_game — Stochastic graph generator based on the number of incident edges a node has gained recently.
- reciprocity, igraph_reciprocity — Calculates the reciprocity of a directed graph.
- reindex_membership, igraph_reindex_membership — Makes the IDs in a membership vector continuous
- rewire, igraph_rewire — Randomly rewires a graph while preserving its degree sequence.
- rewire_directed_edges, igraph_rewire_directed_edges — Rewires the chosen endpoint of directed edges.
- rewire_edges, igraph_rewire_edges — Rewires the edges of a graph with constant probability.
- ring, igraph_ring — Creates a cycle graph or a path graph.
- rngtype_glibc2, igraph_rngtype_glibc2 — The random number generator introduced in GNU libc 2.
- rngtype_mt19937, igraph_rngtype_mt19937 — The MT19937 random number generator.
- rngtype_rand, igraph_rngtype_rand — The old BSD rand/srand random number generator.
- rng_default, igraph_rng_default — Query the default random number generator.
- rng_destroy, igraph_rng_destroy — Deallocate memory associated with a random number generator.
- rng_get_binom, igraph_rng_get_binom — Generate binomially distributed random numbers.
- rng_get_gamma, igraph_rng_get_gamma — Generate sample from a Gamma distribution.
- rng_get_geom, igraph_rng_get_geom — Generate geometrically distributed random numbers.
- rng_get_integer, igraph_rng_get_integer — Generate an integer random number from an interval.
- rng_get_normal, igraph_rng_get_normal — Normally distributed random numbers.
- rng_get_unif, igraph_rng_get_unif — Generate real, uniform random numbers from an interval.
- rng_get_unif01, igraph_rng_get_unif01 — Generate real, uniform random number from the unit interval.
- rng_init, igraph_rng_init — Initialize a random number generator.
- rng_max, igraph_rng_max — Query the maximum possible integer for a random number generator.
- rng_min, igraph_rng_min — Query the minimum possible integer for a random number generator.
- rng_name, igraph_rng_name — Query the type of a random number generator.
- rng_seed, igraph_rng_seed — Set the seed of a random number generator.
- rng_set_default, igraph_rng_set_default — Set the default igraph random number generator.
- roulette_wheel_imitation, igraph_roulette_wheel_imitation — Adopt a strategy via roulette wheel selection.
- running_mean, igraph_running_mean — Calculates the running mean of a vector.
S
- sample_dirichlet, igraph_sample_dirichlet — Sample points from a Dirichlet distribution
- sample_sphere_surface, igraph_sample_sphere_surface — Sample points uniformly from the surface of a sphere
- sample_sphere_volume, igraph_sample_sphere_volume — Sample points uniformly from the volume of a sphere
- sbm_game, igraph_sbm_game — Sample from a stochastic block model.
- scg_adjacency, igraph_scg_adjacency — Spectral coarse graining, symmetric case.
- scg_grouping, igraph_scg_grouping — SCG problem solver.
- scg_laplacian, igraph_scg_laplacian — Spectral coarse graining, Laplacian case.
- scg_norm_eps, igraph_scg_norm_eps — Calculate SCG residuals.
- scg_semiprojectors, igraph_scg_semiprojectors — Compute SCG semi-projectors for a given partition.
- scg_stochastic, igraph_scg_stochastic — Spectral coarse graining, stochastic case.
- SETEAB, SETEAB — Set a boolean edge attribute
- SETEABV, SETEABV — Set a boolean edge attribute for all edges
- SETEAN, SETEAN — Set a numeric edge attribute
- SETEANV, SETEANV — Set a numeric edge attribute for all edges
- SETEAS, SETEAS — Set a string edge attribute
- SETEASV, SETEASV — Set a string edge attribute for all edges
- SETGAB, SETGAB — Set a boolean graph attribute
- SETGAN, SETGAN — Set a numeric graph attribute
- SETGAS, SETGAS — Set a string graph attribute
- SETVAB, SETVAB — Set a boolean vertex attribute
- SETVABV, SETVABV — Set a boolean vertex attribute for all vertices
- SETVAN, SETVAN — Set a numeric vertex attribute
- SETVANV, SETVANV — Set a numeric vertex attribute for all vertices
- SETVAS, SETVAS — Set a string vertex attribute
- SETVASV, SETVASV — Set a string vertex attribute for all vertices
- set_attribute_table, igraph_set_attribute_table — Attach an attribute table.
- set_error_handler, igraph_set_error_handler — Sets a new error handler.
- set_progress_handler, igraph_set_progress_handler — Install a progress handler, or remove the current handler.
- set_status_handler, igraph_set_status_handler — Install of uninstall a status handler function.
- set_warning_handler, igraph_set_warning_handler — Installs a warning handler.
- shortest_paths, igraph_shortest_paths — The length of the shortest paths between vertices.
- shortest_paths_bellman_ford, igraph_shortest_paths_bellman_ford — Weighted shortest path lengths between vertices, allowing negative weights.
- shortest_paths_dijkstra, igraph_shortest_paths_dijkstra — Weighted shortest path lengths between vertices.
- shortest_paths_johnson, igraph_shortest_paths_johnson — Weighted shortest path lengths between vertices, using Johnson's algorithm.
- similarity_dice, igraph_similarity_dice — Dice similarity coefficient.
- similarity_dice_es, igraph_similarity_dice_es — Dice similarity coefficient for a given edge selector.
- similarity_dice_pairs, igraph_similarity_dice_pairs — Dice similarity coefficient for given vertex pairs.
- similarity_inverse_log_weighted, igraph_similarity_inverse_log_weighted — Vertex similarity based on the inverse logarithm of vertex degrees.
- similarity_jaccard, igraph_similarity_jaccard — Jaccard similarity coefficient for the given vertices.
- similarity_jaccard_es, igraph_similarity_jaccard_es — Jaccard similarity coefficient for a given edge selector.
- similarity_jaccard_pairs, igraph_similarity_jaccard_pairs — Jaccard similarity coefficient for given vertex pairs.
- simple_interconnected_islands_game, igraph_simple_interconnected_islands_game — Generates a random graph made of several interconnected islands, each island being a random graph.
- simplify, igraph_simplify — Removes loop and/or multiple edges from the graph.
- simplify_and_colorize, igraph_simplify_and_colorize — Simplify the graph and compute self-loop and edge multiplicities.
- sir, igraph_sir — Performs a number of SIR epidemics model runs on a graph.
- sir_destroy, igraph_sir_destroy — Deallocates memory associated with a SIR simulation run.
- sir_t, igraph_sir_t — The result of one SIR model simulation.
- small, igraph_small — Shorthand to create a small graph, giving the edges as arguments.
- sparsemat, igraph_sparsemat — Creates an igraph graph from a sparse matrix.
- sparsemat_add, igraph_sparsemat_add — Sum of two sparse matrices.
- sparsemat_add_cols, igraph_sparsemat_add_cols — Adds columns to a sparse matrix.
- sparsemat_add_rows, igraph_sparsemat_add_rows — Adds rows to a sparse matrix.
- sparsemat_arpack_rnsolve, igraph_sparsemat_arpack_rnsolve — Eigenvalues and eigenvectors of a nonsymmetric sparse matrix via ARPACK.
- sparsemat_arpack_rssolve, igraph_sparsemat_arpack_rssolve — Eigenvalues and eigenvectors of a symmetric sparse matrix via ARPACK.
- sparsemat_as_matrix, igraph_sparsemat_as_matrix — Converts a sparse matrix to a dense matrix.
- sparsemat_cholsol, igraph_sparsemat_cholsol — Solves a symmetric linear system via Cholesky decomposition.
- sparsemat_colsums, igraph_sparsemat_colsums — Column-wise sums.
- sparsemat_compress, igraph_sparsemat_compress — Converts a sparse matrix to column-compressed format.
- sparsemat_copy, igraph_sparsemat_copy — Copies a sparse matrix.
- sparsemat_count_nonzero, igraph_sparsemat_count_nonzero — Counts nonzero elements of a sparse matrix.
- sparsemat_count_nonzerotol, igraph_sparsemat_count_nonzerotol — Counts nonzero elements of a sparse matrix, ignoring elements close to zero.
- sparsemat_destroy, igraph_sparsemat_destroy — Deallocates memory used by a sparse matrix.
- sparsemat_diag, igraph_sparsemat_diag — Creates a sparse diagonal matrix.
- sparsemat_droptol, igraph_sparsemat_droptol — Drops the almost zero elements from a sparse matrix.
- sparsemat_dropzeros, igraph_sparsemat_dropzeros — Drops the zero elements from a sparse matrix.
- sparsemat_dupl, igraph_sparsemat_dupl — Removes duplicate elements from a sparse matrix.
- sparsemat_entry, igraph_sparsemat_entry — Adds an element to a sparse matrix.
- sparsemat_eye, igraph_sparsemat_eye — Creates a sparse identity matrix.
- sparsemat_fkeep, igraph_sparsemat_fkeep — Filters the elements of a sparse matrix.
- sparsemat_gaxpy, igraph_sparsemat_gaxpy — Matrix-vector product, added to another vector.
- sparsemat_getelements_sorted, igraph_sparsemat_getelements_sorted — Returns the sorted elements of a sparse matrix.
- sparsemat_index, igraph_sparsemat_index — Extracts a submatrix or a single element.
- sparsemat_init, igraph_sparsemat_init — Initializes a sparse matrix, in triplet format.
- sparsemat_is_cc, igraph_sparsemat_is_cc — Is this sparse matrix in column-compressed format?
- sparsemat_is_triplet, igraph_sparsemat_is_triplet — Is this sparse matrix in triplet format?
- sparsemat_iterator_col, igraph_sparsemat_iterator_col — Return the column of the iterator.
- sparsemat_iterator_end, igraph_sparsemat_iterator_end — Query if the iterator is past the last element.
- sparsemat_iterator_get, igraph_sparsemat_iterator_get — Return the element at the current iterator position.
- sparsemat_iterator_idx, igraph_sparsemat_iterator_idx — Returns the element vector index of a sparse matrix iterator.
- sparsemat_iterator_init, igraph_sparsemat_iterator_init — Initialize a sparse matrix iterator.
- sparsemat_iterator_next, igraph_sparsemat_iterator_next — Let a sparse matrix iterator go to the next element.
- sparsemat_iterator_reset, igraph_sparsemat_iterator_reset — Reset a sparse matrix iterator to the first element.
- sparsemat_iterator_row, igraph_sparsemat_iterator_row — Return the row of the iterator.
- sparsemat_lsolve, igraph_sparsemat_lsolve — Solves a lower-triangular linear system.
- sparsemat_ltsolve, igraph_sparsemat_ltsolve — Solves an upper-triangular linear system.
- sparsemat_lu, igraph_sparsemat_lu — LU decomposition of a sparse matrix.
- sparsemat_luresol, igraph_sparsemat_luresol — Solves a linear system using a precomputed LU decomposition.
- sparsemat_lusol, igraph_sparsemat_lusol — Solves a linear system via LU decomposition.
- sparsemat_max, igraph_sparsemat_max — Maximum of a sparse matrix.
- sparsemat_min, igraph_sparsemat_min — Minimum of a sparse matrix.
- sparsemat_minmax, igraph_sparsemat_minmax — Minimum and maximum of a sparse matrix.
- sparsemat_multiply, igraph_sparsemat_multiply — Matrix multiplication.
- sparsemat_ncol, igraph_sparsemat_ncol — Number of columns.
- sparsemat_nonzero_storage, igraph_sparsemat_nonzero_storage — Returns number of stored entries of a sparse matrix.
- sparsemat_nrow, igraph_sparsemat_nrow — Number of rows.
- sparsemat_numeric_destroy, igraph_sparsemat_numeric_destroy — Deallocates memory after a numeric decomposition.
- sparsemat_permute, igraph_sparsemat_permute — Permutes the rows and columns of a sparse matrix.
- sparsemat_print, igraph_sparsemat_print — Prints a sparse matrix to a file.
- sparsemat_qr, igraph_sparsemat_qr — QR decomposition of a sparse matrix.
- sparsemat_qrresol, igraph_sparsemat_qrresol — Solves a linear system using a precomputed QR decomposition.
- sparsemat_realloc, igraph_sparsemat_realloc — Allocates more (or less) memory for a sparse matrix.
- sparsemat_resize, igraph_sparsemat_resize — Resizes a sparse matrix.
- sparsemat_rowsums, igraph_sparsemat_rowsums — Row-wise sums.
- sparsemat_scale, igraph_sparsemat_scale — Scales a sparse matrix.
- sparsemat_symblu, igraph_sparsemat_symblu — Symbolic LU decomposition.
- sparsemat_symbolic_destroy, igraph_sparsemat_symbolic_destroy — Deallocates memory after a symbolic decomposition.
- sparsemat_symbqr, igraph_sparsemat_symbqr — Symbolic QR decomposition.
- sparsemat_transpose, igraph_sparsemat_transpose — Transposes a sparse matrix.
- sparsemat_type, igraph_sparsemat_type — Type of a sparse matrix (triplet or column-compressed).
- sparsemat_usolve, igraph_sparsemat_usolve — Solves an upper-triangular linear system.
- sparsemat_utsolve, igraph_sparsemat_utsolve — Solves a lower-triangular linear system.
- sparsemat_view, igraph_sparsemat_view — Initialize a sparse matrix and set all parameters.
- split_join_distance, igraph_split_join_distance — Calculates the split-join distance of two community structures
- spmatrix_add_cols, igraph_spmatrix_add_cols — Adds columns to a sparse matrix.
- spmatrix_add_e, igraph_spmatrix_add_e — Adding a real value to an element of a sparse matrix.
- spmatrix_add_rows, igraph_spmatrix_add_rows — Adds rows to a sparse matrix.
- spmatrix_colsums, igraph_spmatrix_colsums — Calculates the column sums of the matrix.
- spmatrix_copy, igraph_spmatrix_copy — Copies a sparse matrix.
- spmatrix_count_nonzero, igraph_spmatrix_count_nonzero — The number of non-zero elements in a sparse matrix.
- spmatrix_destroy, igraph_spmatrix_destroy — Destroys a sparse matrix object.
- spmatrix_e, igraph_spmatrix_e — Accessing an element of a sparse matrix.
- spmatrix_fprint, igraph_spmatrix_fprint — Prints a sparse matrix to the given file.
- spmatrix_init, igraph_spmatrix_init — Initializes a sparse matrix.
- spmatrix_iter_create, igraph_spmatrix_iter_create — Creates a sparse matrix iterator corresponding to the given matrix.
- spmatrix_iter_destroy, igraph_spmatrix_iter_destroy — Frees the memory used by the iterator.
- spmatrix_iter_end, igraph_spmatrix_iter_end — Checks whether there are more elements in the iterator.
- spmatrix_iter_next, igraph_spmatrix_iter_next — Moves a sparse matrix iterator to the next nonzero element.
- spmatrix_iter_reset, igraph_spmatrix_iter_reset — Resets a sparse matrix iterator.
- spmatrix_max, igraph_spmatrix_max — Returns the maximum element of a matrix.
- spmatrix_ncol, igraph_spmatrix_ncol — The number of columns in a sparse matrix.
- spmatrix_nrow, igraph_spmatrix_nrow — The number of rows in a sparse matrix.
- spmatrix_print, igraph_spmatrix_print — Prints a sparse matrix.
- spmatrix_resize, igraph_spmatrix_resize — Resizes a sparse matrix.
- spmatrix_rowsums, igraph_spmatrix_rowsums — Calculates the row sums of the matrix.
- spmatrix_scale, igraph_spmatrix_scale — Multiplies each element of the sparse matrix by a constant.
- spmatrix_set, igraph_spmatrix_set — Setting an element of a sparse matrix.
- spmatrix_size, igraph_spmatrix_size — The number of elements in a sparse matrix.
- stack_clear, igraph_stack_clear — Removes all elements from a stack.
- stack_destroy, igraph_stack_destroy — Destroys a stack object.
- stack_empty, igraph_stack_empty — Decides whether a stack object is empty.
- stack_init, igraph_stack_init — Initializes a stack.
- stack_pop, igraph_stack_pop — Removes and returns an element from the top of a stack.
- stack_push, igraph_stack_push — Places an element on the top of a stack.
- stack_reserve, igraph_stack_reserve — Reserve memory.
- stack_size, igraph_stack_size — Returns the number of elements in a stack.
- stack_top, igraph_stack_top — Query top element.
- star, igraph_star — Creates a star graph, every vertex connects only to the center.
- static_fitness_game, igraph_static_fitness_game — Non-growing random graph with edge probabilities proportional to node fitness scores.
- static_power_law_game, igraph_static_power_law_game — Generates a non-growing random graph with expected power-law degree distributions.
- STATUS, IGRAPH_STATUS — Report the status of an igraph function.
- status, igraph_status — Report status from an igraph function.
- STATUSF, IGRAPH_STATUSF — Report the status from an igraph function
- statusf, igraph_statusf — Report status, more flexible printf-like version.
- status_handler_stderr, igraph_status_handler_stderr — A simple predefined status handler function.
- status_handler_t, igraph_status_handler_t — The type of the igraph status handler functions
- stochastic_imitation, igraph_stochastic_imitation — Adopt a strategy via stochastic imitation with uniform selection.
- STR, STR — Indexing string vectors
- strength, igraph_strength — Strength of the vertices, weighted vertex degree in other words.
- strerror, igraph_strerror — Textual description of an error.
- strvector_add, igraph_strvector_add — Adds an element to the back of a string vector.
- strvector_append, igraph_strvector_append — Concatenate two string vectors.
- strvector_clear, igraph_strvector_clear — Remove all elements
- strvector_copy, igraph_strvector_copy — Initialization by copying.
- strvector_destroy, igraph_strvector_destroy — Free allocated memory
- strvector_get, igraph_strvector_get — Indexing
- strvector_init, igraph_strvector_init — Initialize
- strvector_remove, igraph_strvector_remove — Removes a single element from a string vector.
- strvector_resize, igraph_strvector_resize — Resize
- strvector_set, igraph_strvector_set — Set an element
- strvector_set2, igraph_strvector_set2 — Sets an element.
- strvector_size, igraph_strvector_size — Gives the size of a string vector.
- st_edge_connectivity, igraph_st_edge_connectivity — Edge connectivity of a pair of vertices
- st_mincut, igraph_st_mincut — Minimum cut between a source and a target vertex
- st_mincut_value, igraph_st_mincut_value — The minimum s-t cut in a graph
- st_vertex_connectivity, igraph_st_vertex_connectivity — The vertex connectivity of a pair of vertices
- subcomponent, igraph_subcomponent — The vertices in the same component as a given vertex.
- subgraph_edges, igraph_subgraph_edges — Creates a subgraph with the specified edges and their endpoints.
- subisomorphic, igraph_subisomorphic — Decide subgraph isomorphism.
- subisomorphic_function_vf2, igraph_subisomorphic_function_vf2 — Generic VF2 function for subgraph isomorphism problems
- subisomorphic_lad, igraph_subisomorphic_lad — Check subgraph isomorphism with the LAD algorithm
- subisomorphic_vf2, igraph_subisomorphic_vf2 — Decide subgraph isomorphism using VF2
T
- THREAD_SAFE, IGRAPH_THREAD_SAFE — Specifies whether igraph was built in thread-safe mode.
- TO, IGRAPH_TO — The target vertex of an edge.
- topological_sorting, igraph_topological_sorting — Calculate a possible topological sorting of the graph.
- to_directed, igraph_to_directed — Convert an undirected graph to a directed one
- to_prufer, igraph_to_prufer — Converts a tree to its Prüfer sequence
- to_undirected, igraph_to_undirected — Convert a directed graph to an undirected one.
- transitivity_avglocal_undirected, igraph_transitivity_avglocal_undirected — Average local transitivity (clustering coefficient).
- transitivity_barrat, igraph_transitivity_barrat — Weighted transitivity, as defined by A. Barrat.
- transitivity_local_undirected, igraph_transitivity_local_undirected — Calculates the local transitivity (clustering coefficient) of a graph.
- transitivity_undirected, igraph_transitivity_undirected — Calculates the transitivity (clustering coefficient) of a graph.
- tree, igraph_tree — Creates a tree in which almost all vertices have the same number of children.
- tree_game, igraph_tree_game — Generates a random tree with the given number of nodes.
- triad_census, igraph_triad_census — Triad census, as defined by Davis and Leinhardt
V
- VAB, VAB — Query a boolean vertex attribute.
- VABV, VABV — Query a boolean vertex attribute for all vertices.
- VAN, VAN — Query a numeric vertex attribute.
- VANV, VANV — Query a numeric vertex attribute for all vertices.
- VAS, VAS — Query a string vertex attribute.
- VASV, VASV — Query a string vertex attribute for all vertices.
- vcount, igraph_vcount — The number of vertices in a graph.
- VECTOR, VECTOR — Accessing an element of a vector.
- vector_add, igraph_vector_add — Add two vectors.
- vector_add_constant, igraph_vector_add_constant — Add a constant to the vector.
- vector_all_e, igraph_vector_all_e — Are all elements equal?
- vector_all_g, igraph_vector_all_g — Are all elements greater?
- vector_all_ge, igraph_vector_all_ge — Are all elements greater or equal?
- vector_all_l, igraph_vector_all_l — Are all elements less?
- vector_all_le, igraph_vector_all_le — Are all elements less or equal?
- vector_append, igraph_vector_append — Append a vector to another one.
- vector_binsearch, igraph_vector_binsearch — Finds an element by binary searching a sorted vector.
- vector_binsearch2, igraph_vector_binsearch2 — Binary search, without returning the index.
- vector_binsearch_slice, igraph_vector_binsearch_slice — Finds an element by binary searching a sorted slice of a vector.
- vector_capacity, igraph_vector_capacity — Returns the allocated capacity of the vector
- vector_clear, igraph_vector_clear — Removes all elements from a vector.
- vector_colex_cmp, igraph_vector_colex_cmp — Colexicographical comparison of two vectors.
- vector_contains, igraph_vector_contains — Linear search in a vector.
- vector_copy, igraph_vector_copy — Initializes a vector from another vector object (constructor).
- vector_copy_to, igraph_vector_copy_to — Copies the contents of a vector to a C array.
- vector_destroy, igraph_vector_destroy — Destroys a vector object.
- vector_difference_sorted, igraph_vector_difference_sorted — Calculates the difference between two sorted vectors (considered as sets)
- vector_div, igraph_vector_div — Divide a vector by another one.
- vector_e, igraph_vector_e — Access an element of a vector.
- vector_empty, igraph_vector_empty — Decides whether the size of the vector is zero.
- vector_e_ptr, igraph_vector_e_ptr — Get the address of an element of a vector
- vector_fill, igraph_vector_fill — Fill a vector with a constant element
- vector_floor, igraph_vector_floor — Transform a real vector to a long vector by flooring each element.
- vector_init, igraph_vector_init — Initializes a vector object (constructor).
- vector_init_copy, igraph_vector_init_copy — Initializes a vector from an ordinary C array (constructor).
- vector_init_seq, igraph_vector_init_seq — Initializes a vector with a sequence.
- vector_insert, igraph_vector_insert — Inserts a single element into a vector.
- vector_intersect_sorted, igraph_vector_intersect_sorted — Calculates the intersection of two sorted vectors
- vector_isininterval, igraph_vector_isininterval — Checks if all elements of a vector are in the given
- vector_is_any_nan, igraph_vector_is_any_nan — Check if any element is NaN.
- vector_is_nan, igraph_vector_is_nan — Check for each element if it is NaN.
- vector_lex_cmp, igraph_vector_lex_cmp — Lexicographical comparison of two vectors.
- vector_max, igraph_vector_max — Largest element of a vector.
- vector_maxdifference, igraph_vector_maxdifference — The maximum absolute difference of m1 and m2
- vector_min, igraph_vector_min — Smallest element of a vector.
- vector_minmax, igraph_vector_minmax — Minimum and maximum elements of a vector.
- vector_mul, igraph_vector_mul — Multiply two vectors.
- vector_null, igraph_vector_null — Sets each element in the vector to zero.
- vector_order, igraph_vector_order — Calculate the order of the elements in a vector.
- vector_pop_back, igraph_vector_pop_back — Removes and returns the last element of a vector.
- vector_prod, igraph_vector_prod — Calculates the product of the elements in the vector.
- vector_ptr_clear, igraph_vector_ptr_clear — Removes all elements from a pointer vector.
- vector_ptr_copy, igraph_vector_ptr_copy — Copy a pointer vector (constructor).
- vector_ptr_destroy, igraph_vector_ptr_destroy — Destroys a pointer vector.
- vector_ptr_destroy_all, igraph_vector_ptr_destroy_all — Frees all the elements and destroys the pointer vector.
- vector_ptr_e, igraph_vector_ptr_e — Access an element of a pointer vector.
- vector_ptr_free_all, igraph_vector_ptr_free_all — Frees all the elements of a pointer vector.
- vector_ptr_get_item_destructor, igraph_vector_ptr_get_item_destructor — Gets the current item destructor for this pointer vector.
- vector_ptr_init, igraph_vector_ptr_init — Initialize a pointer vector (constructor).
- vector_ptr_insert, igraph_vector_ptr_insert — Inserts a single element into a pointer vector.
- vector_ptr_push_back, igraph_vector_ptr_push_back — Appends an element to the back of a pointer vector.
- vector_ptr_resize, igraph_vector_ptr_resize — Resizes a pointer vector.
- vector_ptr_set, igraph_vector_ptr_set — Assign to an element of a pointer vector.
- vector_ptr_set_item_destructor, igraph_vector_ptr_set_item_destructor — Sets the item destructor for this pointer vector.
- VECTOR_PTR_SET_ITEM_DESTRUCTOR, IGRAPH_VECTOR_PTR_SET_ITEM_DESTRUCTOR — Sets the item destructor for this pointer vector (macro version).
- vector_ptr_size, igraph_vector_ptr_size — Gives the number of elements in the pointer vector.
- vector_ptr_sort, igraph_vector_ptr_sort — Sorts the pointer vector based on an external comparison function.
- vector_push_back, igraph_vector_push_back — Appends one element to a vector.
- vector_remove, igraph_vector_remove — Removes a single element from a vector.
- vector_remove_section, igraph_vector_remove_section — Deletes a section from a vector.
- vector_reserve, igraph_vector_reserve — Reserves memory for a vector.
- vector_resize, igraph_vector_resize — Resize the vector.
- vector_resize_min, igraph_vector_resize_min — Deallocate the unused memory of a vector.
- vector_reverse, igraph_vector_reverse — Reverse the elements of a vector.
- vector_reverse_sort, igraph_vector_reverse_sort — Sorts the elements of the vector into descending order.
- vector_scale, igraph_vector_scale — Multiply all elements of a vector by a constant
- vector_search, igraph_vector_search — Search from a given position
- vector_set, igraph_vector_set — Assignment to an element of a vector.
- vector_shuffle, igraph_vector_shuffle — Shuffles a vector in-place using the Fisher-Yates method
- vector_size, igraph_vector_size — Returns the size (=length) of the vector.
- vector_sort, igraph_vector_sort — Sorts the elements of the vector into ascending order.
- vector_sub, igraph_vector_sub — Subtract a vector from another one.
- vector_sum, igraph_vector_sum — Calculates the sum of the elements in the vector.
- vector_swap, igraph_vector_swap — Swap elements of two vectors.
- vector_swap_elements, igraph_vector_swap_elements — Swap two elements in a vector.
- vector_tail, igraph_vector_tail — Returns the last element in a vector.
- vector_update, igraph_vector_update — Update a vector from another one.
- vector_view, igraph_vector_view — Handle a regular C array as a igraph_vector_t.
- vector_which_max, igraph_vector_which_max — Gives the index of the maximum element of the vector.
- vector_which_min, igraph_vector_which_min — Index of the smallest element.
- vector_which_minmax, igraph_vector_which_minmax — Index of the minimum and maximum elements
- version, igraph_version — Return the version of the igraph C library
- vertex_coloring_greedy, igraph_vertex_coloring_greedy — Computes a vertex coloring using a greedy algorithm.
- vertex_connectivity, igraph_vertex_connectivity — The vertex connectivity of a graph
- vertex_disjoint_paths, igraph_vertex_disjoint_paths — Maximum number of vertex-disjoint paths between two vertices.
- vit_create, igraph_vit_create — Creates a vertex iterator from a vertex selector.
- vit_destroy, igraph_vit_destroy — Destroys a vertex iterator.
- VIT_END, IGRAPH_VIT_END — Are we at the end?
- VIT_GET, IGRAPH_VIT_GET — Query the current position.
- VIT_NEXT, IGRAPH_VIT_NEXT — Next vertex.
- VIT_RESET, IGRAPH_VIT_RESET — Reset a vertex iterator.
- VIT_SIZE, IGRAPH_VIT_SIZE — Size of a vertex iterator.
- vss_1, igraph_vss_1 — Vertex set with a single vertex (immediate version).
- vss_all, igraph_vss_all — All vertices of a graph (immediate version).
- vss_none, igraph_vss_none — Empty vertex set (immediate version).
- vss_seq, igraph_vss_seq — An interval of vertices (immediate version).
- vss_vector, igraph_vss_vector — Vertex set based on a vector (immediate version).
- vs_1, igraph_vs_1 — Vertex set with a single vertex.
- vs_adj, igraph_vs_adj — Adjacent vertices of a vertex.
- vs_all, igraph_vs_all — Vertex set, all vertices of a graph.
- vs_copy, igraph_vs_copy — Creates a copy of a vertex selector.
- vs_destroy, igraph_vs_destroy — Destroy a vertex set.
- vs_is_all, igraph_vs_is_all — Check whether all vertices are included.
- vs_nonadj, igraph_vs_nonadj — Non-adjacent vertices of a vertex.
- vs_none, igraph_vs_none — Empty vertex set.
- vs_seq, igraph_vs_seq — Vertex set, an interval of vertices.
- vs_size, igraph_vs_size — Returns the size of the vertex selector.
- vs_type, igraph_vs_type — Returns the type of the vertex selector.
- vs_vector, igraph_vs_vector — Vertex set based on a vector.
- vs_vector_copy, igraph_vs_vector_copy — Vertex set based on a vector, with copying.
- vs_vector_small, igraph_vs_vector_small — Create a vertex set by giving its elements.
W
- WARNING, IGRAPH_WARNING — Triggers a warning.
- warning, igraph_warning — Triggers a warning.
- WARNINGF, IGRAPH_WARNINGF — Triggers a warning, with printf-like syntax.
- warningf, igraph_warningf — Triggers a warning, printf-like version.
- warning_handler_ignore, igraph_warning_handler_ignore — Ignores all warnings.
- warning_handler_print, igraph_warning_handler_print — Prints all warnings to the standard error.
- warning_handler_t, igraph_warning_handler_t — The type of igraph warning handler functions.
- watts_strogatz_game, igraph_watts_strogatz_game — The Watts-Strogatz small-world model.
- weighted_adjacency, igraph_weighted_adjacency — Creates a graph from a weighted adjacency matrix.
- weighted_cliques, igraph_weighted_cliques — Finds all cliques in a given weight range in a vertex weighted graph.
- weighted_clique_number, igraph_weighted_clique_number — Finds the weight of the largest weight clique in the graph.
- write_graph_dimacs, igraph_write_graph_dimacs — Write a graph in DIMACS format.
- write_graph_dot, igraph_write_graph_dot — Write the graph to a stream in DOT format
- write_graph_edgelist, igraph_write_graph_edgelist — Writes the edge list of a graph to a file.
- write_graph_gml, igraph_write_graph_gml — Write the graph to a stream in GML format
- write_graph_graphml, igraph_write_graph_graphml — Writes the graph to a file in GraphML format
- write_graph_lgl, igraph_write_graph_lgl — Writes the graph to a file in .lgl format
- write_graph_ncol, igraph_write_graph_ncol — Writes the graph to a file in .ncol format.
- write_graph_pajek, igraph_write_graph_pajek — Writes a graph to a file in Pajek format.