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Link to original content: http://github.com/mitxael/SSHIVA
GitHub - mitxael/SSHIVA: CHoleR: a C++ Tool for the Analysis of Persistent Homology on Undirected Weighted Graphs [C++, CLI/CLR, JNI, WPF, C#]
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CHoleR: a C++ Tool for the Analysis of Persistent Homology on Undirected Weighted Graphs [C++, CLI/CLR, JNI, WPF, C#]

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mitxael/SSHIVA

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***************************************************************************************
* Abstract:   Collection of graph algorithms for Minimal cycles basis and Maximal cliques
* Uses:       This software has been developed using:
*              - MVSC 14.1 (library back-end)
*              - C++/CLI (interface wrapper)
*              - WPF (user front-end)
* Author:     Michael Vasquez Otazu
* Email:      mitxael@hotmail.it
* Demo:       https://www.youtube.com/watch?v=NY8xB3WwQDA
* History:  
*             V2.1
*             - Selection of maximum dimension to be computed in PH	
*             V2.0 - Second release
*             - Criccaldi alg. for Maximal cliques from Amaldi's mcb. O(m^{2} n / log n)
*             - Bron-Kerbosch (naive) alg. for All Maximal Cliques. O(3^{n/3})
*             - Bron-Kerbosch (tomita) alg. for All Maximal Cliques.  O(3^{n/3})
*             - Bron-Kerbosch (eppstein) alg. for All Maximal Cliques. O(d n 3^{d/3})
*             - Multi-threaded Benchmark for cycle/clique algorithms for a set of graphs (with .csv report)
*             - Graph plotting with cycles/cliques visualization and selection
*             V1.0 - First release
*             - Support for weighted and undirected graphs
*             - Horton alg. for Minimum Cycle Basis. O(m^3 n)
*               (many optional improvements such as Tiernan order, Isometric cycles, etc.)
*             - De Pina alg.for Minimum Cycle Basis. O(m^{3} + m n^{2} log n)
*               (cycles computation using either Horton-Space or Signed-Graph)
*             - Hybrid (Horton+DePina) alg. for Minimum Cycle Basis. O(m^{2} n + m n^{2})
*             - Amaldi alg. for Minimum Cycle Basis. O(m^{2} n / log n)
*             - Customizable verbosity of algorithms execution (from none to step-by-step)
*             - Dijkstra with heap alg. O(n^{2})
*             - DFS, BFS and many other common graph algorithms
*             - Graph plotting
*             - Import graph from text file (adjacency lists and single edges)
*             - Multi-format graph export to file (adjacency lists, matrix-market, etc.)
*             - Generate density graphs with n-vertices and uniformly-distributed random edges
*             - Generate hypercube graphs with n^2-vertices and n*(n-1)/2 edges
*             - Generate euclidean graphs with n-vertices and m-edges (random (x,y) positions and edges)
********************************* START LICENSE BLOCK *********************************
* The MIT License (MIT)
* Copyright (C) 2018 Michael Vasquez Otazu
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of this 
* software and associated documentation files (the "Software"), to deal in the Software 
* without restriction, including without limitation the rights to use, copy, modify, merge, 
* publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons 
* to whom the Software is furnished to do so, subject to the following conditions:
* 
* The above Copyright notice and this Permission Notice shall be included in all copies 
* or substantial portions of the Software.
********************************** END LICENSE BLOCK **********************************