From 3aee2fd43e3059a699af2b63c6f2395e5a55e515 Mon Sep 17 00:00:00 2001 From: KatolaZ Date: Wed, 27 Sep 2017 15:06:31 +0100 Subject: First commit on github -- NetBunch 1.0 --- doc/node_components.md | 116 +++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 116 insertions(+) create mode 100644 doc/node_components.md (limited to 'doc/node_components.md') diff --git a/doc/node_components.md b/doc/node_components.md new file mode 100644 index 0000000..c82ed2b --- /dev/null +++ b/doc/node_components.md @@ -0,0 +1,116 @@ +node_components(1) -- Find the components associated to a specific node +====== + +## SYNOPSIS + +`node_components` [ [SHOW]] + +## DESCRIPTION + +`node_components` finds the components associated to the node +of the graph provided as input, and prints on output the +size of those components. The value of the third parameter +can be set to `IN`, `OUT`, `INOUT`, `SSC`, `WCC`, or `ALL`. According +to the value of , the program will compute the IN-component +(`IN`), the OUT-component (`OUT`), both the IN- and OUT-component +(`INOUT`), the strongly connected components (`SCC`), or the +weakly-connected component (`WCC`) to which belongs. If the +third parameter is omitted or equal to `ALL`, then `node_components` +computes all the components associated to . If `SHOW` is +specified as the fourth parameter, the program also shows the list of +nodes which belong to each of the required components. + +## PARAMETERS + +* : + input graph (edge list) if equal to `-` (dash), read the edge list + from STDIN. +* : + the label of the node. + +* : + the component to compute. Can be set to one of `IN` + (IN-component), `OUT` (OUT-component), `INOUT` (both the IN- and + the OUT-component), `SSC` (strongly connected component), `WCC` + (weakly connected component), or `ALL` (all the above). If + is not set, compute all the components. + +* SHOW: + If the (optional) fourth parameter is equal to `SHOW`, the program + will dump on output the list of all the nodes belonging to each + component. + +## OUTPUT + +`node_components` prints on the standard output the size of the +required components, one per line, in the format: + + comp_type_1: size_1 + comp_type_2: size_2 + ..... + +where `comp_type_1` is the type of component (one of `IN`, `OUT`, +`SCC`, or `WCC`) and `size_1` is its size, and so on. Notice that the +sizes are not sorted. If `SHOW` is given, the program shows the list +of nodes belonging to each component, in the format: + + comp_type_1: size_1 node_1 node_2 node_3 ... + comp_type_2: size_2 node_1 node_2 node_3 ... + +## EXAMPLES + +We can use `node_components` to compute the IN-component of a specific +node. For instance, the command: + + $ node_components web-NotreDame.net 2711 IN + IN: 53968 + $ + +computes the size of the IN-component of node 2711 in the graph +`www_nd.net` (WWW Notre Dame). This component contains 53968 +nodes. Similarly: + + $ node_components web-NotreDame.net 2711 OUT SHOW + OUT: 21 559 2711 2712 2713 2714 2715 2716 ... 33271 33272 + $ + +computes and shows the OUT-component of node 2711, which contains 21 +nodes, including node 2711. Finally, we can obtain the size of all the +components associated to node 2711 by running: + + $ node_components web-NotreDame.net 2711 + IN: 53986 + OUT: 21 + WCC: 325729 + SCC: 18 + $ + +In this case, the IN-component of node 2711 contains 53986 nodes, the +OUT-component contains 21 nodes, the weakly connected components +contains 325729 nodes (the whole graph), and the strongly connected +component contains 18 nodes. It is also possible to show the list of +nodes belonging to each component by providing `SHOW` as fourth +parameter. IN this case, it is better to save the output of +`node_components` into a file, e.g. by using: + + $ node_components web-NotreDame.net 2711 ALL SHOW > web-NotreDame.net_components_2711 + +## SEE ALSO + +components(1), strong_conn(1), largest_component(1) + + +## REFERENCES + +* V\. Latora, V. Nicosia, G. Russo, "Complex Networks: Principles, + Methods and Applications", Chapter 6, Cambridge University Press + (2017) + +* V\. Latora, V. Nicosia, G. Russo, "Complex Networks: Principles, + Methods and Applications", Appendix 8, Cambridge University Press + (2017) + + +## AUTHORS + +(c) (c) Vincenzo 'KatolaZ' Nicosia 2009-2017 ``. -- cgit v1.2.3