Use this if you are using igraph from R
Depth-first search is an algorithm to traverse a graph. It starts from a root vertex and tries to go quickly as far from as possible.
dfs( graph, root, neimode = c("out", "in", "all", "total"), unreachable = TRUE, order = TRUE, order.out = FALSE, father = FALSE, dist = FALSE, in.callback = NULL, out.callback = NULL, extra = NULL, rho = parent.frame() )
graph |
The input graph. |
root |
The single root vertex to start the search from. |
neimode |
For directed graphs specifies the type of edges to follow. ‘out’ follows outgoing, ‘in’ incoming edges. ‘all’ ignores edge directions completely. ‘total’ is a synonym for ‘all’. This argument is ignored for undirected graphs. |
unreachable |
Logical scalar, whether the search should visit the
vertices that are unreachable from the given root vertex (or vertices). If
|
order |
Logical scalar, whether to return the DFS ordering of the vertices. |
order.out |
Logical scalar, whether to return the ordering based on leaving the subtree of the vertex. |
father |
Logical scalar, whether to return the father of the vertices. |
dist |
Logical scalar, whether to return the distance from the root of the search tree. |
in.callback |
If not |
out.callback |
If not |
extra |
Additional argument to supply to the callback function. |
rho |
The environment in which the callback function is evaluated. |
The callback functions must have the following arguments:
The input graph is passed to the callback function here.
A named numeric vector, with the following entries: ‘vid’, the vertex that was just visited and ‘dist’, its distance from the root of the search tree.
The extra argument.
See examples below on how to use the callback functions.
A named list with the following entries:
root |
Numeric scalar. The root vertex that was used as the starting point of the search. |
neimode |
Character scalar. The |
order |
Numeric vector. The vertex ids, in the order in which they were visited by the search. |
order.out |
Numeric vector, the vertex ids, in the order of the completion of their subtree. |
father |
Numeric vector. The father of each vertex, i.e. the vertex it was discovered from. |
dist |
Numeric vector, for each vertex its distance from the root of the search tree. |
Note that order
, order.out
, father
, and dist
might be NULL
if their corresponding argument is FALSE
, i.e.
if their calculation is not requested.
Gabor Csardi csardi.gabor@gmail.com
bfs
for breadth-first search.
## A graph with two separate trees dfs(make_tree(10) %du% make_tree(10), root=1, "out", TRUE, TRUE, TRUE, TRUE) ## How to use a callback f.in <- function(graph, data, extra) { cat("in:", paste(collapse=", ", data), "\n") FALSE } f.out <- function(graph, data, extra) { cat("out:", paste(collapse=", ", data), "\n") FALSE } tmp <- dfs(make_tree(10), root=1, "out", in.callback=f.in, out.callback=f.out) ## Terminate after the first component, using a callback f.out <- function(graph, data, extra) { data['vid'] == 1 } tmp <- dfs(make_tree(10) %du% make_tree(10), root=1, out.callback=f.out)