dominator_tree: Dominator tree
In igraph: Network Analysis and Visualization
dominator_tree R Documentation
Dominator tree
Description
Dominator tree of a directed graph.
Usage
dominator_tree(graph, root, mode = c("out", "in", "all", "total"))
Arguments
graph
A directed graph. If it is not a flowgraph, and it contains
some vertices not reachable from the root vertex, then these vertices will
be collected and returned as part of the result.
root
The id of the root (or source) vertex, this will be the root of
the tree.
mode
Constant, must be ‘in’ or ‘out’. If
it is ‘in’, then all directions are considered as opposite to
the original one in the input graph.
Details
A flowgraph is a directed graph with a distinguished start (or root) vertex
r, such that for any vertex v, there is a path from r to
v. A vertex v dominates another vertex w (not equal to
v), if every path from r to w contains v. Vertex
v is the immediate dominator or w,
v=\textrm{idom}(w), if v dominates w and every
other dominator of w dominates v. The edges
{(\textrm{idom}(w), w)| w \ne r} form a
directed tree, rooted at r, called the dominator tree of the graph.
Vertex v dominates vertex w if and only if v is an
ancestor of w in the dominator tree.
This function implements the Lengauer-Tarjan algorithm to construct the
dominator tree of a directed graph. For details see the reference below.
Value
A list with components:
dom
A numeric vector giving the
immediate dominators for each vertex. For vertices that are unreachable from
the root, it contains NaN. For the root vertex itself it contains
minus one.
domtree
A graph object, the dominator tree. Its vertex
ids are the as the vertex ids of the input graph. Isolate vertices are the
ones that are unreachable from the root.
leftout
A numeric vector
containing the vertex ids that are unreachable from the root.
Author(s)
Gabor Csardi csardi.gabor@gmail.com
References
Thomas Lengauer, Robert Endre Tarjan: A fast algorithm for
finding dominators in a flowgraph, ACM Transactions on Programming
Languages and Systems (TOPLAS) I/1, 121–141, 1979.
See Also
Other flow:
edge_connectivity(),
is_min_separator(),
is_separator(),
max_flow(),
min_cut(),
min_separators(),
min_st_separators(),
st_cuts(),
st_min_cuts(),
vertex_connectivity()
Examples
## The example from the paper
g <- graph_from_literal(
R -+ A:B:C, A -+ D, B -+ A:D:E, C -+ F:G, D -+ L,
E -+ H, F -+ I, G -+ I:J, H -+ E:K, I -+ K, J -+ I,
K -+ I:R, L -+ H
)
dtree <- dominator_tree(g, root = "R")
layout <- layout_as_tree(dtree$domtree, root = "R")
layout[, 2] <- -layout[, 2]
plot(dtree$domtree, layout = layout, vertex.label = V(dtree$domtree)$name)
igraph documentation built on Oct. 20, 2024, 1:06 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| dominator_tree | R Documentation |
Dominator tree
Description
Dominator tree of a directed graph.
Usage
dominator_tree(graph, root, mode = c("out", "in", "all", "total"))
Arguments
graph |
A directed graph. If it is not a flowgraph, and it contains some vertices not reachable from the root vertex, then these vertices will be collected and returned as part of the result. |
root |
The id of the root (or source) vertex, this will be the root of the tree. |
mode |
Constant, must be ‘ |
Details
A flowgraph is a directed graph with a distinguished start (or root) vertex
r, such that for any vertex v, there is a path from r to
v. A vertex v dominates another vertex w (not equal to
v), if every path from r to w contains v. Vertex
v is the immediate dominator or w,
v=\textrm{idom}(w), if v dominates w and every
other dominator of w dominates v. The edges
{(\textrm{idom}(w), w)| w \ne r} form a
directed tree, rooted at r, called the dominator tree of the graph.
Vertex v dominates vertex w if and only if v is an
ancestor of w in the dominator tree.
This function implements the Lengauer-Tarjan algorithm to construct the dominator tree of a directed graph. For details see the reference below.
Value
A list with components:
dom |
A numeric vector giving the
immediate dominators for each vertex. For vertices that are unreachable from
the root, it contains |
domtree |
A graph object, the dominator tree. Its vertex ids are the as the vertex ids of the input graph. Isolate vertices are the ones that are unreachable from the root. |
leftout |
A numeric vector containing the vertex ids that are unreachable from the root. |
Author(s)
Gabor Csardi csardi.gabor@gmail.com
References
Thomas Lengauer, Robert Endre Tarjan: A fast algorithm for finding dominators in a flowgraph, ACM Transactions on Programming Languages and Systems (TOPLAS) I/1, 121–141, 1979.
See Also
Other flow:
edge_connectivity(),
is_min_separator(),
is_separator(),
max_flow(),
min_cut(),
min_separators(),
min_st_separators(),
st_cuts(),
st_min_cuts(),
vertex_connectivity()
Examples
## The example from the paper
g <- graph_from_literal(
R -+ A:B:C, A -+ D, B -+ A:D:E, C -+ F:G, D -+ L,
E -+ H, F -+ I, G -+ I:J, H -+ E:K, I -+ K, J -+ I,
K -+ I:R, L -+ H
)
dtree <- dominator_tree(g, root = "R")
layout <- layout_as_tree(dtree$domtree, root = "R")
layout[, 2] <- -layout[, 2]
plot(dtree$domtree, layout = layout, vertex.label = V(dtree$domtree)$name)
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.