This package provides a tidy API for graph/network manipulation. While
network data itself is not tidy, it can be envisioned as two tidy
tables, one for node data and one for edge data. tidygraph
provides a
way to switch between the two tables and provides dplyr
verbs for
manipulating them. Furthermore it provides access to a lot of graph
algorithms with return values that facilitate their use in a tidy
workflow.
library(tidygraph)
play_gnp(10, 0.5) %>%
activate(nodes) %>%
mutate(degree = centrality_degree()) %>%
activate(edges) %>%
mutate(centrality = centrality_edge_betweenness()) %>%
arrange(centrality)
#> # A tbl_graph: 10 nodes and 51 edges
#> #
#> # A directed simple graph with 1 component
#> #
#> # Edge Data: 51 × 3 (active)
#> from to centrality
#> <int> <int> <dbl>
#> 1 2 7 1.25
#> 2 6 5 1.33
#> 3 1 3 1.4
#> 4 2 10 1.53
#> 5 2 8 1.58
#> 6 8 9 1.65
#> 7 2 3 1.67
#> 8 2 5 1.73
#> 9 3 5 1.73
#> 10 8 5 1.73
#> # ℹ 41 more rows
#> #
#> # Node Data: 10 × 1
#> degree
#> <dbl>
#> 1 6
#> 2 7
#> 3 6
#> # ℹ 7 more rows
tidygraph
is a huge package that exports 280 different functions and
methods. It more or less wraps the full functionality of igraph
in a
tidy API giving you access to almost all of the dplyr
verbs plus a few
more, developed for use with relational data.
tidygraph
adds some extra verbs for specific use in network analysis
and manipulation. The activate()
function defines whether one is
manipulating node or edge data at the moment as shown in the example
above. bind_edges()
, bind_nodes()
, and bind_graphs()
let you
expand the graph structure you’re working with, while graph_join()
lets you merge two graphs on some node identifier. reroute()
, on the
other hand, lets you change the terminal nodes of the edges in the
graph.
tidygraph
wraps almost all of the graph algorithms from igraph
and
provides a consistent interface and output that always matches the
sequence of nodes and edges. All tidygraph
algorithm wrappers are
intended for use inside verbs where they know the context they are being
called in. In the example above it is not necessary to supply the graph
nor the node/edge IDs to centrality_degree()
and
centrality_edge_betweenness()
as they are aware of them already. This
leads to much clearer code and less typing.
tidygraph
goes beyond dplyr
and also implements graph centric
version of the purrr
map functions. You can now call a function on the
nodes in the order of a breadth or depth first search while getting
access to the result of the previous calls.
tidygraph
lets you temporarily change the representation of your
graph, do some manipulation of the node and edge data, and then change
back to the original graph with the changes being merged in
automatically. This is powered by the new morph()
/unmorph()
verbs
that let you e.g. contract nodes, work on the linegraph representation,
split communities to separate graphs etc. If you wish to continue with
the morphed version, the crystallise()
verb lets you freeze the
temporary representation into a proper tbl_graph
.
While tidygraph
is powered by igraph underneath it wants everyone to
join the fun. The as_tbl_graph()
function can easily convert
relational data from all your favourite objects, such as network
,
phylo
, dendrogram
, data.tree
, graph
, etc. More conversion will
be added in the order I become aware of them.
tidygraph
itself does not provide any means of visualisation, but it
works flawlessly with ggraph
. This division makes it easy to develop
the visualisation and manipulation code at different speeds depending on
where the needs arise.
tidygraph
is available on CRAN and can be installed simply, using
install.packages('tidygraph')
. For the development version available
on GitHub, use the devtools
package for installation:
# install.packages('pak')
pak::pak('thomasp85/tidygraph')
tidygraph
stands on the shoulders of particularly the igraph
and
dplyr
/tidyverse
teams. It would not have happened without them, so
thanks so much to them.
Please note that the tidygraph project is released with a Contributor Code of Conduct. By contributing to this project, you agree to abide by its terms.