Package 'networkD3'

Title: D3 JavaScript Network Graphs from R
Description: Creates 'D3' 'JavaScript' network, tree, dendrogram, and Sankey graphs from 'R'.
Authors: J.J. Allaire [aut], Peter Ellis [ctb], Christopher Gandrud [aut, cre], Kevin Kuo [ctb], B.W. Lewis [ctb], Jonathan Owen [ctb], Kenton Russell [aut], Jennifer Rogers [ctb], Charles Sese [ctb], CJ Yetman [aut]
Maintainer: Christopher Gandrud <[email protected]>
License: GPL (>= 3)
Version: 0.4.9000
Built: 2024-11-14 04:59:30 UTC
Source: https://github.com/christophergandrud/networkD3

Help Index


Tools for Creating D3 Network Graphs from R

Description

Creates D3 JavaScript network, tree, dendrogram, and Sankey graphs from R.


Convert one of numerous data types to treeNetwork's 'native' treenetdf form

Description

The treeNetwork function uses a 'native' data format that consists of a data frame with minimally 2 vectors/columns, one named 'nodeId' and one named 'parentId'. Other columns in the data frame are also passed on to the JavaScript code and attached to the elements in the D3 visualization so that they can potentially be accessed by other JavaScript functions. This is an advantageous format because:

  • it's an easy to use and understand R-like format

  • a hierarchical network can be succinctly defined by a list of each unique node and its parent node

  • since each row defines a unique node, additional columns can be added to add node-specific properties

  • in a hierarchical network, every link/edge can be uniquely identified by the node which it leads to, therefore each link/edge can also be specifically addressed by adding columns for formatting of the incoming link

as_treenetdf can convert from any of the following data types:

  • leafpathdf (table)–parent|parent|nodedata.frame

  • hierarchical nested list (JSON)

  • hclust

  • data.tree Node

  • igraph

  • ape phylo

Usage

as_treenetdf(data = NULL, ...)

Arguments

data

a tree network description in one of numerous forms (see details).

...

other arguments that will be passed on to as_treenetdf

Examples

links <- read.csv(header = TRUE, stringsAsFactors = FALSE, text = '
                   source,target,name
                   1,,one
                   2,1,two
                   3,1,three
                   4,1,four
                   5,2,five
                   6,2,six
                   7,2,seven
                   8,6,eight')
                   
 # Convert data
 as_treenetdf(links, cols = c(nodeId = 'source', parentId = 'target'))
 
 # Graph (calls as_treenetdf internally)
 treeNetwork(links, cols = c(nodeId = 'source', parentId = 'target'))

Convert a data.frame to a treenetdf

Description

Convert a data.frame to a treenetdf

Usage

## S3 method for class 'data.frame'
as_treenetdf(data, cols = setNames(names(data),
  names(data)), df_type = "treenetdf", subset = names(data), root, ...)

Arguments

data

a tree network description in one of numerous forms (see details).

cols

named character vector specifying the names of columns to be converted to the standard treenetdf names.

df_type

character specifying which type of data frame to convert. Can be treenetdf or leafpathdf.

subset

character vector specifying the names of the columns (in order) that should be used to define the hierarchy.

root

root name.

...

arguments to pass to methods.


Convert hclust objects to treenetdf

Description

Convert hclust objects to treenetdf

Usage

## S3 method for class 'hclust'
as_treenetdf(data, ...)

Arguments

data

a tree network description in one of numerous forms (see details).

...

arguments to pass to methods.


Convert igraph tree to treenetdf

Description

Convert igraph tree to treenetdf

Usage

## S3 method for class 'igraph'
as_treenetdf(data, root = "root", ...)

Arguments

data

a tree network description in one of numerous forms (see details).

root

character specifying the string that should be used to name the root node

...

arguments to pass to methods.


Convert a nested list to treenetdf

Description

Convert a nested list to treenetdf

Usage

## S3 method for class 'list'
as_treenetdf(data, children_name = "children",
  node_name = "name", ...)

Arguments

data

a tree network description in one of numerous forms (see details).

children_name

character specifying the name used for the list element that contains the childeren elements.

node_name

character specifying the name used for the list element that contains the name of the node

...

arguments to pass to methods.


data.tree to treenetdf

Description

data.tree to treenetdf

Usage

## S3 method for class 'Node'
as_treenetdf(data, ...)

Arguments

data

a tree network description in one of numerous forms (see details).

...

arguments to pass to methods.


Phylo tree to treenetdf

Description

Phylo tree to treenetdf

Usage

## S3 method for class 'phylo'
as_treenetdf(data, ...)

Arguments

data

a tree network description in one of numerous forms (see details).

...

arguments to pass to methods.


tbl_graph_to_treenetdf

Description

tbl_graph_to_treenetdf

Usage

## S3 method for class 'tbl_graph'
as_treenetdf(data, ...)

Arguments

data

a tree network description in one of numerous forms (see details).

...

arguments to pass to methods.


Convert an R hclust or dendrogram object into a radialNetwork list.

Description

as.radialNetwork converts an R hclust or dendrogram object into a list suitable for use by the radialNetwork function.

Usage

as.radialNetwork(d, root)

Arguments

d

An object of R class hclust or dendrogram.

root

An optional name for the root node. If missing, use the first argument variable name.

Details

as.radialNetwork coverts R objects of class hclust or dendrogram into a list suitable for use with the radialNetwork function.

Examples

# Create a hierarchical cluster object and display with radialNetwork
## dontrun
hc <- hclust(dist(USArrests), "ave")
radialNetwork(as.radialNetwork(hc))

Create Reingold-Tilford Tree network diagrams.

Description

Create Reingold-Tilford Tree network diagrams.

Usage

chordNetwork(Data, height = 500, width = 500, initialOpacity = 0.8,
  useTicks = 0, colourScale = c("#1f77b4", "#aec7e8", "#ff7f0e", "#ffbb78",
  "#2ca02c", "#98df8a", "#d62728", "#ff9896", "#9467bd", "#c5b0d5", "#8c564b",
  "#c49c94", "#e377c2", "#f7b6d2", "#7f7f7f", "#c7c7c7", "#bcbd22", "#dbdb8d",
  "#17becf", "#9edae5"), padding = 0.1, fontSize = 14,
  fontFamily = "sans-serif", labels = c(), labelDistance = 30)

Arguments

Data

A square matrix or data frame whose (n, m) entry represents the strength of the link from group n to group m

height

height for the network graph's frame area in pixels (if NULL then height is automatically determined based on context)

width

numeric width for the network graph's frame area in pixels (if NULL then width is automatically determined based on context)

initialOpacity

specify the opacity before the user mouses over the link

useTicks

integer number of ticks on the radial axis. The default is '0' which means no ticks will be drawn.

colourScale

specify the hexadecimal colours in which to display the different categories. If there are fewer colours than categories, the last colour is repeated as necessary (if NULL then defaults to D3 colour scale)

padding

specify the amount of space between adjacent categories on the outside of the graph

fontSize

numeric font size in pixels for the node text labels.

fontFamily

font family for the node text labels.

labels

vector containing labels of the categories

labelDistance

integer distance in pixels (px) between text labels and outer radius. The default is '30'.

Source

Mike Bostock: https://github.com/mbostock/d3/wiki/Chord-Layout.

Examples

## Not run: 
#### Data about hair colour preferences, from 
## https://github.com/mbostock/d3/wiki/Chord-Layout

hairColourData <- matrix(c(11975,  1951,  8010, 1013,
                            5871, 10048, 16145,  990,
                            8916,  2060,  8090,  940,
                            2868,  6171,  8045, 6907),
                            nrow = 4)
                            
chordNetwork(Data = hairColourData, 
             width = 500, 
             height = 500,
             colourScale = c("#000000", 
                             "#FFDD89", 
                             "#957244", 
                             "#F26223"),
             labels = c("red", "brown", "blond", "gray"))


## End(Not run)

Shiny bindings for networkD3 widgets

Description

Output and render functions for using networkD3 widgets within Shiny applications and interactive Rmd documents.

Usage

chordNetworkOutput(outputId, width = "100%", height = "500px")

renderchordNetwork(expr, env = parent.frame(), quoted = FALSE)

dendroNetworkOutput(outputId, width = "100%", height = "800px")

renderDendroNetwork(expr, env = parent.frame(), quoted = FALSE)

diagonalNetworkOutput(outputId, width = "100%", height = "800px")

renderDiagonalNetwork(expr, env = parent.frame(), quoted = FALSE)

forceNetworkOutput(outputId, width = "100%", height = "500px")

renderForceNetwork(expr, env = parent.frame(), quoted = FALSE)

radialNetworkOutput(outputId, width = "100%", height = "800px")

renderRadialNetwork(expr, env = parent.frame(), quoted = FALSE)

sankeyNetworkOutput(outputId, width = "100%", height = "500px")

renderSankeyNetwork(expr, env = parent.frame(), quoted = FALSE)

simpleNetworkOutput(outputId, width = "100%", height = "500px")

renderSimpleNetwork(expr, env = parent.frame(), quoted = FALSE)

Arguments

outputId

output variable to read from

width, height

Must be a valid CSS unit (like "100%", "400px", "auto") or a number, which will be coerced to a string and have "px" appended.

expr

An expression that generates a networkD3 graph

env

The environment in which to evaluate expr.

quoted

Is expr a quoted expression (with quote())? This is useful if you want to save an expression in a variable.


Create hierarchical cluster network diagrams.

Description

Create hierarchical cluster network diagrams.

Usage

dendroNetwork(hc, height = 500, width = 800, fontSize = 10,
  linkColour = "#ccc", nodeColour = "#fff", nodeStroke = "steelblue",
  textColour = "#111", textOpacity = 0.9, textRotate = NULL,
  opacity = 0.9, margins = NULL, linkType = c("elbow", "diagonal"),
  treeOrientation = c("horizontal", "vertical"), zoom = FALSE)

Arguments

hc

a hierarchical (hclust) cluster object.

height

height for the network graph's frame area in pixels

width

numeric width for the network graph's frame area in pixels

fontSize

numeric font size in pixels for the node text labels.

linkColour

character string specifying the colour you want the link lines to be. Multiple formats supported (e.g. hexadecimal).

nodeColour

character string specifying the colour you want the node circles to be. Multiple formats supported (e.g. hexadecimal).

nodeStroke

character string specifying the colour you want the node perimeter to be. Multiple formats supported (e.g. hexadecimal).

textColour

character vector or scalar specifying the colour you want the text to be before they are clicked. Order should match the order of hclust$labels. Multiple formats supported (e.g. hexadecimal).

textOpacity

numeric vector or scalar of the proportion opaque you would like the text to be before they are clicked. rder should match the order of hclust$labels.

textRotate

numeric degress to rotate text for node text. Default is 0 for horizontal and 65 degrees for vertical.

opacity

numeric value of the proportion opaque you would like the graph elements to be.

margins

numeric value or named list of plot margins (top, right, bottom, left). Set the margin appropriately to accomodate long text labels.

linkType

character specifying the link type between points. Options are 'elbow' and 'diagonal'.

treeOrientation

character specifying the tree orientation, Options are 'vertical' and 'horizontal'.

zoom

logical enabling plot zoom and pan

Source

Mike Bostock: http://bl.ocks.org/mbostock/4063570.

Fabio Nelli: http://www.meccanismocomplesso.org/en/dendrogramma-d3-parte1/

Examples

## Not run: 
hc <- hclust(dist(USArrests), "ave")

dendroNetwork(hc, height = 600)
dendroNetwork(hc, treeOrientation = "vertical")

dendroNetwork(hc, height = 600, linkType = "diagonal")
dendroNetwork(hc, treeOrientation = "vertical", linkType = "diagonal")

dendroNetwork(hc, textColour = c("red", "green", "orange")[cutree(hc, 3)],
               height = 600)
dendroNetwork(hc, textColour = c("red", "green", "orange")[cutree(hc, 3)],
               treeOrientation = "vertical")

## End(Not run)

Create Reingold-Tilford Tree network diagrams.

Description

Create Reingold-Tilford Tree network diagrams.

Usage

diagonalNetwork(List, height = NULL, width = NULL, fontSize = 10,
  fontFamily = "serif", linkColour = "#ccc", nodeColour = "#fff",
  nodeStroke = "steelblue", textColour = "#111", opacity = 0.9,
  margin = NULL)

Arguments

List

a hierarchical list object with a root node and children.

height

height for the network graph's frame area in pixels (if NULL then height is automatically determined based on context)

width

numeric width for the network graph's frame area in pixels (if NULL then width is automatically determined based on context)

fontSize

numeric font size in pixels for the node text labels.

fontFamily

font family for the node text labels.

linkColour

character string specifying the colour you want the link lines to be. Multiple formats supported (e.g. hexadecimal).

nodeColour

character string specifying the colour you want the node circles to be. Multiple formats supported (e.g. hexadecimal).

nodeStroke

character string specifying the colour you want the node perimeter to be. Multiple formats supported (e.g. hexadecimal).

textColour

character string specifying the colour you want the text to be before they are clicked. Multiple formats supported (e.g. hexadecimal).

opacity

numeric value of the proportion opaque you would like the graph elements to be.

margin

an integer or a named list/vector of integers for the plot margins. If using a named list/vector, the positions top, right, bottom, left are valid. If a single integer is provided, then the value will be assigned to the right margin. Set the margin appropriately to accomodate long text labels.

Source

Reingold. E. M., and Tilford, J. S. (1981). Tidier Drawings of Trees. IEEE Transactions on Software Engineering, SE-7(2), 223-228.

Mike Bostock: http://bl.ocks.org/mbostock/4339083.

Examples

## Not run: 
#### Create tree from JSON formatted data
## Download JSON data
# Create URL. paste0 used purely to keep within line width.
URL <- paste0("https://cdn.rawgit.com/christophergandrud/networkD3/",
              "master/JSONdata//flare.json")
              
## Convert to list format
Flare <- jsonlite::fromJSON(URL, simplifyDataFrame = FALSE)

## Recreate Bostock example from http://bl.ocks.org/mbostock/4063550
diagonalNetwork(List = Flare, fontSize = 10, opacity = 0.9)

#### Create a tree dendrogram from an R hclust object
hc <- hclust(dist(USArrests), "ave")
diagonalNetwork(as.radialNetwork(hc))
diagonalNetwork(as.radialNetwork(hc), fontFamily = "cursive")

#### Create tree from a hierarchical R list
For an alternative structure see: http://stackoverflow.com/a/30747323/1705044
CanadaPC <- list(name = "Canada", children = list(list(name = "Newfoundland",
                    children = list(list(name = "St. John's"))),
               list(name = "PEI",
                    children = list(list(name = "Charlottetown"))),
               list(name = "Nova Scotia",
                    children = list(list(name = "Halifax"))),
               list(name = "New Brunswick",
                    children = list(list(name = "Fredericton"))),
               list(name = "Quebec",
                    children = list(list(name = "Montreal"),
                                    list(name = "Quebec City"))),
               list(name = "Ontario",
                    children = list(list(name = "Toronto"),
                                    list(name = "Ottawa"))),
               list(name = "Manitoba",
                    children = list(list(name = "Winnipeg"))),
               list(name = "Saskatchewan",
                    children = list(list(name = "Regina"))),
               list(name = "Nunavuet",
                    children = list(list(name = "Iqaluit"))),
               list(name = "NWT",
                    children = list(list(name = "Yellowknife"))),
               list(name = "Alberta",
                    children = list(list(name = "Edmonton"))),
               list(name = "British Columbia",
                    children = list(list(name = "Victoria"),
                                    list(name = "Vancouver"))),
               list(name = "Yukon",
                    children = list(list(name = "Whitehorse")))
))

diagonalNetwork(List = CanadaPC, fontSize = 10)

## End(Not run)

Create a D3 JavaScript force directed network graph.

Description

Create a D3 JavaScript force directed network graph.

Usage

forceNetwork(Links, Nodes, Source, Target, Value, NodeID, Nodesize, Group,
  height = NULL, width = NULL,
  colourScale = JS("d3.scaleOrdinal(d3.schemeCategory20);"), fontSize = 7,
  fontFamily = "serif", linkDistance = 50,
  linkWidth = JS("function(d) { return Math.sqrt(d.value); }"),
  radiusCalculation = JS(" Math.sqrt(d.nodesize)+6"), charge = -30,
  linkColour = "#666", opacity = 0.6, zoom = FALSE, legend = FALSE,
  arrows = FALSE, bounded = FALSE, opacityNoHover = 0,
  clickAction = NULL)

Arguments

Links

a data frame object with the links between the nodes. It should include the Source and Target for each link. These should be numbered starting from 0. An optional Value variable can be included to specify how close the nodes are to one another.

Nodes

a data frame containing the node id and properties of the nodes. If no ID is specified then the nodes must be in the same order as the Source variable column in the Links data frame. Currently only a grouping variable is allowed.

Source

character string naming the network source variable in the Links data frame.

Target

character string naming the network target variable in the Links data frame.

Value

character string naming the variable in the Links data frame for how wide the links are.

NodeID

character string specifying the node IDs in the Nodes data frame.

Nodesize

character string specifying the a column in the Nodes data frame with some value to vary the node radius's with. See also radiusCalculation.

Group

character string specifying the group of each node in the Nodes data frame.

height

numeric height for the network graph's frame area in pixels.

width

numeric width for the network graph's frame area in pixels.

colourScale

character string specifying the categorical colour scale for the nodes. See https://github.com/d3/d3/blob/master/API.md#ordinal-scales.

fontSize

numeric font size in pixels for the node text labels.

fontFamily

font family for the node text labels.

linkDistance

numeric or character string. Either numberic fixed distance between the links in pixels (actually arbitrary relative to the diagram's size). Or a JavaScript function, possibly to weight by Value. For example: linkDistance = JS("function(d){return d.value * 10}").

linkWidth

numeric or character string. Can be a numeric fixed width in pixels (arbitrary relative to the diagram's size). Or a JavaScript function, possibly to weight by Value. The default is linkWidth = JS("function(d) { return Math.sqrt(d.value); }").

radiusCalculation

character string. A javascript mathematical expression, to weight the radius by Nodesize. The default value is radiusCalculation = JS("Math.sqrt(d.nodesize)+6").

charge

numeric value indicating either the strength of the node repulsion (negative value) or attraction (positive value).

linkColour

character vector specifying the colour(s) you want the link lines to be. Multiple formats supported (e.g. hexadecimal).

opacity

numeric value of the proportion opaque you would like the graph elements to be.

zoom

logical value to enable (TRUE) or disable (FALSE) zooming.

legend

logical value to enable node colour legends.

arrows

logical value to enable directional link arrows.

bounded

logical value to enable (TRUE) or disable (FALSE) the bounding box limiting the graph's extent. See http://bl.ocks.org/mbostock/1129492.

opacityNoHover

numeric value of the opacity proportion for node labels text when the mouse is not hovering over them.

clickAction

character string with a JavaScript expression to evaluate when a node is clicked.

Source

D3.js was created by Michael Bostock. See http://d3js.org/ and, more specifically for force directed networks https://github.com/d3/d3/blob/master/API.md#forces-d3-force.

See Also

JS.

Examples

# Load data
data(MisLinks)
data(MisNodes)
# Create graph
forceNetwork(Links = MisLinks, Nodes = MisNodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Group = "group", opacity = 0.4, zoom = TRUE)

# Create graph with legend and varying node radius
forceNetwork(Links = MisLinks, Nodes = MisNodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Nodesize = "size",
             radiusCalculation = "Math.sqrt(d.nodesize)+6",
             Group = "group", opacity = 0.4, legend = TRUE)

# Create graph directed arrows
forceNetwork(Links = MisLinks, Nodes = MisNodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Group = "group", opacity = 0.4, arrows = TRUE)

## Not run: 
#### JSON Data Example
# Load data JSON formated data into two R data frames
# Create URL. paste0 used purely to keep within line width.
URL <- paste0("https://cdn.rawgit.com/christophergandrud/networkD3/",
              "master/JSONdata/miserables.json")

MisJson <- jsonlite::fromJSON(URL)

# Create graph
forceNetwork(Links = MisJson$links, Nodes = MisJson$nodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Group = "group", opacity = 0.4)

# Create graph with zooming
forceNetwork(Links = MisJson$links, Nodes = MisJson$nodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Group = "group", opacity = 0.4, zoom = TRUE)


# Create a bounded graph
forceNetwork(Links = MisJson$links, Nodes = MisJson$nodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Group = "group", opacity = 0.4, bounded = TRUE)

# Create graph with node text faintly visible when no hovering
forceNetwork(Links = MisJson$links, Nodes = MisJson$nodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Group = "group", opacity = 0.4, bounded = TRUE,
             opacityNoHover = TRUE)

## Specify colours for specific edges
# Find links to Valjean (11)
which(MisNodes == "Valjean", arr = TRUE)[1] - 1
ValjeanInds = which(MisLinks == 11, arr = TRUE)[, 1]

# Create a colour vector
ValjeanCols = ifelse(1:nrow(MisLinks) %in% ValjeanInds, "#bf3eff", "#666")

forceNetwork(Links = MisLinks, Nodes = MisNodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Group = "group", opacity = 0.8, linkColour = ValjeanCols)


## Create graph with alert pop-up when a node is clicked.  You're
# unlikely to want to do exactly this, but you might use
# Shiny.onInputChange() to allocate d.XXX to an element of input
# for use in a Shiny app.

MyClickScript <- 'alert("You clicked " + d.name + " which is in row " +
       (d.index + 1) +  " of your original R data frame");'

forceNetwork(Links = MisLinks, Nodes = MisNodes, Source = "source",
             Target = "target", Value = "value", NodeID = "name",
             Group = "group", opacity = 1, zoom = FALSE,
             bounded = TRUE, clickAction = MyClickScript)

## End(Not run)

Function to convert igraph graph to a list suitable for networkD3

Description

Function to convert igraph graph to a list suitable for networkD3

Usage

igraph_to_networkD3(g, group, what = "both")

Arguments

g

an igraph class graph object

group

an object that contains node group values, for example, those created with igraph's membership function.

what

a character string specifying what to return. If what = 'links' or what = 'nodes' only the links or nodes are returned as data frames, respectively. If what = 'both' then both data frames will be return in a list.

Value

A list of link and node data frames or only the link or node data frames.

Examples

# Load igraph
library(igraph)

# Use igraph to make the graph and find membership
karate <- make_graph("Zachary")
wc <- cluster_walktrap(karate)
members <- membership(wc)

# Convert to object suitable for networkD3
karate_d3 <- igraph_to_networkD3(karate, group = members)

# Create force directed network plot
forceNetwork(Links = karate_d3$links, Nodes = karate_d3$nodes,
             Source = 'source', Target = 'target', NodeID = 'name',
             Group = 'group')

## Not run: 
# Example with data from data frame
# Load data
## Original data from http://results.ref.ac.uk/DownloadSubmissions/ByUoa/21
data('SchoolsJournals')

# Convert to igraph
SchoolsJournals <- graph.data.frame(SchoolsJournals, directed = FALSE)

# Remove duplicate edges
SchoolsJournals <- simplify(SchoolsJournals)

# Find group membership
wt <- cluster_walktrap(SchoolsJournals, steps = 6)
members <- membership(wt)

# Convert igraph to list for networkD3
sj_list <- igraph_to_networkD3(SchoolsJournals, group = members)

# Plot as a forceDirected Network
forceNetwork(Links = sj_list$links, Nodes = sj_list$nodes, Source = 'source',
             Target = 'target', NodeID = 'name', Group = 'group',
             zoom = TRUE, linkDistance = 200)

## End(Not run)

Create character strings that will be evaluated as JavaScript

Description

Create character strings that will be evaluated as JavaScript

Usage

JS(...)

Arguments

...

character string to evaluate

Source

A direct import of JS from Ramnath Vaidyanathan, Yihui Xie, JJ Allaire, Joe Cheng and Kenton Russell (2015). htmlwidgets: HTML Widgets for R. R package version 0.4.


Les Miserables character nodes

Description

A data file of nodes from Knuth's Les Miserables characters data base.

Usage

MisNodes

Format

A data set with 77 observations of 2 variables, plus made up node size variable.

Source

See Mike Bostock http://bl.ocks.org/mbostock/4062045.


Check if a package is installed

Description

Check if a package is installed

Usage

pkg_installed(pkg_name)

Arguments

pkg_name

character string name of package


Create Reingold-Tilford Tree network diagrams.

Description

Create Reingold-Tilford Tree network diagrams.

Usage

radialNetwork(List, height = NULL, width = NULL, fontSize = 10,
  fontFamily = "serif", linkColour = "#ccc", nodeColour = "#fff",
  nodeStroke = "steelblue", textColour = "#111", opacity = 0.9,
  margin = NULL)

Arguments

List

a hierarchical list object with a root node and children.

height

height for the network graph's frame area in pixels (if NULL then height is automatically determined based on context)

width

numeric width for the network graph's frame area in pixels (if NULL then width is automatically determined based on context)

fontSize

numeric font size in pixels for the node text labels.

fontFamily

font family for the node text labels.

linkColour

character string specifying the colour you want the link lines to be. Multiple formats supported (e.g. hexadecimal).

nodeColour

character string specifying the colour you want the node circles to be. Multiple formats supported (e.g. hexadecimal).

nodeStroke

character string specifying the colour you want the node perimeter to be. Multiple formats supported (e.g. hexadecimal).

textColour

character string specifying the colour you want the text to be before they are clicked. Multiple formats supported (e.g. hexadecimal).

opacity

numeric value of the proportion opaque you would like the graph elements to be.

margin

an integer or a named list/vector of integers for the plot margins. If using a named list/vector, the positions top, right, bottom, left are valid. If a single integer is provided, then the value will be assigned to the right margin. Set the margin appropriately to accomodate long text labels.

Source

Reingold. E. M., and Tilford, J. S. (1981). Tidier Drawings of Trees. IEEE Transactions on Software Engineering, SE-7(2), 223-228.

Mike Bostock: http://bl.ocks.org/mbostock/4063550.

Examples

## Not run: 
#### Create tree from JSON formatted data
## Download JSON data
# Create URL. paste0 used purely to keep within line width.
URL <- paste0("https://cdn.rawgit.com/christophergandrud/networkD3/",
              "master/JSONdata//flare.json")
              
## Convert to list format
Flare <- jsonlite::fromJSON(URL, simplifyDataFrame = FALSE)

## Recreate Bostock example from http://bl.ocks.org/mbostock/4063550
radialNetwork(List = Flare, fontSize = 10, opacity = 0.9)

#### Create a tree dendrogram from an R hclust object
hc <- hclust(dist(USArrests), "ave")
radialNetwork(as.radialNetwork(hc))
radialNetwork(as.radialNetwork(hc), fontFamily = "cursive")

#### Create tree from a hierarchical R list
For an alternative structure see: http://stackoverflow.com/a/30747323/1705044
CanadaPC <- list(name = "Canada", children = list(list(name = "Newfoundland",
                    children = list(list(name = "St. John's"))),
               list(name = "PEI",
                    children = list(list(name = "Charlottetown"))),
               list(name = "Nova Scotia",
                    children = list(list(name = "Halifax"))),
               list(name = "New Brunswick",
                    children = list(list(name = "Fredericton"))),
               list(name = "Quebec",
                    children = list(list(name = "Montreal"),
                                    list(name = "Quebec City"))),
               list(name = "Ontario",
                    children = list(list(name = "Toronto"),
                                    list(name = "Ottawa"))),
               list(name = "Manitoba",
                    children = list(list(name = "Winnipeg"))),
               list(name = "Saskatchewan",
                    children = list(list(name = "Regina"))),
               list(name = "Nunavuet",
                    children = list(list(name = "Iqaluit"))),
               list(name = "NWT",
                    children = list(list(name = "Yellowknife"))),
               list(name = "Alberta",
                    children = list(list(name = "Edmonton"))),
               list(name = "British Columbia",
                    children = list(list(name = "Victoria"),
                                    list(name = "Vancouver"))),
               list(name = "Yukon",
                    children = list(list(name = "Whitehorse")))
))

radialNetwork(List = CanadaPC, fontSize = 10)

## End(Not run)

Create a D3 JavaScript Sankey diagram

Description

Create a D3 JavaScript Sankey diagram

Usage

sankeyNetwork(Links, Nodes, Source, Target, Value, NodeID, NodeGroup = NodeID,
  LinkGroup = NULL, units = "",
  colourScale = JS("d3.scaleOrdinal(d3.schemeCategory20);"), fontSize = 7,
  fontFamily = NULL, nodeWidth = 15, nodePadding = 10, margin = NULL,
  height = NULL, width = NULL, iterations = 32, sinksRight = TRUE)

Arguments

Links

a data frame object with the links between the nodes. It should have include the Source and Target for each link. An optional Value variable can be included to specify how close the nodes are to one another.

Nodes

a data frame containing the node id and properties of the nodes. If no ID is specified then the nodes must be in the same order as the Source variable column in the Links data frame. Currently only grouping variable is allowed.

Source

character string naming the network source variable in the Links data frame.

Target

character string naming the network target variable in the Links data frame.

Value

character string naming the variable in the Links data frame for how far away the nodes are from one another.

NodeID

character string specifying the node IDs in the Nodes. data frame. Must be 0-indexed.

NodeGroup

character string specifying the node groups in the Nodes. Used to color the nodes in the network.

LinkGroup

character string specifying the groups in the Links. Used to color the links in the network.

units

character string describing physical units (if any) for Value

colourScale

character string specifying the categorical colour scale for the nodes. See https://github.com/d3/d3/blob/master/API.md#ordinal-scales.

fontSize

numeric font size in pixels for the node text labels.

fontFamily

font family for the node text labels.

nodeWidth

numeric width of each node.

nodePadding

numeric essentially influences the width height.

margin

an integer or a named list/vector of integers for the plot margins. If using a named list/vector, the positions top, right, bottom, left are valid. If a single integer is provided, then the value will be assigned to the right margin. Set the margin appropriately to accomodate long text labels.

height

numeric height for the network graph's frame area in pixels.

width

numeric width for the network graph's frame area in pixels.

iterations

numeric. Number of iterations in the diagramm layout for computation of the depth (y-position) of each node. Note: this runs in the browser on the client so don't push it too high.

sinksRight

boolean. If TRUE, the last nodes are moved to the right border of the plot.

Source

D3.js was created by Michael Bostock. See http://d3js.org/ and, more specifically for Sankey diagrams http://bost.ocks.org/mike/sankey/.

See Also

JS

Examples

## Not run: 
# Recreate Bostock Sankey diagram: http://bost.ocks.org/mike/sankey/
# Load energy projection data
URL <- paste0('https://cdn.rawgit.com/christophergandrud/networkD3/',
              'master/JSONdata/energy.json')
energy <- jsonlite::fromJSON(URL)

# Plot
sankeyNetwork(Links = energy$links, Nodes = energy$nodes, Source = 'source',
             Target = 'target', Value = 'value', NodeID = 'name',
             units = 'TWh', fontSize = 12, nodeWidth = 30)

# Colour links
energy$links$energy_type <- sub(' .*', '',
                               energy$nodes[energy$links$source + 1, 'name'])

sankeyNetwork(Links = energy$links, Nodes = energy$nodes, Source = 'source',
             Target = 'target', Value = 'value', NodeID = 'name',
             LinkGroup = 'energy_type', NodeGroup = NULL)


## End(Not run)

Save a network graph to an HTML file

Description

Save a networkD3 graph to an HTML file for sharing with others. The HTML can include it's dependencies in an adjacent directory or can bundle all dependencies into the HTML file (via base64 encoding).

Usage

saveNetwork(network, file, selfcontained = TRUE)

Arguments

network

Network to save (e.g. result of calling the function simpleNetwork).

file

File to save HTML into

selfcontained

Whether to save the HTML as a single self-contained file (with external resources base64 encoded) or a file with external resources placed in an adjacent directory.


Edge list of REF (2014) journal submissions for Politics and International Relations

Description

Edge list of REF (2014) journal submissions for Politics and International Relations

Usage

SchoolsJournals

Format

A data set with 2732 rows and 3 variables.

Source

See REF 2014 http://results.ref.ac.uk/DownloadSubmissions/ByUoa/21.


Function for creating simple D3 JavaScript force directed network graphs.

Description

simpleNetwork creates simple D3 JavaScript force directed network graphs.

Usage

simpleNetwork(Data, Source = 1, Target = 2, height = NULL, width = NULL,
  linkDistance = 50, charge = -30, fontSize = 7, fontFamily = "serif",
  linkColour = "#666", nodeColour = "#3182bd", opacity = 0.6, zoom = F)

Arguments

Data

a data frame object with three columns. The first two are the names of the linked units. The third records an edge value. (Currently the third column doesn't affect the graph.)

Source

character string naming the network source variable in the data frame. If Source = NULL then the first column of the data frame is treated as the source.

Target

character string naming the network target variable in the data frame. If Target = NULL then the second column of the data frame is treated as the target.

height

height for the network graph's frame area in pixels (if NULL then height is automatically determined based on context)

width

numeric width for the network graph's frame area in pixels (if NULL then width is automatically determined based on context)

linkDistance

numeric distance between the links in pixels (actually arbitrary relative to the diagram's size).

charge

numeric value indicating either the strength of the node repulsion (negative value) or attraction (positive value).

fontSize

numeric font size in pixels for the node text labels.

fontFamily

font family for the node text labels.

linkColour

character string specifying the colour you want the link lines to be. Multiple formats supported (e.g. hexadecimal).

nodeColour

character string specifying the colour you want the node circles to be. Multiple formats supported (e.g. hexadecimal).

opacity

numeric value of the proportion opaque you would like the graph elements to be.

zoom

logical value to enable (TRUE) or disable (FALSE) zooming

Source

D3.js was created by Michael Bostock. See http://d3js.org/ and, more specifically for directed networks https://github.com/d3/d3/blob/master/API.md#forces-d3-force

Examples

# Fake data
Source <- c("A", "A", "A", "A", "B", "B", "C", "C", "D")
Target <- c("B", "C", "D", "J", "E", "F", "G", "H", "I")
NetworkData <- data.frame(Source, Target)

# Create graph
simpleNetwork(NetworkData)
simpleNetwork(NetworkData, fontFamily = "sans-serif")

Create collapsible tree network diagrams.

Description

Create collapsible tree network diagrams.

Usage

treeNetwork(data, width = NULL, height = NULL, treeType = "tidy",
  direction = "right", linkType = "diagonal", defaults = NULL,
  mouseover = "", mouseout = "", inbrowser = FALSE, ...)

Arguments

data

a tree network description in one of numerous forms (see details)

width

numeric width for the network graph's frame area in pixels

height

height for the network graph's frame area in pixels

treeType

character specifying the tree layout type. Options are 'tidy' and 'cluster'.

direction

character specifying the direction in which the tree layout shoud grow. One of 'right', 'left', 'down', 'up', or 'radial'

linkType

character specifying the link type between points. Options are 'elbow' and 'diagonal'.

defaults

named character vector specifying custom default node and link formatting options

mouseover

character specifying JavaScript code to be run on mouseover events

mouseout

character specifying JavaScript code to be run on mouseout events

inbrowser

logical specifying to open the plot in a new browser window

...

other arguments that will be passed on to as_treenetdf


Shiny bindings for treeNetwork

Description

Output and render functions for using treeNetwork within Shiny applications and interactive Rmd documents.

Usage

treeNetworkOutput(outputId, width = "100%", height = "400px")

renderTreeNetwork(expr, env = parent.frame(), quoted = FALSE)

Arguments

outputId

output variable to read from

width, height

Must be a valid CSS unit (like '100%', '400px', 'auto') or a number, which will be coerced to a string and have 'px' appended.

expr

An expression that generates a treeNetwork

env

The environment in which to evaluate expr.

quoted

Is expr a quoted expression (with quote())? This is useful if you want to save an expression in a variable.