Description Usage Arguments Value Note See Also Examples
xGGnetwork
is supposed to visualise an igraph object using
ggnetwork.
1 2 3 4 5 6 7 8 9 10 11 12 13 | xGGnetwork(g, node.label = NULL, label.wrap.width = NULL,
label.wrap.lineheight = 0.8, node.label.size = NULL,
node.label.fontface = "plain", node.label.color = "darkblue",
node.label.alpha = 0.8, node.label.padding = 1,
node.label.arrow = 0.01, node.label.force = 1, node.shape = 19,
node.shape.title = NULL, node.xcoord = NULL, node.ycoord = NULL,
node.color = NULL, node.color.title = NULL,
colormap = "grey-orange-darkred", ncolors = 64, zlim = NULL,
na.color = "grey80", node.color.alpha = 1, node.size = NULL,
node.size.title = NULL, node.size.range = c(1, 4), slim = NULL,
title = "", edge.size = 0.5, edge.color = "black",
edge.color.alpha = 0.5, edge.curve = 0.1, edge.arrow = 2,
edge.arrow.gap = 0.02, ncolumns = NULL)
|
g |
an object of class "igraph". For an advanced use, it can be a list of igraph objects; in this case, multiple panels will be shown (particularly useful when visualising the same network but color-coded differently) |
node.label |
either a vector labelling nodes or a character specifying which node attribute used for the labelling. If NULL (by default), no node labelling |
label.wrap.width |
a positive integer specifying wrap width of node labelling |
label.wrap.lineheight |
line height spacing for text in ggplot. By default it is 0.8 |
node.label.size |
a character specifying which node attribute used for node label size |
node.label.fontface |
a character specifying which node attribute used for node label fontface ('plain', 'bold', 'italic', 'bold.italic') |
node.label.color |
a character specifying which node attribute used for the node label color |
node.label.alpha |
the 0-1 value specifying transparency of node labelling |
node.label.padding |
the padding around the labeled node |
node.label.arrow |
the arrow pointing to the labeled node |
node.label.force |
the repelling force between overlapping labels |
node.shape |
an integer specifying node shape or a character specifying which node attribute used for the node shape (no matter whether it is numeric or character) |
node.shape.title |
a character specifying the title for node shaping |
node.xcoord |
a vector specifying x coordinates. If NULL, it will be created using igraph::layout_as_tree |
node.ycoord |
a vector specifying y coordinates. If NULL, it will be created using igraph::layout_as_tree |
node.color |
a character specifying which node attribute used for node coloring |
node.color.title |
a character specifying the title for node coloring |
colormap |
short name for the colormap. It can be one of "jet" (jet colormap), "bwr" (blue-white-red colormap), "gbr" (green-black-red colormap), "wyr" (white-yellow-red colormap), "br" (black-red colormap), "yr" (yellow-red colormap), "wb" (white-black colormap), "rainbow" (rainbow colormap, that is, red-yellow-green-cyan-blue-magenta), and "ggplot2" (emulating ggplot2 default color palette). Alternatively, any hyphen-separated HTML color names, e.g. "lightyellow-orange" (by default), "blue-black-yellow", "royalblue-white-sandybrown", "darkgreen-white-darkviolet". A list of standard color names can be found in http://html-color-codes.info/color-names |
ncolors |
the number of colors specified over the colormap |
zlim |
the minimum and maximum values for which colors should be plotted |
na.color |
the color for NAs. By default, it is 'grey80' |
node.color.alpha |
the 0-1 value specifying transparency of node colors |
node.size |
either a vector specifying node size or a character specifying which node attribute used for the node size |
node.size.title |
a character specifying the title for node sizing |
node.size.range |
the range of actual node size |
slim |
the minimum and maximum values for which sizes should be plotted |
title |
a character specifying the title for the plot |
edge.size |
a numeric value specifying the edge size. By default, it is 0.5. It can be a character specifying which edge attribute defining the edge colors (though without the legend) |
edge.color |
a character specifying which edge attribute defining the the edge colors |
edge.color.alpha |
the 0-1 value specifying transparency of edge colors |
edge.curve |
a numeric value specifying the edge curve. 0 for the straight line |
edge.arrow |
a numeric value specifying the edge arrow. By default, it is 2 |
edge.arrow.gap |
a gap between the arrow and the node |
ncolumns |
an integer specifying the number of columns for facet_wrap. By defaul, it is NULL (decided on according to the number of groups that will be visualised) |
a ggplot object, appended with 'data_nodes' and 'data_edges'
none
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 | ## Not run:
# Load the library
library(XGR)
RData.location <- "http://galahad.well.ox.ac.uk/bigdata/"
###########################
# load REACTOME
# restricted to Immune System ('R-HSA-168256') or Signal Transduction ('R-HSA-162582')
g <- xRDataLoader(RData.customised='ig.REACTOME',
RData.location=RData.location)
neighs.out <- igraph::neighborhood(g, order=vcount(g),
nodes="R-HSA-168256", mode="out")
nodeInduced <- V(g)[unique(unlist(neighs.out))]$name
ig <- igraph::induced.subgraph(g, vids=nodeInduced)
# visualise the graph with vertices being color-coded
V(ig)$degree <- igraph::degree(ig)
gp <- xGGnetwork(g=ig, node.label='term_id', label.wrap.width=30,
node.label.size=2, node.label.color='black', node.label.alpha=0.8,
node.label.padding=0, node.label.arrow=0, node.label.force=1,
node.shape=19, node.xcoord='xcoord', node.ycoord='ycoord',
node.color='degree', node.color.title='Degree',
colormap='grey-orange-darkred', ncolors=64, zlim=c(0,10),
node.size.range=3,
edge.color="black",edge.color.alpha=0.3,edge.curve=0.05,edge.arrow.gap=0.02,
title='')
# advanced use: visualise the list of graphs
ls_ig <- list(ig, ig)
gp <- xGGnetwork(g=ls_ig, node.label='term_id', label.wrap.width=30,
node.label.size=2, node.label.color='black', node.label.alpha=0.8,
node.label.padding=0, node.label.arrow=0, node.label.force=1,
node.shape=19, node.xcoord='xcoord', node.ycoord='ycoord',
node.color='degree', node.color.title='Degree',
colormap='grey-orange-darkred', ncolors=64, zlim=c(0,10),
node.size.range=3,
edge.color="black",edge.color.alpha=0.3,edge.curve=0.05,edge.arrow.gap=0.02,
title='')
###########################
# load PhasedTargets
# restricted to disease ('EFO:0000408') or immune system disease ('EFO:0000540')
g <- xRDataLoader(RData.customised='ig.PhasedTargets',
RData.location=RData.location)
neighs.out <- igraph::neighborhood(g, order=vcount(g),
nodes="EFO:0000408", mode="out")
nodeInduced <- V(g)[unique(unlist(neighs.out))]$name
ig <- igraph::induced.subgraph(g, vids=nodeInduced)
# append with the number of approved and phased targets
dag <- ig
V(dag)$num_approved <- sapply(V(ig)$max_phase,function(x)
sum(x$max_phase>=4))
V(dag)$num_phased <- sapply(V(ig)$max_phase,function(x)
sum(x$max_phase>=0))
# keep nodes with num_approved >=20
dag_ig <- igraph::induced.subgraph(dag,
vids=which(V(dag)$num_approved>=20))
# (optional) further restricted to the direct children of the root
root <- dnet::dDAGroot(dag_ig)
neighs.out <- igraph::neighborhood(dag_ig, order=1, nodes=root,
mode="out")
nodeInduced <- V(dag_ig)[unique(unlist(neighs.out))]$name
dag_ig <- igraph::induced.subgraph(dag_ig, vids=nodeInduced)
# nodes colored by num_approved
V(dag_ig)$node_color <- log2(V(dag_ig)$num_approved)
glayout <- igraph::layout_with_kk(dag_ig)
V(dag_ig)$xcoord <- glayout[,1]
V(dag_ig)$ycoord <- glayout[,2]
gp <- xGGnetwork(g=dag_ig, node.label='term_name', label.wrap.width=30,
node.label.size=2, node.label.color='black', node.label.alpha=0.9,
node.label.padding=0, node.label.arrow=0, node.label.force=0.5,
node.shape=19, node.xcoord='xcoord', node.ycoord='ycoord',
node.color='node_color', node.color.title='Approved\n(log2-scale)',
colormap='ggplot2.top', ncolors=64, node.size.range=3,
edge.color="orange",edge.color.alpha=0.5,edge.curve=0.05,edge.arrow.gap=0.02,
title='')
###########################
# visualise gene network
glayout <- igraph::layout_with_kk(g)
V(g)$xcoord <- glayout[,1]
V(g)$ycoord <- glayout[,2]
V(g)$degree <- igraph::degree(g)
gp <- xGGnetwork(g=g, node.label='name', node.label.size=2,
node.label.color='black', node.label.alpha=0.8, node.label.padding=0,
node.label.arrow=0, node.label.force=0.01, node.shape=19,
node.xcoord='xcoord', node.ycoord='ycoord', node.color='priority',
node.color.title='5-star\nrating', colormap='yellow-red', ncolors=64,
zlim=c(0,5), node.size='degree', node.size.title='Degree', slim=c(0,5),
edge.color="orange",edge.color.alpha=0.5,edge.curve=0,edge.arrow.gap=0.025,
title='')
gp_rating <- xGGnetwork(g=g, node.label='name', node.label.size=2,
node.label.color='black', node.label.alpha=0.8, node.label.padding=0.1,
node.label.arrow=0, node.label.force=0.01, node.shape=19,
node.xcoord='xcoord', node.ycoord='ycoord', node.color='priority',
node.color.title='5-star\nrating', colormap='white-yellow-red',
ncolors=64, zlim=c(0,5), node.size.range=5,
edge.color="orange",edge.color.alpha=0.3,edge.curve=0,edge.arrow.gap=0.02,
title='')
###########################
# use edge weight to color/size edges (without legends)
# edge color
#E(g)$color <- xColormap(colormap='RdYlBu', data=E(g)$weight)
#E(g)$size <- (E(g)$weight - min(E(g)$weight)) / (max(E(g)$weight) - min(E(g)$weight))
e.color <- subset(gp$data, !is.na(na.y))$e.color
gp + ggnetwork::geom_edges(color=e.color, show.legend=FALSE)
# edge size/thickness
e.size <- subset(gp$data, !is.na(na.y))$e.size
gp + ggnetwork::geom_edges(size=e.size, show.legend=FALSE)
## End(Not run)
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