%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% % Do not modify this file since it was automatically generated from: % % ./plotValuedGraph.R % % by the Rdoc compiler part of the R.oo package. %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% \name{plotValuedGraph} \alias{plotValuedGraph} \title{Plots a graph with nodes colored according to a quantitative variable} \description{ Plots a graph with nodes colored according to a quantitative variable. } \usage{plotValuedGraph(graph, values=NULL, nodeLabels=nodes(graph), qMax=0.95, colorPalette=heat.colors(10), adjustColorRange=FALSE, symmetrizeArrows=FALSE, height=1, lwd=1, cex=1, ..., verbose=FALSE)} \arguments{ \item{graph}{A \code{\link[=graph-class]{graph}} object.} \item{values}{A named \code{\link[base]{vector}} of \code{\link[base]{numeric}} values according to which the graph nodes should be colored.} \item{nodeLabels}{A \code{\link[base]{character}} \code{\link[base]{vector}} of the same length and in the same order as 'nodes(graph)': node labels to be displayed. Defaults to 'nodes(graph)'.} \item{qMax}{A \code{\link[base]{numeric}} value, fraction of the data to be truncated in order to avoid outliers.} \item{colorPalette}{A \code{\link[base]{character}} vector, the set of colors to be used.} \item{adjustColorRange}{A \code{\link[base]{logical}} value. If \code{\link[base:logical]{TRUE}}, the color range is adjusted to the range of values of nodes actually present in the graph. Defaults to \code{\link[base:logical]{FALSE}}, i.e. the color range spans range(values) regardless of which nodes are present in the graph.} \item{symmetrizeArrows}{A \code{\link[base]{logical}} value. If \code{\link[base:logical]{TRUE}}, arrow tails are drawn as the corresponding arrow heads. Defaults to \code{\link[base:logical]{FALSE}}.} \item{height}{A \code{\link[base]{numeric}} value, the (common) size of nodes.} \item{lwd}{A \code{\link[base]{numeric}} value, the (common) width of edges.} \item{cex}{A \code{\link[base]{numeric}} value, the relative size of the text for gene names.} \item{...}{Further arguments to be passed to 'edgeRenderInfo' and 'nodeRenderInfo'.} \item{verbose}{If \code{\link[base:logical]{TRUE}}, extra information is output.} } \value{ A \code{\link[base]{list}} containing the following components: \describe{ \item{graph}{The 'graph' object as plotted.} \item{breaks}{The break points in the supplied values (can be used for plotting a legend).} } } \author{Laurent Jacob, Pierre Neuvial and Sandrine Dudoit} \seealso{ \code{\link{plotKEGGgraph}} \code{\link{plot}}() } \examples{ library("Rgraphviz") library("KEGGgraph") ## library("NCIgraph") data("Loi2008_DEGraphVignette") exprData <- exprLoi2008 classData <- classLoi2008 annData <- annLoi2008 rn <- rownames(exprData) ## Retrieve expression levels data for genes from one KEGG pathway graph <- grListKEGG[[1]] pname <- attr(graph, "label") print(pname) ## DEGraph T2 test resList <- testOneGraph(graph, exprData, classData, verbose=TRUE, prop=0.2) ## Largest connected component res <- resList[[1]] gr <- res$graph ## individual t statistics shift <- apply(exprData, 1, FUN=function(x) { tt <- t.test(x[classData==0], x[classData==1]) tt$statistic }) names(shift) <- translateGeneID2KEGGID(names(shift)) ## color palette if (require(marray)) { pal <- maPalette(low="red", high="green", mid="black", k=100) } else { pal <- heat.colors(100) } ## plot results dn <- getDisplayName(gr, shortLabel=TRUE) mm <- match(translateKEGGID2GeneID(nodes(gr)), rownames(annData)) dn <- annData[mm, "NCBI.gene.symbol"] pvg <- plotValuedGraph(gr, values=shift, nodeLabels=dn, qMax=0.95, colorPalette=pal, height=40, lwd=1, verbose=TRUE, cex=0.5) title(pname) txt1 <- sprintf("p(T2)=\%s", signif(res$p.value[1], 2)) txt2 <- sprintf("p(T2F[\%s])=\%s", res$k, signif(res$p.value[2])) txt <- paste(txt1, txt2, sep="\n") stext(side=3, pos=1, txt) if (require(fields)) { image.plot(legend.only=TRUE, zlim=range(pvg$breaks), col=pal, legend.shrink=0.3, legend.width=0.8, legend.lab="t-scores", legend.mar=3.3) } }