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\name{writeAdjacencyMatrix2KGML}
\alias{writeAdjacencyMatrix2KGML}
\title{Writes an adjacency matrix into an XML file}
\description{
Writes an adjacency matrix into an XML file.
}
\usage{writeAdjacencyMatrix2KGML(mat, pathname, nodePrefix="n", overwrite=FALSE, ..., verbose=FALSE)}
\arguments{
\item{mat}{A \code{\link[base]{matrix}}, interpreted of the adjacency matrix of a graph.}
\item{pathname}{The full path name of the XML file to be written.}
\item{nodePrefix}{A \code{\link[base]{character}} value giving the prefix to which the node
index in 'mat' will be appended.}
\item{overwrite}{If \code{\link[base:logical]{TRUE}} and file already exists, overwrite it.}
\item{...}{Further arguments to be passed to plotKEGGgraph.}
\item{verbose}{If \code{\link[base:logical]{TRUE}}, extra information is output.}
}
\value{
None.
}
\author{Laurent Jacob, Pierre Neuvial and Sandrine Dudoit}
\seealso{
\code{\link{parseKGML2Graph}}
}
\examples{
library("KEGGgraph")
library("rrcov")
## Create a random graph
graph <- randomWAMGraph(nnodes=5, nedges=7, verbose=TRUE)
plot(graph)
## Retrieve its adjacency matrix
A <- graph@adjMat
## write it to KGML file
grPathname <- "randomWAMGraph.xml"
writeAdjacencyMatrix2KGML(A, pathname=grPathname, verbose=TRUE, overwrite=TRUE)
## read it from file
gr <- parseKGML2Graph(grPathname)
## Two examples of Laplacians from the same graph
lapMI <- laplacianFromA(A, ltype="meanInfluence")
print(lapMI)
lapN <- laplacianFromA(A, ltype="normalized")
print(lapN)
U <- lapN$U
p <- nrow(A)
sigma <- diag(p)/sqrt(p)
X <- twoSampleFromGraph(100, 120, shiftM2=1, sigma, U=U, k=3)
## T2
t <- T2.test(X$X1,X$X2)
str(t)
tu <- graph.T2.test(X$X1, X$X2, lfA=lapMI, k=3)
str(tu)
}
