\name{jmol3D} \alias{jmol3D} \title{Produce web graph of 3D graph that can be viewed using Jmol in web browser} \description{ \code{jmol3D} produces a html web page with a 3D graph of a pdb file that can be rotated and manipulated in a web browser that supports jmol. } \usage{ jmol3D(df, classvec=NULL, title=NULL, jmoldir="../jmol/Jmol.js", filename="output.html", point.size=40, xyz.axes =c(1:3), scaled=TRUE, \dots) } \arguments{ \item{df}{A \code{\link{matrix}} or \code{\link{data.frame}} containing the x,y,z coordinates. Typically the output from \code{\link[made4:bga]{bga}} such as the \$ls or \$co files, or other xyz coordinates (\$li or \$co) produced by PCA, COA or other \code{\link[ade4:dudi]{dudi}}.} \item{classvec}{Factor or vector which describes classes in the df. Default is NULL. If specified each group will be coloured in contrasting colours.} \item{title}{Character, the title (header) of the web page saved if writehtml is TRUE. The default is \code{NULL}.} \item{filename}{Character. The filename of the html to be saved. The default is output.html".} \item{xyz.axes}{Vector indicating which axes to use for x, y and z axes. By default, the first 3 columns of df.} \item{jmoldir}{Character indicating the local directory containing jmol.} \item{point.size}{Numeric, size of the points in plot. Default is 40.} \item{\dots}{Further arguments passed to or from other methods.} } \details{ Produces a html file, of a 3D graph which can be rotated using the opensource software jmol \url{http://jmol.sourceforge.net/} which is a java based software that is open source. For example see \url{http://bioinf.ucd.ie/people/aedin/jmoltest/test.html}. } \value{ jmol3D output is a html file that can be viewed in any web browser that supports jmol \url{http://jmol.sourceforge.net/}. } \author{Aedin Culhane} \note{ Note jmol must be downloaded on a local machine. Instructions on installing this are available at \url{http://jmol.sourceforge.net/}. } \seealso{ } \examples{ } \keyword{internal}% at least one, from doc/KEYWORDS