\name{plot.snp.dprime}
\alias{plot.snp.dprime}
%- Also NEED an '\alias' for EACH other topic documented here.
\title{ Function to draw the pairwise D' in a eps file }
\description{
\code{plot.snp.dprime} takes a
\code{\link[=snp.dprime-class]{snp.dprime}} object and
draw an eps file to visualize the pairwise D', $r^2$ and LOD.
}
\usage{
\method{plot}{snp.dprime}(x, filename, scheme = "standard", do.notes = FALSE,
metric=NULL, ...)
}
%- maybe also 'usage' for other objects documented here.
\arguments{
\item{x}{An object of class \code{\link[=snp.dprime-class]{snp.dprime}}}
\item{filename}{The output file name, preferably ending with ".eps" (not enforced)}
\item{scheme}{The colour scheme used. Valid values are "standard" for
the Haploview default, and "rsq" for grayscale $r^2$. More may come later}
\item{do.notes}{Boolean for whether to generate pdf annotation-related
code}
\item{metric}{An integer vector, detailing the chromosome position
of the SNP, to drawa scaled metric of the location of the SNP. If
NULL, no metric would be drawn}
\item{...}{place holder}
}
\details{
Annotation is a little used pdf features where certain part of a pdf
file are hot spots where one can get pop-up balloons containing extra
information, which doesn't appear in print. This is written to imitate
the extra information one can get from right-clicking in Haploview's
GUI.
}
\value{
return nothing. Write a file as a result. And if \code{do.notes} is
specified, Will also suggest user to execute \code{ps2pdf -dEPSCrop
<filename>} to get a suitable pdf.
}
\references{
Clayton, D.G. and Leung, Hin-Tak (2007) An R package for analysis of
whole-genome association studies.
\emph{Human Heredity} \bold{64}:45-51.\cr
GSL (GNU Scientific Library) \url{http://www.gnu.org/software/gsl/}\cr
The postscript language reference manual:
\url{http://www.adobe.com/products/postscript/pdfs/PLRM.pdf}\cr
The pdf specification:
\url{http://partners.adobe.com/public/developer/en/pdf/PDFReference16.pdf}
}
\author{Hin-Tak Leung \email{htl10@users.sourceforge.net}}
\note{
Unfortunately, there are two problems with annotations: only Acrobat Reader (out of all
the pdf viewers, e.g. xpdf, kpdf, evince, various ghostscript based
viewers) implements the feature, and a few thousand annotations can
really make Acrobat Reader crawl.
Also, Acrobat Reader has an implementation limit of 200 inches of the
widest dimension of a document. This translates to 1200 snps in the
current implementation of the drawing code, hence a warning is
emitted that pdf written this way is not viewable by Acrobat
Reader.(but viewable by xpdf, etc). A work around is possible based
on LaTeX pdfpage, or eps can be included with scaling in another
document, to stay inside 200 inches.
In the future, one might want to put some additional scaling code
to fit the whole drawing within an A4, for example.
There is a Google Summer of code \url{http://code.google.com/soc/}
2006 project to improve kpdf's annotation support.
\url{http://wiki.kde.org/tiki-index.php?page=KDE\%20Google\%20SoC\%202006\%20ideas#id60851}
I am involved.
}
\seealso{\code{\link{snp.dprime-class}}}
\examples{
data(testdata)
# As for ld.snp example ...
data(testdata)
ldinfo <- ld.snp(Autosomes, start=1, end=500, depth=50)
# Now plot to an eps file
plot.snp.dprime(ldinfo, filename="test.eps")
}
\keyword{htest}
\keyword{models}
\keyword{models}
\keyword{hplot}