% File src/library/grDevices/man/pdf.Rd
% Part of the R package, http://www.R-project.org
% Copyright 1995-2013 R Core Team
% Distributed under GPL 2 or later

\name{pdf}
\alias{pdf}
\encoding{UTF-8}

\title{PDF Graphics Device}
%% The definitive doc is the source :-)
\description{
  \code{pdf} starts the graphics device driver for producing PDF
  graphics.
}
\usage{
pdf(file = ifelse(onefile, "Rplots.pdf", "Rplot\%03d.pdf"),
    width, height, onefile, family, title, fonts, version,
    paper, encoding, bg, fg, pointsize, pagecentre, colormodel,
    useDingbats, useKerning, fillOddEven, compress)
}
\arguments{
  \item{file}{a character string giving the name of the file.
    If it is of the form \code{"|cmd"}, the output is piped to the
    command given by \command{cmd}.  If it is \code{NULL},
    then no external file is created (effectively, no drawing occurs),
    but the device may still be queried (e.g., for size of text).

    For use with \code{onefile = FALSE} give a C integer format such
    as \code{"Rplot\%03d.pdf"} (the default in that case).
    (See \code{\link{postscript}} for further details.)

    Tilde expansion (see \code{\link{path.expand}}) is done.
  }
  \item{width, height}{the width and height of the graphics region in
    inches.  The default values are \code{7}.}
  \item{onefile}{logical: if true (the default) allow multiple figures
    in one file.  If false, generate a file with name containing the page
    number for each page.  Defaults to \code{TRUE}, and forced to true
    if \code{file} is a pipe.}
  \item{family}{the font family to be used, see
    \code{\link{postscript}}.  Defaults to \code{"Helvetica"}.}
  \item{title}{title string to embed as the \samp{/Title} field in the
    file.  Defaults to \code{"R Graphics Output"}.}
  \item{fonts}{a character vector specifying \R graphics font family
    names for additional fonts which will be included in the PDF file.
    Defaults to \code{NULL}.}
  \item{version}{a string describing the PDF version that will be
    required to view the output.  This is a minimum, and will be
    increased (with a warning) if necessary.  Defaults to \code{"1.4"},
    but see \sQuote{Details}.}
  \item{paper}{the target paper size.  The choices are
    \code{"a4"}, \code{"letter"}, \code{"legal"} (or \code{"us"}) and
    \code{"executive"} (and these can be capitalized), or \code{"a4r"}
    and \code{"USr"} for rotated (\sQuote{landscape}).
    The default is \code{"special"}, which means that the \code{width}
    and \code{height} specify the paper size.  A further choice is
    \code{"default"}; if this is selected, the
    papersize is taken from the option \code{"papersize"}
    if that is set and as \code{"a4"} if it is unset or empty.
    Defaults to \code{"special"}.
  }
  \item{encoding}{the name of an encoding file.  See
    \code{\link{postscript}} for details.  Defaults to \code{"default"}.}
  \item{bg}{the initial background color to be used.  Defaults to
    \code{"transparent"}.}
  \item{fg}{the initial foreground color to be used.  Defaults to
   \code{"black"}.}
  \item{pointsize}{the default point size to be used.  Strictly
    speaking, in bp, that is 1/72 of an inch, but approximately in
    points.  Defaults to \code{12}.}
  \item{pagecentre}{logical: should the device region be centred on the
    page? -- is only relevant for \code{paper != "special"}.
    Defaults to \code{TRUE}.}
  \item{colormodel}{a character string describing the color model:
    currently allowed values are \code{"srgb"}, \code{"gray"} (or
    \code{"grey"}) and \code{"cmyk"}.  Defaults to \code{"srgb"}.  See section
    \sQuote{Color models}.}
  \item{useDingbats}{logical.  Should small circles be rendered
    \emph{via} the Dingbats font?  Defaults to \code{TRUE}, which produces
    smaller and better output.  Setting this to \code{FALSE} can work
    around font display problems in broken PDF viewers: although this
    font is one of the 14 guaranteed to be available in all PDF viewers,
    that guarantee is not always honoured.
#ifdef unix
    See the \sQuote{Note} for a possible fix for some viewers.
#endif
    }
  \item{useKerning}{logical.  Should kerning corrections be included in
    setting text and calculating string widths?  Defaults to \code{TRUE}.}
  \item{fillOddEven}{logical controlling the polygon fill mode:  see
    \code{\link{polygon}} for details.  Defaults to \code{FALSE}.}
  \item{compress}{logical.  Should PDF streams be generated with Flate
    compression?  Defaults to \code{TRUE}.}
}
\details{
  All arguments except \code{file} default to values given by
  \code{\link{pdf.options}()}.  The ultimate defaults are quoted in the
  arguments section.

  \code{pdf()} opens the file \code{file} and the PDF commands needed to
  plot any graphics requested are sent to that file.

  The \code{file} argument is interpreted as a C integer format as used
  by \code{\link{sprintf}}, with integer argument the page number.
  The default gives files \file{Rplot001.pdf}, \dots, \file{Rplot999.pdf},
  \file{Rplot1000.pdf}, \dots.

  The \code{family} argument can be used to specify a PDF-specific
  font family as the initial/default font for the device.  If additional
  font families are to be used they should be included in the
  \code{fonts} argument.

  If a device-independent \R graphics font family is specified (e.g., via
  \code{par(family = )} in the graphics package), the PDF device makes use
  of the PostScript font mappings to convert the \R graphics font family
  to a PDF-specific font family description.  (See the
  documentation for \code{\link{pdfFonts}}.)

  This device does \emph{not} embed fonts in the PDF file, so it is only
  straightforward to use mappings to the font families that can be
  assumed to be available in any PDF viewer: \code{"Times"}
  (equivalently \code{"serif"}), \code{"Helvetica"} (equivalently
  \code{"sans"}) and \code{"Courier"} (equivalently \code{"mono"}).
  Other families may be specified, but it is the user's responsibility
  to ensure that these fonts are available on the system and third-party
  software (e.g., Ghostscript) may be required to embed the fonts so
  that the PDF can be included in other documents (e.g., LaTeX): see
  \code{\link{embedFonts}}.  The URW-based families described for
  \code{\link{postscript}} can be used with viewers
#ifdef unix
  set up to use URW fonts, which is usual with those based on
  \code{xpdf} or Ghostscript.
#endif
#ifdef windows
  such as GSView which utilise URW fonts.
#endif
  Since \code{\link{embedFonts}} makes use of Ghostscript, it should be
  able to embed the URW-based families for use with other viewers.

  See \code{\link{postscript}} for details of encodings, as the internal
  code is shared between the drivers.  The native PDF encoding is given
  in file \file{PDFDoc.enc}.

  The PDF produced is fairly simple, with each page being represented as
  a single stream (by default compressed and possibly with references to
  raster images).  The \R graphics model does not distinguish graphics
  objects at the level of the driver interface.

  The \code{version} argument declares the version of PDF that gets
  produced.  The version must be at least 1.2 when compression is used,
  1.4 for semi-transparent output to be understood, and at least 1.3 if
  CID fonts are to be used: if any of these features are used the
  version number will be increased (with a warning).  (PDF 1.4 was first
  supported by Acrobat 5 in 2001; it is very unlikely not to be
  supported in a current viewer.)

  Line widths as controlled by \code{par(lwd = )} are in multiples of
  1/96 inch.  Multiples less than 1 are allowed.  \code{pch = "."} with
  \code{cex = 1} corresponds to a square of side 1/72 inch, which is
  also the \sQuote{pixel} size assumed for graphics parameters such as
  \code{"cra"}.

  The \code{paper} argument sets the \samp{/MediaBox} entry in the file,
  which defaults to \code{width} by \code{height}.  If it is set to
  something other than \code{"special"}, a device region of the
  specified size is (by default) centred on the rectangle given by the
  paper size: if either \code{width} or \code{height} is less
  than \code{0.1} or too large to give a total margin of 0.5 inch, it is
  reset to the corresponding paper dimension minus 0.5.  Thus if you
  want the default behaviour of \code{\link{postscript}} use
  \code{pdf(paper = "a4r", width = 0, height = 0)} to centre the device region
  on a landscape A4 page with 0.25 inch margins.

  When the background colour is fully transparent (as is the initial
  default value), the PDF produced does not paint the background.  Most
  PDF viewers will use a white canvas so the visual effect is if the
  background were white.  This will not be the case when printing onto
  coloured paper, though.
}

\section{Color models}{
  The default color model (\code{"srgb"}) is sRGB.  Model \code{"gray"}
  (or \code{"grey"}) maps sRGB colors to greyscale using perceived
  luminosity (biased towards green).  \code{"cmyk"} outputs in CMYK
  colorspace.  The simplest possible conversion from sRGB to CMYK is
  used
  (\url{http://en.wikipedia.org/wiki/CMYK_color_model#Mapping_RGB_to_CMYK}),
  and raster images are output in RGB.

  Also available for backwards compatibility is model \code{"rgb"} which
  uses uncalibrated RGB and corresponds to the model used with that name
  in \R prior to 2.13.0.  Some viewers may render some plots in that
  colorspace faster than in sRGB, and the plot files will be smaller.
}

\section{Conventions}{
  This section describes the implementation of the conventions for
  graphics devices set out in the \dQuote{R Internals Manual}.

  \itemize{
    \item The default device size is 7 inches square.
    \item Font sizes are in big points.
    \item The default font family is Helvetica.
    \item Line widths are as a multiple of 1/96 inch, with a minimum
    of 0.01 enforced.
    \item Circles of any radius are allowed.  Unless \code{useDingbats =
      FALSE}, opaque circles of less than 10 big points radius are
    rendered using char 108 in the Dingbats font: all semi-transparent
    and larger circles using a \enc{Bézier}{Bezier} curve for each
    quadrant.
    \item Colours are by default specified as sRGB.
  }

  At very small line widths, the line type may be forced to solid.
}

\section{Printing}{
  Except on Windows it is possible to print directly from \code{pdf} by
  something like (this is appropriate for a CUPS printing system):
\preformatted{    pdf("|lp -o landscape", paper = "a4r")}
  This forces \code{onefile = TRUE}.
}

\note{
  If you see problems with PDF output, do remember that the problem is
  much more likely to be in your viewer than in \R.  Try another
  viewer if possible.  Symptoms for which the viewer has been at fault
  are apparent grids on image plots (turn off graphics anti-aliasing
  in your viewer if you can) and missing or incorrect glyphs in text
  (viewers silently doing font substitution).

  Unfortunately the default viewers on most Linux and OS X systems
  have these problems, and no obvious way to turn off graphics anti-aliasing.

  Acrobat Reader does not use the fonts specified but rather emulates
  them from multiple-master fonts.  This can be seen in imprecise
  centering of characters, for example the multiply and divide signs in
  Helvetica.  This can be circumvented by embedding fonts where
  possible.  Most other viewers substitute fonts, e.g. URW fonts for the
  standard Helvetica and Times fonts, and these too often have different
  font metrics from the true fonts.

  Acrobat Reader can be extended by \sQuote{font packs}, and these will
  be needed for the full use of encodings other than Latin-1 (although
  they may be offered for download as needed).

#ifdef unix
  On some systems the default plotting character \code{pch = 1} was
  displayed in some PDF viewers incorrectly as a \code{"q"}
  character.  (These seem to be viewers based on the \samp{poppler} PDF
  rendering library).  This may be due to incorrect or incomplete mapping
  of font names to those used by the system.  Adding the following lines
  to \file{~/.fonts.conf} or \file{/etc/fonts/local.conf} may circumvent
  this problem, although this has largely been corrected on the affected
  systems.
\preformatted{<fontconfig>
<alias binding="same">
  <family>ZapfDingbats</family>
  <accept><family>Dingbats</family></accept>
</alias>
</fontconfig>
}
  Some further workarounds for problems with symbol fonts on
  viewers using \sQuote{fontconfig} are given in the \sQuote{Cairo Fonts}
  section of the help for \code{\link{X11}}.
#endif
#ifdef windows
  The TeXworks PDF viewer was one of those which has been seen to fail to
  display Dingbats (used by e.g. \code{pch = 1}) correctly.  Whereas on
  other platforms the problems seen were incorrect output, on Windows
  points were silently omitted: however recent versions seem to manage
  to display Dingbats.
#endif

  There is a different font bug in the \command{pdf.js} viewer included
  in Firefox 19 and later: that maps Dingbats to the Symbol font and so
  displays symbols such \code{pch = 1} as lambda.
}

\seealso{
  \code{\link{pdfFonts}}, \code{\link{pdf.options}},
  \code{\link{embedFonts}},
  \code{\link{Devices}},
  \code{\link{postscript}}.

#ifdef unix
  \code{\link{cairo_pdf}} and (on OS X only) \code{\link{quartz}}
  for other devices that can produce PDF.
#endif
#ifdef windows
  \code{\link{cairo_pdf}} and (on OS X only) \code{quartz}
  for other devices that can produce PDF.
#endif

  More details of font families and encodings and especially handling
  text in a non-Latin-1 encoding and embedding fonts can be found in

  Paul Murrell and Brian Ripley (2006) Non-standard fonts in PostScript
  and PDF graphics. \emph{R News}, 6(2):41--47.
  \url{http://cran.r-project.org/doc/Rnews/Rnews_2006-2.pdf}.
}
\examples{
\donttest{
## Test function for encodings
TestChars <- function(encoding = "ISOLatin1", ...)
{
    pdf(encoding = encoding, ...)
    par(pty = "s")
    plot(c(-1,16), c(-1,16), type = "n", xlab = "", ylab = "",
         xaxs = "i", yaxs = "i")
         title(paste("Centred chars in encoding", encoding))
    grid(17, 17, lty = 1)
    for(i in c(32:255)) {
        x <- i \%\% 16
        y <- i \%/\% 16
        points(x, y, pch = i)
    }
    dev.off()
}
## there will be many warnings.
TestChars("ISOLatin2")
## this does not view properly in older viewers.
TestChars("ISOLatin2", family = "URWHelvetica")
## works well for viewing in gs-based viewers, and often in xpdf.
}}
\keyword{device}