postscript             package:grDevices             R Documentation

_P_o_s_t_S_c_r_i_p_t _G_r_a_p_h_i_c_s

_D_e_s_c_r_i_p_t_i_o_n:

     'postscript' starts the graphics device driver for producing
     PostScript graphics.

_U_s_a_g_e:

     postscript(file = ifelse(onefile, "Rplots.ps", "Rplot%03d.ps"),
                onefile = TRUE, family,
                title = "R Graphics Output", fonts = NULL,
                encoding, bg, fg,
                width, height, horizontal, pointsize,
                paper, pagecentre, print.it, command)

_A_r_g_u_m_e_n_t_s:

    file: a character string giving the name of the file.  If it is
          '""', the output is piped to the command given by the
          argument 'command'. If it is of the form '"|cmd"', the output
          is piped to the command given by 'cmd'.

          For use with 'onefile = FALSE' give a 'printf' format such as
          '"Rplot%03d.ps"' (the default in that case). 

 onefile: logical: if true (the default) allow multiple figures in one
          file.  If false, generate a file name containing the page
          number and use an EPSF header and no 'DocumentMedia' comment.

  family: the initial font family to be used, normally as a character
          string.  See the section 'Families'.  This defaults to
          '"Helvetica"'.

   title: title string to embed in the file.

   fonts: a character vector specifying additional R graphics font
          family names for font families whose declarations will be
          included in the PostScript file and are available for use
          with the device. See Details.

encoding: the name of an encoding file.  Defaults to '"ISOLatin1.enc"'
          unless the locale is recognized as corresponding to a
          language using ISO 8859-{5,7,13,15} or KOI8-{R,U}, in the
          'enc' directory of package 'grDevices', which is used if the
          path does not contain a path separator.  An extension
          '".enc"' can be omitted. 

      bg: the default background color to be used. If '"transparent"'
          (or an equivalent specification), no background is painted.

      fg: the default foreground color to be used.

width, height: the width and height of the graphics region in inches. 
          The default is to use the entire page less a 0.25 inch border
          on each side.

horizontal: the orientation of the printed image, a logical.  Defaults
          to true, that is landscape orientation on paper sizes with
          width less than height.

pointsize: the default point size to be used.  Strictly speaking, in
          bp, that is 1/72 of an inch, but approximately in points.

   paper: the size of paper in the printer.  The choices are '"a4"',
          '"letter"', '"legal"' and '"executive"' (and these can be
          capitalized). Also, '"special"' can be used, when the 'width'
          and 'height' specify the paper size.  A further choice is
          '"default"', which is the default.  If this is selected, the
          papersize is taken from the option '"papersize"' if that is
          set and to '"a4"' if it is unset or empty.

pagecentre: logical: should the device region be centred on the page? -
          defaults to true.

print.it: logical: should the file be printed when the device is
          closed?  (This only applies if 'file' is a real file name.)

 command: the command to be used for "printing".  Defaults to option
          '"printcmd"'; this can also be selected as '"default"'.

_D_e_t_a_i_l_s:

     'postscript' opens the file 'file' and the PostScript commands
     needed to plot any graphics requested are written to that file. 
     This file can then be printed on a suitable device to obtain hard
     copy.

     A postscript plot can be printed via 'postscript' in two ways.

        1.  Setting 'print.it = TRUE' causes the command given in
           argument 'command' to be called with argument '"file"' when
           the device is closed.  Note that the plot file is not
           deleted unless 'command' arranges to delete it.

        2.  'file=""' or 'file="|cmd"' can be used to print using a
           pipe on systems that support 'popen'.  Failure to open the
           command will probably be reported to the terminal but not to
           'popen', in which case close the device by 'dev.off'
           immediately.

     The 'file' argument is interpreted as a C integer format as used
     by 'sprintf', with integer argument the page number. The default
     gives files 'Rplot001.ps', ..., 'Rplot999.ps', 'Rplot1000.ps',
     ....

     The postscript produced for a single R plot is EPS (_Encapsulated
     PostScript_) compatible, and can be included into other documents,
     e.g., into LaTeX, using '\includegraphics{<filename>}'.  For use
     in this way you will probably want to set 'horizontal = FALSE,
     onefile = FALSE, paper = "special"'.  Note that the bounding box
     is for the device region: if you find the white space around the
     plot region excessive, reduce the margins of the figure region via
     'par(mar=)'.

     Most of the PostScript prologue used is taken from the R character
     vector '.ps.prolog'.  This is marked in the output, and can be
     changed by changing that vector.  (This is only advisable for
     PostScript experts: the standard version is in
     'namespace:grDevices'.)

     A PostScript device has a default family, which can be set by the
     user via 'family'.  If other font families are to be used when
     drawing to the PostScript device, these must be declared when the
     device is created via 'fonts';  the font family names for this
     argument are R graphics font family names (see the documentation
     for 'postscriptFonts').

     Line widths as controlled by 'par(lwd=)' are in multiples of 1/96
     inch: nultiples less than 1 are allowed.  'pch="."' with 'cex = 1'
     corresponds to a square of side 1/72 inch.

_F_a_m_i_l_i_e_s:

     Font families are collections of fonts covering the five font
     faces, (conventionally plain, bold, italic, bold-italic and
     symbol) selected by the graphics parameter 'par(font=)' or the
     grid parameter 'gpar(fontface=)'.  Font families can be specified
     either as an an initial/default font family for the device via the
     'family' argument or after the device is opened by the graphics
     parameter 'par(family=)' or the grid parameter
     'gpar(fontfamily=)'.  Families which will be used in addition to
     the initial family must be specified in the 'fonts' argument when
     the device is opened.

     Font families are declared via a call to 'postscriptFonts'.

     The argument 'family' specifies the initial/default font family to
     be used.  In normal use it is one of '"AvantGarde"', '"Bookman"',
     '"Courier"', '"Helvetica"', '"Helvetica-Narrow"',
     '"NewCenturySchoolbook"', '"Palatino"' or '"Times"', and refers to
     the standard Adobe PostScript fonts families of those names which
     are included (or cloned) in all common PostScript devices.

     Many PostScript emulators (including those based on 'ghostscript')
     use the URW equivalents of these fonts, which are '"URWGothic"',
     '"URWBookman"', '"NimbusMon"', '"NimbusSan"', '"NimbusSanCond"',
     '"CenturySch"', '"URWPalladio"' and '"NimbusRom"' respectively. 
     If your PostScript device is using URW fonts, you will obtain
     access to more characters and more appropriate metrics by using
     these names.  To make these easier to remember, '"URWHelvetica" ==
     "NimbusSan"' and '"URWTimes" == "NimbusRom"' are also supported.

     Another type of family makes use of CID-keyed fonts for East Asian
     languages - see 'postscriptFonts'.

     The 'family' argument is normally a character string naming a font
     family, but family objects generated by 'Type1Font' and 'CIDFont'
     are also accepted. For compatibiility with earlier versions of R,
     the initial family can also be specified as a vector of four or
     five afm files.

_E_n_c_o_d_i_n_g_s:

     Encodings describe which glyphs are used to display the character
     codes (in the range 0-255).  Most commonly R uses ISOLatin1
     encoding, and the examples for 'text' are in that encoding. 
     However, the encoding used on machines running R may well be
     different, and by using the 'encoding' argument the glyphs can be
     matched to encoding in use.  This suffices for European and
     Cyrillic languages, but not for CJK languages.  For the latter,
     composite CID fonts are used.  These fonts are useful for other
     languages: for example they may contain Greek glyphs. (The rest of
     this section applies only when CID fonts are not used.)

     None of this will matter if only ASCII characters (codes 32-126)
     are used as all the encodings (except '"TeXtext"') agree over that
     range.  Some encodings are supersets of ISOLatin1, too.  However,
     if accented and special characters do not come out as you expect,
     you may need to change the encoding.  Some other encodings are
     supplied with R: '"WinAnsi.enc"' and '"MacRoman.enc"' correspond
     to the encodings normally used on Windows and Classic MacOS (at
     least by Adobe), and '"PDFDoc.enc"' is the first 256 characters of
     the Unicode encoding, the standard for PDF.  There are also
     encodings '"ISOLatin2.enc"', '"CP1250.enc"', '"ISOLatin7.enc"'
     (ISO 8859-13), '"CP1257.enc"', and '"ISOLatin9.enc"' (ISO
     8859-15), '"Cyrillic.enc"' (ISO 8859-5), '"KOI8-R.enc"',
     '"KOI8-U.enc"', '"CP1251.enc"', '"Greek.enc"' (ISO 8859-7) and
     '"CP1253.enc"'.  Note that many glyphs in these encodings are not
     in the fonts corresponding to the standard families. (The Adobe
     ones for all but Courier, Helvetica and Times cover little more
     than Latin-1, whereas the URW ones also cover Latin-2, Latin-7,
     Latin-9 and Cyrillic but no Greek.  The Adobe exceptions cover the
     Latin character sets, but not the Euro.)

     If you specify the encoding, it is your responsibility to ensure
     that the PostScript font contains the glyphs used.  One issue here
     is the Euro symbol which is in the WinAnsi and MacRoman encodings
     but may well not be in the PostScript fonts.  (It is in the URW
     variants; it is not in the supplied Adobe Font Metric files.)

     There is an exception.  Character 45 ('"-"') is always set as
     minus (its value in Adobe ISOLatin1) even though it is hyphen in
     the other encodings.  Hyphen is available as character 173 (octal
     0255) in all the Latin encodings, Cyrillic and Greek.  There are
     some discrepancies in accounts of glyphs 39 and 96: the supplied
     encodings (except CP1250 and CP1251) treat these as 'quoteright'
     and 'quoteleft' (rather than 'quotesingle'/'acute' and 'grave'
     respectively), as they are in the Adobe documentation.

_T_e_X _f_o_n_t_s:

     TeX has traditionally made use of fonts such as Computer Modern
     which are encoded rather differently, in a 7-bit encoding.  This
     encoding can be specified by 'encoding = "TeXtext.enc"', taking
     care that the ASCII characters '< > \ _ { }' are not available in
     those fonts.

     There are supplied families '"ComputerModern"' and
     '"ComputerModernItalic"' which use this encoding, and which are
     only supported for 'postscript' (and not 'pdf').  They are
     intended to use with the Type 1 versions of the TeX CM fonts.  It
     will normally be possible to include such output in TeX or LaTeX
     provided it is processed with 'dvips -Ppfb -j0' or the equivalent
     on your system. ('-j0' turns off font subsetting.)  When 'family =
     "ComputerModern"' is used, the italic/bold-italic fonts used are
     slanted fonts ('cmsl10' and 'cmbxsl10').  To use text italic fonts
     instead, set 'family = "ComputerModernItalic"'.

     These families use the TeX math italic and  symbol fonts for a
     comprehensive but incomplete coverage of the glyphs covered by the
     Adobe symbol font in other families.  This is achieved by
     special-casing the postscript code generated from the supplied
     'CM_symbol_10.afm'.

_A_u_t_h_o_r(_s):

     Support for Computer Modern fonts is based on a contribution by
     Brian D'Urso durso@hussle.harvard.edu.

_R_e_f_e_r_e_n_c_e_s:

     Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988) _The New S
     Language_. Wadsworth & Brooks/Cole.

_S_e_e _A_l_s_o:

     'postscriptFonts', 'Devices', {'check.options' which is called
     from both 'ps.options' and 'postscript'}.

_E_x_a_m_p_l_e_s:

     ## Not run: 
     # open the file "foo.ps" for graphics output
     postscript("foo.ps")
     # produce the desired graph(s)
     dev.off()              # turn off the postscript device
     postscript("|lp -dlw")
     # produce the desired graph(s)
     dev.off()              # plot will appear on printer

     # for URW PostScript devices
     postscript("foo.ps", family = "NimbusSan")

     ## for inclusion in Computer Modern TeX documents, perhaps
     postscript("cm_test.eps", width = 4.0, height = 3.0,
                horizontal = FALSE, onefile = FALSE, paper = "special",
                family = "ComputerModern", encoding = "TeXtext.enc")
     ## The resultant postscript file can be used by dvips -Ppfb -j0.

     ## To test out encodings, you can use
     TestChars <- function(encoding="ISOLatin1", family="URWHelvetica")
     {
         postscript(encoding=encoding, family=family)
         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.  We use URW to get a complete enough
     ## set of font metrics.
     TestChars()
     TestChars("ISOLatin2")
     TestChars("WinAnsi")
     ## End(Not run)

