





















                                 GGNNUUPPLLOOTT
                     AAnn IInntteerraaccttiivvee PPlloottttiinngg PPrrooggrraamm



                      _T_h_o_m_a_s _W_i_l_l_i_a_m_s _& _C_o_l_i_n _K_e_l_l_e_y
               _V_e_r_s_i_o_n _4_._1 _o_r_g_a_n_i_z_e_d _b_y_: _H_a_n_s_-_B_e_r_n_h_a_r_d _B_r_o_e_k_e_r
                   _M_a_j_o_r _c_o_n_t_r_i_b_u_t_o_r_s _(_a_l_p_h_a_b_e_t_i_c _o_r_d_e_r_)_:
                           _H_a_n_s_-_B_e_r_n_h_a_r_d _B_r_o_e_k_e_r
                               _J_o_h_n _C_a_m_p_b_e_l_l
                             _R_o_b_e_r_t _C_u_n_n_i_n_g_h_a_m
                               _D_a_v_i_d _D_e_n_h_o_l_m
                               _G_e_r_s_h_o_n _E_l_b_e_r
                               _R_o_g_e_r _F_e_a_r_i_c_k
                              _C_a_r_s_t_e_n _G_r_a_m_m_e_s
                                 _L_u_c_a_s _H_a_r_t
                                _L_a_r_s _H_e_c_k_i_n_g
                               _T_h_o_m_a_s _K_o_e_n_i_g
                                 _D_a_v_i_d _K_o_t_z
                                _E_d _K_u_b_a_i_t_i_s
                                _R_u_s_s_e_l_l _L_a_n_g
                             _A_l_e_x_a_n_d_e_r _L_e_h_m_a_n_n
                               _A_l_e_x_a_n_d_e_r _M_a_i
                               _E_t_h_a_n _M_e_r_r_i_t_t
                                _P_e_t_r _M_i_k_u_l_i_k
                               _C_a_r_s_t_e_n _S_t_e_g_e_r
                                 _T_o_m _T_k_a_c_i_k
                             _J_o_s _V_a_n _d_e_r _W_o_u_d_e
                                  _A_l_e_x _W_o_o
                             _J_a_m_e_s _R_. _V_a_n _Z_a_n_d_t
                              _J_o_h_a_n_n_e_s _Z_e_l_l_n_e_r
     _C_o_p_y_r_i_g_h_t _(_C_) _1_9_8_6 _- _1_9_9_3_, _1_9_9_8_, _2_0_0_4   _T_h_o_m_a_s _W_i_l_l_i_a_m_s_, _C_o_l_i_n _K_e_l_l_e_y
        Mailing list for comments: gnuplot-info@lists.sourceforge.net
      Mailing list for bug reports: gnuplot-bugs@lists.sourceforge.net
                              27 August 2008



















                                    -2-








                This manual was prepared by Dick Crawford.
                             3 December 1998





























































   11..  GGnnuupplloott





   22..  CCooppyyrriigghhtt


       Copyright (C) 1986 - 1993, 1998, 2004, 2007  Thomas Williams,
   Colin Kelley

   Permission to use, copy, and distribute this software and its docu-
   mentation for any purpose with or without fee is hereby granted,
   provided that the above copyright notice appear in all copies and
   that both that copyright notice and this permission notice appear in
   supporting documentation.

   Permission to modify the software is granted, but not the right to
   distribute the complete modified source code.  Modifications are to
   be distributed as patches to the released version.  Permission to
   distribute binaries produced by compiling modified sources is
   granted, provided you
     1. distribute the corresponding source modifications from the
      released version in the form of a patch file along with the bina-
   ries,
     2. add special version identification to distinguish your version
      in addition to the base release version number,
     3. provide your name and address as the primary contact for the
      support of your modified version, and
     4. retain our contact information in regard to use of the base
      software.
   Permission to distribute the released version of the source code
   along with corresponding source modifications in the form of a patch
   file is granted with same provisions 2 through 4 for binary distri-
   butions.

   This software is provided "as is" without express or implied war-
   ranty to the extent permitted by applicable law.


         AUTHORS

         Original Software:










   GNUPLOT 4.1                                                        2


            Thomas Williams,  Colin Kelley.

         Gnuplot 2.0 additions:
            Russell Lang, Dave Kotz, John Campbell.

         Gnuplot 3.0 additions:
            Gershon Elber and many others.

         Gnuplot 4.0 additions:
            See list of contributors at head of this document.



   33..  IInnttrroodduuccttiioonn


   ggnnuupplloott is a command-driven interactive function and data plotting
   program.

   Any command-line arguments are assumed to be names of files contain-
   ing ggnnuupplloott commands, with the exception of standard X11 arguments,
   which are processed first.  Each file is loaded with the llooaadd com-
   mand, in the order specified.  ggnnuupplloott exits after the last file is
   processed.  The special filename "-" is used to denote standard
   input.  When no load files are named, ggnnuupplloott enters into an inter-
   active mode.  See help for bbaattcchh//iinntteerraaccttiivvee for more details.

   ggnnuupplloott is case sensitive (commands and function names written in
   lowercase are not the same as those written in CAPS).  All command
   names may be abbreviated as long as the abbreviation is not ambigu-
   ous.  Any number of commands may appear on a line (with the excep-
   tion that llooaadd or ccaallll must be the final command), separated by
   semicolons (;).  Strings are indicated with quotes.  They may be
   either single or double quotation marks, e.g.,

         load "filename"
         cd 'dir'

   although there are some subtle differences (see ssyynnttaaxx for more
   details).

   Many ggnnuupplloott commands have multiple options. Version 4 is less sen-
   sitive to the order of these options than earlier versions, but some
   order-dependence remains. If you see error messages about unrecog-
   nized options, please try again using the exact order listed in the
   documentation.

   Commands may extend over several input lines by ending each line but
   the last with a backslash (\).  The backslash must be the _last_
   character on each line.  The effect is as if the backslash and new-
   line were not there.  That is, no white space is implied, nor is a
   comment terminated.  Therefore, commenting out a continued line com-
   ments out the entire command (see ccoommmmeennttss).  But note that if an










   GNUPLOT 4.1                                                        3


   error occurs somewhere on a multi-line command, the parser may not
   be able to locate precisely where the error is and in that case will
   not necessarily point to the correct line.

   In this document, curly braces ({}) denote optional arguments and a
   vertical bar (|) separates mutually exclusive choices.  ggnnuupplloott key-
   words or hheellpp topics are indicated by backquotes or bboollddffaaccee (where
   available).  Angle brackets (<>) are used to mark replaceable
   tokens.  In many cases, a default value of the token will be taken
   for optional arguments if the token is omitted, but these cases are
   not always denoted with braces around the angle brackets.

   For on-line help on any topic, type hheellpp followed by the name of the
   topic or just hheellpp or ?? to get a menu of available topics.

   The new ggnnuupplloott user should begin by reading about pplloottttiinngg (if on-
   line, type hheellpp pplloottttiinngg).

   See the simple.dem demo, also available together with other demos on
   the web page
             http://www.gnuplot.info/demo/simple.html



   44..  SSeeeekkiinngg--aassssiissttaannccee


   There is a mailing list for ggnnuupplloott users.  Note, however, that the
   newsgroup
         comp.graphics.apps.gnuplot
   is identical to the mailing list (they both carry the same set of
   messages).  We prefer that you read the messages through the news-
   group rather than subscribing to the mailing list.  Instructions for
   subscribing to gnuplot mailing lists may be found via the gnuplot
   development website on SourceForge
             http://sourceforge.net/projects/gnuplot

   The address for mailing to list members is:
         gnuplot-info@lists.sourceforge.net

   Bug reports and code contributions should be mailed to:
         gnuplot-bugs@lists.sourceforge.net

   The list of those interested in beta-test versions is:
         gnuplot-beta@lists.sourceforge.net

   There is also the canonical (if occasionally out-of-date) gnuplot
   web page at

             http://www.gnuplot.info

   Before seeking help, please check the











   GNUPLOT 4.1                                                        4


             FAQ (Frequently Asked Questions) list.

   When posting a question, please include full details of the version
   of ggnnuupplloott, the machine, and operating system you are using.  A
   _small_ script demonstrating the problem may be useful.  Function
   plots are preferable to datafile plots.  If email-ing to gnuplot-
   info, please state whether or not you are subscribed to the list, so
   that users who use news will know to email a reply to you.  There is
   a form for such postings on the WWW site.




   55..  NNeeww ffeeaattuurreess iinnttrroodduucceedd iinn vveerrssiioonn 44..22


   Gnuplot version 4.2 offers many new features introduced since the
   preceding official version 4.0. This section lists major additions
   and gives a partial list of changes and minor new features. For a
   more exhaustive list, see the NEWS file.





        55..11..  NNeeww pplloott ssttyylleess







             55..11..11..  HHiissttooggrraamm


             Histograms, or bar charts, can be produced.  See hhiiss--
             ttooggrraammss.




             55..11..22..  LLaabbeell pplloottss


             In coordination with the new ddaattaassttrriinnggss feature described
             below, gnuplot can draw a label at each vertex of a curve.
             See llaabbeellss.















   GNUPLOT 4.1                                                        5


             55..11..33..  IImmaaggee ddaattaa


             The iimmaaggee and rrggbbiimmaaggee styles allow to plot 2D images
             (from ascii or bbiinnaarryy files) and map them in a 2D or 3D
             plot.  See iimmaaggee and rrggbbiimmaaggee.




             55..11..44..  FFiilllleedd ccuurrvveess


             The plot style ffiillllssttyyllee has been augmented to allow to
             fill the area between two input curves with a color or a
             pattern.  See ffiilllleeddccuurrvveess.




             55..11..55..  VVeeccttoorrss


             Gnuplot can draw plots with vectors with a small arrow-
             head, requiring four or six columns of data for 2D or 3D,
             respectively.  See vveeccttoorrss.




        55..22..  IInnppuutt ffrroomm bbiinnaarryy ddaattaa ffiilleess


        Gnuplot can now read a generic bbiinnaarryy input, including matrix
        binary and ggeenneerraall bbiinnaarryy (until now gnuplot supported only its
        own bbiinnaarryy mmaattrriixx format). Several matrix file formats are
        autodetected (ggppbbiinn, eeddff, aavvss).  Binary data files are mainly
        useful for iimmaaggee and rrggbbiimmaaggee drawings.  See bbiinnaarryy and bbiinnaarryy
        ggeenneerraall ffiilleettyyppee.




        55..33..  NNeeww pplloott eelleemmeennttss



















   GNUPLOT 4.1                                                        6


             55..33..11..  RRGGBB ccoolloorrss


             Explicit RGB colors can be specified for all plot elements
             instead of specifying a predefined linetype.  See ccoolloorr--
             ssppeecc.




             55..33..22..  AArrbbiittrraarryy rreeccttaanngglleess


             You can place rectangles with desired fill style and bor-
             der anywhere in a 2D plot.  See sseett oobbjjeecctt rreeccttaannggllee.




        55..44..  SSttrriinngg hhaannddlliinngg






             55..44..11..  SSttrriinngg aanndd tteexxtt ddaattaa rreeaadd ffrroomm ddaattaaffiilleess


             Gnuplot can now read and process text fields in datafiles.
             See ddaattaassttrriinnggss.



             55..44..22..  UUsseerr--ddeeffiinneedd ssttrriinngg vvaarriiaabblleess,, ooppeerraattoorrss,, aanndd
             ffuunnccttiioonnss


             String variables and string functions are introduced. Most
             gnuplot commands that previously required a string con-
             stant will now also accept a string variable, a string
             expression, or a function that returns a string.  See
             ssttrriinngg vvaarriiaabblleess.




        55..55..  MMaaccrrooss


        Gnuplot supports command line macro expansion  by '@stringvari-
        ablename'.  See mmaaccrrooss.











   GNUPLOT 4.1                                                        7


        55..66..  AAuuttoo--llaayyoouutt ooff mmuullttiippllee pplloottss oonn aa ppaaggee


        The mmuullttiipplloott mode is now able to layout automatically simple
        multiplots without having to set the size or the position for
        each plot.  See mmuullttiipplloott.




        55..77..  IInntteerrnnaall vvaarriiaabblleess


        Gnuplot now exports several "read-only" variables such as
        GPVAL_TERM, GPVAL_X_MIN, etc.  See ggnnuupplloott--ddeeffiinneedd vvaarriiaabblleess.




        55..88..  NNeeww oorr rreevviisseedd tteerrmmiinnaall ddrriivveerrss






             55..88..11..  ``wwxxtt``


             The wwxxtt terminal is an interactive and cross-platform ter-
             minal for on-screen rendering. It uses the wxWidgets
             library for its user interface, and Cairo associated with
             Pango for the actual rendering, providing nice plots with
             antialiasing on lines and text. The terminal supports the
             full range of gnuplot capabilities, including mousing,
             pm3d plots, image plots and enhanced text.



             55..88..22..  ``eemmff``


             The eemmff terminal generates an Enhanced Metafile Format
             file. This file format is the metafile standard on MS
             Win32 Systems. The emf terminal supports pm3d, rgb color,
             and image plot modes.



             55..88..33..  ``ggiiff``,, ``jjppeegg``,, ``ppnngg``













   GNUPLOT 4.1                                                        8


             The code for the terminals using the ggdd library has been
             consolidated.  The ggiiff terminal also knows how to produce
             an animated gif from a sequence of plots.



             55..88..44..  ``ppoossttssccrriipptt``


             The ppoossttssccrriipptt terminal can load prologue files, which can
             contain additional user-defined sections with, for exam-
             ple, character encodings.  See ppoossttssccrriipptt pprroolloogguuee.



             55..88..55..  ``aaii``


             The Adobe Illustrator aaii driver is outdated. Since Adobe
             Illustrator understands PostScript files, sseett tteerrmmiinnaall
             ppoosstt lleevveell11 ...... should be used instead.



             55..88..66..  ``eeppssllaatteexx``,, ``ppssllaatteexx``,, ``ppsstteexx``


             The terminals supporting an output to latex augmented by
             PostScript commands have been consolidated. Many options
             are the same as in the ppoossttssccrriipptt terminal.



             55..88..77..  ``wwiinnddoowwss``


             The wwiinnddoowwss terminal now supports the eennhhaanncceedd tteexxtt mode.




        55..99..  CCaannvvaass ssiizzee



        In earlier versions of gnuplot, some terminal types used the
        values from sseett ssiizzee to control also the size of the output
        canvas; others did not.  The use of 'set size' for this purpose
        was deprecated in version 4.2.  In version 4.3 almost all ter-
        minals now behave as follows:

        sseett tteerrmm <<tteerrmmiinnaall__ttyyppee>> ssiizzee <<XXXX>>,, <<YYYY>> controls the size of
        the output file, or "canvas". Please see individual terminal










   GNUPLOT 4.1                                                        9


        documentation for allowed values of the size parameters.  By
        default, the plot will fill this canvas.

        sseett ssiizzee <<XXXX>>,, <<YYYY>> scales the plot itself relative to the size
        of the canvas.  Scale values less than 1 will cause the plot to
        not fill the entire canvas.  Scale values larger than 1 will
        cause only a portion of the plot to fit on the canvas.  Please
        be aware that setting scale values larger than 1 may cause
        problems on some terminal types.

        The major exception to this convention is the PostScript
        driver, which by default continues to act as it has in earlier
        versions. Be warned that the next version of gnuplot may change
        the default behaviour of the PostScript driver as well.

        Example:

              set size 0.5, 0.5
              set term png size 600, 400
              set output "figure.png"
              plot "data" using lines

        These commands will produce an output file "figure.png" that is
        600 pixels wide and 400 pixels tall. The plot will fill the
        lower left quarter of this canvas.  This is consistent with the
        way multiplot mode has always worked, however it is a change in
        the way the png driver worked for single plots in version 4.0.




   66..  BBaacckkwwaarrddss ccoommppaattiibbiilliittyy


   Gnuplot version 4.0 deprecated certain syntax used in earlier ver-
   sions, but continued to recognize it.  This is now under the control
   of a configuration option, and can be disabled as follows:

         ./configure --disable-backwards-compatibility

   Notice: Deprecated syntax items may be disabled permanently in some
   future version of gnuplot.

   One major difference is the introduction of keywords to disambiguate
   complex commands, particularly commands containing string variables.
   A notable issue was the use of bare numbers to specify offsets, line
   and point types.  Illustrative examples:

   Deprecated:
         set title "Old" 0,-1
         set data linespoints
         plot 1 2 4               # horizontal line at y=1
   New:










   GNUPLOT 4.1                                                       10


         TITLE = "New"
         set title TITLE offset char 0, char -1
         set style data linespoints
         plot 1 linetype 2 pointtype 4

   Another compatibility issue is the effect of the command sseett ssiizzee
   outside when not in multiplot mode.  In earlier versions, the com-
   mand sseett ssiizzee <<xxxx>>,, <<yyyy>> caused some terminals to change both the
   size of the plot and the size of the canvas is was drawn on; other
   terminatls changed only the plot size.  The use of sseett ssiizzee to
   change the canvas size is now deprecated.

   Please see sseett ssiizzee, sseett tteerrmm ssiizzee and also the documentation for
   individual terminals.




   77..  FFeeaattuurreess iinnttrroodduucceedd iinn vveerrssiioonn 44..00


   Gnuplot version 4.0 contained many features introduced since the
   preceding official version 3.7.  These are summarized here.





        77..11..  MMoouussee aanndd hhoottkkeeyy ssuuppppoorrtt iinn iinntteerraaccttiivvee tteerrmmiinnaallss



        Interaction with the current plot via mouse and hotkeys is sup-
        ported for the X11, OS/2 Presentation Manager, ggi, Windows,
        and wxWidgets terminals. See mmoouussee iinnppuutt for more information
        on mousing. See help for bbiinndd for information on hotkeys. Also
        see the documentation for individual mousing terminals ggggii, ppmm,
        wwiinnddoowwss, wwxxtt and xx1111.

        Sample script: mousevariables.dem




        77..22..  NNeeww tteerrmmiinnaallss



        aaqquuaa: New terminal for Mac OS X. Requires AquaTerm 1.0 or
        later.

        eeppssllaatteexx: New terminal. Prepares eps figures for inclusion in
        LaTeX documents.










   GNUPLOT 4.1                                                       11


        ggiiff: Consolidated with png/jpeg terminals. Requires libgd.

        ggggii: New full-screen interactive terminal for Linux. Interface
        to the General Graphics Interface Library.

        ppddff: New terminal exporting Adobe Portable Document Format.
        Requires libpdf.

        ppnngg and jjppeegg: Support for GIF, PNG and JPEG image output is
        provided by a new driver via libgd. The new driver supports
        many more features than the old png driver, including TrueType
        fonts. Requires libgd.

        ssvvgg: New terminal exporting Scalable Vector Graphics.




        77..33..  NNeeww pplloott ssttyyllee ``ppmm33dd``



        The sspplloott command is now capable of plotting 2D maps and 3D
        surfaces colored by greyscale or color palettes. See help for
        sseett ppmm33dd, sseett ppaalleettttee, sseett ccbbrraannggee, sseett vviieeww mmaapp, sseett ccoolloorrbbooxx
        and tteesstt ppaalleettttee.

        Sample scripts: pm3d.dem pm3dcolors.dem pm3dgamma.dem




        77..44..  FFiilllleedd bbooxxeess



        A solid color or patterned fill style can be set for any plot
        style that contains boxes. See bbooxxeess, bbooxxeerrrroorrbbaarrss, bbooxxxxyyeerrrroorr--
        bbaarrss, ccaannddlleessttiicckkss, sseett ssttyyllee ffiillll.

        Sample scripts: fillstyle.dem candlesticks.dem




        77..55..  NNeeww pplloott ooppttiioonn ssmmooootthh ffrreeqquueennccyy



        Input data can be filtered through several built-in routines
        for interpolation or approximation of data.  See ssmmooootthh, ffrree--
        qquueennccyy, uunniiqquuee.











   GNUPLOT 4.1                                                       12


        Sample scripts: step.dem mgr.dem




        77..66..  IImmpprroovveedd tteexxtt ooppttiioonnss



        Most gnuplot plot commands that produce text labels now accept
        modifiers to specify text color, font, size, and rotation
        angle. See sseett llaabbeell.  Not all terminal types support these
        options, however.  The enhanced text mode previously available
        for the postscript and pm terminals has been extended to other
        terminal types as well.  Terminal types currently supported
        include aqua, dumb, jpeg, pdf, pm, png, postscript, x11, win-
        dows, and wxt.  See eennhhaanncceedd tteexxtt.

        Sample scripts: textcolor.dem textrotate.dem




        77..77..  MMoorree tteexxtt eennccooddiinnggss



        Several terminals, including ppoossttssccrriipptt, xx1111 and ppmm, support
        additional text eennccooddiinnggss: ISO 8859-1 (Latin 1), ISO 8859-2
        (Latin 2), ISO 8859-15 (variant of 8859-1 with Euro sign),
        KOI8-R and KOI8-U (cyrillic), and miscellaneous codepages. See
        eennccooddiinngg for more details.




        77..88..  AArrrroowwss



        Single- or double-ended arrows can be placed on a plot individ-
        ually from the command line or from a data file via the pplloott
        wwiitthh vveeccttoorrss style.  See sseett ssttyyllee aarrrrooww, pplloottttiinngg ssttyylleess vveecc--
        ttoorrss.

        Sample scripts: arrowstyle.dem vector.dem

















   GNUPLOT 4.1                                                       13


        77..99..  DDaattaa ffiillee ffoorrmmaatt



        The new sseett ddaattaaffiillee command can be used to specify information
        about the format of input data files, including the characters
        used to separate fields, to indicate comment lines, and to
        specify missing data.  Gnuplot now attempts to recognize text
        fields with embedded blanks as single entities based on the
        datafile format settings.  This allows input from csv (comma-
        separated value) files such as those exported by spreadsheet
        programs. See sseett ddaattaaffiillee.  See also the bbiinnaarryy option (intro-
        duced in 4.2).




        77..1100..  NNeeww ccoommmmaannddss



        sseett vviieeww mmaapp selects a top-view 2D projection of 3D surface
        plot.

        sseett tteerrmm ppuusshh and sseett tteerrmm ppoopp save and restore the current
        terminal type.

        llooaadd and ssaavvee commands accept piped input and output, respec-
        tively.




        77..1111..  OOtthheerr cchhaannggeess aanndd aaddddiittiioonnss



        Since gnuplot 4.0, uunnsseett <<ssoommeetthhiinngg>> is preferred to sseett
        nnoo<<ssoommeetthhiinngg>>.  The older form has been deprecated.  Version
        4.2 continues to allow the older syntax, but such backwards
        compatibility may be lost in future versions.

        Commands of the form sseett <<ssoommeetthhiinngg>> <<ssttyyllee>> also are depre-
        cated in favor of the more general form sseett ssttyyllee <<ssoommeetthhiinngg>>
        <<ooppttiioonnss>>.  Many more plot elements now have style options of
        their own, including arrows, filled areas, lines, and points.
        There are also style settings for input data and formatting.
        Please see sseett ssttyyllee, sseett ddeecciimmaallssiiggnn, and sseett ddaattaaffiillee.

        The MS Windows package includes an additional executable ppggnnuu--
        pplloott..eexxee to support piping command through standard input,
        which is otherwise not available for graphical applications on
        this system.










   GNUPLOT 4.1                                                       14


        77..1122..  AAccccoommppaannyyiinngg ddooccuummeennttaattiioonn



        In directory docs/psdocs/ you may find new information in the
        gnuplot output postscript file guide, list of postscript sym-
        bols in different encodings.

        Improved FAQ. Please read it before asking your question in a
        public forum.

        There are plenty of new demos *.dem in the demo/ directory.
        Please run them, for example by
              load "all.dem"
        before asking for help.  Plots produced by the demo scripts can
        also be viewed at http://www.gnuplot.info/demo/




   88..  BBaattcchh//IInntteerraaccttiivvee OOppeerraattiioonn


   ggnnuupplloott may be executed in either batch or interactive modes, and
   the two may even be mixed together on many systems.

   Any command-line arguments are assumed to be names of files contain-
   ing ggnnuupplloott commands (with the exception of standard X11 arguments,
   which are processed first).  Each file is loaded with the llooaadd com-
   mand, in the order specified.  ggnnuupplloott exits after the last file is
   processed.  When no load files are named, ggnnuupplloott enters into an
   interactive mode.  The special filename "-" is used to denote stan-
   dard input.

   Both the eexxiitt and qquuiitt commands terminate the current command file
   and llooaadd the next one, until all have been processed.

   Examples:

   To launch an interactive session:
         gnuplot

   To launch a batch session using two command files "input1" and
   "input2":
         gnuplot input1 input2

   To launch an interactive session after an initialization file
   "header" and followed by another command file "trailer":
         gnuplot header - trailer














   GNUPLOT 4.1                                                       15


   99..  CCoommmmaanndd--lliinnee--eeddiittiinngg


   Command-line editing is supported by the Unix, Atari, VMS, MS-DOS
   and OS/2 versions of ggnnuupplloott.  Also, a history mechanism allows pre-
   vious commands to be edited and re-executed.  After the command line
   has been edited, a newline or carriage return will enter the entire
   line without regard to where the cursor is positioned.

   (The readline function in ggnnuupplloott is not the same as the readline
   used in GNU Bash and GNU Emacs.  If the GNU version is desired, it
   may be selected instead of the ggnnuupplloott version at compile time.)


   The editing commands are as follows:




      +-------------------------------------------------------------+
      |Character   Function                                         |
      +-------------------------------------------------------------+
      |            Line Editing                                     |
      |   ^B       move back a single character.                    |
      |   ^F       move forward a single character.                 |
      |   ^A       move to the beginning of the line.               |
      |   ^E       move to the end of the line.                     |
      | ^H, DEL    delete the previous character.                   |
      |   ^D       delete the current character.                    |
      |   ^K       delete from current position to the end of line. |
      | ^L, ^R     redraw line in case it gets trashed.             |
      |   ^U       delete the entire line.                          |
      |   ^W       delete from the current word to the end of line. |
      +-------------------------------------------------------------+
      |            History                                          |
      |   ^P       move back through history.                       |
      |   ^N       move forward through history.                    |
      +-------------------------------------------------------------+



   On the IBM PC, the use of a TSR program such as DOSEDIT or CED may
   be desired for line editing.  The default makefile assumes that this
   is the case;  by default ggnnuupplloott will be compiled with no line-edit-
   ing capability.  If you want to use ggnnuupplloott's line editing, set
   READLINE in the makefile and add readline.obj to the link file.  The
   following arrow keys may be used on the IBM PC and Atari versions if
   readline is used:















   GNUPLOT 4.1                                                       16


                     +-------------------------------+
                     |   Arrow key       Function    |
                     +-------------------------------+
                     |   Left Arrow      same as ^B. |
                     |  Right Arrow      same as ^F. |
                     |Ctrl Left Arrow    same as ^A. |
                     |Ctrl Right Arrow   same as ^E. |
                     |    Up Arrow       same as ^P. |
                     |   Down Arrow      same as ^N. |
                     +-------------------------------+
                     +-------------------------------+



   The Atari version of readline defines some additional key aliases:




                     +------------------------------+
                     |   Key      Function          |
                     +------------------------------+
                     |  Undo      same as ^L.       |
                     |  Home      same as ^A.       |
                     |Ctrl Home   same as ^E.       |
                     |   Esc      same as ^U.       |
                     |  Help      help plus return. |
                     |Ctrl Help   help .            |
                     +------------------------------+
                     +------------------------------+





   1100..  CCoommmmeennttss


   Comments are supported as follows: a ## may appear in most places in
   a line and ggnnuupplloott will ignore the rest of the line.  It will not
   have this effect inside quotes, inside numbers (including complex
   numbers), inside command substitutions, etc.  In short, it works
   anywhere it makes sense to work.

   See also sseett ddaattaaffiillee ccoommmmeennttsscchhaarrss for specifying comment charac-
   ters in data files.



   1111..  CCoooorrddiinnaatteess













   GNUPLOT 4.1                                                       17


   The commands sseett aarrrrooww, sseett kkeeyy, sseett llaabbeell and sseett oobbjjeecctt allow you
   to draw something at an arbitrary position on the graph.  This posi-
   tion is specified by the syntax:

         {<system>} <x>, {<system>} <y> {,{<system>} <z>}

   Each <system> can either be ffiirrsstt, sseeccoonndd, ggrraapphh, ssccrreeeenn, or cchhaarraacc--
   tteerr.

   ffiirrsstt places the x, y, or z coordinate in the system defined by the
   left and bottom axes; sseeccoonndd places it in the system defined by the
   second axes (top and right); ggrraapphh specifies the area within the
   axes---0,0 is bottom left and 1,1 is top right (for splot, 0,0,0 is
   bottom left of plotting area; use negative z to get to the
   base---see sseett ttiiccsslleevveell); ssccrreeeenn specifies the screen area (the
   entire area---not just the portion selected by sseett ssiizzee), with 0,0
   at bottom left and 1,1 at top right; and cchhaarraacctteerr gives the posi-
   tion in character widths and heights from the bottom left of the
   screen area (screen 0,0), cchhaarraacctteerr coordinates depend on the chosen
   font size.

   If the coordinate system for x is not specified, ffiirrsstt is used.  If
   the system for y is not specified, the one used for x is adopted.

   In some cases, the given coordinate is not an absolute position but
   a relative value (e.g., the second position in sseett aarrrrooww ... rrttoo).
   In most cases, the given value serves as difference to the first
   position.  If the given coordinate resides in a logarithmic axis the
   value is interpreted as factor. For example,

         set logscale x
         set arrow 100,5 rto 10,2

   plots an arrow from position 100,5 to position 1000,7 since the x
   axis is logarithmic while the y axis is linear.

   If one (or more) axis is timeseries, the appropriate coordinate
   should be given as a quoted time string according to the ttiimmeeffmmtt
   format string.  See sseett xxddaattaa and sseett ttiimmeeffmmtt.  ggnnuupplloott will also
   accept an integer expression, which will be interpreted as seconds
   from 1 January 2000.



   1122..  DDaattaassttrriinnggss


   The configuration option --enable-datastrings allows gnuplot to read
   and process text fields in datafiles. A text field consists of
   either an arbitrary string of printable characters containing no
   whitespace or an arbitrary string of characters, possibly including
   whitespace, delimited by double quotes.  The following sample line
   from a datafile is interpreted to contain four columns, with a text










   GNUPLOT 4.1                                                       18


   field in column 3:

     1.000 2.000 "Third column is all of this text" 4.00

   Text fields can be positioned within a 2-D or 3-D plot using the
   commands:

     plot 'datafile' using 1:2:4 with labels
     splot 'datafile using 1:2:3:4 with labels

   A column of text data can also be used to label the ticmarks along
   one or more of the plot axes. The example below plots a line through
   a series of points with (X,Y) coordinates taken from columns 3 and 4
   of the input datafile.  However, rather than generating regularly
   spaced tics along the x axis labeled numerically, gnuplot will posi-
   tion a tic mark along the x axis at the X coordinate of each point
   and label the tic mark with text taken from column 1 of the input
   datafile.

     set xtics
     plot 'datafile' using 3:4:xticlabels(1) with linespoints

   There is also an option that will interpret the first entry in a
   column of input data as a text field, and use it as the key title
   for data plotted from that column. The example given below will use
   the first entry in column 2 to generate a title in the key box,
   while processing the remainder of columns 2 and 4 to draw the
   required line:

     plot 'datafile' using 1:(f($2)/$4) title 2 with lines

   See sseett ssttyyllee llaabbeellss, uussiinngg xxttiiccllaabbeellss, pplloott ttiittllee, uussiinngg.



   1133..  EEnnvviirroonnmmeenntt


   A number of shell environment variables are understood by ggnnuupplloott.
   None of these are required, but may be useful.

   If GNUTERM is defined, it is used as the name of the terminal type
   to be used.  This overrides any terminal type sensed by ggnnuupplloott on
   start-up, but is itself overridden by the .gnuplot (or equivalent)
   start-up file (see ssttaarrtt--uupp) and, of course, by later explicit
   changes.

   On Unix, AmigaOS, AtariTOS, MS-DOS and OS/2, GNUHELP may be defined
   to be the pathname of the HELP file (gnuplot.gih).

   On VMS, the logical name GNUPLOT$HELP should be defined as the name
   of the help library for ggnnuupplloott.  The ggnnuupplloott help can be put inside
   any system help library, allowing access to help from both within










   GNUPLOT 4.1                                                       19


   and outside ggnnuupplloott if desired.

   On Unix, HOME is used as the name of a directory to search for a
   .gnuplot file if none is found in the current directory.  On Ami-
   gaOS, AtariTOS, MS-DOS, Windows and OS/2, GNUPLOT is used.  On Win-
   dows, the NT-specific variable USERPROFILE is tried, too. VMS,
   SYS$LOGIN: is used. Type hheellpp ssttaarrtt--uupp.

   On Unix, PAGER is used as an output filter for help messages.

   On Unix, AtariTOS and AmigaOS, SHELL is used for the sshheellll command.
   On MS-DOS and OS/2, COMSPEC is used for the sshheellll command.

   On MS-DOS, if the BGI or Watcom interface is used, PCTRM is used to
   tell the maximum resolution supported by your monitor by setting it
   to S<max. horizontal resolution>. E.g. if your monitor's maximum
   resolution is 800x600, then use:
         set PCTRM=S800
   If PCTRM is not set, standard VGA is used.

   FIT_SCRIPT may be used to specify a ggnnuupplloott command to be executed
   when a fit is interrupted---see ffiitt.  FIT_LOG specifies the default
   filename of the logfile maintained by fit.

   GNUPLOT_LIB may be used to define additional search directories for
   data and command files. The variable may contain a single directory
   name, or a list of directories separated by a platform-specific path
   separator, eg. ':' on Unix, or ';' on DOS/Windows/OS/2/Amiga plat-
   forms. The contents of GNUPLOT_LIB are appended to the llooaaddppaatthh
   variable, but not saved with the ssaavvee and ssaavvee sseett commands.

   Several gnuplot terminal drivers access TrueType fonts via the gd
   library.  For these drivers the font search path is controlled by
   the environmental variable GDFONTPATH.  Furthermore, a default font
   for these drivers may be set via the environmental variable GNU-
   PLOT_DEFAULT_GDFONT.

   The postscript terminal uses its own font search path. It is con-
   trolled by the environmental variable GNUPLOT_FONTPATH. The format
   is the same as for GNUPLOT_LIB. The contents of GNUPLOT_FONTPATH are
   appended to the ffoonnttppaatthh variable, but not saved with the ssaavvee and
   ssaavvee sseett commands.

   GNUPLOT_PS_DIR is used by the postscript driver to use external pro-
   logue files. Depending on the build process, gnuplot contains either
   a builtin copy of those files or simply a default hardcoded path.
   Use this variable to test the postscript terminal with custom pro-
   logue files. See ppoossttssccrriipptt pprroolloogguuee.















   GNUPLOT 4.1                                                       20


   1144..  EExxpprreessssiioonnss


   In general, any mathematical expression accepted by C, FORTRAN, Pas-
   cal, or BASIC is valid.  The precedence of these operators is deter-
   mined by the specifications of the C programming language.  White
   space (spaces and tabs) is ignored inside expressions.

   Complex constants are expressed as {<real>,<imag>}, where <real> and
   <imag> must be numerical constants.  For example, {3,2} represents 3
   + 2i; {0,1} represents 'i' itself.  The curly braces are explicitly
   required here.

   Note that gnuplot uses both "real" and "integer" arithmetic, like
   FORTRAN and C.  Integers are entered as "1", "-10", etc; reals as
   "1.0", "-10.0", "1e1", 3.5e-1, etc.  The most important difference
   between the two forms is in division: division of integers trun-
   cates: 5/2 = 2; division of reals does not: 5.0/2.0 = 2.5.  In mixed
   expressions, integers are "promoted" to reals before evaluation:
   5/2e0 = 2.5.  The result of division of a negative integer by a pos-
   itive one may vary among compilers.  Try a test like "print -5/2" to
   determine if your system chooses -2 or -3 as the answer.

   The integer expression "1/0" may be used to generate an "undefined"
   flag, which causes a point to ignored; the tteerrnnaarryy operator gives an
   example.

   The real and imaginary parts of complex expressions are always real,
   whatever the form in which they are entered: in {3,2} the "3" and
   "2" are reals, not integers.

   Gnuplot can also perform simple operations on strings and string
   variables.  For example, the expression ("A" . "B" eq "AB") evalu-
   ates as true, illustrating the string concatenation operator and the
   string equality operator.

   A string which contains a numerical value is promoted to the corre-
   sponding integer or real value if used in a numerical expression.
   Thus ("3" + "4" == 7) and (6.78 == "6.78") both evaluate to true.
   An integer, but not a real or complex value, is promoted to a string
   if used in string concatenation.  A typical case is the use of inte-
   gers to construct file names or other strings; e.g. ("file" . 4 eq
   "file4") is true.

   Substrings can be specified using a postfixed range descriptor
   [beg:end].  For example, "ABCDEF"[3:4] == "CD"   and   "ABCDEF"[4:*]
   == "DEF" The syntax "string"[beg:end] is exactly equivalent to call-
   ing the built-in string-valued function substr("string",beg,end),
   except that you cannot omit either beg or end from the function
   call.













   GNUPLOT 4.1                                                       21


        1144..11..  FFuunnccttiioonnss


        The functions in ggnnuupplloott are the same as the corresponding
        functions in the Unix math library, except that all functions
        accept integer, real, and complex arguments, unless otherwise
        noted.

        For those functions that accept or return angles that may be
        given in either degrees or radians (sin(x), cos(x), tan(x),
        asin(x), acos(x), atan(x), atan2(x) and arg(z)), the unit may
        be selected by sseett aanngglleess, which defaults to radians.



















































   GNUPLOT 4.1                                                       22


   +--------------------------------------------------------------------------------+
   |  Function      Arguments    Returns                                            |
   +--------------------------------------------------------------------------------+
   |   abs(x)          any       absolute value of _x, |_x|; same type                |
   |   abs(x)        complex     length of _x, real(_x)2+imag(_x)2                     |
   |  acos(x)          any       cos-1_x (inverse cosine)                            |
   |  acosh(x)         any       cosh-1_x (inverse hyperbolic cosine) in radians     |
   |   arg(x)        complex     the phase of _x                                     |
   |  asin(x)          any       sin-1_x (inverse sin)                               |
   |  asinh(x)         any       sinh-1_x (inverse hyperbolic sin) in radians        |
   |  atan(x)          any       tan-1_x (inverse tangent)                           |
   | atan2(y,x)    int or real   tan-1(_y/_x) (inverse tangent)                       |
   |  atanh(x)         any       tanh-1_x (inverse hyperbolic tangent) in radians    |
   |  besj0(x)     int or real   _j0 Bessel function of _x, in radians                |
   |  besj1(x)     int or real   _j1 Bessel function of _x, in radians                |
   |  besy0(x)     int or real   _y0 Bessel function of _x, in radians                |
   |  besy1(x)     int or real   _y1 Bessel function of _x, in radians                |
   |  ceil(x)          any       _x, smallest integer not less than _x (real part)    |
   |   cos(x)        radians     cos_x, cosine of _x                                  |
   |  cosh(x)          any       cosh_x, hyperbolic cosine of _x in radians           |
   |   erf(x)          any       _e_r_f(real(_x)), error function of real (_x)           |
   |  erfc(x)          any       _e_r_f_c(real(_x)), 1.0 - error function of real (_x)    |
   |   exp(x)          any       _e_x, exponential function of _x                      |
   |  floor(x)         any       _x, largest integer not greater than _x (real part)  |
   |  gamma(x)         any       (real(_x)), gamma function of real (_x)              |
   |ibeta(p,q,x)       any       _i_b_e_t_a(real(_p,_q,_x)), ibeta function of real (_p,_q,_x) |
   | inverf(x)         any       inverse error function real(_x)                     |
   |igamma(a,x)        any       _i_g_a_m_m_a(real(_a,_x)), igamma function of real (_a,_x)   |
   |  imag(x)        complex     imaginary part of _x as a real number               |
   | invnorm(x)        any       inverse normal distribution function real(_x)       |
   |   int(x)         real       integer part of _x, truncated toward zero           |
   |lambertw(x)       real       Lambert W function                                 |
   | lgamma(x)         any       _l_g_a_m_m_a(real(_x)), lgamma function of real (_x)       |
   |   log(x)          any       ln_x, natural logarithm (base _e) of _x               |
   |  log10(x)         any       log10_x, logarithm (base 10) of _x                   |
   |  norm(x)          any       _n_o_r_m(_x), normal distribution function of real(_x)   |
   |  rand(x)          any       _r_a_n_d(_x), pseudo random number generator            |
   |  real(x)          any       real part of _x                                     |
   |   sgn(x)          any       1 if _x>0, -1 if _x<0, 0 if _x=0. imag(_x) ignored     |
   |   sin(x)          any       sin_x, sine of _x                                    |
   |  sinh(x)          any       sinh_x, hyperbolic sine of _x in radians             |
   |  sqrt(x)          any       _x, square root of _x                                |
   |   tan(x)          any       tan_x, tangent of _x                                 |
   |  tanh(x)          any       tanh_x, hyperbolic tangent of _x in radians          |
   +--------------------------------------------------------------------------------+


















   GNUPLOT 4.1                                                       23


   +----------------------------------------------------------------------------------------------+
   |        Function            Arguments    Returns                                              |
   +----------------------------------------------------------------------------------------------+
   |  gprintf("format",x)          any       string result from applysing gnuplot's format parser |
   |sprintf("format",x,...)     multiple     string result from C-language sprintf                |
   |    strlen("string")         string      int length of string                                 |
   |strstrt("string","key")      strings     int index of first character of substring "key"      |
   |substr("string",beg,end)    multiple     string "string"[beg:end]                             |
   |   system("command")         string      stdout containing output stream of shell command     |
   |    word("string",n)       string, int   returns the nth word in "string"                     |
   |    words("string")          string      returns the number of words in "string"              |
   +----------------------------------------------------------------------------------------------+






   +----------------------------------------------------------------------------------------------+
   |   Function          Arguments      Returns                                                   |
   +----------------------------------------------------------------------------------------------+
   |   column(x)            int          column _x during datafile manipulation.                   |
   |  defined(X)       variable name     [DEPRECATED] returns 1 if X is defined, 0 otherwise.     |
   |  exists("X")     "variable name"    returns 1 if a variable named X is defined, 0 otherwise. |
   |stringcolumn(x)         int          content column _x as a string.                            |
   | timecolumn(x)          int          timecolumn _x during datafile manipulation.               |
   |  tm_hour(x)            int         the hour                                                  |
   |  tm_mday(x)            int         the day of the month                                      |
   |   tm_min(x)            int         the minute                                                |
   |   tm_mon(x)            int         the month                                                 |
   |   tm_sec(x)            int         the second                                                |
   |  tm_wday(x)            int         the day of the week                                       |
   |  tm_yday(x)            int         the day of the year                                       |
   |  tm_year(x)            int         the year                                                  |
   |   valid(x)             int          test validity of column(_x) during datafile manip.        |
   +----------------------------------------------------------------------------------------------+


   See also airfoil.dem: use of functions and complex variables for
   airfoils demo.





             1144..11..11..  RRaannddoomm nnuummbbeerr ggeenneerraattoorr


             The behavior of the built-in function rraanndd((xx)) has changed
             as of version 3.8l.  Older scripts that expected rand(x>0)
             to produce sequential pseudo-random numbers from the same
             seeded sequence must be changed to call rand(0) instead.
             The current behavior is as follows:










   GNUPLOT 4.1                                                       24


              `rand(0)`  returns a pseudo random number in the interval
             [0:1] generated
                         from the current value of two internal 32-bit
             seeds.
              `rand(-1)` resets both seeds to a standard value.
              `rand(x)`  for x>0 sets both seeds to a value based on
             the value of x.
              `rand({x,y})` for x>0 sets seed1 to x and seed2 to y.




        1144..22..  OOppeerraattoorrss


        The operators in ggnnuupplloott are the same as the corresponding
        operators in the C programming language, except that all opera-
        tors accept integer, real, and complex arguments, unless other-
        wise noted.  The ** operator (exponentiation) is supported, as
        in FORTRAN.

        Parentheses may be used to change order of evaluation.




             1144..22..11..  UUnnaarryy


             The following is a list of all the unary operators and
             their usages:







    +-----------------------------------------------------------------+
    |Symbol   Example   Explanation                                   |
    +-----------------------------------------------------------------+
    |  -        -a      unary minus                                   |
    |  +        +a      unary plus (no-operation)                     |
    |  ~        ~a      * one's complement                            |
    |  !        !a      * logical negation                            |
    |  !        a!      * factorial                                   |
    |  $        $3      * call arg/column during `using` manipulation |
    +-----------------------------------------------------------------+
    +-----------------------------------------------------------------+


   (*) Starred explanations indicate that the operator requires an
   integer argument.










   GNUPLOT 4.1                                                       25


   Operator precedence is the same as in Fortran and C.  As in those
   languages, parentheses may be used to change the order of operation.
   Thus -2**2 = -4, but (-2)**2 = 4.

   The factorial operator returns a real number to allow a greater
   range.



             1144..22..22..  BBiinnaarryy


             The following is a list of all the binary operators and
             their usages:




              +--------------------------------------------+
              |Symbol   Example   Explanation              |
              +--------------------------------------------+
              |  **      a**b     exponentiation           |
              |  *        a*b     multiplication           |
              |  /        a/b     division                 |
              |  %        a%b     * modulo                 |
              |  +        a+b     addition                 |
              |  -        a-b     subtraction              |
              |  ==      a==b     equality                 |
              |  !=      a!=b     inequality               |
              |  <        a<b     less than                |
              |  <=      a<=b     less than or equal to    |
              |  >        a>b     greater than             |
              |  >=      a>=b     greater than or equal to |
              |  &        a&b     * bitwise AND            |
              |  ^        a^b     * bitwise exclusive OR   |
              |  |        a|b     * bitwise inclusive OR   |
              |  &&      a&&b     * logical AND            |
              |  ||      a||b     * logical OR             |
              |  eq     A eq B    string equality          |
              |  ne     A ne B    string inequality        |
              +--------------------------------------------+


   (*) Starred explanations indicate that the operator requires integer
   arguments.  Capital letters A and B indicate that the operator
   requires string arguments.

   Logical AND (&&) and OR (||) short-circuit the way they do in C.
   That is, the second &&&& operand is not evaluated if the first is
   false; the second |||| operand is not evaluated if the first is true.













   GNUPLOT 4.1                                                       26


             1144..22..33..  TTeerrnnaarryy


             There is a single ternary operator:




                 +---------------------------------------+
                 |Symbol   Example   Explanation         |
                 +---------------------------------------+
                 |  ?:      a?b:c    * ternary operation |
                 +---------------------------------------+


   The ternary operator behaves as it does in C.  The first argument
   (a), which must be an integer, is evaluated.  If it is true (non-
   zero), the second argument (b) is evaluated and returned; otherwise
   the third argument (c) is evaluated and returned.

   The ternary operator is very useful both in constructing piecewise
   functions and in plotting points only when certain conditions are
   met.

   Examples:

   Plot a function that is to equal sin(x) for 0 <= x < 1, 1/x for 1 <=
   x < 2, and undefined elsewhere:
         f(x) = 0<=x && x<1 ? sin(x) : 1<=x && x<2 ? 1/x : 1/0
         plot f(x)
   Note that ggnnuupplloott quietly ignores undefined values, so the final
   branch of the function (1/0) will produce no plottable points.  Note
   also that f(x) will be plotted as a continuous function across the
   discontinuity if a line style is used.  To plot it discontinuously,
   create separate functions for the two pieces.  (Parametric functions
   are also useful for this purpose.)

   For data in a file, plot the average of the data in columns 2 and 3
   against the datum in column 1, but only if the datum in column 4 is
   non-negative:

         plot 'file' using 1:( $4<0 ? 1/0 : ($2+$3)/2 )

   Please see pplloott ddaattaaffiillee uussiinngg for an explanation of the uussiinngg syn-
   tax.




        1144..33..  GGnnuupplloott--ddeeffiinneedd vvaarriiaabblleess













   GNUPLOT 4.1                                                       27


        The variable ppii is defined to be pi, see
              print pi

        Additionally, gnuplot may define some variables under various
        operations.

        Working with interactive terminals with mmoouussee functionality
        defines variables with names that begin "MOUSE_", see mmoouussee
        vvaarriiaabblleess for details.

        Further, there are several "read-only" variables that begin
        "GPVAL_", like GPVAL_TERM, GPVAL_X_MIN, GPVAL_X_MAX,
        GPVAL_Y_MIN,... Type sshhooww vvaarriiaabblleess aallll to display their list
        and values. Values related to axes parameters (ranges, log
        base) are values used during the last plot, not those currently
        sseett.

        The ffiitt mechanism uses several variables with names that begin
        "FIT_".  It is safest to avoid using such names.  "FIT_LIMIT",
        however, is one that you may wish to redefine. Under sseett ffiitt
        eerrrroorrvvaarriiaabblleess, the error for each fitted parameter will be
        stored in a variable named like the parameter, but with "_err"
        appended. See the documentation on ffiitt for details.

        See uusseerr--ddeeffiinneedd vvaarriiaabblleess, mmoouussee vvaarriiaabblleess, and ffiitt.




        1144..44..  UUsseerr--ddeeffiinneedd vvaarriiaabblleess aanndd ffuunnccttiioonnss


        New user-defined variables and functions of one through five
        variables may be declared and used anywhere, including on the
        pplloott command itself.

        User-defined function syntax:
              <func-name>( <dummy1> {,<dummy2>} ... {,<dummy5>} ) =
        <expression>

        where <expression> is defined in terms of <dummy1> through
        <dummy5>.

        User-defined variable syntax:
              <variable-name> = <constant-expression>

        Examples:
              w = 2
              q = floor(tan(pi/2 - 0.1))
              f(x) = sin(w*x)
              sinc(x) = sin(pi*x)/(pi*x)
              delta(t) = (t == 0)
              ramp(t) = (t > 0) ? t : 0










   GNUPLOT 4.1                                                       28


              min(a,b) = (a < b) ? a : b
              comb(n,k) = n!/(k!*(n-k)!)
              len3d(x,y,z) = sqrt(x*x+y*y+z*z)
              plot f(x) = sin(x*a), a = 0.2, f(x), a = 0.4, f(x)

              file = "mydata.inp"
              file(n) = sprintf("run_%d.dat",n)

        The final two examples illustrate a user-defined string vari-
        able and a user-defined string function.

        Note that the variable ppii is already defined.  But it is in no
        way magic; you may redefine it to be whatever you like. Some
        other variables may be defined under various gnuplot operations
        like mousing in interactive terminals or fitting; see ggnnuupplloott--
        ddeeffiinneedd vvaarriiaabblleess for details.

        You can check for existence of a given variable V by the
        exists("V") expression. For example
              a = 10
              if (exists("a")) print "a is defined"
              if (!exists("b")) print "b is not defined"

        Valid names are the same as in most programming languages: they
        must begin with a letter, but subsequent characters may be let-
        ters, digits, "$", or "_".

        See sshhooww ffuunnccttiioonnss, ffuunnccttiioonnss, ggnnuupplloott--ddeeffiinneedd vvaarriiaabblleess,
        mmaaccrrooss.



   1155..  GGlloossssaarryy


   Throughout this document an attempt has been made to maintain con-
   sistency of nomenclature.  This cannot be wholly successful because
   as ggnnuupplloott has evolved over time, certain command and keyword names
   have been adopted that preclude such perfection.  This section con-
   tains explanations of the way some of these terms are used.

   A "page" or "screen" is the entire area addressable by ggnnuupplloott.  On
   a monitor, it is the full screen; on a plotter, it is a single sheet
   of paper.

   A screen may contain one or more "plots".  A plot is defined by an
   abscissa and an ordinate, although these need not actually appear on
   it, as well as the margins and any text written therein.

   A plot contains one "graph".  A graph is defined by an abscissa and
   an ordinate, although these need not actually appear on it.

   A graph may contain one or more "lines".  A line is a single










   GNUPLOT 4.1                                                       29


   function or data set.  "Line" is also a plotting style.  The word
   will also be used in sense "a line of text".  Presumably the context
   will remove any ambiguity.

   The lines on a graph may have individual names.  These may be listed
   together with a sample of the plotting style used to represent them
   in the "key", sometimes also called the "legend".

   The word "title" occurs with multiple meanings in ggnnuupplloott.  In this
   document, it will always be preceded by the adjective "plot",
   "line", or "key" to differentiate among them.

   A 2-d graph may have up to four labelled axes.  The names of the
   four axes for these usages are "x" for the axis along the bottom
   border of the plot, "y" for the left border, "x2" for the top bor-
   der, and "y2" for the right border.

   A 3-d graph may have up to three labelled axes -- "x", "y" and "z".
   It is not possible to say where on the graph any particular axis
   will fall because you can change the direction from which the graph
   is seen with sseett vviieeww.

   When discussing data files, the term "record" will be resurrected
   and used to denote a single line of text in the file, that is, the
   characters between newline or end-of-record characters.  A "point"
   is the datum extracted from a single record.  A "datablock" is a set
   of points from consecutive records, delimited by blank records.  A
   line, when referred to in the context of a data file, is a subset of
   a datablock.



   1166..  LLiinneettyyppee,, ccoolloorrss,, aanndd ssttyylleess


   Each gnuplot terminal type provides a set of distinct "linetypes".
   These may differ in color, in thickness, in dot/dash pattern, or in
   some combination of color and dot/dash. The default linetypes for a
   particular terminal can be previewed by issuing the tteesstt command
   after setting the terminal type.  The pre-defined colors and
   dot/dash patterns are not guaranteed to be consistent for all termi-
   nal types, but all terminals use the special linetype -1 to mean a
   solid line in the primary foreground color (normally black).  By
   default, successive functions or datafiles plotted by a single com-
   mand will be assigned successive linetypes.  You can override this
   default by specifying a particular linetype for any function,
   datafile, or plot element.

   Examples:

        plot "foo", "bar"                 # plot two files using line-
   types 1, 2
        plot sin(x) linetype 4            # terminal-specific linetype










   GNUPLOT 4.1                                                       30


   color 4
        plot sin(x) lt -1                 # black

   For many terminal types it is also possible to assign user-defined
   colors using explicit rgb (red, green, blue) values, named colors,
   or color values that refer to the current PM3D palette.

   Examples:

        plot sin(x) lt rgb "violet"       # one of gnuplot's named col-
   ors
        plot sin(x) lt rgb "#FF00FF"      # explicit RGB triple in
   hexadecimal
        plot sin(x) lt palette cb -45     # whatever color corresponds
   to -45
                                          # in the current cbrange of
   the palette
        plot sin(x) lt palette frac 0.3   # fractional value along the
   palette

   See sshhooww ppaalleettttee ccoolloorrnnaammeess, sseett ppaalleettttee, ccbbrraannggee.

   For terminals that support dot/dash patterns, each default linetype
   has both a dot-dash pattern and a default color. However, you can
   override the default color by using the keyword lliinneeccoolloorr, abbrevi-
   ated llcc.  For example, the postscript terminal provides a dashed
   blue line as linetype 3.  The plot commands below use this same dash
   pattern for three plots, one in blue (the default), another in red
   (the default for linetype 1), and a third in gold.

   Example:

        set term postscript dashed color
        plot 'foo' lt 3, 'baz' lt 3 linecolor 1, 'bar' lt 3 lc rgb
   'gold'

   Lines can have additional properties such as linewidth.  You can as-
   sociate these various properties, as well as equivalent properties
   for point symbols, into user-defined "line styles" using the command
   sseett ssttyyllee lliinnee.  Once you have defined a linestyle, you can use it
   in a plot command to control the appearance of one or more plot ele-
   ments.

   Examples:

        # define a new line style with terminal-independent color cyan,
        # linewidth 3, and associated point type 6 (a circle with a dot
   in it).
        set style line 5 lt rgb "cyan" lw 3 pt 6
        plot sin(x) with linespoints ls 5          # user-defined line
   style 5

   See lliinneessttyyllee, sseett ssttyyllee lliinnee.










   GNUPLOT 4.1                                                       31


        1166..11..  CCoolloorrssppeecc


        Many commands allow you to specify a linetype with an explicit
        color. This option is only possible for terminals that support
        RGB color or pm3d palettes.

        Syntax:

              ... {linetype | lt} <colorspec>

        where <colorspec> has one of the following forms:

              rgbcolor "colorname"
              rgbcolor "#RRGGBB"
              rgbcolor variable
              palette frac <val>      # <val> runs from 0 to 1
              palette cb <value>      # <val> lies within cbrange
              palette z

        "colorname" refers to one of the color names built in to gnu-
        plot. For a list of the available names, see sshhooww ppaalleettttee ccooll--
        oorrnnaammeess.

        "#RRGGBB" is a hexadecimal constant preceded by the "#" symbol.
        The RRGGBB represents the red, green, and blue components of
        the color, each on a scale from 0 - 255.  For example, magenta
        = full-scale red + full-scale blue would be represented by
        #FF00FF, which is the hexadecimal representation of (255 << 16)
        + (0 << 8) + (255).

        "rgb variable" requires an additional column in the uussiinngg spec-
        ifier, and is only available in 3D plotting mode (splot). The
        extra column is interpreted as a 24-bit packed RGB triple.
        These are most easily specified in a data file as hexidecimal
        values (see above).

        Example:

              rgb(r,g,b) = 65536 * int(r) + 256 * int(g) + int(b)
              splot "data" using 1:2:3:(rgb($1,$2,$3)) with points lc
        rgb variable

        The color palette is a linear gradient of colors that smoothly
        maps a single numerical value onto a particular color.  Two
        such mappings are always in effect. ppaalleettttee ffrraacc  maps a frac-
        tional value between 0 and 1 onto the full range of the color
        palette.  ppaalleettttee ccbb maps the range of the color axis onto the
        same palette.  See sseett ccbbrraannggee.  See also sseett ccoolloorrbbooxx.  You
        can use either of these to select a constant color from the
        current palette.

        "palette z" maps the z value of each plot segment or plot










   GNUPLOT 4.1                                                       32


        element into the cbrange mapping of the palette. This allows
        smoothly-varying color along a 3d line or surface. This option
        applies only to 3D plots (splot).




   1177..  MMoouussee iinnppuutt


   The xx1111, ppmm, wwiinnddoowwss, ggggii, and wwxxtt terminals allow interaction with
   the current plot using the mouse. They also support the definition
   of hotkeys to activate pre-defined functions by hitting a single key
   while the mouse focus is in the active plot window.  It is even pos-
   sible to combine mouse input with bbaattcchh command scripts, by invoking
   the command ppaauussee mmoouussee and then using the mouse variables returned
   by mouse clicking as parameters for subsequent scripted actions. See
   bbiinndd and mmoouussee vvaarriiaabblleess.  See also the command sseett mmoouussee.




        1177..11..  BBiinndd


        The bbiinndd allows defining or redefining a hotkey, i.e. a
        sequence of gnuplot commands which will be executed when a cer-
        tain key or key sequence is pressed while the driver's window
        has the input focus. Note that bbiinndd is only available if gnu-
        plot was compiled with mmoouussee support and it is used by all
        mouse-capable terminals. Bindings overwrite the builtin bind-
        ings (like in every real editor), except <space> and 'q' which
        cannot be rebound (unless one exception, see below). Mouse but-
        tons cannot be rebound.

        You get the list of all hotkeys by typing bbiinndd or by hitting
        'h' in the graph window.

        Note that multikey-bindings with modifiers have to be quoted.

        Normally hotkeys are only recognized when the currently active
        plot window has focus. bbiinndd aallllwwiinnddoowwss <<kkeeyy>> ...... (short form:
        bbiinndd aallll <<kkeeyy>> ......)  causes the binding for <key> to apply to
        all gnuplot plot windows, active or not.  In this case gnuplot
        variable MOUSE_KEY_WINDOW is set to the ID of the originating
        window, and may be used by the bound command.

        By default, the <space> hotkey raises gnuplot's command window.
        On some terminals (e.g. x11, wx), 'q' closes the graph window.
        These defaults can be changed to ctrl-space and ctrl-q by
        starting gnuplot as 'gnuplot -ctrlq', see xx1111 ccoommmmaanndd--lliinnee--
        ooppttiioonnss, or by the X Resource 'gnuplot*ctrlq'.  Note: if
        <space> (or ctrl-space) does not raise the gnuplot window under










   GNUPLOT 4.1                                                       33


        X11, see discussion in rraaiissee.

        Syntax:
              bind {allwindows} [<key-sequence>] ["<gnuplot commands>"]
              bind!

        Examples:

        - set bindings:

            bind a "replot"
            bind "ctrl-a" "plot x*x"
            bind "ctrl-alt-a" 'print "great"'
            bind Home "set view 60,30; replot"
            bind all Home 'print "This is window ",MOUSE_KEY_WINDOW'

        - show bindings:
            bind "ctrl-a"          # shows the binding for ctrl-a
            bind                   # shows all bindings

        - remove bindings:
            bind "ctrl-alt-a" ""   # removes binding for ctrl-alt-a
                                     (note that builtins cannot be
        removed)
            bind!                  # installs default (builtin) bind-
        ings

        - bind a key to toggle something:
          v=0
          bind "ctrl-r" "v=v+1;if(v%2)set term x11 noraise; else set
        term x11 raise"

        Modifiers (ctrl / alt) are case insensitive, keys not:
            ctrl-alt-a == CtRl-alT-a
            ctrl-alt-a != ctrl-alt-A

        List of modifiers (alt == meta):
            ctrl, alt

        List of supported special keys:

           "BackSpace", "Tab", "Linefeed", "Clear", "Return", "Pause",
        "Scroll_Lock",
           "Sys_Req", "Escape", "Delete", "Home", "Left", "Up",
        "Right", "Down",
           "PageUp", "PageDown", "End", "Begin",

           "KP_Space", "KP_Tab", "KP_Enter", "KP_F1", "KP_F2", "KP_F3",
        "KP_F4",
           "KP_Home", "KP_Left", "KP_Up", "KP_Right", "KP_Down",
        "KP_PageUp",
           "KP_PageDown", "KP_End", "KP_Begin", "KP_Insert",
        "KP_Delete", "KP_Equal",










   GNUPLOT 4.1                                                       34


           "KP_Multiply", "KP_Add", "KP_Separator", "KP_Subtract",
        "KP_Decimal",
           "KP_Divide",

           "KP_1" - "KP_9", "F1" - "F12"

        See also help for mmoouussee and iiff.




        1177..22..  MMoouussee vvaarriiaabblleess


        When mousing is active, clicking in the active window will set
        several user variables that can be accessed from the gnuplot
        command line. The coordinates of the mouse at the time of the
        click are stored in MOUSE_X MOUSE_Y MOUSE_X2 and MOUSE_Y2. The
        mouse button clicked, and any meta-keys active at that time,
        are stored in MOUSE_BUTTON MOUSE_SHIFT MOUSE_ALT and
        MOUSE_CTRL.  These variables are set to undefined at the start
        of every plot, and only become defined in the event of a mouse
        click in the active plot window. To determine from a script if
        the mouse has been clicked in the active plot window, it is
        sufficient to test for any one of these variables being
        defined.

              plot 'something'
              pause mouse
              if (defined(MOUSE_BUTTON)) call 'something_else'; \
              else print "No mouse click."

        It is also possible to track keystrokes in the plot window
        using the mousing code.

              plot 'something'
              pause mouse keypress
              print "Keystroke ", MOUSE_KEY, " at ", MOUSE_X, " ",
        MOUSE_Y

        When ppaauussee mmoouussee kkeeyypprreessss is terminated by a keypress, then
        MOUSE_KEY will contain the ascii character value of the key
        that was pressed. MOUSE_CHAR will contain the character itself
        as a string variable.  If the pause command is terminated
        abnormally (e.g. by ctrl-C or by externally closing the plot
        window) then MOUSE_KEY will equal -1.

        Note that after a zoom by mouse, you can read the new ranges as
        GPVAL_X_MIN, GPVAL_X_MAX, GPVAL_Y_MIN, and GPVAL_Y_MAX, see
        ggnnuupplloott--ddeeffiinneedd vvaarriiaabblleess.













   GNUPLOT 4.1                                                       35


   1188..  PPlloottttiinngg


   There are three ggnnuupplloott commands which actually create a plot: pplloott,
   sspplloott and rreepplloott.  pplloott generates 2-d plots, sspplloott generates 3-d
   plots (actually 2-d projections, of course), and rreepplloott appends its
   arguments to the previous pplloott or sspplloott and executes the modified
   command.

   Much of the general information about plotting can be found in the
   discussion of pplloott; information specific to 3-d can be found in the
   sspplloott section.

   pplloott operates in either rectangular or polar coordinates -- see sseett
   ppoollaarr for details of the latter.  sspplloott operates only in rectangular
   coordinates, but the sseett mmaappppiinngg command allows for a few other
   coordinate systems to be treated.  In addition, the uussiinngg option
   allows both pplloott and sspplloott to treat almost any coordinate system
   you'd care to define.

   pplloott also lets you use each of the four borders -- x (bottom), x2
   (top), y (left) and y2 (right) -- as an independent axis.  The aaxxeess
   option lets you choose which pair of axes a given function or data
   set is plotted against.  A full complement of sseett commands exists to
   give you complete control over the scales and labelling of each
   axis.  Some commands have the name of an axis built into their
   names, such as sseett xxllaabbeell.  Other commands have one or more axis
   names as options, such as sseett llooggssccaallee xxyy.  Commands and options
   controlling the z axis have no effect on 2-d graphs.

   sspplloott can plot surfaces and contours in addition to points and/or
   lines.  In addition to sspplloott, see sseett iissoossaammpplleess for information
   about defining the grid for a 3-d function;  sspplloott ddaattaaffiillee for
   information about the requisite file structure for 3-d data values;
   and sseett ccoonnttoouurr and sseett ccnnttrrppaarraamm for information about contours.

   In sspplloott, control over the scales and labels of the axes are the
   same as with pplloott, except that commands and options controlling the
   x2 and y2 axes have no effect whereas of course those controlling
   the z axis do take effect.



   1199..  SSttaarrtt--uupp


   When ggnnuupplloott is run, it looks for an initialization file to load.
   This file is called ..ggnnuupplloott on Unix and AmigaOS systems, and GGNNUU--
   PPLLOOTT..IINNII on other systems.  If this file is not found in the current
   directory, the program will look for it in the HOME directory (under
   AmigaOS, Atari(single)TOS, MS-DOS, Windows and OS/2, the environment
   variable GGNNUUPPLLOOTT should contain the name of this directory; on Win-
   dows NT, it will use UUSSEERRPPRROOFFIILLEE if GNUPLOT isn't defined).  Note:










   GNUPLOT 4.1                                                       36


   if NOCWDRC is defined during the installation, ggnnuupplloott will not read
   from the current directory.

   If the initialization file is found, ggnnuupplloott executes the commands
   in it.  These may be any legal ggnnuupplloott commands, but typically they
   are limited to setting the terminal and defining frequently-used
   functions or variables.



   2200..  SSttrriinngg ccoonnssttaannttss aanndd ssttrriinngg vvaarriiaabblleess


   In addition to string constants, most gnuplot commands also accept a
   string variable, a string expression, or a function that returns a
   string.  For example, the following four methods of creating a plot
   all result in the same plot title:

         four = "4"
         graph4 = "Title for plot #4"
         graph(n) = sprintf("Title for plot #%d",n)

         plot 'data.4' title "Title for plot #4"
         plot 'data.4' title graph4
         plot 'data.4' title "Title for plot #".four
         plot 'data.4' title graph(4)

   Since integers are promoted to strings when operated on by the
   string concatenation operator, the following method also works:

         N = 4
         plot 'data.'.N title "Title for plot #".N

   In general, elements on the command line will only be evaluated as
   possible string variables if they are not otherwise recognizable as
   part of the normal gnuplot syntax. So the following sequence of com-
   mands is legal, although probably should be avoided so as not to
   cause confusion:

         plot = "my_datafile.dat"
         title = "My Title"
         plot plot title title

   There are three binary operators that require string operands: the
   string concatenation operator ".", the string equality operator "eq"
   and the string inequality operator "ne".  The following example will
   print TRUE.

        if ("A"."B" eq "AB") print "TRUE"

   See also the two string formatting functions ggpprriinnttff and sspprriinnttff.

   Substrings can be specified by appending a range specifier to any










   GNUPLOT 4.1                                                       37


   string, string variable, or string-valued function.  The range spec-
   ifier has the form [begin:end], where begin is the index of the
   first character of the substring and end is the index of the last
   character of the substring.  The first character has index 1.  The
   begin or end fields may be empty, or contain '*', to indicate the
   true start or end of the original string.  E.g.  str[:] and str[*:*]
   both describe the full string str.



   2211..  SSuubbssttiittuuttiioonn aanndd CCoommmmaanndd lliinnee mmaaccrrooss


   When a command line to gnuplot is first read, i.e. before it is
   interpreted or executed, two forms of lexical substitution are per-
   formed. These are triggered by the presence of text in backquotes
   (ascii character 96) or preceded by @ (ascii character 64).




        2211..11..  SSuubbssttiittuuttiioonn ooff ssyysstteemm ccoommmmaannddss iinn bbaacckkqquuootteess


        Command-line substitution is specified by a system command
        enclosed in backquotes.  This command is spawned and the output
        it produces replaces the backquoted text on the command line.
        Some implementations also support pipes;  see pplloott ddaattaaffiillee
        ssppeecciiaall--ffiilleennaammeess.

        Command-line substitution can be used anywhere on the ggnnuupplloott
        command line, except inside strings delimited by single quotes.

        Example:

        This will run the program lleeaassttssqq and replace lleeaassttssqq (includ-
        ing backquotes) on the command line with its output:
              f(x) = `leastsq`

        or, in VMS
              f(x) = `run leastsq`

        These will generate labels with the current time and userid:
              set label "generated on `date +%Y-%m-%d` by `whoami`" at
        1,1
              set timestamp "generated on %Y-%m-%d by `whoami`"



        2211..22..  SSuubbssttiittuuttiioonn ooff ssttrriinngg vvaarriiaabblleess aass mmaaccrrooss













   GNUPLOT 4.1                                                       38


        Substitution of command line macros is disabled by default, but
        may be enabled using the sseett mmaaccrrooss command.  If macro substi-
        tution is enabled, the character @ is used to trigger substitu-
        tion of the current value of a string variable into the command
        line. The text in the string variable may contain any number of
        lexical elements.  This allows string variables to be used as
        command line macros.  Only string constants may be expanded
        using this mechanism, not string-valued expressions.  For exam-
        ple:

              set macros
              style1 = "lines lt 4 lw 2"
              style2 = "points lt 3 pt 5 ps 2"
              range1 = "using 1:3"
              range2 = "using 1:5"
              plot "foo" @range1 with @style1, "bar" @range2 with
        @style2

        The line containing @ symbols is expanded on input, so that by
        the time it is executed the effect is identical to having typed
        in full

              plot "foo" using 1:3 with lines lt 4 lw 2, \
                   "bar" using 1:5 with points lt 3 pt 5 ps 2

        The function exists() may be useful in connection with macro
        evaluation.  The following example checks that C can safely be
        expanded as the name of a user-defined variable:

              C = "pi"
              if (exists(C)) print C," = ", @C

        Macro expansion does not occur inside either single or double
        quotes.  However macro expansion does occur inside backquotes.



        2211..33..  SSttrriinngg vvaarriiaabblleess,, mmaaccrrooss,, aanndd ccoommmmaanndd lliinnee ssuubbssttiittuuttiioonn


        The interaction of string variables, backquotes and macro sub-
        stitution is somewhat complicated.  Backquotes do not block
        macro substitution, so

              filename = "mydata.inp"
              lines = ` wc --lines @filename | sed "s/ .*//" `

        results in the number of lines in mydata.inp being stored in
        the integer variable lines. And double quotes do not block
        backquote substitution, so

              mycomputer = "`uname -n`"











   GNUPLOT 4.1                                                       39


        results in the string returned by the system command uunnaammee --nn
        being stored in the string variable mycomputer.

        However, macro substitution is not performed inside double
        quotes, so you cannot define a system command as a macro and
        then use both macro and backquote substitution at the same
        time.

               machine_id = "uname -n"
               mycomputer = "`@machine_id`"  # doesn't work!!

        This fails because the double quotes prevent @machine_id from
        being interpreted as a macro. To store a system command as a
        macro and execute it later you must instead include the back-
        quotes as part of the macro itself.  This is accomplished by
        defining the macro as shown below.  Notice that the sprintf
        format nests all three types of quotes.

              machine_id = sprintf('"`uname -n`"')
              mycomputer = @machine_id



   2222..  SSyynnttaaxx


   Version 4 of gnuplot is much less sensitive than earlier versions to
   the order of keywords and suboptions. However, if you get error mes-
   sages from specifying options that you think should work, please try
   rearranging them into the exact order listed by the documentation.

   Options and any accompanying parameters are separated by spaces
   whereas lists and coordinates are separated by commas.  Ranges are
   separated by colons and enclosed in brackets [], text and file names
   are enclosed in quotes, and a few miscellaneous things are enclosed
   in parentheses.  Braces {} are used for a few special purposes.

   Commas are used to separate coordinates on the sseett commands aarrrrooww,
   kkeeyy, and llaabbeell; the list of variables being fitted (the list after
   the vviiaa keyword on the ffiitt command); lists of discrete contours or
   the loop parameters which specify them on the sseett ccnnttrrppaarraamm command;
   the arguments of the sseett commands ddggrriidd33dd, dduummmmyy, iissoossaammpplleess, ooffff--
   sseettss, oorriiggiinn, ssaammpplleess, ssiizzee, ttiimmee, and vviieeww; lists of tics or the
   loop parameters which specify them; the offsets for titles and axis
   labels; parametric functions to be used to calculate the x, y, and z
   coordinates on the pplloott, rreepplloott and sspplloott commands; and the complete
   sets of keywords specifying individual plots (data sets or func-
   tions) on the pplloott, rreepplloott and sspplloott commands.

   Parentheses are used to delimit sets of explicit tics (as opposed to
   loop parameters) and to indicate computations in the uussiinngg filter of
   the ffiitt, pplloott, rreepplloott and sspplloott commands.











   GNUPLOT 4.1                                                       40


   (Parentheses and commas are also used as usual in function nota-
   tion.)

   Square brackets are used to delimit ranges given in sseett, pplloott or
   sspplloott commands.

   Colons are used to separate extrema in rraannggee specifications (whether
   they are given on sseett, pplloott or sspplloott commands) and to separate
   entries in the uussiinngg filter of the pplloott, rreepplloott, sspplloott and ffiitt com-
   mands.

   Semicolons are used to separate commands given on a single command
   line.

   Braces are used in text to be specially processed by some terminals,
   like ppoossttssccrriipptt.  They are also used to denote complex numbers:
   {3,2} = 3 + 2i.

   At present you should not embed \n inside {} when using the Post-
   Script terminal in eennhhaanncceedd tteexxtt mode.

   The EEPIC, Imagen, Uniplex, LaTeX, and TPIC drivers allow a newline
   to be specified by \\ in a single-quoted string or \\\\ in a double-
   quoted string.




        2222..11..  QQuuoottee MMaarrkkss


        Gnuplot uses three forms of quote marks for delimiting text
        strings, double-quote (ascii 34), single-quote (ascii 39), and
        backquote (ascii 96).

        Filenames may be entered with either single- or double-quotes.
        In this manual the command examples generally single-quote
        filenames and double-quote other string tokens for clarity.

        String constants and text strings used for labels, titles, or
        other plot elements may be enclosed in either single quotes or
        double quotes. Further processing of the quoted text depends on
        the choice of quote marks.

        Backslash processing of special characters like \n (newline)
        and \345 (octal character code) is performed for double-quoted
        strings.  In single-quoted strings, backslashes are just ordi-
        nary characters.  To get a single-quote (ascii 39) in a single-
        quoted string, it has to be doubled.  Thus the strings "d\" s'
        b\\" and 'd" s'' b\' are completely equivalent.

        Text justification is the same for each line of a multi-line
        string.  Thus the center-justified string










   GNUPLOT 4.1                                                       41


              "This is the first line of text.\nThis is the second
        line."
        will produce
                               This is the first line of text.
                                  This is the second line.
        but
              'This is the first line of text.\nThis is the second
        line.'
        will produce
                  This is the first line of text.\nThis is the second
        line.

        Enhanced text processing is performed for both double-quoted
        text and single-quoted text, but only by terminals supporting
        this mode.  See eennhhaanncceedd tteexxtt.

        Back-quotes are used to enclose system commands for substitu-
        tion into the command line.  See ssuubbssttiittuuttiioonn.



   2233..  TTiimmee//DDaattee ddaattaa


   ggnnuupplloott supports the use of time and/or date information as input
   data.  This feature is activated by the commands sseett xxddaattaa ttiimmee, sseett
   yyddaattaa ttiimmee, etc.

   Internally all times and dates are converted to the number of sec-
   onds from the year 2000.  The command sseett ttiimmeeffmmtt defines the format
   for all inputs: data files, ranges, tics, label positions---in
   short, anything that accepts a data value must receive it in this
   format.  Since only one input format can be in force at a given
   time, all time/date quantities being input at the same time must be
   presented in the same format.  Thus if both x and y data in a file
   are time/date, they must be in the same format.

   The conversion to and from seconds assumes Universal Time (which is
   the same as Greenwich Standard Time).  There is no provision for
   changing the time zone or for daylight savings.  If all your data
   refer to the same time zone (and are all either daylight or stan-
   dard) you don't need to worry about these things.  But if the abso-
   lute time is crucial for your application, you'll need to convert to
   UT yourself.

   Commands like sshhooww xxrraannggee will re-interpret the integer according to
   ttiimmeeffmmtt.  If you change ttiimmeeffmmtt, and then sshhooww the quantity again,
   it will be displayed in the new ttiimmeeffmmtt.  For that matter, if you
   give the deactivation command (like sseett xxddaattaa), the quantity will be
   shown in its numerical form.

   The commands sseett ffoorrmmaatt or sseett ttiiccss ffoorrmmaatt   define the format that
   will be used for tic labels, whether or not the specified axis is










   GNUPLOT 4.1                                                       42


   time/date.

   If time/date information is to be plotted from a file, the uussiinngg
   option _must_ be used on the pplloott or sspplloott command.  These commands
   simply use white space to separate columns, but white space may be
   embedded within the time/date string.  If you use tabs as a separa-
   tor, some trial-and-error may be necessary to discover how your sys-
   tem treats them.

   The following example demonstrates time/date plotting.

   Suppose the file "data" contains records like

         03/21/95 10:00  6.02e23

   This file can be plotted by

         set xdata time
         set timefmt "%m/%d/%y"
         set xrange ["03/21/95":"03/22/95"]
         set format x "%m/%d"
         set timefmt "%m/%d/%y %H:%M"
         plot "data" using 1:3

   which will produce xtic labels that look like "03/21".

   See the descriptions of each command for more details.




   2244..  CCoommmmaannddss


   This section lists the commands acceptable to ggnnuupplloott in alphabeti-
   cal order.  Printed versions of this document contain all commands;
   on-line versions may not be complete.  Indeed, on some systems there
   may be no commands at all listed under this heading.

   Note that in most cases unambiguous abbreviations for command names
   and their options are permissible, i.e., "pp ff((xx)) ww llii" instead of
   "pplloott ff((xx)) wwiitthh lliinneess".

   In the syntax descriptions, braces ({}) denote optional arguments
   and a vertical bar (|) separates mutually exclusive choices.



   2255..  CCdd


   The ccdd command changes the working directory.











   GNUPLOT 4.1                                                       43


   Syntax:
         cd '<directory-name>'

   The directory name must be enclosed in quotes.

   Examples:
         cd 'subdir'
         cd ".."

   It is recommended for DOS and Windows users to use single-
   quotes---backslash [\] has special significance inside double-quotes
   and has to be escaped.  For example,
         cd "c:\newdata"
   fails, but
         cd 'c:\newdata'
         cd "c:\\newdata"
   works as expected.



   2266..  CCaallll


   The ccaallll command is identical to the load command with one excep-
   tion: you can have up to ten additional parameters to the command
   (delimited according to the standard parser rules) which can be sub-
   stituted into the lines read from the file.  As each line is read
   from the ccaalllled input file, it is scanned for the sequence $$ (dol-
   lar-sign) followed by a digit (0--9).  If found, the sequence is
   replaced by the corresponding parameter from the ccaallll command line.
   If the parameter was specified as a string in the ccaallll line, it is
   substituted without its enclosing quotes.  Sequence $$## is replaced
   by the number of passed parameters.  $$ followed by any character
   will be that character; e.g. use $$$$ to get a single $$.  Providing
   more than ten parameters on the ccaallll command line will cause an
   error.  A parameter that was not provided substitutes as nothing.
   Files being ccaalllled may themselves contain ccaallll or llooaadd commands.

   The ccaallll command _must_ be the last command on a multi-command line.

   Syntax:
         call "<input-file>" <parameter-0> <parm-1> ... <parm-9>

   The name of the input file must be enclosed in quotes, and it is
   recommended that parameters are similarly enclosed in quotes (future
   versions of gnuplot may treat quoted and unquoted arguments differ-
   ently).

   Example:

   If the file 'calltest.gp' contains the line:
         print "argc=$# p0=$0 p1=$1 p2=$2 p3=$3 p4=$4 p5=$5 p6=$6
   p7=x$7x"










   GNUPLOT 4.1                                                       44


   entering the command:
         call 'calltest.gp' "abcd" 1.2 + "'quoted'" -- "$2"

   will display:
         argc=7 p0=abcd p1=1.2 p2=+ p3='quoted' p4=- p5=- p6=$2 p7=xx

   NOTE: there is a clash in syntax with the datafile uussiinngg callback
   operator.  Use $$$$nn or ccoolluummnn((nn)) to access column n from a datafile
   inside a ccaalllled datafile plot.



   2277..  CClleeaarr


   The cclleeaarr command erases the current screen or output device as
   specified by sseett oouuttppuutt.  This usually generates a formfeed on hard-
   copy devices.  Use sseett tteerrmmiinnaall to set the device type.

   For some terminals cclleeaarr erases only the portion of the plotting
   surface defined by sseett ssiizzee, so for these it can be used in conjunc-
   tion with sseett mmuullttiipplloott to create an inset.

   Example:
         set multiplot
         plot sin(x)
         set origin 0.5,0.5
         set size 0.4,0.4
         clear
         plot cos(x)
         unset multiplot

   Please see sseett mmuullttiipplloott, sseett ssiizzee, and sseett oorriiggiinn for details of
   these commands.



   2288..  EExxiitt


   The commands eexxiitt and qquuiitt, as well as the END-OF-FILE character
   (usually Ctrl-D) terminate input from the current input stream: ter-
   minal session, pipe, and file input (pipe).

   If input streams are nested (inherited llooaadd scripts), then reading
   will continue in the parent stream. When the top level stream is
   closed, the program itself will exit.

   The command eexxiitt ggnnuupplloott will immediately and unconditionally cause
   gnuplot to exit even if the input stream is multiply nested.  In
   this case any open output files may not be completed cleanly. Exam-
   ple of use:











   GNUPLOT 4.1                                                       45


         bind "ctrl-x" "unset output; exit gnuplot"

   See help for bbaattcchh//iinntteerraaccttiivvee for more details.



   2299..  FFiitt


   The ffiitt command can fit a user-defined function to a set of data
   points (x,y) or (x,y,z), using an implementation of the nonlinear
   least-squares (NLLS) Marquardt-Levenberg algorithm.  Any user-
   defined variable occurring in the function body may serve as a fit
   parameter, but the return type of the function must be real.

   Syntax:
         fit {[xrange] {[yrange]}} <function> '<datafile>'
             {datafile-modifiers}
             via '<parameter file>' | <var1>{,<var2>,...}

   Ranges may be specified to temporarily limit the data which is to be
   fitted; any out-of-range data points are ignored. The syntax is
         [{dummy_variable=}{<min>}{:<max>}],
   analogous to pplloott; see pplloott rraannggeess.

   <function> is any valid ggnnuupplloott expression, although it is usual to
   use a previously user-defined function of the form f(x) or f(x,y).

   <datafile> is treated as in the pplloott command.  All the pplloott ddaattaaffiillee
   modifiers (uussiinngg, eevveerryy,...) except ssmmooootthh and the deprecated tthhrruu
   are applicable to ffiitt. See pplloott ddaattaaffiillee.

   The default data formats for fitting functions with a single inde-
   pendent variable, y=f(x), are {x:}y or x:y:s; those formats can be
   changed with the datafile uussiinngg qualifier.  The third item (a column
   number or an expression), if present, is interpreted as the standard
   deviation of the corresponding y value and is used to compute a
   weight for the datum, 1/s**2.  Otherwise, all data points are
   weighted equally, with a weight of one.  Note that if you don't
   specify a uussiinngg option at all, no y deviations are read from the
   datafile even if it does have a third column, so you'll always get
   unit weights.

   To fit a function with two independent variables, z=f(x,y), the
   required format is uussiinngg with four items, x:y:z:s.  The complete
   format must be given---no default columns are assumed for a missing
   token.  Weights for each data point are evaluated from 's' as above.
   If error estimates are not available, a constant value can be speci-
   fied as a constant expression (see pplloott ddaattaaffiillee uussiinngg), e.g., uussiinngg
   11::22::33::((11)).

   Multiple datasets may be simultaneously fit with functions of one
   independent variable by making y a 'pseudo-variable', e.g., the










   GNUPLOT 4.1                                                       46


   dataline number, and fitting as two independent variables.  See ffiitt
   mmuullttii--bbrraanncchh.

   The vviiaa qualifier specifies which parameters are to be adjusted,
   either directly, or by referencing a parameter file.

   Examples:
         f(x) = a*x**2 + b*x + c
         g(x,y) = a*x**2 + b*y**2 + c*x*y
         FIT_LIMIT = 1e-6
         fit f(x) 'measured.dat' via 'start.par'
         fit f(x) 'measured.dat' using 3:($7-5) via 'start.par'
         fit f(x) './data/trash.dat' using 1:2:3 via a, b, c
         fit g(x,y) 'surface.dat' using 1:2:3:(1) via a, b, c

   After each iteration step, detailed information about the current
   state of the fit is written to the display.  The same information
   about the initial and final states is written to a log file,
   "fit.log".  This file is always appended to, so as to not lose any
   previous fit history;  it should be deleted or renamed as desired.
   By using the command sseett ffiitt llooggffiillee, the name of the log file can
   be changed.

   If gnuplot was built with this option, and you activated it using
   sseett ffiitt eerrrroorrvvaarriiaabblleess, the error for each fitted parameter will be
   stored in a variable named like the parameter, but with "_err"
   appended.  Thus the errors can be used as input for further computa-
   tions.

   The fit may be interrupted by pressing Ctrl-C (any key but Ctrl-C
   under MSDOS and Atari Multitasking Systems).  After the current
   iteration completes, you have the option to (1) stop the fit and
   accept the current parameter values, (2) continue the fit, (3) exe-
   cute a ggnnuupplloott command as specified by the environment variable
   FIT_SCRIPT.  The default for FIT_SCRIPT is rreepplloott, so if you had
   previously plotted both the data and the fitting function in one
   graph, you can display the current state of the fit.

   Once ffiitt has finished, the uuppddaattee command may be used to store final
   values in a file for subsequent use as a parameter file.   See
   uuppddaattee for details.




        2299..11..  AAddjjuussttaabbllee ppaarraammeetteerrss


        There are two ways that vviiaa can specify the parameters to be
        adjusted, either directly on the command line or indirectly, by
        referencing a parameter file.  The two use different means to
        set initial values.











   GNUPLOT 4.1                                                       47


        Adjustable parameters can be specified by a comma-separated
        list of variable names after the vviiaa keyword.  Any variable
        that is not already defined is created with an initial value of
        1.0.  However, the fit is more likely to converge rapidly if
        the variables have been previously declared with more appropri-
        ate starting values.

        In a parameter file, each parameter to be varied and a corre-
        sponding initial value are specified, one per line, in the form
              varname = value

        Comments, marked by '#', and blank lines are permissible.  The
        special form
              varname = value       # FIXED

        means that the variable is treated as a 'fixed parameter', ini-
        tialized by the parameter file, but not adjusted by ffiitt.  For
        clarity, it may be useful to designate variables as fixed
        parameters so that their values are reported by ffiitt.  The key-
        word ## FFIIXXEEDD has to appear in exactly this form.




        2299..22..  SShhoorrtt iinnttrroodduuccttiioonn


        ffiitt is used to find a set of parameters that 'best' fits your
        data to your user-defined function.  The fit is judged on the
        basis of the sum of the squared differences or 'residuals'
        (SSR) between the input data points and the function values,
        evaluated at the same places.  This quantity is often called
        'chisquare' (i.e., the Greek letter chi, to the power of 2).
        The algorithm attempts to minimize SSR, or more precisely,
        WSSR, as the residuals are 'weighted' by the input data errors
        (or 1.0) before being squared; see ffiitt eerrrroorr__eessttiimmaatteess for
        details.

        That's why it is called 'least-squares fitting'.  Let's look at
        an example to see what is meant by 'non-linear', but first we
        had better go over some terms.  Here it is convenient to use z
        as the dependent variable for user-defined functions of either
        one independent variable, z=f(x), or two independent variables,
        z=f(x,y).  A parameter is a user-defined variable that ffiitt will
        adjust, i.e., an unknown quantity in the function declaration.
        Linearity/non-linearity refers to the relationship of the
        dependent variable, z, to the parameters which ffiitt is adjust-
        ing, not of z to the independent variables, x and/or y.  (To be
        technical, the second {and higher} derivatives of the fitting
        function with respect to the parameters are zero for a linear
        least-squares problem).

        For linear least-squares (LLS), the user-defined function will










   GNUPLOT 4.1                                                       48


        be a sum of simple functions, not involving any parameters,
        each multiplied by one parameter.  NLLS handles more compli-
        cated functions in which parameters can be used in a large num-
        ber of ways.  An example that illustrates the difference
        between linear and nonlinear least-squares is the Fourier
        series.  One member may be written as
             z=a*sin(c*x) + b*cos(c*x).
        If a and b are the unknown parameters and c is constant, then
        estimating values of the parameters is a linear least-squares
        problem.  However, if c is an unknown parameter, the problem is
        nonlinear.

        In the linear case, parameter values can be determined by com-
        paratively simple linear algebra, in one direct step.  However
        LLS is a special case which is also solved along with more gen-
        eral NLLS problems by the iterative procedure that ggnnuupplloott
        uses.  ffiitt attempts to find the minimum by doing a search.
        Each step (iteration) calculates WSSR with a new set of parame-
        ter values.  The Marquardt-Levenberg algorithm selects the
        parameter values for the next iteration.  The process continues
        until a preset criterion is met, either (1) the fit has "con-
        verged" (the relative change in WSSR is less than FIT_LIMIT),
        or (2) it reaches a preset iteration count limit, FIT_MAXITER
        (see ffiitt ccoonnttrrooll vvaarriiaabblleess).  The fit may also be interrupted
        and subsequently halted from the keyboard (see ffiitt).  The user
        variable FIT_CONVERGED contains 1 if the previous fit command
        terminated due to convergence; it contains 0 if the previous
        fit terminated for any other reason.

        Often the function to be fitted will be based on a model (or
        theory) that attempts to describe or predict the behaviour of
        the data.  Then ffiitt can be used to find values for the free
        parameters of the model, to determine how well the data fits
        the model, and to estimate an error range for each parameter.
        See ffiitt eerrrroorr__eessttiimmaatteess.

        Alternatively, in curve-fitting, functions are selected inde-
        pendent of a model (on the basis of experience as to which are
        likely to describe the trend of the data with the desired reso-
        lution and a minimum number of parameters*functions.)  The ffiitt
        solution then provides an analytic representation of the curve.

        However, if all you really want is a smooth curve through your
        data points, the ssmmooootthh option to pplloott may be what you've been
        looking for rather than ffiitt.



        2299..33..  EErrrroorr eessttiimmaatteess


        In ffiitt, the term "error" is used in two different contexts,
        data error estimates and parameter error estimates.










   GNUPLOT 4.1                                                       49


        Data error estimates are used to calculate the relative weight
        of each data point when determining the weighted sum of squared
        residuals, WSSR or chisquare.  They can affect the parameter
        estimates, since they determine how much influence the devia-
        tion of each data point from the fitted function has on the
        final values.  Some of the ffiitt output information, including
        the parameter error estimates, is more meaningful if accurate
        data error estimates have been provided.

        The 'statistical overview' describes some of the ffiitt output and
        gives some background for the 'practical guidelines'.




             2299..33..11..  SSttaattiissttiiccaall oovveerrvviieeww


             The theory of non-linear least-squares (NLLS) is generally
             described in terms of a normal distribution of errors,
             that is, the input data is assumed to be a sample from a
             population having a given mean and a Gaussian (normal)
             distribution about the mean with a given standard devia-
             tion.  For a sample of sufficiently large size, and know-
             ing the population standard deviation, one can use the
             statistics of the chisquare distribution to describe a
             "goodness of fit" by looking at the variable often called
             "chisquare".  Here, it is sufficient to say that a reduced
             chisquare (chisquare/degrees of freedom, where degrees of
             freedom is the number of datapoints less the number of
             parameters being fitted) of 1.0 is an indication that the
             weighted sum of squared deviations between the fitted
             function and the data points is the same as that expected
             for a random sample from a population characterized by the
             function with the current value of the parameters and the
             given standard deviations.

             If the standard deviation for the population is not con-
             stant, as in counting statistics where variance = counts,
             then each point should be individually weighted when com-
             paring the observed sum of deviations and the expected sum
             of deviations.

             At the conclusion ffiitt reports 'stdfit', the standard devi-
             ation of the fit, which is the rms of the residuals, and
             the variance of the residuals, also called 'reduced
             chisquare' when the data points are weighted.  The number
             of degrees of freedom (the number of data points minus the
             number of fitted parameters) is used in these estimates
             because the parameters used in calculating the residuals
             of the datapoints were obtained from the same data.  These
             values are exported to the variables
                   FIT_NDF = Number of degrees of freedom










   GNUPLOT 4.1                                                       50


                   FIT_WSSR = Weighted sum-of-squares residual
                   FIT_STDFIT = sqrt(WSSR/NDF)

             To estimate confidence levels for the parameters, one can
             use the minimum chisquare obtained from the fit and
             chisquare statistics to determine the value of chisquare
             corresponding to the desired confidence level, but consid-
             erably more calculation is required to determine the com-
             binations of parameters which produce such values.

             Rather than determine confidence intervals, ffiitt reports
             parameter error estimates which are readily obtained from
             the variance-covariance matrix after the final iteration.
             By convention, these estimates are called "standard
             errors" or "asymptotic standard errors", since they are
             calculated in the same way as the standard errors (stan-
             dard deviation of each parameter) of a linear least-
             squares problem, even though the statistical conditions
             for designating the quantity calculated to be a standard
             deviation are not generally valid for the NLLS problem.
             The asymptotic standard errors are generally over-opti-
             mistic and should not be used for determining confidence
             levels, but are useful for qualitative purposes.

             The final solution also produces a correlation matrix,
             which gives an indication of the correlation of parameters
             in the region of the solution; if one parameter is
             changed, increasing chisquare, does changing another com-
             pensate?  The main diagonal elements, autocorrelation, are
             all 1; if all parameters were independent, all other ele-
             ments would be nearly 0.  Two variables which completely
             compensate each other would have an off-diagonal element
             of unit magnitude, with a sign depending on whether the
             relation is proportional or inversely proportional.  The
             smaller the magnitudes of the off-diagonal elements, the
             closer the estimates of the standard deviation of each
             parameter would be to the asymptotic standard error.



             2299..33..22..  PPrraaccttiiccaall gguuiiddeelliinneess


             If you have a basis for assigning weights to each data
             point, doing so lets you make use of additional knowledge
             about your measurements, e.g., take into account that some
             points may be more reliable than others.  That may affect
             the final values of the parameters.

             Weighting the data provides a basis for interpreting the
             additional ffiitt output after the last iteration.  Even if
             you weight each point equally, estimating an average stan-
             dard deviation rather than using a weight of 1 makes WSSR










   GNUPLOT 4.1                                                       51


             a dimensionless variable, as chisquare is by definition.

             Each fit iteration will display information which can be
             used to evaluate the progress of the fit.  (An '*' indi-
             cates that it did not find a smaller WSSR and is trying
             again.)  The 'sum of squares of residuals', also called
             'chisquare', is the WSSR between the data and your fitted
             function; ffiitt has minimized that.  At this stage, with
             weighted data, chisquare is expected to approach the num-
             ber of degrees of freedom (data points minus parameters).
             The WSSR can be used to calculate the reduced chisquare
             (WSSR/ndf) or stdfit, the standard deviation of the fit,
             sqrt(WSSR/ndf).  Both of these are reported for the final
             WSSR.

             If the data are unweighted, stdfit is the rms value of the
             deviation of the data from the fitted function, in user
             units.

             If you supplied valid data errors, the number of data
             points is large enough, and the model is correct, the
             reduced chisquare should be about unity.  (For details,
             look up the 'chi-squared distribution' in your favourite
             statistics reference.)  If so, there are additional tests,
             beyond the scope of this overview, for determining how
             well the model fits the data.

             A reduced chisquare much larger than 1.0 may be due to
             incorrect data error estimates, data errors not normally
             distributed, systematic measurement errors, 'outliers', or
             an incorrect model function.  A plot of the residuals,
             e.g., pplloott ''ddaattaaffiillee'' uussiinngg 11::(($$22--ff(($$11)))), may help to show
             any systematic trends.  Plotting both the data points and
             the function may help to suggest another model.

             Similarly, a reduced chisquare less than 1.0 indicates
             WSSR is less than that expected for a random sample from
             the function with normally distributed errors.  The data
             error estimates may be too large, the statistical assump-
             tions may not be justified, or the model function may be
             too general, fitting fluctuations in a particular sample
             in addition to the underlying trends.  In the latter case,
             a simpler function may be more appropriate.

             You'll have to get used to both ffiitt and the kind of prob-
             lems you apply it to before you can relate the standard
             errors to some more practical estimates of parameter
             uncertainties or evaluate the significance of the correla-
             tion matrix.

             Note that ffiitt, in common with most NLLS implementations,
             minimizes the weighted sum of squared distances (y-
             f(x))**2.  It does not provide any means to account for










   GNUPLOT 4.1                                                       52


             "errors" in the values of x, only in y.  Also, any "out-
             liers" (data points outside the normal distribution of the
             model) will have an exaggerated effect on the solution.



        2299..44..  CCoonnttrrooll


        There are a number of ggnnuupplloott variables that can be defined to
        affect ffiitt.  Those which can be defined once ggnnuupplloott is running
        are listed under 'control_variables' while those defined before
        starting ggnnuupplloott are listed under 'environment_variables'.




             2299..44..11..  CCoonnttrrooll vvaarriiaabblleess


             The default epsilon limit (1e-5) may be changed by declar-
             ing a value for
                   FIT_LIMIT
             When the sum of squared residuals changes between two
             iteration steps by a factor less than this number
             (epsilon), the fit is considered to have 'converged'.

             The maximum number of iterations may be limited by declar-
             ing a value for
                   FIT_MAXITER
             A value of 0 (or not defining it at all)  means that there
             is no limit.

             If you need even more control about the algorithm, and
             know the Marquardt-Levenberg algorithm well, there are
             some more variables to influence it. The startup value of
             llaammbbddaa is normally calculated automatically from the ML-
             matrix, but if you want to, you may provide your own one
             with
                   FIT_START_LAMBDA
             Specifying FIT_START_LAMBDA as zero or less will re-enable
             the automatic selection. The variable
                   FIT_LAMBDA_FACTOR
             gives the factor by which llaammbbddaa is increased or decreased
             whenever the chi-squared target function increased or
             decreased significantly.  Setting FIT_LAMBDA_FACTOR to
             zero re-enables the default factor of 10.0.

             Other variables with the FIT_ prefix may be added to ffiitt,
             so it is safer not to use that prefix for user-defined
             variables.

             The variables FIT_SKIP and FIT_INDEX were used by earlier










   GNUPLOT 4.1                                                       53


             releases of ggnnuupplloott with a 'fit' patch called ggnnuuffiitt and
             are no longer available.  The datafile eevveerryy modifier pro-
             vides the functionality of FIT_SKIP.  FIT_INDEX was used
             for multi-branch fitting, but multi-branch fitting of one
             independent variable is now done as a pseudo-3D fit in
             which the second independent variable and uussiinngg are used
             to specify the branch.  See ffiitt mmuullttii--bbrraanncchh.



             2299..44..22..  EEnnvviirroonnmmeenntt vvaarriiaabblleess


             The environment variables must be defined before ggnnuupplloott
             is executed; how to do so depends on your operating sys-
             tem.

                   FIT_LOG
             changes the name (and/or path) of the file to which the
             fit log will be written from the default of "fit.log" in
             the working directory. The default value can be overwrit-
             ten using the command sseett ffiitt llooggffiillee.

                   FIT_SCRIPT
             specifies a command that may be executed after an user
             interrupt. The default is rreepplloott, but a pplloott or llooaadd com-
             mand may be useful to display a plot customized to high-
             light the progress of the fit.



        2299..55..  MMuullttii--bbrraanncchh


        In multi-branch fitting, multiple data sets can be simultane-
        ously fit with functions of one independent variable having
        common parameters by minimizing the total WSSR.  The function
        and parameters (branch) for each data set are selected by using
        a 'pseudo-variable', e.g., either the dataline number (a 'col-
        umn' index of -1) or the datafile index (-2), as the second
        independent variable.

        Example:  Given two exponential decays of the form, z=f(x),
        each describing a different data set but having a common decay
        time, estimate the values of the parameters.  If the datafile
        has the format x:z:s, then
             f(x,y) = (y==0) ? a*exp(-x/tau) : b*exp(-x/tau)
             fit f(x,y) 'datafile' using  1:-2:2:3  via a, b, tau

        For a more complicated example, see the file "hexa.fnc" used by
        the "fit.dem" demo.

        Appropriate weighting may be required since unit weights may










   GNUPLOT 4.1                                                       54


        cause one branch to predominate if there is a difference in the
        scale of the dependent variable.  Fitting each branch sepa-
        rately, using the multi-branch solution as initial values, may
        give an indication as to the relative effect of each branch on
        the joint solution.



        2299..66..  SSttaarrttiinngg vvaalluueess


        Nonlinear fitting is not guaranteed to converge to the global
        optimum (the solution with the smallest sum of squared residu-
        als, SSR), and can get stuck at a local minimum.  The routine
        has no way to determine that;  it is up to you to judge whether
        this has happened.

        ffiitt may, and often will get "lost" if started far from a solu-
        tion, where SSR is large and changing slowly as the parameters
        are varied, or it may reach a numerically unstable region
        (e.g., too large a number causing a floating point overflow)
        which results in an "undefined value" message or ggnnuupplloott halt-
        ing.

        To improve the chances of finding the global optimum, you
        should set the starting values at least roughly in the vicinity
        of the solution, e.g., within an order of magnitude, if possi-
        ble.  The closer your starting values are to the solution, the
        less chance of stopping at another minimum.  One way to find
        starting values is to plot data and the fitting function on the
        same graph and change parameter values and rreepplloott until reason-
        able similarity is reached.  The same plot is also useful to
        check whether the fit stopped at a minimum with a poor fit.

        Of course, a reasonably good fit is not proof there is not a
        "better" fit (in either a statistical sense, characterized by
        an improved goodness-of-fit criterion, or a physical sense,
        with a solution more consistent with the model.)  Depending on
        the problem, it may be desirable to ffiitt with various sets of
        starting values, covering a reasonable range for each parame-
        ter.



        2299..77..  TTiippss


        Here are some tips to keep in mind to get the most out of ffiitt.
        They're not very organized, so you'll have to read them several
        times until their essence has sunk in.

        The two forms of the vviiaa argument to ffiitt serve two largely dis-
        tinct purposes.  The vviiaa ""ffiillee"" form is best used for (possibly










   GNUPLOT 4.1                                                       55


        unattended) batch operation, where you just supply the startup
        values in a file and can later use uuppddaattee to copy the results
        back into another (or the same) parameter file.

        The vviiaa vvaarr11,, vvaarr22,, ...... form is best used interactively, where
        the command history mechanism may be used to edit the list of
        parameters to be fitted or to supply new startup values for the
        next try.  This is particularly useful for hard problems, where
        a direct fit to all parameters at once won't work without good
        starting values.  To find such, you can iterate several times,
        fitting only some of the parameters, until the values are close
        enough to the goal that the final fit to all parameters at once
        will work.

        Make sure that there is no mutual dependency among parameters
        of the function you are fitting.  For example, don't try to fit
        a*exp(x+b), because a*exp(x+b)=a*exp(b)*exp(x).  Instead, fit
        either a*exp(x) or exp(x+b).

        A technical issue:  the parameters must not be too different in
        magnitude.  The larger the ratio of the largest and the small-
        est absolute parameter values, the slower the fit will con-
        verge.  If the ratio is close to or above the inverse of the
        machine floating point precision, it may take next to forever
        to converge, or refuse to converge at all.  You will have to
        adapt your function to avoid this, e.g., replace 'parameter' by
        '1e9*parameter' in the function definition, and divide the
        starting value by 1e9.

        If you can write your function as a linear combination of sim-
        ple functions weighted by the parameters to be fitted, by all
        means do so.  That helps a lot, because the problem is no
        longer nonlinear and should converge with only a small number
        of iterations, perhaps just one.

        Some prescriptions for analysing data, given in practical
        experimentation courses, may have you first fit some functions
        to your data, perhaps in a multi-step process of accounting for
        several aspects of the underlying theory one by one, and then
        extract the information you really wanted from the fitting
        parameters of those functions.  With ffiitt, this may often be
        done in one step by writing the model function directly in
        terms of the desired parameters.  Transforming data can also
        quite often be avoided, though sometimes at the cost of a more
        difficult fit problem.  If you think this contradicts the pre-
        vious paragraph about simplifying the fit function, you are
        correct.

        A "singular matrix" message indicates that this implementation
        of the Marquardt-Levenberg algorithm can't calculate parameter
        values for the next iteration.  Try different starting values,
        writing the function in another form, or a simpler function.











   GNUPLOT 4.1                                                       56


        Finally, a nice quote from the manual of another fitting pack-
        age (fudgit), that kind of summarizes all these issues:  "Non-
        linear fitting is an art!"



   3300..  HHeellpp


   The hheellpp command displays on-line help. To specify information on a
   particular topic use the syntax:

         help {<topic>}

   If <topic> is not specified, a short message is printed about ggnnuu--
   pplloott.  After help for the requested topic is given, a menu of
   subtopics is given; help for a subtopic may be requested by typing
   its name, extending the help request.  After that subtopic has been
   printed, the request may be extended again or you may go back one
   level to the previous topic.  Eventually, the ggnnuupplloott command line
   will return.

   If a question mark (?) is given as the topic, the list of topics
   currently available is printed on the screen.



   3311..  HHiissttoorryy


   hhiissttoorryy command lists or saves previous entries in the history of
   the command line editing, or executes an entry.

   Here you find 'usage by examples':

         history               # show the complete history
         history 5             # show last 5 entries in the history
         history quiet 5       # show last 5 entries without entry num-
   bers
         history "hist.gp"     # write the complete history to file
   hist.gp
         history "hist.gp" append # append the complete history to file
   hist.gp
         history 10 "hist.gp"  # write last 10 commands to file hist.gp
         history 10 "|head -5 >>diary.gp" # write 5 history commands
   using pipe
         history ?load         # show all history entries starting with
   "load"
         history ?"set c"      # like above, several words enclosed in
   quotes
         hi !reread            # execute last entry starting with
   "reread"
         hist !"set xr"        # like above, several words enclosed in










   GNUPLOT 4.1                                                       57


   quotes
         hi !hi                # guess yourself :-))

   On systems which support a popen function (Unix), the output of his-
   tory can be piped through an external program by starting the file
   name with a '|', as one of the above examples demonstrates.



   3322..  IIff


   The iiff command allows commands to be executed conditionally.

   Syntax:
         if (<condition>) <command-line> [; else if (<condition>) ...;
   else ...]

   <condition> will be evaluated.  If it is true (non-zero), then the
   command(s) of the <command-line> will be executed.  If <condition>
   is false (zero), then the entire <command-line> is ignored until the
   next occurrence of eellssee.  Note that use of ;; to allow multiple com-
   mands on the same line will _not_ end the conditionalized commands.

   Examples:
         pi=3
         if (pi!=acos(-1)) print "?Fixing pi!"; pi=acos(-1); print pi
   will display:
         ?Fixing pi!
         3.14159265358979
   but
         if (1==2) print "Never see this"; print "Or this either"
   will not display anything.

   else:
         v=0
         v=v+1; if (v%2) print "2" ; else if (v%3) print "3"; else
   print "fred"
   (repeat the last line repeatedly!)

   See rreerreeaadd for an example of how iiff and rreerreeaadd can be used together
   to perform a loop.



   3333..  LLooaadd


   The llooaadd command executes each line of the specified input file as
   if it had been typed in interactively.  Files created by the ssaavvee
   command can later be llooaadded.  Any text file containing valid com-
   mands can be created and then executed by the llooaadd command.  Files
   being llooaadded may themselves contain llooaadd or ccaallll commands.  See










   GNUPLOT 4.1                                                       58


   ccoommmmeennttss for information about comments in commands.  To llooaadd with
   arguments, see ccaallll.

   The llooaadd command _must_ be the last command on a multi-command line.

   Syntax:
         load "<input-file>"

   The name of the input file must be enclosed in quotes.

   The special filename "-" may be used to llooaadd commands from standard
   input.  This allows a ggnnuupplloott command file to accept some commands
   from standard input.  Please see help for bbaattcchh//iinntteerraaccttiivvee for more
   details.

   On some systems which support a popen function (Unix), the load file
   can be read from a pipe by starting the file name with a '<'.

   Examples:
         load 'work.gnu'
         load "func.dat"
         load "< loadfile_generator.sh"

   The llooaadd command is performed implicitly on any file names given as
   arguments to ggnnuupplloott.  These are loaded in the order specified, and
   then ggnnuupplloott exits.



   3344..  LLoowweerr


   Syntax:
         lower {plot_window_nb}

   The lloowweerr command lowers (opposite to rraaiissee) plot window(s) associ-
   ated with the interactive terminal of your gnuplot session, i.e. ppmm,
   wwiinn, wwxxtt or xx1111. It puts the plot window to bottom in the z-order
   windows stack of the window manager of your desktop.

   As xx1111 and wwxxtt support multiple plot windows, then by default they
   lower these windows in descending order of most recently created on
   top to the least recently created on bottom. If a plot number is
   supplied as an optional parameter, only the associated plot window
   will be lowered if it exists.

   The optional parameter is ignored for single plot-window terminals,
   i.e. ppmm and wwiinn.















   GNUPLOT 4.1                                                       59


   3355..  PPaauussee


   The ppaauussee command displays any text associated with the command and
   then waits a specified amount of time or until the carriage return
   is pressed.  ppaauussee is especially useful in conjunction with llooaadd
   files.

   Syntax:
         pause <time> {"<string>"}
         pause mouse {<endcondition>}{, <endcondition>} {"<string>"}

   <time> may be any constant or expression.  Choosing -1 will wait
   until a carriage return is hit, zero (0) won't pause at all, and a
   positive number will wait the specified number of seconds.  The time
   is rounded to an integer number of seconds if subsecond time resolu-
   tion is not supported by the given platform.  ppaauussee 00 is synonymous
   with pprriinntt.

   If the current terminal supports mousing, then ppaauussee mmoouussee will ter-
   minate on either a mouse click or on ctrl-C.  For all other termi-
   nals, or if mousing is not active, ppaauussee mmoouussee is equivalent to
   ppaauussee --11.

   If one or more end conditions are given after ppaauussee mmoouussee, then any
   one of the conditions will terminate the pause. The possible end
   conditions are kkeeyypprreessss, bbuuttttoonn11, bbuuttttoonn22, bbuuttttoonn33, and aannyy.  If the
   pause terminates on a keypress, then the ascii value of the key
   pressed is returned in MOUSE_KEY.  The character itself is returned
   as a one character string in MOUSE_CHAR.

   In all cases the coordinates of the mouse are returned in variables
   MOUSE_X, MOUSE_Y, MOUSE_X2, MOUSE_Y2.  See mmoouussee vvaarriiaabblleess.

   Note: Since ppaauussee communicates with the operating system rather than
   the graphics, it may behave differently with different device driv-
   ers (depending upon how text and graphics are mixed).

   Examples:
         pause -1    # Wait until a carriage return is hit
         pause 3     # Wait three seconds
         pause -1  "Hit return to continue"
         pause 10  "Isn't this pretty?  It's a cubic spline."
         pause mouse "Click any mouse button on selected data point"
         pause mouse keypress "Type a letter from A-F in the active
   window"
         pause mouse button1,keypress
         pause mouse any "Any key or button will terminate"

   The variant "pause mouse key" will resume after any keypress in the
   active plot window. If you want to wait for a particular key to be
   pressed, you can use a reread loop such as:











   GNUPLOT 4.1                                                       60


         printf "I will resume after you hit the Tab key in the plot
   window"
         load "wait_for_tab"

   File "wait_for_tab" contains the lines

         pause mouse key
         if (MOUSE_KEY != 9) reread




   3366..  PPlloott


   pplloott is the primary command for drawing plots with ggnnuupplloott.  It cre-
   ates plots of functions and data in many, many ways.  pplloott is used
   to draw 2-d functions and data; sspplloott draws 2-d projections of 3-d
   surfaces and data.  pplloott and sspplloott contain many common features; see
   sspplloott for differences.  Note specifically that although the bbiinnaarryy
   <<bbiinnaarryy lliisstt>> variation does work for both pplloott and sspplloott, there are
   small differences between these modes.  Furthermore, pplloott's aaxxeess
   option does not exist for sspplloott.

   Syntax:
         plot {<ranges>}
              {<function> | {"<datafile>" {datafile-modifiers}}}
              {axes <axes>} {<title-spec>} {with <style>}
              {, {definitions,} <function> ...}

   where either a <function> or the name of a data file enclosed in
   quotes is supplied.  A function is a mathematical expression or a
   pair of mathematical expressions in parametric mode.  The expres-
   sions may be defined completely or in part earlier in the stream of
   ggnnuupplloott commands (see uusseerr--ddeeffiinneedd).

   It is also possible to define functions and parameters on the pplloott
   command itself.  This is done merely by isolating them from other
   items with commas.

   There are four possible sets of axes available; the keyword <axes>
   is used to select the axes for which a particular line should be
   scaled.  xx11yy11 refers to the axes on the bottom and left; xx22yy22 to
   those on the top and right; xx11yy22 to those on the bottom and right;
   and xx22yy11 to those on the top and left.  Ranges specified on the pplloott
   command apply only to the first set of axes (bottom left).

   Examples:
         plot sin(x)
         plot f(x) = sin(x*a), a = .2, f(x), a = .4, f(x)
         plot [t=1:10] [-pi:pi*2] tan(t), \
              "data.1" using (tan($2)):($3/$4) smooth csplines \
                       axes x1y2 notitle with lines 5










   GNUPLOT 4.1                                                       61


   See also sshhooww pplloott.




        3366..11..  DDaattaa


        Discrete data contained in a file can be displayed by specify-
        ing the name of the data file (enclosed in single or double
        quotes) on the pplloott command line.

        Syntax:
              plot '<file_name>' {binary <binary list>}
                                 {matrix}
                                 {index <index list>}
                                 {every <every list>}
                                 {thru <thru expression>}
                                 {using <using list>}
                                 {smooth <option>}

        The modifiers bbiinnaarryy, iinnddeexx, eevveerryy, tthhrruu, uussiinngg, and ssmmooootthh are
        discussed separately.  In brief, bbiinnaarryy allows data entry from
        a binary file (default is ASCII), iinnddeexx selects which data sets
        in a multi-data-set file are to be plotted, eevveerryy specifies
        which points within a single data set are to be plotted, uussiinngg
        determines how the columns within a single record are to be
        interpreted (tthhrruu is a special case of uussiinngg), and ssmmooootthh
        allows for simple interpolation and approximation.  (sspplloott has
        a similar syntax, but does not support the ssmmooootthh and tthhrruu
        options.)


        ASCII DATA FILES:

        Data files should contain at least one data point per record
        (uussiinngg can select one data point from the record). Records
        beginning with ## (and also with !! on VMS) will be treated as
        comments and ignored.  Each data point represents an (x,y)
        pair. For ppllootts with error bars or error bars with lines (see
        sseett ssttyyllee eerrrroorrbbaarrss or sseett ssttyyllee eerrrroorrlliinneess), each data point
        is (x,y,ydelta), (x,y,ylow,yhigh), (x,y,xdelta),
        (x,y,xlow,xhigh), or (x,y,xlow,xhigh,ylow,yhigh).

        In all cases, the numbers of each record of a data file must be
        separated by white space (one or more blanks or tabs) unless a
        format specifier is provided by the uussiinngg option. This white
        space divides each record into columns. However, whitespace
        inside a pair of double quotes is ignored when counting col-
        umns, so the following datafile line has three columns:
              1.0 "second column" 3.0

        Data may be written in exponential format with the exponent










   GNUPLOT 4.1                                                       62


        preceded by the letter e or E.  The fortran exponential speci-
        ficiers d, D, q, and Q may also be used if the command sseett
        ddaattaaffiillee ffoorrttrraann is in effect.

        Only one column (the y value) need be provided.  If x is omit-
        ted, ggnnuupplloott provides integer values starting at 0.

        In datafiles, blank records (records with no characters other
        than blanks and a newline and/or carriage return) are signifi-
        cant---pairs of blank records separate iinnddeexxes (see pplloott
        ddaattaaffiillee iinnddeexx).  Data separated by double blank records are
        treated as if they were in separate data files.

        Single blank records designate discontinuities in a pplloott; no
        line will join points separated by a blank records (if they are
        plotted with a line style).

        If autoscaling has been enabled (sseett aauuttoossccaallee), the axes are
        automatically extended to include all datapoints, with a whole
        number of tic marks if tics are being drawn.  This has two con-
        sequences: i) For sspplloott, the corner of the surface may not
        coincide with the corner of the base.  In this case, no verti-
        cal line is drawn.  ii) When plotting data with the same x
        range on a dual-axis graph, the x coordinates may not coincide
        if the x2tics are not being drawn.  This is because the x axis
        has been autoextended to a whole number of tics, but the x2
        axis has not.  The following example illustrates the problem:

              reset; plot '-', '-' axes x2y1
              1 1
              19 19
              e
              1 1
              19 19
              e

        To avoid this, you can use the ffiixxmmiinn/ffiixxmmaaxx feature of the sseett
        aauuttoossccaallee command, which turns off the automatic extension of
        the axis range upto the next tic mark.


        BINARY DATA FILES:

        Gnuplot can read binary data files.  However, adequate informa-
        tion about details of the file format must be given on the com-
        mand line or extracted from the file itself for a supported
        binary ffiilleettyyppee.  In particular, there are two structures for
        binary files, a matrix binary format and a general binary for-
        mat.

        The matrix binary format contains a two dimensional array of 32
        bit IEEE float values with an additional column and row of
        coordinate values.  As with ASCII matrix, in the using list,










   GNUPLOT 4.1                                                       63


        repetition of the coordinate row constitutes column 1, repeti-
        tion of the coordinate column constitutes column 2, and the
        array of values constitutes column 3.

        The general binary format contains an arbitrary number of col-
        umns for which information must be specified at the command
        line.  For example, aarrrraayy, rreeccoorrdd, ffoorrmmaatt and uussiinngg can indi-
        cate the size, format and dimension of data.  There are a vari-
        ety of useful commands for skipping file headers and changing
        endianess.  There are a set of commands for positioning and
        translating data since often coordinates are not part of the
        file when uniform sampling is inherent in the data.  Different
        from matrix binary or ASCII, general binary does not treat the
        generated columns as 1, 2 or 3 in the using list.  Rather, col-
        umn 1 begins with column 1 of the file, or as specified in the
        ffoorrmmaatt list.

        There are global default settings for the various binary
        options which may be set using the same syntax as the options
        when used as part of the ((ss))pplloott <<ffiilleennaammee>> bbiinnaarryy ...... command.
        This syntax is sseett ddaattaaffiillee bbiinnaarryy .......  The general rule is
        that common command-line specified parameters override file-
        extracted parameters which override default parameters.

        Matrix binary is the default binary format when no keywords
        specific to general binary are given, i.e., aarrrraayy, rreeccoorrdd, ffoorr--
        mmaatt, ffiilleettyyppee.

        General binary data can be entered at the command line via the
        special file name '-'.  However, this is intended for use
        through a pipe where programs can exchange binary data, not for
        keyboards.  There is no "end of record" character for binary
        data.  Gnuplot continues reading from a pipe until it has read
        the number of points declared in the aarrrraayy qualifier.

        See ddaattaaffiillee bbiinnaarryy for more details.




             3366..11..11..  BBiinnaarryy


             The bbiinnaarryy keyword allows a data file to be binary as
             opposed to ASCII.  There are two formats for
             binary--matrix binary and general binary.  Matrix binary
             is a fixed format in which data appears in a 2D array with
             an extra row and column for coordinate values.  General
             binary is a flexible format for which details about the
             file must be given at the command line.

             See bbiinnaarryy mmaattrriixx or bbiinnaarryy ggeenneerraall for more details.











   GNUPLOT 4.1                                                       64


             3366..11..22..  BBiinnaarryy ggeenneerraall


             General binary data in which format information is not
             necessarily part of the file can be read by giving further
             details about the file format at the command line.
             Although the syntax is slightly arcane to the casual user,
             general binary is particularly useful for application pro-
             grams using gnuplot and sending large amounts of data.

             Syntax:
                   plot '<file_name>' {binary <binary list>} ...
                   splot '<file_name>' {binary <binary list>} ...

             General binary format is activated by keywords in <binary
             list> pertaining to information about file structure,
             i.e., aarrrraayy, rreeccoorrdd, ffoorrmmaatt or ffiilleettyyppee.  Otherwise,
             matrix binary format is assumed.  (See bbiinnaarryy mmaattrriixx for
             more details.)

             There are some standard file types that may be read for
             which details about the binary format may be extracted
             automatically.  (Type sshhooww ddaattaaffiillee bbiinnaarryy at the command
             line for a list.)  Otherwise, details must be specified at
             the command line or set in the defaults.  Keywords are
             described below.

             The keyword ffiilleettyyppee in <binary list> controls the routine
             used to read the file, i.e., the format of the data.  For
             a list of the supported file types, type sshhooww ddaattaaffiillee
             bbiinnaarryy ffiilleettyyppeess.  If no file type is given, the rule is
             that traditional gnuplot binary is assumed for sspplloott if
             the bbiinnaarryy keyword stands alone.  In all other circum-
             stances, for pplloott or when one of the <binary list> key-
             words appears, a raw binary file is assumed whereby the
             keywords specify the binary format.

             General binary data files fall into two basic classes, and
             some files may be of both classes depending upon how they
             are treated.  There is that class for which uniform sam-
             pling is assumed and point coordinates must be generated.
             This is the class for which full control via the <binary
             list> keywords applies.  For this class, the settings
             precedence is that command line parameters override in-
             file parameters, which override default settings.  The
             other class is that set of files for which coordinate
             information is contained within the file or there is pos-
             sibly a non-uniform sampling such as gnuplot binary.

             Other than for the unique data files such as gnuplot
             binary, one should think of binary data as conceptually
             the same as ASCII data.  Each point has columns of infor-
             mation which are selected via the <<uussiinngg lliisstt>> associated










   GNUPLOT 4.1                                                       65


             with uussiinngg.  When no ffoorrmmaatt string is specified, gnuplot
             will retrieve a number of binary variables equal to the
             largest column given in the <<uussiinngg lliisstt>>.  For example,
             uussiinngg 11::33 will result in three columns being read, of
             which the second will be ignored.  There are default using
             lists based upon the typical number of parameters associ-
             ated with a certain plot type.  For example, wwiitthh iimmaaggee
             has a default of uussiinngg 11, while wwiitthh rrggbbiimmaaggee has a
             default of uussiinngg 11::22::33.  Note that the special characters
             for uussiinngg representing point/line/index generally should
             not be used for binary data.  There are keywords in
             <binary list> that control this.




                  3366..11..22..11..  AArrrraayy


                  Describes the sampling array dimensions associated
                  with the binary file.  The coordinates will be gener-
                  ated by gnuplot.  A number must be specified for each
                  dimension, thereby calling out the size of the array.
                  For example, aarrrraayy==1100xx2200 means the underlying sam-
                  pling structure is two-dimensional with 10 points
                  along the first (x) dimension and 20 points along the
                  second (y) dimension.  A special "number", IInnff, can
                  be used to indicate that data should be read until
                  the end of file.  A colon can be used to separate the
                  dimensions for multiple records.  For example,
                  aarrrraayy==2255::3355 indicates there are two one-dimensional
                  records within the file.  The colon behavior applies
                  to the remaining keywords in this list for which it
                  makes sense to be associated with individual records.

                  Currently, syntax allows for up to three-dimensional
                  arrays.  However, no conventions have yet been made
                  for handling three-dimensional coordinates.



                  3366..11..22..22..  RReeccoorrdd


                  This keyword serves the same function as aarrrraayy, hav-
                  ing the same syntax.  However, rreeccoorrdd causes gnuplot
                  to not generate coordinate information.  This is for
                  the case where such information may be included in
                  one of the columns of the binary data file.














   GNUPLOT 4.1                                                       66


                  3366..11..22..33..  FFoorrmmaatt


                  The default binary format is a float.  For more flex-
                  ibility, the format can include details about vari-
                  able sizes.  For example, ffoorrmmaatt==""%%uucchhaarr%%iinntt%%ffllooaatt""
                  associates an unsigned character with the first using
                  column, an int with the second column and a float
                  with the third column.  If the number of size speci-
                  fications is less than the greatest column number,
                  the size is implicitly taken to be similar to the
                  last given variable size.

                  Furthermore, the format specification can include
                  "discarded" terms via the ** character.  For example,
                  to skip the middle column of the previous example,
                  one could write ffoorrmmaatt==""%%uucchhaarr%%**iinntt%%ffllooaatt"" and gnu-
                  plot will discard the middle integer.  To list vari-
                  able sizes, type sshhooww ddaattaaffiillee bbiinnaarryy ddaattaassiizzeess.
                  There are a group of names that are machine dependent
                  along with their sizes in bytes for the particular
                  compilation.  There is also a group of names which
                  attempt to be machine independent.



                  3366..11..22..44..  EEnnddiiaann


                  Often the endianess of binary data in the file does
                  not agree with the endianess used by the platform on
                  which gnuplot is running.  Several words can direct
                  gnuplot how to arrange bytes.  For example
                  eennddiiaann==lliittttllee means treat the binary file as having
                  byte significance from least to greatest. The options
                  are

                                little:  least significant to greatest
                  significance
                                   big:  greatest significance to least
                  significance
                               default:  assume file endianess is the
                  same as compiler
                           swap (swab):  Interchange the significance.
                  (If things
                                         don't look right, try this.)

                  Gnuplot can support "middle" ("pdp") endian if it is
                  compiled with that option.














   GNUPLOT 4.1                                                       67


                  3366..11..22..55..  FFiilleettyyppee


                  For some standard binary file formats gnuplot can
                  extract all the necessary information from the file
                  in question.  As an example, "format=edf" will read
                  ESRF Header File format files.  For a list of the
                  currently supported file formats, type sshhooww ddaattaaffiillee
                  bbiinnaarryy ffiilleettyyppeess.

                  There is a special file type called aauuttoo for which
                  gnuplot will check if the binary file's extension is
                  a quasi-standard extension for a supported format.

                  Command line keywords may be used to override set-
                  tings extracted from the file.  The settings from the
                  file override any defaults.  (See sseett ddaattaaffiillee bbiinnaarryy
                  for details.)




                       3366..11..22..55..11..  AAvvss


                       aavvss is one of the automatically recognized
                       binary file types for images.  AVS is an
                       extremely simple format, suitable mostly for
                       streaming between applications. It consists of 2
                       longs (xwidth, ywidth) followed by a stream of
                       pixels, each with four bytes of information
                       alpha/red/green/blue.



                       3366..11..22..55..22..  EEddff


                       eeddff is one of the automatically recognized
                       binary file types for images.  EDF stands for
                       ESRF Data Format, and it supports both edf and
                       ehf formats (the latter means ESRF Header For-
                       mat).  More information on specifications can be
                       found at

                         http://www.esrf.fr/computing/expg/sub-
                       groups/general/format/Format.html

                       See also bbiinnaarryy.














   GNUPLOT 4.1                                                       68


                  3366..11..22..66..  KKeeyywwoorrddss


                  The following keywords apply only when generating
                  coordinates.  That is, when the keyword aarrrraayy is
                  used.




                       3366..11..22..66..11..  SSccaann


                       A great deal of confusion can arise concerning
                       the relationship between how gnuplot scans a
                       binary file and the dimensions seen on the plot.
                       To lessen the confusion, conceptually think of
                       gnuplot _always_ scanning the binary file
                       point/line/plane or fast/medium/slow.  Then this
                       keyword is used to tell gnuplot how to map this
                       scanning convention to the Cartesian convention
                       shown in plots, i.e., x/y/z.  The qualifier for
                       scan is a two or three letter code representing
                       where point is assigned (first letter), line is
                       assigned (second letter), and plane is assigned
                       (third letter).  For example, ssccaann==yyxx means the
                       fastest, point-by-point, increment should be
                       mapped along the Cartesian y dimension and the
                       middle, line-by-line, increment should be mapped
                       along the x dimension.

                       When the plotting mode is pplloott, the qualifier
                       code can include the two letters x and y.  For
                       sspplloott, it can include the three letters x, y and
                       z.

                       There is nothing restricting the inherent map-
                       ping from point/line/plane to apply only to
                       Cartesian coordinates.  For this reason there
                       are cylindrical coordinate synonyms for the
                       qualifier codes where t (theta), r and z are
                       analogous to the x, y and z of Cartesian coordi-
                       nates.



                       3366..11..22..66..22..  TTrraannssppoossee


                       Shorthand notation for ssccaann==yyxx or ssccaann==yyxxzz.













   GNUPLOT 4.1                                                       69


                       3366..11..22..66..33..  DDxx,, ddyy,, ddzz


                       When gnuplot generates coordinates, it uses the
                       spacing described by these keywords.  For exam-
                       ple ddxx==1100 ddyy==2200 would mean space samples along
                       the x dimension by 10 and space samples along
                       the y dimension by 20.  ddyy cannot appear if ddxx
                       does not appear.  Similarly, ddzz cannot appear if
                       ddyy does not appear.  If the underlying dimen-
                       sions are greater than the keywords specified,
                       the spacing of the highest dimension given is
                       extended to the other dimensions.  For example,
                       if an image is being read from a file and only
                       ddxx==33..55 is given gnuplot uses a delta x and delta
                       y of 3.5.

                       The following keywords also apply only when gen-
                       erating coordinates.  However they may also be
                       used with matrix binary files.



                       3366..11..22..66..44..  FFlliippxx,, fflliippyy,, fflliippzz


                       Sometimes the scanning directions in a binary
                       datafile are not consistent with that assumed by
                       gnuplot.  These keywords can flip the scanning
                       direction along dimensions x, y, z.



                       3366..11..22..66..55..  OOrriiggiinn


                       When gnuplot generates coordinates based upon
                       transposition and flip, it attempts to always
                       position the lower left point in the array at
                       the origin, i.e., the data lies in the first
                       quadrant of a Cartesian system after transpose
                       and flip.

                       To position the array somewhere else on the
                       graph, the oorriiggiinn keyword directs gnuplot to
                       position the lower left point of the array at a
                       point specified by a tuple.  The tuple should be
                       a double for pplloott and a triple for sspplloott.  For
                       example, oorriiggiinn==((110000,,110000))::((110000,,220000)) is for two
                       records in the file and intended for plotting in
                       two dimensions. A second example, oorrii--
                       ggiinn==((00,,00,,33..55)), is for plotting in three dimen-
                       sions.










   GNUPLOT 4.1                                                       70


                       3366..11..22..66..66..  CCeenntteerr


                       Similar to oorriiggiinn, this keyword will position
                       the array such that its center lies at the point
                       given by the tuple.  For example, cceenntteerr==((00,,00)).
                       Center does not apply when the size of the array
                       is IInnff.



                       3366..11..22..66..77..  RRoottaattee


                       The transpose and flip commands provide some
                       flexibility in generating and orienting coordi-
                       nates.  However, for full degrees of freedom, it
                       is possible to apply a rotational vector
                       described by a rotational angle in two dimen-
                       sions.

                       The rroottaattee keyword applies to the two-dimen-
                       sional plane, whether it be pplloott or sspplloott.  The
                       rotation is done with respect to the positive
                       angle of the Cartesian plane.

                       The angle can be expressed in radians, radians
                       as a multiple of pi, or degrees.  For example,
                       rroottaattee==11..55770088, rroottaattee==00..55ppii and rroottaattee==9900ddeegg are
                       equivalent.

                       If oorriiggiinn is specified, the rotation is done
                       about the lower left sample point before trans-
                       lation.  Otherwise, the rotation is done about
                       the array cceenntteerr.



                       3366..11..22..66..88..  PPeerrppeennddiiccuullaarr


                       For sspplloott, the concept of a rotational vector is
                       implemented by a triple representing the vector
                       to be oriented normal to the two-dimensional x-y
                       plane.  Naturally, the default is (0,0,1).  Thus
                       specifying both rotate and perpendicular
                       together can orient data myriad ways in three-
                       space.

                       The two-dimensional rotation is done first, fol-
                       lowed by the three-dimensional rotation.  That
                       is, if R' is the rotational 2 x 2 matrix
                       described by an angle, and P is the 3 x 3 matrix










   GNUPLOT 4.1                                                       71


                       projecting (0,0,1) to (xp,yp,zp), let R be con-
                       structed from R' at the upper left sub-matrix, 1
                       at element 3,3 and zeros elsewhere.  Then the
                       matrix formula for translating data is v' = P R
                       v, where v is the 3 x 1 vector of data extracted
                       from the data file.  In cases where the data of
                       the file is inherently not three-dimensional,
                       logical rules are used to place the data in
                       three-space.  (E.g., usually setting the z-
                       dimension value to zero and placing 2D data in
                       the x-y plane.)



                  3366..11..22..77..  BBiinnaarryy eexxaammpplleess


                  Examples:

                        # Selects two float values (second one
                  implicit) with a float value
                        # discarded between them for an indefinite
                  length of 1D data.
                        plot '<file_name>' binary for-
                  mat="%float%*float" using 1:2 with lines

                        # The data file header contains all details
                  necessary for creating
                        # coordinates from an EDF file.
                        plot '<file_name>' binary filetype=edf with
                  image
                        plot '<file_name>.edf' binary filetype=auto
                  with image

                        # Selects three unsigned characters for compo-
                  nents of a raw RGB image
                        # and flips the y-dimension so that typical
                  image orientation (start
                        # at top left corner) translates to the Carte-
                  sian plane.  Pixel
                        # spacing is given and there are two images in
                  the file.  One of them
                        # is translated via origin.
                        plot '<file_name>' binary
                  array=512x1024:1024x512 format='%uchar' \
                             dx=2:1 dy=1:2 origin=(0,0):(1024,1024)
                  flipy u 1:2:3 w rgbimage

                        # Four separate records in which the coordi-
                  nates are part of the
                        # data file.  The file was created with a endi-
                  aness different from
                        # the system on which gnuplot is running.










   GNUPLOT 4.1                                                       72


                        splot '<file_name>' binary record=30:30:29:26
                  endian=swap u 1:2:3

                  See also bbiinnaarryy mmaattrriixx.



             3366..11..33..  EEvveerryy


             The eevveerryy keyword allows a periodic sampling of a data set
             to be plotted.

             In the discussion a "point" is a datum defined by a single
             record in the file; "block" here will mean the same thing
             as "datablock" (see gglloossssaarryy).

             Syntax:
                   plot 'file' every {<point_incr>}
                                       {:{<block_incr>}
                                         {:{<start_point>}
                                           {:{<start_block>}
                                             {:{<end_point>}
                                               {:<end_block>}}}}}

             The data points to be plotted are selected according to a
             loop from <ssttaarrtt__ppooiinntt> to <eenndd__ppooiinntt> with increment
             <ppooiinntt__iinnccrr> and the blocks according to a loop from
             <ssttaarrtt__bblloocckk> to <eenndd__bblloocckk> with increment <bblloocckk__iinnccrr>.

             The first datum in each block is numbered '0', as is the
             first block in the file.

             Note that records containing unplottable information are
             counted.

             Any of the numbers can be omitted; the increments default
             to unity, the start values to the first point or block,
             and the end values to the last point or block.  If eevveerryy
             is not specified, all points in all lines are plotted.

             Examples:
                   every :::3::3    # selects just the fourth block
             ('0' is first)
                   every :::::9     # selects the first 10 blocks
                   every 2:2        # selects every other point in
             every other block
                   every ::5::15    # selects points 5 through 15 in
             each block

             See simple plot demos (simple.dem) , Non-parametric splot
             demos , and Parametric splot demos .











   GNUPLOT 4.1                                                       73


             3366..11..44..  EExxaammppllee ddaattaaffiillee


             This example plots the data in the file "population.dat"
             and a theoretical curve:

                   pop(x) = 103*exp((1965-x)/10)
                   plot [1960:1990] 'population.dat', pop(x)

             The file "population.dat" might contain:

                   # Gnu population in Antarctica since 1965
                      1965   103
                      1970   55
                      1975   34
                      1980   24
                      1985   10




             3366..11..55..  IInnddeexx


             The iinnddeexx keyword allows only some of the data sets in a
             multi-data-set file to be plotted.

             Syntax:
                   plot 'file' index <m>{{:<n>}:<p>}

             Data sets are separated by pairs of blank records.  iinnddeexx
             <<mm>> selects only set <m>; iinnddeexx <<mm>>::<<nn>> selects sets in
             the range <m> to <n>; and iinnddeexx <<mm>>::<<nn>>::<<pp>> selects
             indices <m>, <m>+<p>, <m>+2<p>, etc., but stopping at <n>.
             Following C indexing, the index 0 is assigned to the first
             data set in the file.  Specifying too large an index
             results in an error message.  If iinnddeexx is not specified,
             all sets are plotted as a single data set.

             Example:
                   plot 'file' index 4:5




             3366..11..66..  SSmmooootthh


             ggnnuupplloott includes a few general-purpose routines for inter-
             polation and approximation of data; these are grouped
             under the ssmmooootthh option.  More sophisticated data process-
             ing may be performed by preprocessing the data externally
             or by using ffiitt with an appropriate model.










   GNUPLOT 4.1                                                       74


             Syntax:
                   smooth {unique | frequency | csplines | acsplines |
             bezier | sbezier}

             uunniiqquuee and ffrreeqquueennccyy plot the data after making them mono-
             tonic.  Each of the other routines uses the data to deter-
             mine the coefficients of a continuous curve between the
             endpoints of the data.  This curve is then plotted in the
             same manner as a function, that is, by finding its value
             at uniform intervals along the abscissa (see sseett ssaammpplleess)
             and connecting these points with straight line segments
             (if a line style is chosen).

             If aauuttoossccaallee is in effect, the ranges will be computed
             such that the plotted curve lies within the borders of the
             graph.

             If aauuttoossccaallee is not in effect, and the smooth option is
             either aaccsspplliinnee or ccsspplliinnee, the sampling of the generated
             curve is done across the intersection of the x range cov-
             ered by the input data and the fixed abscissa range as
             defined by sseett xxrraannggee.

             If too few points are available to allow the selected
             option to be applied, an error message is produced.  The
             minimum number is one for uunniiqquuee and ffrreeqquueennccyy, four for
             aaccsspplliinneess, and three for the others.

             The ssmmooootthh options have no effect on function plots.




                  3366..11..66..11..  AAccsspplliinneess


                  The aaccsspplliinneess option approximates the data with a
                  "natural smoothing spline".  After the data are made
                  monotonic in x (see ssmmooootthh uunniiqquuee), a curve is piece-
                  wise constructed from segments of cubic polynomials
                  whose coefficients are found by the weighting the
                  data points; the weights are taken from the third
                  column in the data file.  That default can be modi-
                  fied by the third entry in the uussiinngg list, e.g.,
                        plot 'data-file' using 1:2:(1.0) smooth
                  acsplines

                  Qualitatively, the absolute magnitude of the weights
                  determines the number of segments used to construct
                  the curve.  If the weights are large, the effect of
                  each datum is large and the curve approaches that
                  produced by connecting consecutive points with natu-
                  ral cubic splines.  If the weights are small, the










   GNUPLOT 4.1                                                       75


                  curve is composed of fewer segments and thus is
                  smoother; the limiting case is the single segment
                  produced by a weighted linear least squares fit to
                  all the data.  The smoothing weight can be expressed
                  in terms of errors as a statistical weight for a
                  point divided by a "smoothing factor" for the curve
                  so that (standard) errors in the file can be used as
                  smoothing weights.

                  Example:
                        sw(x,S)=1/(x*x*S)
                        plot 'data_file' using 1:2:(sw($3,100)) smooth
                  acsplines



                  3366..11..66..22..  BBeezziieerr


                  The bbeezziieerr option approximates the data with a Bezier
                  curve of degree n (the number of data points) that
                  connects the endpoints.



                  3366..11..66..33..  CCsspplliinneess


                  The ccsspplliinneess option connects consecutive points by
                  natural cubic splines after rendering the data mono-
                  tonic (see ssmmooootthh uunniiqquuee).



                  3366..11..66..44..  SSbbeezziieerr


                  The ssbbeezziieerr option first renders the data monotonic
                  (uunniiqquuee) and then applies the bbeezziieerr algorithm.



                  3366..11..66..55..  UUnniiqquuee


                  The uunniiqquuee option makes the data monotonic in x;
                  points with the same x-value are replaced by a single
                  point having the average y-value.  The resulting
                  points are then connected by straight line segments.
                  demos













   GNUPLOT 4.1                                                       76


                  3366..11..66..66..  FFrreeqquueennccyy


                  The ffrreeqquueennccyy option makes the data monotonic in x;
                  points with the same x-value are replaced by a single
                  point having the summed y-values.  The resulting
                  points are then connected by straight line segments.



             3366..11..77..  SSppeecciiaall--ffiilleennaammeess


             A special filename of ''--'' specifies that the data are
             inline; i.e., they follow the command.  Only the data fol-
             low the command; pplloott options like filters, titles, and
             line styles remain on the pplloott command line.  This is sim-
             ilar to << in unix shell script, and $DECK in VMS DCL.
             The data are entered as though they are being read from a
             file, one data point per record.  The letter "e" at the
             start of the first column terminates data entry.  The
             uussiinngg option can be applied to these data---using it to
             filter them through a function might make sense, but
             selecting columns probably doesn't!

             ''--'' is intended for situations where it is useful to have
             data and commands together, e.g., when ggnnuupplloott is run as a
             sub-process of some front-end application.  Some of the
             demos, for example, might use this feature.  While pplloott
             options such as iinnddeexx and eevveerryy are recognized, their use
             forces you to enter data that won't be used.  For example,
             while

                   plot '-' index 0, '-' index 1
                   2
                   4
                   6


                   10
                   12
                   14
                   e
                   2
                   4
                   6


                   10
                   12
                   14
                   e











   GNUPLOT 4.1                                                       77


             does indeed work,

                   plot '-', '-'
                   2
                   4
                   6
                   e
                   10
                   12
                   14
                   e

             is a lot easier to type.

             If you use ''--'' with rreepplloott, you may need to enter the data
             more than once (see rreepplloott).

             A blank filename ('') specifies that the previous filename
             should be reused.  This can be useful with things like

                   plot 'a/very/long/filename' using 1:2, '' using 1:3,
             '' using 1:4

             (If you use both ''--'' and '''' on the same pplloott command,
             you'll need to have two sets of inline data, as in the
             example above.)

             On some computer systems with a popen function (Unix), the
             datafile can be piped through a shell command by starting
             the file name with a '<'.  For example,

                   pop(x) = 103*exp(-x/10)
                   plot "< awk '{print $1-1965, $2}' population.dat",
             pop(x)

             would plot the same information as the first population
             example but with years since 1965 as the x axis.  If you
             want to execute this example, you have to delete all com-
             ments from the data file above or substitute the following
             command for the first part of the command above (the part
             up to the comma):

                   plot "< awk '$0 !~ /^#/ {print $1-1965, $2}' popula-
             tion.dat"

             While this approach is most flexible, it is possible to
             achieve simple filtering with the uussiinngg or tthhrruu keywords.
















   GNUPLOT 4.1                                                       78


             3366..11..88..  TThhrruu


             The tthhrruu function is provided for backward compatibility.

             Syntax:
                   plot 'file' thru f(x)

             It is equivalent to:

                   plot 'file' using 1:(f($2))

             While the latter appears more complex, it is much more
             flexible.  The more natural

                   plot 'file' thru f(y)

             also works (i.e. you can use y as the dummy variable).

             tthhrruu is parsed for sspplloott and ffiitt but has no effect.



             3366..11..99..  UUssiinngg


             The most common datafile modifier is uussiinngg.

             Syntax:
                   plot 'file' using {<entry> {:<entry> {:<entry>
             ...}}} {'format'}

             If a format is specified, each datafile record is read
             using the C library's 'scanf' function, with the specified
             format string.  Otherwise the record is read and broken
             into columns at spaces or tabs.  A format cannot be speci-
             fied this way for time-format data (instead use sseett xxddaattaa
             ttiimmee).

             The resulting array of data is then sorted into columns
             according to the entries.  Each <entry> may be a simple
             column number, which selects the datum, an expression
             enclosed in parentheses, or empty.  The expression can use
             $1 to access the first item read, $2 for the second item,
             and so on.  It can also use ccoolluummnn((xx)) and vvaalliidd((xx)) where x
             is an arbitrary expression resulting in an integer.  ccooll--
             uummnn((xx)) returns the x'th datum; vvaalliidd((xx)) tests that the
             datum in the x'th column is a valid number.  A column num-
             ber of 0 generates a number increasing (from zero) with
             each point, and is reset upon encountering two blank
             records.  A column number of -1 gives the dataline number,
             which starts at 0, increments at single blank records, and
             is reset at double blank records.  A column number of -2










   GNUPLOT 4.1                                                       79


             gives the index number, which is incremented only when two
             blank records are found.  An empty <entry> will default to
             its order in the list of entries.  For example, uussiinngg ::::44
             is interpreted as uussiinngg 11::22::44.

             N.B.---the ccaallll command also uses $'s as a special charac-
             ter.  See ccaallll for details about how to include a column
             number in a ccaallll argument list.

             If the uussiinngg list has but a single entry, that <entry>
             will be used for y and the data point number is used for
             x; for example, "pplloott ''ffiillee'' uussiinngg 11" is identical to
             "pplloott ''ffiillee'' uussiinngg 00::11".  If the uussiinngg list has two
             entries, these will be used for x and y.  Additional
             entries are usually errors in x and/or y.  See sseett ssttyyllee
             for details about plotting styles that make use of error
             information, and ffiitt for use of error information in curve
             fitting.

             'scanf' accepts several numerical specifications but ggnnuu--
             pplloott requires all inputs to be double-precision floating-
             point variables, so "%lf" is essentially the only permis-
             sible specifier.  A format string given by the user must
             contain at least one such input specifier, and no more
             than seven of them.  'scanf' expects to see white
             space---a blank, tab ("\t"), newline ("\n"), or formfeed
             ("\f")---between numbers; anything else in the input
             stream must be explicitly skipped.

             Note that the use of "\t", "\n", or "\f" requires use of
             double-quotes rather than single-quotes.

             Examples:

             This creates a plot of the sum of the 2nd and 3rd data
             against the first: The format string specifies comma-
             rather than space-separated columns.  The same result
             could be achieved by specifying sseett ddaattaaffiillee sseeppaarraattoorr
             "",,"".
                   plot 'file' using 1:($2+$3) '%lf,%lf,%lf'

             In this example the data are read from the file "MyData"
             using a more complicated format:
                   plot 'MyData' using "%*lf%lf%*20[^\n]%lf"

             The meaning of this format is:

                   %*lf        ignore a number
                   %lf         read a double-precision number (x by
             default)
                   %*20[^\n]   ignore 20 non-newline characters
                   %lf         read a double-precision number (y by
             default)










   GNUPLOT 4.1                                                       80


             One trick is to use the ternary ??:: operator to filter
             data:

                   plot 'file' using 1:($3>10 ? $2 : 1/0)

             which plots the datum in column two against that in column
             one provided the datum in column three exceeds ten.  11//00
             is undefined; ggnnuupplloott quietly ignores undefined points, so
             unsuitable points are suppressed.

             In fact, you can use a constant expression for the column
             number, provided it doesn't start with an opening paren-
             thesis; constructs like uussiinngg 00++((ccoommpplliiccaatteedd eexxpprreessssiioonn))
             can be used.  The crucial point is that the expression is
             evaluated once if it doesn't start with a left parenthe-
             sis, or once for each data point read if it does.

             If timeseries data are being used, the time can span mul-
             tiple columns.  The starting column should be specified.
             Note that the spaces within the time must be included when
             calculating starting columns for other data.  E.g., if the
             first element on a line is a time with an embedded space,
             the y value should be specified as column three.

             It should be noted that pplloott ''ffiillee'', pplloott ''ffiillee'' uussiinngg
             11::22, and pplloott ''ffiillee'' uussiinngg (($$11))::(($$22)) can be subtly differ-
             ent: 1) if ffiillee has some lines with one column and some
             with two, the first will invent x values when they are
             missing, the second will quietly ignore the lines with one
             column, and the third will store an undefined value for
             lines with one point (so that in a plot with lines, no
             line joins points across the bad point); 2) if a line con-
             tains text at the first column, the first will abort the
             plot on an error, but the second and third should quietly
             skip the garbage.

             In fact, it is often possible to plot a file with lots of
             lines of garbage at the top simply by specifying

                   plot 'file' using 1:2

             However, if you want to leave text in your data files, it
             is safer to put the comment character (#) in the first
             column of the text lines.  Feeble using demos.

             If gnuplot is built with configuration option --enable-
             datastrings, then additional modifiers to uussiinngg can spec-
             ify handling of text fields in the datafile. See ddaattaass--
             ttrriinnggss, uussiinngg xxttiiccllaabbeellss, uussiinngg ttiittllee.














   GNUPLOT 4.1                                                       81


                  3366..11..99..11..  UUssiinngg ttiittllee


                  If gnuplot is built with configuration option
                  --enable-datastrings, then the first entry of a col-
                  umn of the input data file can be used as a string to
                  provide the plot title in the key box.  The column
                  containing specified is independent of the column[s]
                  used for the plot itself.

                     plot 'data' using 1:($2/$3) title column(N)

                  In this case the entry in the first row of column N
                  will be used for the key entry of the plot con-
                  structed from dividing column 2 by column 3.  The
                  entry in the first row of columns 2 and 3 will be
                  ignored.




                  3366..11..99..22..  XXttiiccllaabbeellss


                  If gnuplot is built with configuration option
                  --enable-datastrings, then a column of the input data
                  file can be used to label axis tic marks.  The format
                  of such a plot command is

                    plot 'datafile' using <xcol>:<ycol>:xticla-
                  bels(<labelcol>) with <plotstyle>

                  Tic labels may be read for any of the plot axes: x x2
                  y y2 z.  The ttiiccllaabbeellss((<<llaabbeellccooll>>)) specifiers must
                  come after all of the data coordinate specifiers in
                  the uussiinngg portion of the command.  For each data
                  point which has a valid set of X,Y[,Z] coordinates,
                  the text field found in column <labelcol> is added to
                  the list of xtic labels at the same X coordinate as
                  the point it belongs to. xxttiiccllaabbeellss((<<llaabbeellccooll>>)) may
                  be shortened to xxttiicc((<<llaabbeellccooll>>)).

                  Example:

                        splot "data" using
                  2:4:6:xtic(1):ytic(3):ztic(6)

                  In this example the x and y axis tic labels are taken
                  from different columns than the x and y coordinate
                  values. The z axis tics, however, are generated from
                  the z coordinate of the corresponding point.












   GNUPLOT 4.1                                                       82


                  3366..11..99..33..  XX22ttiiccllaabbeellss


                  See pplloott uussiinngg xxttiiccllaabbeellss.



                  3366..11..99..44..  YYttiiccllaabbeellss


                  See pplloott uussiinngg xxttiiccllaabbeellss.



                  3366..11..99..55..  YY22ttiiccllaabbeellss


                  See pplloott uussiinngg xxttiiccllaabbeellss.



                  3366..11..99..66..  ZZttiiccllaabbeellss


                  See pplloott uussiinngg xxttiiccllaabbeellss.



        3366..22..  EErrrroorrbbaarrss


        Error bars are supported for 2-d data file plots by reading one
        to four additional columns (or uussiinngg entries); these additional
        values are used in different ways by the various errorbar
        styles.

        In the default situation, ggnnuupplloott expects to see three, four,
        or six numbers on each line of the data file---either

              (x, y, ydelta),
              (x, y, ylow, yhigh),
              (x, y, xdelta),
              (x, y, xlow, xhigh),
              (x, y, xdelta, ydelta), or
              (x, y, xlow, xhigh, ylow, yhigh).

        The x coordinate must be specified.  The order of the numbers
        must be exactly as given above, though the uussiinngg qualifier can
        manipulate the order and provide values for missing columns.
        For example,

              plot 'file' with errorbars
              plot 'file' using 1:2:(sqrt($1)) with xerrorbars










   GNUPLOT 4.1                                                       83


              plot 'file' using 1:2:($1-$3):($1+$3):4:5 with xyerror-
        bars

        The last example is for a file containing an unsupported combi-
        nation of relative x and absolute y errors.  The uussiinngg entry
        generates absolute x min and max from the relative error.

        The y error bar is a vertical line plotted from (x, ylow) to
        (x, yhigh). If ydelta is specified instead of ylow and yhigh,
        ylow = y - ydelta and yhigh = y + ydelta are derived. If there
        are only two numbers on the record, yhigh and ylow are both set
        to y. The x error bar is a horizontal line computed in the same
        fashion. To get lines plotted between the data points, pplloott the
        data file twice, once with errorbars and once with lines (but
        remember to use the nnoottiittllee option on one to avoid two entries
        in the key). Alternately, use the errorlines command (see
        eerrrroorrlliinneess).

        The error bars have crossbars at each end unless sseett bbaarrss is
        used (see sseett bbaarrss for details).

        If autoscaling is on, the ranges will be adjusted to include
        the error bars.

        See also errorbar demos.

        See pplloott uussiinngg, pplloott wwiitthh, and sseett ssttyyllee for more information.



        3366..33..  EErrrroorrlliinneess


        Lines with error bars are supported for 2-d data file plots by
        reading one to four additional columns (or uussiinngg entries);
        these additional values are used in different ways by the vari-
        ous errorlines styles.

        In the default situation, ggnnuupplloott expects to see three, four,
        or six numbers on each line of the data file---either

              (x, y, ydelta),
              (x, y, ylow, yhigh),
              (x, y, xdelta),
              (x, y, xlow, xhigh),
              (x, y, xdelta, ydelta), or
              (x, y, xlow, xhigh, ylow, yhigh).

        The x coordinate must be specified. The order of the numbers
        must be exactly as given above, though the uussiinngg qualifier can
        manipulate the order and provide values for missing columns.
        For example,











   GNUPLOT 4.1                                                       84


              plot 'file' with errorlines
              plot 'file' using 1:2:(sqrt($1)) with xerrorlines
              plot 'file' using 1:2:($1-$3):($1+$3):4:5 with xyerror-
        lines

        The last example is for a file containing an unsupported combi-
        nation of relative x and absolute y errors. The uussiinngg entry
        generates absolute x min and max from the relative error.

        The y error bar is a vertical line plotted from (x, ylow) to
        (x, yhigh). If ydelta is specified instead of ylow and yhigh,
        ylow = y - ydelta and yhigh = y + ydelta are derived. If there
        are only two numbers on the record, yhigh and ylow are both set
        to y. The x error bar is a horizontal line computed in the same
        fashion.

        The error bars have crossbars at each end unless sseett bbaarrss is
        used (see sseett bbaarrss for details).

        If autoscaling is on, the ranges will be adjusted to include
        the error bars.

        See pplloott uussiinngg, pplloott wwiitthh, and sseett ssttyyllee for more information.



        3366..44..  PPaarraammeettrriicc


        When in parametric mode (sseett ppaarraammeettrriicc) mathematical expres-
        sions must be given in pairs for pplloott and in triplets for
        sspplloott.

        Examples:
              plot sin(t),t**2
              splot cos(u)*cos(v),cos(u)*sin(v),sin(u)

        Data files are plotted as before, except any preceding paramet-
        ric function must be fully specified before a data file is
        given as a plot.  In other words, the x parametric function
        (ssiinn((tt)) above) and the y parametric function (tt****22 above) must
        not be interrupted with any modifiers or data functions; doing
        so will generate a syntax error stating that the parametric
        function is not fully specified.

        Other modifiers, such as wwiitthh and ttiittllee, may be specified only
        after the parametric function has been completed:

              plot sin(t),t**2 title 'Parametric example' with lines-
        points

        See also Parametric Mode Demos.











   GNUPLOT 4.1                                                       85


        3366..55..  RRaannggeess


        The optional ranges specify the region of the graph that will
        be displayed.

        Syntax:
              [{<dummy-var>=}{{<min>}:{<max>}}]
              [{{<min>}:{<max>}}]

        The first form applies to the independent variable (xxrraannggee or
        ttrraannggee, if in parametric mode).  The second form applies to the
        dependent variable yyrraannggee (and xxrraannggee, too, if in parametric
        mode).  <dummy-var> is a new name for the independent variable.
        (The defaults may be changed with sseett dduummmmyy.)  The optional
        <min> and <max> terms can be constant expressions or *.

        In non-parametric mode, the order in which ranges must be given
        is xxrraannggee and yyrraannggee.

        In parametric mode, the order for the pplloott command is ttrraannggee,
        xxrraannggee, and yyrraannggee.  The following pplloott command shows setting
        the ttrraannggee to [-pi:pi], the xxrraannggee to [-1.3:1.3] and the yyrraannggee
        to [-1:1] for the duration of the graph:

              plot [-pi:pi] [-1.3:1.3] [-1:1] sin(t),t**2

        Note that the x2range and y2range cannot be specified
        here---sseett xx22rraannggee and sseett yy22rraannggee must be used.

        Ranges are interpreted in the order listed above for the appro-
        priate mode.  Once all those needed are specified, no further
        ones must be listed, but unneeded ones cannot be skipped---use
        an empty range [[]] as a placeholder.

        ** can be used to allow autoscaling of either of min and max.
        See also sseett aauuttoossccaallee.

        Ranges specified on the pplloott or sspplloott command line affect only
        that graph; use the sseett xxrraannggee, sseett yyrraannggee, etc., commands to
        change the default ranges for future graphs.

        With time data, you must provide the range (in the same manner
        as the time appears in the datafile) within quotes.  ggnnuupplloott
        uses the ttiimmeeffmmtt string to read the value---see sseett ttiimmeeffmmtt.

        Examples:

        This uses the current ranges:
              plot cos(x)

        This sets the x range only:
              plot [-10:30] sin(pi*x)/(pi*x)










   GNUPLOT 4.1                                                       86


        This is the same, but uses t as the dummy-variable:
              plot [t = -10 :30]  sin(pi*t)/(pi*t)

        This sets both the x and y ranges:
              plot [-pi:pi] [-3:3]  tan(x), 1/x

        This sets only the y range, and turns off autoscaling on both
        axes:
              plot [ ] [-2:sin(5)*-8] sin(x)**besj0(x)

        This sets xmax and ymin only:
              plot [:200] [-pi:]  exp(sin(x))

        This sets the x range for a timeseries:
              set timefmt "%d/%m/%y %H:%M"
              plot ["1/6/93 12:00":"5/6/93 12:00"] 'timedata.dat'




        3366..66..  TTiittllee


        A line title for each function and data set appears in the key,
        accompanied by a sample of the line and/or symbol used to rep-
        resent it.  It can be changed by using the ttiittllee option.

        Syntax:
              title "<title>" | notitle ["<ignored title>"]

        where <title> is the new title of the line and must be enclosed
        in quotes.  The quotes will not be shown in the key.  A special
        character may be given as a backslash followed by its octal
        value ("\345").  The tab character "\t" is understood.  Note
        that backslash processing occurs only for strings enclosed in
        double quotes---use single quotes to prevent such processing.
        The newline character "\n" is not processed in key entries in
        either type of string.

        The line title and sample can be omitted from the key by using
        the keyword nnoottiittllee.  A null title (ttiittllee '''') is equivalent to
        nnoottiittllee.  If only the sample is wanted, use one or more blanks
        (ttiittllee '' '').  If nnoottiittllee is followed by a string this string is
        ignored.

        If kkeeyy aauuttoottiittlleess is set (which is the default) and neither
        ttiittllee nor nnoottiittllee are specified the line title is the function
        name or the file name as it appears on the pplloott command.  If it
        is a file name, any datafile modifiers specified will be
        included in the default title.

        The layout of the key itself (position, title justification,
        etc.) can be controlled by sseett kkeeyy.  Please see sseett kkeeyy for










   GNUPLOT 4.1                                                       87


        details.

        Examples:

        This plots y=x with the title 'x':
              plot x

        This plots x squared with title "x^2" and file "data.1" with
        title "measured data":
              plot x**2 title "x^2", 'data.1' t "measured data"

        This puts an untitled circular border around a polar graph:
              set polar; plot my_function(t), 1 notitle



        3366..77..  WWiitthh


        Functions and data may be displayed in one of a large number of
        styles.  The wwiitthh keyword provides the means of selection.

        Syntax:
              with <style> { {linestyle | ls <line_style>}
                             | {{linetype  | lt <line_type>}
                                {linewidth | lw <line_width>}
                                {linecolor | lc <colorspec>}
                                {pointtype | pt <point_type>}
                                {pointsize | ps <point_size>}
                                {fill | fs <fillstyle>}
                                {nohidden3d}
                                {palette}}
                           }

        where <style> is either lliinneess, ppooiinnttss, lliinneessppooiinnttss, iimmppuullsseess,
        ddoottss, sstteeppss, ffsstteeppss, hhiisstteeppss, eerrrroorrbbaarrss, llaabbeellss, xxeerrrroorrbbaarrss,
        yyeerrrroorrbbaarrss, xxyyeerrrroorrbbaarrss, eerrrroorrlliinneess, xxeerrrroorrlliinneess, yyeerrrroorrlliinneess,
        xxyyeerrrroorrlliinneess, bbooxxeess, hhiissttooggrraammss, ffiilllleeddccuurrvveess, bbooxxeerrrroorrbbaarrss,
        bbooxxxxyyeerrrroorrbbaarrss, ffiinnaanncceebbaarrss, ccaannddlleessttiicckkss, vveeccttoorrss, iimmaaggee,
        rrggbbiimmaaggee or ppmm33dd. Some of these styles require additional
        information.  See pplloottttiinngg ssttyylleess for details of each style.
        ffiillll is relevant only to certain 2D plots (currently bbooxxeess
        bbooxxxxyyeerrrroorrbbaarrss and ccaannddlleessttiicckkss).  Note that ffiilllleeddccuurrvveess and
        ppmm33dd can take an additional option not listed above (the latter
        only when used in the sspplloott command)---see their help or exam-
        ples below for more details.

        Default styles are chosen with the sseett ssttyyllee ffuunnccttiioonn and sseett
        ssttyyllee ddaattaa commands.

        By default, each function and data file will use a different
        line type and point type, up to the maximum number of available
        types.  All terminal drivers support at least six different










   GNUPLOT 4.1                                                       88


        point types, and re-use them, in order, if more are required.
        The LaTeX driver supplies an additional six point types (all
        variants of a circle), and thus will only repeat after 12
        curves are plotted with points.  The PostScript drivers (ppoosstt--
        ssccrriipptt) supplies a total of 64.

        If you wish to choose the line or point type for a single plot,
        <line_type> and <point_type> may be specified.  These are posi-
        tive integer constants (or expressions) that specify the line
        type and point type to be used for the plot.  Use tteesstt to dis-
        play the types available for your terminal.

        You may also scale the line width and point size for a plot by
        using <line_width> and <point_size>, which are specified rela-
        tive to the default values for each terminal.  The pointsize
        may also be altered globally---see sseett ppooiinnttssiizzee for details.
        But note that both <point_size> as set here and  as set by sseett
        ppooiinnttssiizzee multiply the default point size---their effects are
        not cumulative.  That is, sseett ppooiinnttssiizzee 22;; pplloott xx ww pp ppss 33 will
        use points three times default size, not six.

        It is also possible to specify ppooiinnttssiizzee vvaarriiaabbllee either as
        part of a line style or for an individual plot. In this case
        one extra column of input is required, i.e. 3 columns for a 2D
        plot and 4 columns for a 3D splot. The size of each individual
        point is determined by multiplying the global pointsize by the
        value read from the data file.

        If you have defined specific line type/width and point
        type/size combinations with sseett ssttyyllee lliinnee, one of these may be
        selected by setting <line_style> to the index of the desired
        style.

        If gnuplot was built with ppmm33dd support, the special keyword
        ppaalleettttee is allowed for smooth color change of lines, points and
        dots in sspplloottss. The color is chosen from a smooth palette which
        was set previously with the command sseett ppaalleettttee. The color
        value corresponds to the z-value of the point coordinates or to
        the color coordinate if specified by the 4th parameter in
        uussiinngg. Both 2d and 3d plots (pplloott and sspplloott commands) can use
        palette colors as specified by either their fractional value or
        the corresponding value mapped to the colorbox range. 2d plots
        can not use palette colors mapped by Z value. See ccoolloorrss, sseett
        ppaalleettttee, lliinneettyyppee.

        The keyword nnoohhiiddddeenn33dd applies only to plots made with the
        sspplloott command.  Normally the global option sseett hhiiddddeenn33dd applies
        to all plots in the graph.  You can attach the nnoohhiiddddeenn33dd
        option to any individual plots that you want to exclude from
        the hidden3d processing.  The individual elements other than
        surfaces (i.e. lines, dots, labels, ...) of a plot marked
        nnoohhiiddddeenn33dd will all be drawn, even if they would normally be
        obscured by other plot elements.










   GNUPLOT 4.1                                                       89


        The keywords may be abbreviated as indicated.

        Note that the lliinneewwiiddtthh, ppooiinnttssiizzee and ppaalleettttee options are not
        supported by all terminals.

        Examples:

        This plots sin(x) with impulses:
              plot sin(x) with impulses

        This plots x with points, x**2 with the default:
              plot x w points, x**2

        This plots tan(x) with the default function style, file
        "data.1" with lines:
              plot [ ] [-2:5] tan(x), 'data.1' with l

        This plots "leastsq.dat" with impulses:
              plot 'leastsq.dat' w i

        This plots the data file "population" with boxes:
              plot 'population' with boxes

        This plots "exper.dat" with errorbars and lines connecting the
        points (errorbars require three or four columns):
              plot 'exper.dat' w lines, 'exper.dat' notitle w errorbars

        Another way to plot "exper.dat" with errorlines (errorbars
        require three or four columns):
              plot 'exper.dat' w errorlines

        This plots sin(x) and cos(x) with linespoints, using the same
        line type but different point types:
              plot sin(x) with linesp lt 1 pt 3, cos(x) with linesp lt
        1 pt 4

        This plots file "data" with points of type 3 and twice usual
        size:
              plot 'data' with points pointtype 3 pointsize 2

        This plots file "data" with variable pointsize read from column
        4
              plot 'data' using 1:2:4 with points pt 5 pointsize vari-
        able

        This plots two data sets with lines differing only by weight:
              plot 'd1' t "good" w l lt 2 lw 3, 'd2' t "bad" w l lt 2
        lw 1

        This plots filled curve of x*x and a color stripe:
              plot x*x with filledcurve closed, 40 with filledcurve
        y1=10











   GNUPLOT 4.1                                                       90


        This plots x*x and a color box:
              plot x*x, (x>=-5 && x<=5 ? 40 : 1/0) with filledcurve
        y1=10 lt 8

        This plots a surface with color lines:
              splot x*x-y*y with line palette

        This plots two color surfaces at different altitudes:
              splot x*x-y*y with pm3d, x*x+y*y with pm3d at t




   3377..  PPrriinntt


   The pprriinntt command prints the value of <expression> to the screen.
   It is synonymous with ppaauussee 00.  <expression> may be anything that
   ggnnuupplloott can evaluate that produces a number, or it can be a string.

   Syntax:
         print <expression> {, <expression>, ...}

   See eexxpprreessssiioonnss.  The output file can be set with sseett pprriinntt.



   3388..  PPwwdd


   The ppwwdd command prints the name of the working directory to the
   screen.



   3399..  QQuuiitt


   The eexxiitt and qquuiitt commands and END-OF-FILE character will exit ggnnuu--
   pplloott.  Each of these commands will clear the output device (as does
   the cclleeaarr command) before exiting.



   4400..  RRaaiissee


   Syntax:
         raise {plot_window_nb}

   The rraaiissee command raises (opposite to lloowweerr) plot window(s) associ-
   ated with the interactive terminal of your gnuplot session, i.e. ppmm,
   wwiinn, wwxxtt or xx1111. It puts the plot window to front (top) in the z-










   GNUPLOT 4.1                                                       91


   order windows stack of the window manager of your desktop.

   As xx1111 and wwxxtt support multiple plot windows, then by default they
   raise these windows in descending order of most recently created on
   top to the least recently created on bottom. If a plot number is
   supplied as an optional parameter, only the associated plot window
   will be raised if it exists.

   The optional parameter is ignored for single plot-windows terminal,
   i.e. ppmm and wwiinn.

    If the window is not raised under X11, then (1) they don't run in
   the same
    X11 session (telnet or ssh session, for example), or (2) raising is
   blocked
    by your window manager. On KDE, you may like to go to the KDE Con-
   trol Center
    => Desktop => Window Behaviour => Advanced and set the "Focus
   stealing
    prevention level" to None (default is Low).



   4411..  RReepplloott


   The rreepplloott command without arguments repeats the last pplloott or sspplloott
   command.  This can be useful for viewing a plot with different sseett
   options, or when generating the same plot for several devices.

   Arguments specified after a rreepplloott command will be added onto the
   last pplloott or sspplloott command (with an implied ',' separator) before it
   is repeated.  rreepplloott accepts the same arguments as the pplloott and
   sspplloott commands except that ranges cannot be specified.  Thus you can
   use rreepplloott to plot a function against the second axes if the previ-
   ous command was pplloott but not if it was sspplloott.

   N.B.---use of

         plot '-' ; ... ; replot

   is not recommended.  ggnnuupplloott does not store the inline data inter-
   nally, so since rreepplloott appends new information to the previous pplloott
   and then executes the modified command, the ''--'' from the initial
   pplloott will expect to read inline data again.

   Note that rreepplloott does not work in mmuullttiipplloott mode, since it repro-
   duces only the last plot rather than the entire screen.

   See also ccoommmmaanndd--lliinnee--eeddiittiinngg for ways to edit the last pplloott (sspplloott)
   command.

   See also sshhooww pplloott to show the whole current plotting command, and










   GNUPLOT 4.1                                                       92


   the possibility to copy it into the hhiissttoorryy.



   4422..  RReerreeaadd


   The rreerreeaadd command causes the current ggnnuupplloott command file, as spec-
   ified by a llooaadd command or on the command line, to be reset to its
   starting point before further commands are read from it.  This
   essentially implements an endless loop of the commands from the
   beginning of the command file to the rreerreeaadd command.  (But this is
   not necessarily a disaster---rreerreeaadd can be very useful when used in
   conjunction with iiff.  See iiff for details.)  The rreerreeaadd command has
   no effect if input from standard input.

   Examples:

   Suppose the file "looper" contains the commands
         a=a+1
         plot sin(x*a)
         pause -1
         if(a<5) reread
   and from within ggnnuupplloott you submit the commands
         a=0
         load 'looper'
   The result will be five plots (separated by the ppaauussee message).

   Suppose the file "data" contains six columns of numbers with a total
   yrange from 0 to 10; the first is x and the next are five different
   functions of x.  Suppose also that the file "plotter" contains the
   commands
         c_p = c_p+1
         plot "$0" using 1:c_p with lines linetype c_p
         if(c_p <  n_p) reread
   and from within ggnnuupplloott you submit the commands
         n_p=6
         c_p=1
         unset key
         set yrange [0:10]
         set multiplot
         call 'plotter' 'data'
         unset multiplot
   The result is a single graph consisting of five plots.  The yrange
   must be set explicitly to guarantee that the five separate graphs
   (drawn on top of each other in multiplot mode) will have exactly the
   same axes.  The linetype must be specified; otherwise all the plots
   would be drawn with the same type.  See animate.dem in demo direc-
   tory for an animated example.














   GNUPLOT 4.1                                                       93


   4433..  RReesseett


   The rreesseett command causes all graph-related options that can be set
   with the sseett command to take on their default values.  This command
   is useful, e.g., to restore the default graph settings at the end of
   a command file, or to return to a defined state after lots of set-
   tings have been changed within a command file.  Please refer to the
   sseett command to see the default values that the various options take.

   The following sseett commands do not change the graph status and are
   thus left unchanged: the terminal set with sseett tteerrmm, the output file
   set with sseett oouuttppuutt and directory paths set with sseett llooaaddppaatthh and
   sseett ffoonnttppaatthh.



   4444..  SSaavvee


   The ssaavvee command saves user-defined functions, variables, the sseett
   tteerrmm status, all sseett options, or all of these, plus the last pplloott
   (sspplloott) command to the specified file.

   Syntax:
         save  {<option>} '<filename>'

   where <option> is ffuunnccttiioonnss, vvaarriiaabblleess, tteerrmmiinnaall or sseett. If no
   option is used, ggnnuupplloott saves functions, variables, sseett options and
   the last pplloott (sspplloott) command.

   ssaavveed files are written in text format and may be read by the llooaadd
   command. For ssaavvee with the sseett option or without any option, the
   tteerrmmiinnaall choice and the oouuttppuutt filename are written out as a com-
   ment, to get an output file that works in other installations of
   gnuplot, without changes and without risk of unwillingly overwriting
   files.

   ssaavvee tteerrmmiinnaall will write out just the tteerrmmiinnaall status, without the
   comment marker in front of it. This is mainly useful for switching
   the tteerrmmiinnaall setting for a short while, and getting back to the pre-
   viously set terminal, afterwards, by loading the saved tteerrmmiinnaall sta-
   tus. Note that for a single gnuplot session you may rather use the
   other method of saving and restoring current terminal by the com-
   mands sseett tteerrmm ppuusshh and sseett tteerrmm ppoopp, see sseett tteerrmm.

   The filename must be enclosed in quotes.

   The special filename "-" may be used to ssaavvee commands to standard
   output.  On systems which support a popen function (Unix), the out-
   put of save can be piped through an external program by starting the
   file name with a '|'.  This provides a consistent interface to ggnnuu--
   pplloott's internal settings to programs which communicate with ggnnuupplloott










   GNUPLOT 4.1                                                       94


   through a pipe.  Please see help for bbaattcchh//iinntteerraaccttiivvee for more
   details.

   Examples:
         save 'work.gnu'
         save functions 'func.dat'
         save var 'var.dat'
         save set 'options.dat'
         save term 'myterm.gnu'
         save '-'
         save '|grep title >t.gp'



   4455..  SSeett--sshhooww


   The sseett command can be used to set _lots_ of options.  No screen is
   drawn, however, until a pplloott, sspplloott, or rreepplloott command is given.

   The sshhooww command shows their settings;  sshhooww aallll shows all the set-
   tings.

   Options changed using sseett can be returned to the default state by
   giving the corresponding uunnsseett command.  See also the rreesseett command,
   which returns all settable parameters to default values.

   If a variable contains time/date data, sshhooww will display it accord-
   ing to the format currently defined by sseett ttiimmeeffmmtt, even if that was
   not in effect when the variable was initially defined.




        4455..11..  AAnngglleess


        By default, ggnnuupplloott assumes the independent variable in polar
        graphs is in units of radians.  If sseett aanngglleess ddeeggrreeeess is speci-
        fied before sseett ppoollaarr, then the default range is [0:360] and
        the independent variable has units of degrees.  This is partic-
        ularly useful for plots of data files.  The angle setting also
        applies to 3-d mapping as set via the sseett mmaappppiinngg command.

        Syntax:
              set angles {degrees | radians}
              show angles

        The angle specified in sseett ggrriidd ppoollaarr is also read and dis-
        played in the units specified by sseett aanngglleess.

        sseett aanngglleess also affects the arguments of the machine-defined
        functions sin(x), cos(x) and tan(x), and the outputs of










   GNUPLOT 4.1                                                       95


        asin(x), acos(x), atan(x), atan2(x), and arg(x).  It has no
        effect on the arguments of hyperbolic functions or Bessel func-
        tions.  However, the output arguments of inverse hyperbolic
        functions of complex arguments are affected; if these functions
        are used, sseett aanngglleess rraaddiiaannss must be in effect to maintain con-
        sistency between input and output arguments.

              x={1.0,0.1}
              set angles radians
              y=sinh(x)
              print y         #prints {1.16933, 0.154051}
              print asinh(y)  #prints {1.0, 0.1}
        but
              set angles degrees
              y=sinh(x)
              print y         #prints {1.16933, 0.154051}
              print asinh(y)  #prints {57.29578, 5.729578}
        See also poldat.dem: polar plot using sseett aanngglleess demo.



        4455..22..  AArrrrooww


        Arbitrary arrows can be placed on a plot using the sseett aarrrrooww
        command.

        Syntax:
              set arrow {<tag>} {from <position>} {to|rto <position>}
                        { {arrowstyle | as <arrow_style>}
                          | { {nohead | head | backhead | heads}
                              {size <length>,<angle>{,<backangle>}}
                              {filled | empty | nofilled}
                              {front | back}
                              { {linestyle | ls <line_style>}
                                | {linetype | lt <line_type>}
                                  {linewidth | lw <line_width} } } }

              unset arrow {<tag>}
              show arrow {<tag>}

        <tag> is an integer that identifies the arrow.  If no tag is
        given, the lowest unused tag value is assigned automatically.
        The tag can be used to delete or change a specific arrow.  To
        change any attribute of an existing arrow, use the sseett aarrrrooww
        command with the appropriate tag and specify the parts of the
        arrow to be changed.

        The <position>s are specified by either x,y or x,y,z, and may
        be preceded by ffiirrsstt, sseeccoonndd, ggrraapphh, ssccrreeeenn, or cchhaarraacctteerr to
        select the coordinate system.  Unspecified coordinates default
        to 0.  The end points can be specified in one of five coordi-
        nate systems---ffiirrsstt or sseeccoonndd axes, ggrraapphh, ssccrreeeenn, or










   GNUPLOT 4.1                                                       96


        cchhaarraacctteerr.  See ccoooorrddiinnaatteess for details.  A coordinate system
        specifier does not carry over from the "from" position to the
        "to" position.  Arrows outside the screen boundaries are per-
        mitted but may cause device errors.  If the end point is speci-
        fied by "rto" instead of "to" it is drawn relatively to the
        start point.  For linear axes, ggrraapphh and ssccrreeeenn coordinates,
        the distance between the start and the end point corresponds to
        the given relative coordinate.  For logarithmic axes, the rela-
        tive given coordinate corresponds to the factor of the coordi-
        nate between start and end point.  Thus, a negative relative
        value or zero are not allowed for logarithmic axes.

        Specifying nnoohheeaadd produces an arrow drawn without a head---a
        line segment.  This gives you yet another way to draw a line
        segment on the plot.  By default, an arrow has a head at its
        end. Specifying bbaacckkhheeaadd draws an arrow head at the start point
        of the arrow while hheeaaddss draws arrow heads on both ends of the
        line.  Not all terminal types support double-ended arrows.

        Head size can be controlled by ssiizzee <<lleennggtthh>>,,<<aannggllee>> or ssiizzee
        <<lleennggtthh>>,,<<aannggllee>>,,<<bbaacckkaannggllee>>, where <<lleennggtthh>> defines length of
        each branch of the arrow head and <<aannggllee>> the angle (in
        degrees) they make with the arrow.  <<LLeennggtthh>> is in x-axis
        units; this can be changed by ffiirrsstt, sseeccoonndd, ggrraapphh, ssccrreeeenn, or
        cchhaarraacctteerr before the <length>;  see ccoooorrddiinnaatteess for details.
        <<BBaacckkaannggllee>> only takes effect when ffiilllleedd or eemmppttyy is also
        used.  Then, <<bbaacckkaannggllee>> is the angle (in degrees) the back
        branches make with the arrow (in the same direction as
        <<aannggllee>>).  The ffiigg terminal has a restricted backangle func-
        tion. It supports three different angles. There are two thresh-
        olds: Below 70 degrees, the arrow head gets an indented back
        angle. Above 110 degrees, the arrow head has an acute back
        angle. Between these thresholds, the back line is straight.

        Specifying ffiilllleedd produces filled arrow heads (if heads are
        used).  Filling is supported on filled-polygon capable termi-
        nals, see help of ppmm33dd for their list, otherwise the arrow
        heads are closed but not filled.  The same result (closed but
        not filled arrow head) is reached by specifying eemmppttyy.  Fur-
        ther, filling and outline is obviously not supported on termi-
        nals drawing arrows by their own specific routines, like mmeettaa--
        ffoonntt, mmeettaappoosstt, llaatteexx or ttggiiff.

        The line style may be selected from a user-defined list of line
        styles (see sseett ssttyyllee lliinnee) or may be defined here by providing
        values for <line_type> (an index from the default list of
        styles) and/or <line_width> (which is a  multiplier for the
        default width).

        Note, however, that if a user-defined line style has been
        selected, its properties (type and width) cannot be altered
        merely by issuing another sseett aarrrrooww command with the appropri-
        ate index and lltt or llww.










   GNUPLOT 4.1                                                       97


        If ffrroonntt is given, the arrow is written on top of the graphed
        data. If bbaacckk is given (the default), the arrow is written
        underneath the graphed data.  Using ffrroonntt will prevent an arrow
        from being obscured by dense data.

        Examples:

        To set an arrow pointing from the origin to (1,2) with user-
        defined style 5, use:
              set arrow to 1,2 ls 5

        To set an arrow from bottom left of plotting area to (-5,5,3),
        and tag the arrow number 3, use:
              set arrow 3 from graph 0,0 to -5,5,3

        To change the preceding arrow to end at 1,1,1, without an arrow
        head and double its width, use:
              set arrow 3 to 1,1,1 nohead lw 2

        To draw a vertical line from the bottom to the top of the graph
        at x=3, use:
              set arrow from 3, graph 0 to 3, graph 1 nohead

        To draw a vertical arrow with T-shape ends, use:
              set arrow 3 from 0,-5 to 0,5 heads size screen 0.1,90

        To draw an arrow relatively to the start point, where the rela-
        tive distances are given in graph coordinates, use:
              set arrow from 0,-5 rto graph 0.1,0.1

        To draw an arrow with relative end point in logarithmic x axis,
        use:
              set logscale x
              set arrow from 100,-5 rto 10,10
        This draws an arrow from 100,-5 to 1000,5. For the logarithmic
        x axis, the relative coordinate 10 means "factor 10" while for
        the linear y axis, the relative coordinate 10 means "difference
        10".

        To delete arrow number 2, use:
              unset arrow 2

        To delete all arrows, use:
              unset arrow

        To show all arrows (in tag order), use:
              show arrow

        arrows demos.














   GNUPLOT 4.1                                                       98


        4455..33..  AAuuttoossccaallee


        Autoscaling may be set individually on the x, y or z axis or
        globally on all axes. The default is to autoscale all axes.

        Syntax:
              set autoscale {<axes>{|min|max|fixmin|fixmax|fix} | fix |
        keepfix}
              unset autoscale {<axes>}
              show autoscale

        where <axes> is either xx, yy, zz, ccbb, xx22, yy22 or xxyy.  A keyword
        with mmiinn or mmaaxx appended (this cannot be done with xxyy) tells
        ggnnuupplloott to autoscale just the minimum or maximum of that axis.
        If no keyword is given, all axes are autoscaled.

        A keyword with ffiixxmmiinn, ffiixxmmaaxx or ffiixx appended tells gnuplot to
        disable extension of the axis range to the next tic mark posi-
        tion, for autoscaled axes using equidistant tics; sseett aauuttoossccaallee
        ffiixx sets this for all axes.  Command sseett aauuttoossccaallee kkeeeeppffiixx
        autoscales all axes while keeping the fix settings.

        When autoscaling, the axis range is automatically computed and
        the dependent axis (y for a pplloott and z for sspplloott) is scaled to
        include the range of the function or data being plotted.

        If autoscaling of the dependent axis (y or z) is not set, the
        current y or z range is used.

        Autoscaling the independent variables (x for pplloott and x,y for
        sspplloott) is a request to set the domain to match any data file
        being plotted.  If there are no data files, autoscaling an
        independent variable has no effect.  In other words, in the
        absence of a data file, functions alone do not affect the x
        range (or the y range if plotting z = f(x,y)).

        Please see sseett xxrraannggee for additional information about ranges.

        The behavior of autoscaling remains consistent in parametric
        mode, (see sseett ppaarraammeettrriicc).  However, there are more dependent
        variables and hence more control over x, y, and z axis scales.
        In parametric mode, the independent or dummy variable is t for
        ppllootts and u,v for ssppllootts.  aauuttoossccaallee in parametric mode, then,
        controls all ranges (t, u, v, x, y, and z) and allows x, y, and
        z to be fully autoscaled.

        Autoscaling works the same way for polar mode as it does for
        parametric mode for pplloott, with the extension that in polar mode
        sseett dduummmmyy can be used to change the independent variable from t
        (see sseett dduummmmyy).

        When tics are displayed on second axes but no plot has been










   GNUPLOT 4.1                                                       99


        specified for those axes, x2range and y2range are inherited
        from xrange and yrange.  This is done _before_ xrange and
        yrange are autoextended to a whole number of tics, which can
        cause unexpected results.  You can use the ffiixxmmiinn or ffiixxmmaaxx
        options to avoid this.

        Examples:

        This sets autoscaling of the y axis (other axes are not
        affected):
              set autoscale y

        This sets autoscaling only for the minimum of the y axis (the
        maximum of the y axis and the other axes are not affected):
              set autoscale ymin

        This disables extension of the x2 axis tics to the next tic
        mark, thus keeping the exact range as found in the plotted data
        and functions:
              set autoscale x2fixmin
              set autoscale x2fixmax

        This sets autoscaling of the x and y axes:
              set autoscale xy

        This sets autoscaling of the x, y, z, x2 and y2 axes:
              set autoscale

        This disables autoscaling of the x, y, z, x2 and y2 axes:
              unset autoscale

        This disables autoscaling of the z axis only:
              unset autoscale z




             4455..33..11..  PPaarraammeettrriicc mmooddee


             When in parametric mode (sseett ppaarraammeettrriicc), the xrange is as
             fully scalable as the y range.  In other words, in para-
             metric mode the x axis can be automatically scaled to fit
             the range of the parametric function that is being plot-
             ted.  Of course, the y axis can also be automatically
             scaled just as in the non-parametric case.  If autoscaling
             on the x axis is not set, the current x range is used.

             Data files are plotted the same in parametric and non-
             parametric mode.  However, there is a difference in mixed
             function and data plots: in non-parametric mode with
             autoscaled x, the x range of the datafile controls the x
             range of the functions; in parametric mode it has no










   GNUPLOT 4.1                                                      100


             influence.

             For completeness a last command sseett aauuttoossccaallee tt is
             accepted.  However, the effect of this "scaling" is very
             minor.  When ggnnuupplloott determines that the t range would be
             empty, it makes a small adjustment if autoscaling is true.
             Otherwise, ggnnuupplloott gives an error.  Such behavior may, in
             fact, not be very useful and the command sseett aauuttoossccaallee tt
             is certainly questionable.

             sspplloott extends the above ideas as you would expect.  If
             autoscaling is set, then x, y, and z ranges are computed
             and each axis scaled to fit the resulting data.



             4455..33..22..  PPoollaarr mmooddee


             When in polar mode (sseett ppoollaarr), the xrange and the yrange
             are both found from the polar coordinates, and thus they
             can both be automatically scaled.  In other words, in
             polar mode both the x and y axes can be automatically
             scaled to fit the ranges of the polar function that is
             being plotted.

             When plotting functions in polar mode, the rrange may be
             autoscaled.  When plotting data files in polar mode, the
             trange may also be autoscaled.  Note that if the trange is
             contained within one quadrant, autoscaling will produce a
             polar plot of only that single quadrant.

             Explicitly setting one or two ranges but not others may
             lead to unexpected results.  See also polar demos.



        4455..44..  BBaarrss


        The sseett bbaarrss command controls the tics at the ends of error
        bars, and also the width of the boxes in plot styles candle-
        sticks and financebars.

        Syntax:
              set bars {small | large | fullwidth | <size>}
              unset bars
              show bars

        ssmmaallll is a synonym for 0.0, and llaarrggee for 1.0.  The default is
        1.0 if no size is given.

        The keyword ffuullllwwiiddtthh is relevant only to histograms with










   GNUPLOT 4.1                                                      101


        errorbars.  It sets the width of the errorbar ends to be the
        same as the width of the associated box in the histogram.  It
        does not change the width of the box itself.



        4455..55..  BBmmaarrggiinn


        The command sseett bbmmaarrggiinn sets the size of the bottom margin.
        Please see sseett mmaarrggiinn for details.



        4455..66..  BBoorrddeerr


        The sseett bboorrddeerr and uunnsseett bboorrddeerr commands control the display of
        the graph borders for the pplloott and sspplloott commands.  Note that
        the borders do not necessarily coincide with the axes; with
        pplloott they often do, but with sspplloott they usually do not.

        Syntax:
              set border {<integer>} {front | back} {linewidth | lw
        <line_width>}
                         {{linestyle | ls <line_style>} | {linetype |
        lt <line_type>}}
              unset border
              show border

        With a sspplloott displayed in an arbitrary orientation, like sseett
        vviieeww 5566,,110033, the four corners of the x-y plane can be referred
        to as "front", "back", "left" and "right".  A similar set of
        four corners exist for the top surface, of course.  Thus the
        border connecting, say, the back and right corners of the x-y
        plane is the "bottom right back" border, and the border con-
        necting the top and bottom front corners is the "front verti-
        cal".  (This nomenclature is defined solely to allow the reader
        to figure out the table that follows.)

        The borders are encoded in a 12-bit integer: the bottom four
        bits control the border for pplloott and the sides of the base for
        sspplloott; the next four bits control the verticals in sspplloott; the
        top four bits control the edges on top of the sspplloott.  In
        detail, <<iinntteeggeerr>> should be the sum of the appropriate entries
        from the following table:

















   GNUPLOT 4.1                                                      102


                 +--------------------------------------+
                 |Bit      plot            splot        |
                 +--------------------------------------+
                 | 1      bottom     bottom left front  |
                 | 2       left       bottom left back  |
                 | 4        top      bottom right front |
                 | 8       right     bottom right back  |
                 | 16    no effect     left vertical    |
                 | 32    no effect     back vertical    |
                 | 64    no effect     right vertical   |
                 |128    no effect     front vertical   |
                 |256    no effect     top left back    |
                 |512    no effect     top right back   |
                 |1024   no effect     top left front   |
                 |2048   no effect    top right front   |
                 +--------------------------------------+



   Various bits or combinations of bits may be added together in the
   command.

   The default is 31, which is all four sides for pplloott, and base and z
   axis for sspplloott.

   In 2D plots the border is normally drawn on top of all plots ele-
   ments (ffrroonntt). If you want the border to be drawn behind the plot
   elements, use sseett bboorrddeerr bbaacckk.

   Using the optional <line_style>, <line_type> and <line_width> speci-
   fiers, the way the border lines are drawn can be influenced (limited
   by what the current terminal driver supports).

   For pplloott, tics may be drawn on edges other than bottom and left by
   enabling the second axes -- see sseett xxttiiccss for details.

   If a sspplloott draws only on the base, as is the case with "uunnsseett ssuurr--
   ffaaccee;; sseett ccoonnttoouurr bbaassee", then the verticals and the top are not
   drawn even if they are specified.

   The sseett ggrriidd options 'back', 'front' and 'layerdefault' also control
   the order in which the border lines are drawn with respect to the
   output of the plotted data.

   Examples:

   Draw default borders:
         set border

   Draw only the left and bottom (pplloott) or both front and back bottom
   left (sspplloott) borders:
         set border 3











   GNUPLOT 4.1                                                      103


   Draw a complete box around a sspplloott:
         set border 4095

   Draw a topless box around a sspplloott, omitting the front vertical:
         set border 127+256+512 # or set border 1023-128

   Draw only the top and right borders for a pplloott and label them as
   axes:
         unset xtics; unset ytics; set x2tics; set y2tics; set border
   12




        4455..77..  BBooxxwwiiddtthh


        The sseett bbooxxwwiiddtthh command is used to set the default width of
        boxes in the bbooxxeess, bbooxxeerrrroorrbbaarrss, ccaannddlleessttiicckkss and hhiissttooggrraammss
        styles.

        Syntax:
              set boxwidth {<width>} {absolute|relative}
              show boxwidth

        By default, adjacent boxes are extended in width until they
        touch each other.  A different default width may be specified
        using the sseett bbooxxwwiiddtthh command.  RReellaattiivvee widths are inter-
        preted as being a fraction of this default width.

        An explicit value for the boxwidth is interpreted as being a
        number of units along the current x axis (aabbssoolluuttee) unless the
        modifier rreellaattiivvee is given.  If the x axis is a log-scale (see
        sseett lloogg) then the value of boxwidth is truly "absolute" only at
        x=1; this physical width is maintained everywhere along the
        axis (i.e. the boxes do not become narrower the value of x
        increases). If the range spanned by a log scale x axis is far
        from x=1, some experimentation may be required to find a useful
        value of boxwidth.

        The default is superseded by explicit width information taken
        from an extra data column in styles bbooxxeess or bbooxxeerrrroorrbbaarrss.  In
        a four-column data set, the fourth column will be interpreted
        as the box width unless the width is set to -2.0, in which case
        the width will be calculated automatically.  See ssttyyllee bbooxxeess
        and ssttyyllee bbooxxeerrrroorrbbaarrss for more details.

        To set the box width to automatic use the command
              set boxwidth

        or, for four-column data,
              set boxwidth -2











   GNUPLOT 4.1                                                      104


        The same effect can be achieved with the uussiinngg keyword in pplloott:
              plot 'file' using 1:2:3:4:(-2)

        To set the box width to half of the automatic size use
              set boxwidth 0.5 relative

        To set the box width to an absolute value of 2 use
              set boxwidth 2 absolute



        4455..88..  CCllaabbeell


        ggnnuupplloott will vary the linetype used for each contour level when
        clabel is set.  When this option on (the default), a legend
        labels each linestyle with the z level it represents.  It is
        not possible at present to separate the contour labels from the
        surface key.

        Syntax:
              set clabel {'<format>'}
              unset clabel
              show clabel

        The default for the format string is %8.3g, which gives three
        decimal places.  This may produce poor label alignment if the
        key is altered from its default configuration.

        The first contour linetype, or only contour linetype when cla-
        bel is off, is the surface linetype +1; contour points are the
        same style as surface points.

        See also sseett ccoonnttoouurr.



        4455..99..  CClliipp


        ggnnuupplloott can clip data points and lines that are near the bound-
        aries of a graph.

        Syntax:
              set clip <clip-type>
              unset clip <clip-type>
              show clip

        Three clip types for points and lines are supported by ggnnuupplloott:
        ppooiinnttss, oonnee, and ttwwoo. One, two, or all three clip types may be
        active for a single graph.  Note that clipping of color filled
        quadrangles drawn by ppmm33dd maps and surfaces is not controlled
        by this command, but by sseett ppmm33dd cclliipp11iinn and sseett ppmm33dd cclliipp44iinn.










   GNUPLOT 4.1                                                      105


        The ppooiinnttss clip type forces ggnnuupplloott to clip (actually, not plot
        at all) data points that fall within but too close to the
        boundaries.  This is done so that large symbols used for points
        will not extend outside the boundary lines.  Without clipping
        points near the boundaries, the plot may look bad.  Adjusting
        the x and y ranges may give similar results.

        Setting the oonnee clip type causes ggnnuupplloott to draw a line segment
        which has only one of its two endpoints within the graph.  Only
        the in-range portion of the line is drawn.  The alternative is
        to not draw any portion of the line segment.

        Some lines may have both endpoints out of range, but pass
        through the graph.  Setting the ttwwoo clip-type allows the visi-
        ble portion of these lines to be drawn.

        In no case is a line drawn outside the graph.

        The defaults are nnoocclliipp ppooiinnttss, cclliipp oonnee, and nnoocclliipp ttwwoo.

        To check the state of all forms of clipping, use
              show clip

        For backward compatibility with older versions, the following
        forms are also permitted:
              set clip
              unset clip

        sseett cclliipp is synonymous with sseett cclliipp ppooiinnttss; uunnsseett cclliipp turns
        off all three types of clipping.



        4455..1100..  CCnnttrrppaarraamm


        sseett ccnnttrrppaarraamm controls the generation of contours and their
        smoothness for a contour plot. sshhooww ccoonnttoouurr displays current
        settings of ccnnttrrppaarraamm as well as ccoonnttoouurr.

        Syntax:
              set cntrparam { { linear
                              | cubicspline
                              | bspline
                              | points <n>
                              | order <n>
                              | levels { auto {<n>} | <n>
                                         | discrete <z1>
        {,<z2>{,<z3>...}}
                                         | incremental <start>, <incr>
        {,<end>}
                                       }
                              }










   GNUPLOT 4.1                                                      106


                            }
              show contour

        This command has two functions.  First, it sets the values of z
        for which contour points are to be determined (by linear inter-
        polation between data points or function isosamples.)  Second,
        it controls the way contours are drawn between the points
        determined to be of equal z.  <n> should be an integral con-
        stant expression and <z1>, <z2> ... any constant expressions.
        The parameters are:

        lliinneeaarr, ccuubbiiccsspplliinnee, bbsspplliinnee---Controls type of approximation
        or interpolation.  If lliinneeaarr, then straight line segments con-
        nect points of equal z magnitude.  If ccuubbiiccsspplliinnee, then piece-
        wise-linear contours are interpolated between the same equal z
        points to form somewhat smoother contours, but which may undu-
        late.  If bbsspplliinnee, a guaranteed-smoother curve is drawn, which
        only approximates the position of the points of equal-z.

        ppooiinnttss---Eventually all drawings are done with piecewise-linear
        strokes.  This number controls the number of line segments used
        to approximate the bbsspplliinnee or ccuubbiiccsspplliinnee curve.  Number of
        cubicspline or bspline segments (strokes) = ppooiinnttss * number of
        linear segments.

        oorrddeerr---Order of the bspline approximation to be used.  The
        bigger this order is, the smoother the resulting contour.  (Of
        course, higher order bspline curves will move further away from
        the original piecewise linear data.)  This option is relevant
        for bbsspplliinnee mode only.  Allowed values are integers in the
        range from 2 (linear) to 10.

        lleevveellss--- Selection of contour levels,  controlled by aauuttoo
        (default), ddiissccrreettee, iinnccrreemmeennttaall, and <n>, number of contour
        levels.

        For aauuttoo, <n> specifies a nominal number of levels; the actual
        number will be adjusted to give simple labels. If the surface
        is bounded by zmin and zmax, contours will be generated at
        integer multiples of dz between zmin and zmax, where dz is 1,
        2, or 5 times some power of ten (like the step between two tic
        marks).

        For lleevveellss ddiissccrreettee, contours will be generated at z = <z1>,
        <z2> ... as specified; the number of discrete levels sets the
        number of contour levels.  In ddiissccrreettee mode, any sseett ccnnttrrppaarraamm
        lleevveellss <<nn>> are ignored.

        For iinnccrreemmeennttaall, contours are generated at values of z begin-
        ning at <start> and increasing by <increment>, until the number
        of contours is reached. <end> is used to determine the number
        of contour levels, which will be changed by any subsequent sseett
        ccnnttrrppaarraamm lleevveellss <<nn>>.  If the z axis is logarithmic,










   GNUPLOT 4.1                                                      107


        <increment> will be interpreted as a factor, just like in sseett
        zzttiiccss.

        If the command sseett ccnnttrrppaarraamm is given without any arguments
        specified,  the defaults are used: linear, 5 points, order 4, 5
        auto levels.

        Examples:
              set cntrparam bspline
              set cntrparam points 7
              set cntrparam order 10

        To select levels automatically, 5 if the level increment crite-
        ria are met:
              set cntrparam levels auto 5

        To specify discrete levels at .1, .37, and .9:
              set cntrparam levels discrete .1,1/exp(1),.9

        To specify levels from 0 to 4 with increment 1:
              set cntrparam levels incremental  0,1,4

        To set the number of levels to 10 (changing an incremental end
        or possibly the number of auto levels):
              set cntrparam levels 10

        To set the start and increment while retaining the number of
        levels:
              set cntrparam levels incremental 100,50

        See also sseett ccoonnttoouurr for control of where the contours are
        drawn, and sseett ccllaabbeell for control of the format of the contour
        labels and linetypes.

        See also contours demo (contours.dem) and contours with user
        defined levels demo (discrete.dem).



        4455..1111..  CCoolloorr bbooxx



        The color scheme, i.e. the gradient of the smooth color with
        min_z and max_z values of ppmm33dd's ppaalleettttee, is drawn in a color
        box unless uunnsseett ccoolloorrbbooxx.

              set colorbox
              set colorbox {
                         { vertical | horizontal }
                         { default | user }
                         { origin x, y }
                         { size x, y }










   GNUPLOT 4.1                                                      108


                         { front | back }
                         { noborder | bdefault | border [line style] }
                       }
              show colorbox
              unset colorbox

        Color box position can be ddeeffaauulltt or uusseerr.  If the latter is
        specified the values as given with the oorriiggiinn and ssiizzee subcom-
        mands are used. The box can be drawn after (ffrroonntt) or before
        (bbaacckk) the graph or the surface.

        The orientation of the color gradient can be switched by
        options vveerrttiiccaall and hhoorriizzoonnttaall.

        oorriiggiinn xx,, yy and ssiizzee xx,, yy are used only in combination with the
        uusseerr option. The x and y values are interpreted as screen coor-
        dinates by default, and this is the only legal option for 3D
        plots. 2D plots, including splot with sseett vviieeww mmaapp, allow any
        coordinate system to be specified.  Try for example:
            set colorbox horiz user origin .1,.02 size .8,.04
        which will draw a horizontal gradient somewhere at the bottom
        of the graph.

        bboorrddeerr turns the border on (this is the default). nnoobboorrddeerr
        turns the border off. If an positive integer argument is given
        after bboorrddeerr, it is used as a line style tag which is used for
        drawing the border, e.g.:
            set style line 2604 linetype -1 linewidth .4
            set colorbox border 2604
        will use line style 22660044, a thin line with the default border
        color (-1) for drawing the border. bbddeeffaauulltt (which is the
        default) will use the default border line style for drawing the
        border of the color box.

        The axis of the color box is called ccbb and it is controlled by
        means of the usual axes commands, i.e. sseett//uunnsseett//sshhooww with
        ccbbrraannggee, [[mm]]ccbbttiiccss, ffoorrmmaatt ccbb, ggrriidd [[mm]]ccbb, ccbbllaabbeell, and perhaps
        even ccbbddaattaa, [[nnoo]]ccbbddttiiccss, [[nnoo]]ccbbmmttiiccss.

        sseett ccoolloorrbbooxx without any parameter switches the position to
        default.  uunnsseett ccoolloorrbbooxx resets the default parameters for the
        colorbox and switches the colorbox off.

        See also help for sseett ppmm33dd, sseett ppaalleettttee, xx1111 ppmm33dd, and sseett
        ssttyyllee lliinnee.




        4455..1122..  CCoonnttoouurr













   GNUPLOT 4.1                                                      109


        sseett ccoonnttoouurr enables contour drawing for surfaces.  This option
        is available for sspplloott only.  It requires grid data, see
        ggrriidd__ddaattaa for more details.  If contours are desired from non-
        grid data, sseett ddggrriidd33dd can be used to create an appropriate
        grid.

        Syntax:
              set contour {base | surface | both}
              unset contour
              show contour

        The three options specify where to draw the contours: bbaassee
        draws the contours on the grid base where the x/ytics are
        placed, ssuurrffaaccee draws the contours on the surfaces themselves,
        and bbootthh draws the contours on both the base and the surface.
        If no option is provided, the default is bbaassee.

        See also sseett ccnnttrrppaarraamm for the parameters that affect the draw-
        ing of contours, and sseett ccllaabbeell for control of labelling of the
        contours.

        The surface can be switched off (see sseett ssuurrffaaccee), giving a
        contour-only graph.  Though it is possible to use sseett ssiizzee to
        enlarge the plot to fill the screen, more control over the out-
        put format can be obtained by writing the contour information
        to a file, and rereading it as a 2-d datafile plot:

              unset surface
              set contour
              set cntrparam ...
              set table 'filename'
              splot ...
              unset table
              # contour info now in filename
              set term <whatever>
              plot 'filename'

        In order to draw contours, the data should be organized as
        "grid data".  In such a file all the points for a single y-iso-
        line are listed, then all the points for the next y-isoline,
        and so on.  A single blank line (a line containing no charac-
        ters other than blank spaces and a carriage return and/or a
        line feed) separates one y-isoline from the next.  See also
        sspplloott ddaattaaffiillee.

        See also contours demo (contours.dem) and contours with user
        defined levels demo (discrete.dem).
















   GNUPLOT 4.1                                                      110


        4455..1133..  DDaattaa ssttyyllee


        This form of the command is deprecated. Please see sseett ssttyyllee
        ddaattaa.



        4455..1144..  DDaattaaffiillee


        The sseett ddaattaaffiillee command options control interpretation of
        fields read from input data files by the pplloott, sspplloott, and ffiitt
        commands.  Four such options are currently implemented.




             4455..1144..11..  SSeett ddaattaaffiillee ffoorrttrraann


             The sseett ddaattaaffiillee ffoorrttrraann command enables a special check
             for values in the input file expressed as Fortran D or Q
             constants. This extra check slows down the input process,
             and should only be selected if you do in fact have
             datafiles containing Fortran D or Q constants. The option
             can be disabled again using uunnsseett ddaattaaffiillee ffoorrttrraann.



             4455..1144..22..  SSeett ddaattaaffiillee mmiissssiinngg


             The sseett ddaattaaffiillee mmiissssiinngg command allows you to tell ggnnuu--
             pplloott what character string is used in a data file to
             denote missing data.  Exactly how this missing value will
             be treated depends on the uussiinngg specifier of the pplloott or
             sspplloott command.

             Syntax:
                   set datafile missing {"<string>"}
                   show datafile missing
                   unset datafile

             Example:
                   # Ignore entries containing IEEE NaN ("Not a Num-
             ber") code
                   set datafile missing "NaN"

             Example:
                   set datafile missing "?"
                   set style data lines
                   plot '-'










   GNUPLOT 4.1                                                      111


                      1 10
                      2 20
                      3 ?
                      4 40
                      5 50
                      e
                   plot '-' using 1:2
                      1 10
                      2 20
                      3 ?
                      4 40
                      5 50
                      e
                   plot '-' using 1:($2)
                      1 10
                      2 20
                      3 ?
                      4 40
                      5 50
                      e

             The first pplloott will recognize only the first datum in the
             "3 ?" line.  It will use the single-datum-on-a-line con-
             vention that the line number is "x" and the datum is "y",
             so the point will be plotted (in this case erroneously) at
             (2,3).

             The second pplloott will correctly ignore the middle line.
             The plotted line will connect the points at (2,20) and
             (4,40).

             The third pplloott will also correctly ignore the middle line,
             but the plotted line will not connect the points at (2,20)
             and (4,40).

             There is no default character for mmiissssiinngg, but in many
             cases any non-parsible string of characters found where a
             numerical value is expected will be treated as missing
             data.




             4455..1144..33..  SSeett ddaattaaffiillee sseeppaarraattoorr


             The command sseett ddaattaaffiillee sseeppaarraattoorr ""<<cchhaarr>>"" tells ggnnuupplloott
             that data fields in subsequent input files are separated
             by <char> rather than by whitespace.  The most common use
             is to read in csv (comma-separated value) files written by
             spreadsheet or database programs. By default data fields
             are separated by whitespace.











   GNUPLOT 4.1                                                      112


             Syntax:
                   set datafile separator {"<char>" | whitespace}

             Examples:
                   # Input file contains tab-separated fields
                   set datafile separator "\t"

                   # Input file contains comma-separated values fields
                   set datafile separator ","



             4455..1144..44..  SSeett ddaattaaffiillee ccoommmmeennttsscchhaarrss


             The sseett ddaattaaffiillee ccoommmmeennttsscchhaarrss command allows you to tell
             ggnnuupplloott what characters are used in a data file to denote
             comments.  Gnuplot will ignore rest of the line behind the
             specified characters if either of them is the first non-
             blank character on the line.

             Syntax:
                   set datafile commentschars {"<string>"}
                   show datafile commentschars
                   unset commentschars

             Default value of the string is "#!" on VMS and "#" other-
             wise.

             Then, the following line in a data file is completely
             ignored
                 # 1 2 3 4
             but the following
                 1 # 3 4
             produces rather unexpected plot unless
                 set datafile missing '#'
             is specified as well.

             Example:
                   set datafile commentschars "#!%"



             4455..1144..55..  SSeett ddaattaaffiillee bbiinnaarryy


             The sseett ddaattaaffiillee bbiinnaarryy command is used to set the
             defaults when reading binary data files.  The syntax
             matches precisely that used for commands pplloott and sspplloott.
             See bbiinnaarryy for details about <binary list>.

             Syntax:
                   set datafile binary <binary list>










   GNUPLOT 4.1                                                      113


                   show datafile binary
                   show datafile
                   unset datafile

             Examples:
                   set datafile binary filetype=auto
                   set datafile binary array=512x512 format="%uchar"



        4455..1155..  DDeecciimmaallssiiggnn


        The sseett ddeecciimmaallssiiggnn command selects a decimal sign for numbers
        printed into tic labels or sseett llaabbeell strings.

        Syntax:
              set decimalsign {<value> | locale {"<locale>"}}
              unset decimalsign
              show decimalsign

        The argument <value> is a string to be used in place of the
        usual decimal point. Typical choices include the period, '.',
        and the comma, ',', but others may be useful, too.  If you omit
        the <value> argument, the decimal separator is not modified
        from the usual default, which is a period.  Unsetting decimal-
        sign has the same effect as omitting <value>.

        Example:

        Correct typesetting in most European countries requires:
              set decimalsign ','

        Please note: If you set an explicit string, this affects only
        numbers that are printed using gnuplot's gprintf() formatting
        routine, include axis tics.  It does not affect the format
        expected for input data, and it does not affect numbers printed
        with the sprintf() formatting routine. To change the behavior
        of both input and output formatting, instead use the form

              set decimalsign locale

        This instructs the program to use both input and output formats
        in accordance with the current setting of the LC_ALL,
        LC_NUMERIC, or LANG environmental variables.

              set decimalsign locale "foo"

        This instructs the program to format all input and output in
        accordance with locale "foo", which must be installed.  If
        locale "foo" is not found then an error message is printed and
        the decimal sign setting is unchanged.  On linux systems you
        can get a list of the locales installed on your machine by










   GNUPLOT 4.1                                                      114


        typing "locale -a". A typical linux locale string is of the
        form "sl_SI.UTF-8".  A typical Windows locale string is of the
        form "Slovenian_Slovenia.1250" or "slovenian". Please note that
        interpretation of the locale settings is done by the C library
        at runtime. Older C libraries may offer only partial support
        for locale settings such as the thousands grouping separator
        character.

              set decimalsign locale; set decimalsign "."

        This sets all input and output to use whatever decimal sign is
        correct for the current locale, but over-rides this with an
        explicit '.' in numbers formatted using gnuplot's internal
        gprintf() function.



        4455..1166..  DDggrriidd33dd


        The sseett ddggrriidd33dd command enables, and can set parameters for,
        non-grid to grid data mapping.  See sspplloott ggrriidd__ddaattaa for more
        details about the grid data structure.

        Syntax:
              set dgrid3d {<row_size>} {,{<col_size>} {,<norm>}}
              unset dgrid3d
              show dgrid3d

        By default ddggrriidd33dd is disabled.  When enabled, 3-d data read
        from a file are always treated as a scattered data set.  A grid
        with dimensions derived from a bounding box of the scattered
        data and size as specified by the row/col_size parameters is
        created for plotting and contouring.  The grid is equally
        spaced in x (rows) and in y (columns); the z values are com-
        puted as weighted averages of the scattered points' z values.

        The third parameter, norm, controls the weighting:  Each data
        point is weighted inversely by its distance from the grid point
        raised to the norm power.  (Actually, the weights are given by
        the inverse of dx^norm + dy^norm, where dx and dy are the com-
        ponents of the separation of the grid point from each data
        point.  For some norms that are powers of two, specifically 4,
        8, and 16, the computation is optimized by using the Euclidean
        distance in the weight calculation, (dx^2+dy^2)^norm/2.  How-
        ever, any non-negative integer can be used.)

        The closer the data point is to a grid point, the more effect
        it has on that grid point and the larger the value of norm the
        less effect more distant data points have on that grid point.

        The ddggrriidd33dd option is a simple low pass filter that converts
        scattered data to a grid data set.  More sophisticated










   GNUPLOT 4.1                                                      115


        approaches to this problem exist and should be used to prepro-
        cess the data outside ggnnuupplloott if this simple solution is found
        inadequate.

        (The z values are found by weighting all data points, not by
        interpolating between nearby data points;  also edge effects
        may produce unexpected and/or undesired results.  In some
        cases, small norm values produce a grid point reflecting the
        average of distant data points rather than a local average,
        while large values of norm may produce "steps" with several
        grid points having the same value as the closest data point,
        rather than making a smooth transition between adjacent data
        points.  Some areas of a grid may be filled by extrapolation,
        to an arbitrary boundary condition.  The variables are not nor-
        malized; consequently the units used for x and y will affect
        the relative weights of points in the x and y directions.)

        Examples:
              set dgrid3d 10,10,1     # defaults
              set dgrid3d ,,4

        The first specifies that a grid of size 10 by 10 is to be con-
        structed using a norm value of 1 in the weight computation.
        The second only modifies the norm, changing it to 4.  See also
        scatter.dem: dgrid3d demo.




        4455..1177..  DDuummmmyy


        The sseett dduummmmyy command changes the default dummy variable names.

        Syntax:
              set dummy {<dummy-var>} {,<dummy-var>}
              show dummy

        By default, ggnnuupplloott assumes that the independent, or "dummy",
        variable for the pplloott command is "t" if in parametric or polar
        mode, or "x" otherwise.  Similarly the independent variables
        for the sspplloott command are "u" and "v" in parametric mode (sspplloott
        cannot be used in polar mode), or "x" and "y" otherwise.

        It may be more convenient to call a dummy variable by a more
        physically meaningful or conventional name.  For example, when
        plotting time functions:

              set dummy t
              plot sin(t), cos(t)

        At least one dummy variable must be set on the command; sseett
        dduummmmyy by itself will generate an error message.










   GNUPLOT 4.1                                                      116


        Examples:
              set dummy u,v
              set dummy ,s

        The second example sets the second variable to s.



        4455..1188..  EEnnccooddiinngg


        The sseett eennccooddiinngg command selects a character encoding.  Syntax:
              set encoding {<value>}
              show encoding

        Valid values are
           default     - tells a terminal to use its default encoding
           iso_8859_1  - the most common Western European font used by
        many
                         Unix workstations and by MS-Windows. This
        encoding is
                         known in the PostScript world as 'ISO-Latin1'.
           iso_8859_2  - used in Central and Eastern Europe
           iso_8859_15 - a variant of iso_8859_1 that includes the Euro
        symbol
           koi8r       - popular Unix cyrillic encoding
           koi8u       - ukrainian Unix cyrillic encoding
           cp437       - codepage for MS-DOS
           cp850       - codepage for OS/2, Western Europe
           cp852       - codepage for OS/2, Central and Eastern Europe
           cp1250      - codepage for MS Windows, Central and Eastern
        Europe

        Generally you must set the encoding before setting the terminal
        type.  Note that encoding is not supported by all terminal
        drivers and that the device must be able to produce the desired
        non-standard characters.  The PostScript, X11 and wxt terminals
        support all encodings. OS/2 Presentation Manager switches auto-
        matically to codepage 912 for iissoo__88885599__22.



        4455..1199..  FFiitt


        The ffiitt setting defines where the ffiitt command writes its out-
        put.  If this option was built into your version of gnuplot, it
        also controls whether parameter errors from the fit will be
        written into variables.

        Syntax:
              set fit {logfile {"<filename>"}} {{no}errorvariables}
              unset fit










   GNUPLOT 4.1                                                      117


              show fit

        The <filename> argument must be enclosed in single or double
        quotes.

        If no filename is given or uunnsseett ffiitt is used the log file is
        reset to its default value "fit.log" or the value of the envi-
        ronmental variable FFIITT__LLOOGG.

        Users of DOS-like platforms should note that the \ character
        has special significance in double-quoted strings, so single-
        quotes should be used for filenames in different directories,
        or you have to write \\ for each \.  Or you can just use for-
        ward slashes, even though this is DOS.

        If the given logfile name ends with a / or \, it is interpreted
        to be a directory name, and the actual filename will be
        "fit.log" in that directory.

        If the eerrrroorrvvaarriiaabblleess option is turned on, the error of each
        fitted parameter computed by ffiitt will be copied to a user-
        defined variable whose name is formed by appending "_err" to
        the name of the parameter itself.  This is useful mainly to put
        the parameter and its error onto a plot of the data and the
        fitted function, for reference, as in:

               set fit errorvariables
               fit f(x) 'datafile' using 1:2 via a, b
               print "error of a is:", a_err
               set label 'a=%6.2f', a, '+/- %6.2f', a_err
               plot 'datafile' using 1:2, f(x)



        4455..2200..  FFoonnttppaatthh


        The ffoonnttppaatthh setting defines additional locations for font
        files searched when including font files. Currently only the
        postscript terminal supports ffoonnttppaatthh. If a file cannot be
        found in the current directory, the directories in ffoonnttppaatthh are
        tried. Further documentation concerning the supported file for-
        mats is included in the tteerrmmiinnaall ppoossttssccrriipptt section of the doc-
        umentation.

        Syntax:
              set fontpath {"pathlist1" {"pathlist2"...}}
              show fontpath

        Path names may be entered as single directory names, or as a
        list of path names separated by a platform-specific path sepa-
        rator, eg. colon (':') on Unix, semicolon (';') on DOS/Win-
        dows/OS/2/Amiga platforms.  The sshhooww ffoonnttppaatthh, ssaavvee and ssaavvee










   GNUPLOT 4.1                                                      118


        sseett commands replace the platform-specific separator with a
        space character (' ') for maximum portability. If a directory
        name ends with an exclamation mark ('!') also the subdirecto-
        ries of this directory are searched for font files.

        If the environmental variable GNUPLOT_FONTPATH is set, its con-
        tents are appended to ffoonnttppaatthh.  If it is not set, a system
        dependent default value is used. It is set by testing several
        directories for existence when using the fontpath the first
        time. Thus, the first call of sseett ffoonnttppaatthh, sshhooww ffoonnttppaatthh, ssaavvee
        ffoonnttppaatthh, pplloott, or sspplloott with embedded font files takes a lit-
        tle more time. If you want to save this time you may set the
        environmental variable GNUPLOT_FONTPATH since probing is
        switched off, then. You can find out which is the default font-
        path by using sshhooww ffoonnttppaatthh.

        However, sshhooww ffoonnttppaatthh prints the contents of user defined
        fontpath and system fontpath separately.  Also, the ssaavvee and
        ssaavvee sseett commands save only the user specified parts of ffoonntt--
        ppaatthh, for portability reasons.

        Many other terminal drivers access TrueType fonts via the gd
        library.  For these drivers the font search path is controlled
        by the environmental variable GDFONTPATH.



        4455..2211..  FFoorrmmaatt


        The format of the tic-mark labels can be set with the sseett ffoorr--
        mmaatt command or with the sseett ttiiccss ffoorrmmaatt or individual sseett
        {{aaxxiiss}}ttiiccss ffoorrmmaatt commands.

        Syntax:
              set format {<axes>} {"<format-string>"}
              set format {<axes>} {'<format-string>'}
              show format

        where <axes> is either xx, yy, xxyy, xx22, yy22, zz, ccbb or nothing
        (which refers to all axes at once).  The length of the string
        representing a tic mark (after formatting with 'printf') is
        restricted to 100 characters.  If the format string is omitted,
        the format will be returned to the default "% g".  For LaTeX
        users, the format "$%g$" is often desirable.  If the empty
        string "" is used, no label will be plotted with each tic,
        though the tic mark will still be plotted.  To eliminate all
        tic marks, use uunnsseett xxttiiccss or uunnsseett yyttiiccss.

        Newline (\n) is accepted in the format string.  Use double-
        quotes rather than single-quotes to enable such interpretation.
        See also ssyynnttaaxx.











   GNUPLOT 4.1                                                      119


        The default format for both axes is "% g", but other formats
        such as "%.2f" or "%3.0em" are often desirable.  Anything
        accepted by 'printf' when given a double precision number, and
        accepted by the terminal, will work.  Some other options have
        been added.  If the format string looks like a floating point
        format, then ggnnuupplloott tries to construct a reasonable format.

        Characters not preceded by "%" are printed verbatim.  Thus you
        can include spaces and labels in your format string, such as
        "%g m", which will put " m" after each number.  If you want "%"
        itself, double it: "%g %%".

        See also sseett xxttiiccss for more information about tic labels, and
        sseett ddeecciimmaallssiiggnn for how to use non-default decimal separators
        in numbers printed this way.  See also electron demo (elec-
        tron.dem).




             4455..2211..11..  GGpprriinnttff


             The string function gprintf("format",x) uses gnuplot's own
             format specifiers, as do the gnuplot commands sseett ffoorrmmaatt,
             sseett ttiimmeessttaammpp, and others. These format specifiers are not
             the same as those used by the standard C-language routine
             sprintf(). Gnuplot also provides an sprintf("for-
             mat",x,...) routine if you prefer. For a list of gnuplot's
             format options, see ffoorrmmaatt ssppeecciiffiieerrss.



             4455..2211..22..  FFoorrmmaatt ssppeecciiffiieerrss


             The acceptable formats (if not in time/date mode) are:


























   GNUPLOT 4.1                                                      120


   +------------------------------------------------------------------+
   | Format    Explanation                                            |
   +------------------------------------------------------------------+
   |   %f      floating point notation                                |
   |%e or %E   exponential notation; an "e" or "E" before the power   |
   |%g or %G   the shorter of %e (or %E) and %f                       |
   |%x or %X   hex                                                    |
   |%o or %O   octal                                                  |
   |   %t      mantissa to base 10                                    |
   |   %l      mantissa to base of current logscale                   |
   |   %s      mantissa to base of current logscale; scientific power |
   |   %T      power to base 10                                       |
   |   %L      power to base of current logscale                      |
   |   %S      scientific power                                       |
   |   %c      character replacement for scientific power             |
   |   %P      multiple of pi                                         |
   +------------------------------------------------------------------+
   +------------------------------------------------------------------+



   A 'scientific' power is one such that the exponent is a multiple of
   three.  Character replacement of scientific powers (""%%cc"") has been
   implemented for powers in the range -18 to +18.  For numbers outside
   of this range the format reverts to exponential.

   Other acceptable modifiers (which come after the "%" but before the
   format specifier) are "-", which left-justifies the number; "+",
   which forces all numbers to be explicitly signed; " " (a space),
   which makes positive numbers have a space in front of them where
   negative numbers have "-"; "#", which places a decimal point after
   floats that have only zeroes following the decimal point; a positive
   integer, which defines the field width; "0" (the digit, not the let-
   ter) immediately preceding the field width, which indicates that
   leading zeroes are to be used instead of leading blanks; and a deci-
   mal point followed by a non-negative integer, which defines the pre-
   cision (the minimum number of digits of an integer, or the number of
   digits following the decimal point of a float).

   Some systems may not support all of these modifiers but may also
   support others; in case of doubt, check the appropriate documenta-
   tion and then experiment.

   Examples:
         set format y "%t"; set ytics (5,10)          # "5.0" and "1.0"
         set format y "%s"; set ytics (500,1000)      # "500" and "1.0"
         set format y "%+-12.3f"; set ytics(12345)    # "+12345.000  "
         set format y "%.2t*10^%+03T"; set ytic(12345)# "1.23*10^+04"
         set format y "%s*10^{%S}"; set ytic(12345)   # "12.345*10^{3}"
         set format y "%s %cg"; set ytic(12345)       # "12.345 kg"
         set format y "%.0P pi"; set ytic(6.283185)   # "2 pi"
         set format y "%.0f%%"; set ytic(50)          # "50%"











   GNUPLOT 4.1                                                      121


         set log y 2; set format y '%l'; set ytics (1,2,3)
         #displays "1.0", "1.0" and "1.5" (since 3 is 1.5 * 2^1)

   There are some problem cases that arise when numbers like 9.999 are
   printed with a format that requires both rounding and a power.

   If the data type for the axis is time/date, the format string must
   contain valid codes for the 'strftime' function (outside of ggnnuupplloott,
   type "man strftime").  See sseett ttiimmeeffmmtt for a list of the allowed
   input format codes.



             4455..2211..33..  TTiimmee//ddaattee ssppeecciiffiieerrss


             In time/date mode, the acceptable formats are:




          +----------------------------------------------------+
          | Format    Explanation                              |
          +----------------------------------------------------+
          |   %a      abbreviated name of day of the week      |
          |   %A      full name of day of the week             |
          |%b or %h   abbreviated name of the month            |
          |   %B      full name of the month                   |
          |   %d      day of the month, 1--31                  |
          |   %D      shorthand for "%m/%d/%y"                 |
          |   %k      hour, 0--23 (one or two digits)          |
          |   %H      hour, 00--23 (always two digits)         |
          |   %l      hour, 1--12 (one or two digits)          |
          |   %I      hour, 01--12 (always two digits)         |
          |   %j      day of the year, 1--366                  |
          |   %m      month, 1--12                             |
          |   %M      minute, 0--60                            |
          |   %p      "am" or "pm"                             |
          |   %r      shorthand for "%I:%M:%S %p"              |
          |   %R      shorthand for %H:%M"                     |
          |   %S      second, 0--60                            |
          |   %T      shorthand for "%H:%M:%S"                 |
          |   %U      week of the year (week starts on Sunday) |
          |   %w      day of the week, 0--6 (Sunday = 0)       |
          |   %W      week of the year (week starts on Monday) |
          |   %y      year, 0-99                               |
          |   %Y      year, 4-digit                            |
          +----------------------------------------------------+
          +----------------------------------------------------+



   Except for the non-numerical formats, these may be preceded by a "0"










   GNUPLOT 4.1                                                      122


   ("zero", not "oh") to pad the field length with leading zeroes, and
   a positive digit, to define the minimum field width (which will be
   overridden if the specified width is not large enough to contain the
   number).  There is a 24-character limit to the length of the printed
   text; longer strings will be truncated.

   Examples:

   Suppose the text is "76/12/25 23:11:11".  Then
         set format x                 # defaults to "12/25/76" \n
   "23:11"
         set format x "%A, %d %b %Y"  # "Saturday, 25 Dec 1976"
         set format x "%r %D"         # "11:11:11 pm 12/25/76"

   Suppose the text is "98/07/06 05:04:03".  Then
         set format x "%1y/%2m/%3d %01H:%02M:%03S"  # "98/ 7/  6
   5:04:003"



        4455..2222..  FFuunnccttiioonn ssttyyllee


        This form of the command is deprecated. Please see sseett ssttyyllee
        ffuunnccttiioonn.



        4455..2233..  FFuunnccttiioonnss


        The sshhooww ffuunnccttiioonnss command lists all user-defined functions and
        their definitions.

        Syntax:
              show functions

        For information about the definition and usage of functions in
        ggnnuupplloott, please see eexxpprreessssiioonnss.  See also splines as user
        defined functions (spline.dem) and use of functions and complex
        variables for airfoils (airfoil.dem).



        4455..2244..  GGrriidd


        The sseett ggrriidd command allows grid lines to be drawn on the plot.

        Syntax:
              set grid {{no}{m}xtics} {{no}{m}ytics} {{no}{m}ztics}
                       {{no}{m}x2tics} {{no}{m}y2tics}
                       {{no}{m}cbtics}










   GNUPLOT 4.1                                                      123


                       {polar {<angle>}}
                       {layerdefault | front | back}
                       { {linestyle <major_linestyle>}
                         | {linetype | lt <major_linetype>}
                           {linewidth | lw <major_linewidth>}
                         { , {linestyle | ls <minor_linestyle>}
                             | {linetype | lt <minor_linetype>}
                               {linewidth | lw <minor_linewidth>} } }
              unset grid
              show grid

        The grid can be enabled and disabled for the major and/or minor
        tic marks on any axis, and the linetype and linewidth can be
        specified for major and minor grid lines, also via a predefined
        linestyle, as far as the active terminal driver supports this.

        Additionally, a polar grid can be selected for 2-d plots---cir-
        cles are drawn to intersect the selected tics, and radial lines
        are drawn at definable intervals.  (The interval is given in
        degrees or radians, depending on the sseett aanngglleess setting.)  Note
        that a polar grid is no longer automatically generated in polar
        mode.

        The pertinent tics must be enabled before sseett ggrriidd can draw
        them; ggnnuupplloott will quietly ignore instructions to draw grid
        lines at non-existent tics, but they will appear if the tics
        are subsequently enabled.

        If no linetype is specified for the minor gridlines, the same
        linetype as the major gridlines is used.  The default polar
        angle is 30 degrees.

        If ffrroonntt is given, the grid is drawn on top of the graphed
        data. If bbaacckk is given, the grid is drawn underneath the
        graphed data. Using ffrroonntt will prevent the grid from being
        obscured by dense data. The default setup, llaayyeerrddeeffaauulltt, is
        equivalent to bbaacckk for 2d plots.  In 3D plots the default is to
        split up the grid and the graph box into two layers: one
        behind, the other in front of the plotted data and functions.
        Since hhiiddddeenn33dd mode does its own sorting, it ignores all grid
        drawing order options and passes the grid lines through the
        hidden line removal machinery instead. These options actually
        affect not only the grid, but also the lines output by sseett bboorr--
        ddeerr and the various ticmarks (see sseett xxttiiccss).

        Z grid lines are drawn on the bottom of the plot.  This looks
        better if a partial box is drawn around the plot---see sseett bboorr--
        ddeerr.















   GNUPLOT 4.1                                                      124


        4455..2255..  HHiiddddeenn33dd


        The sseett hhiiddddeenn33dd command enables hidden line removal for sur-
        face plotting (see sspplloott).  Some optional features of the
        underlying algorithm can also be controlled using this command.

        Syntax:
              set hidden3d {defaults} |
                           { {{offset <offset>} | {nooffset}}
                             {trianglepattern <bitpattern>}
                             {{undefined <level>} | {noundefined}}
                             {{no}altdiagonal}
                             {{no}bentover} }
              unset hidden3d
              show hidden3d

        In contrast to the usual display in gnuplot, hidden line
        removal actually treats the given function or data grids as
        real surfaces that can't be seen through, so parts behind the
        surface will be hidden by it.  For this to be possible, the
        surface needs to have 'grid structure' (see sspplloott ddaattaaffiillee
        about this), and it has to be drawn wwiitthh lliinneess or wwiitthh lliinneess--
        ppooiinnttss.

        When hhiiddddeenn33dd is set, both the hidden portion of the surface
        and possibly its contours drawn on the base (see sseett ccoonnttoouurr)
        as well as the grid will be hidden.  Each surface has its hid-
        den parts removed with respect to itself and to other surfaces,
        if more than one surface is plotted.  Contours drawn on the
        surface (sseett ccoonnttoouurr ssuurrffaaccee) don't work.

        Labels and arrows are always visible and are unaffected.  The
        key box is never hidden by the surface. As of gnuplot version
        4.2, sseett hhiiddddeenn33dd also affects 3D plotting styles wwiitthh ppooiinnttss,
        wwiitthh llaabbeellss, and wwiitthh vveeccttoorrss, even if no surface is present in
        the graph.  Individual plots within the graph may be explicitly
        excluded from this processing by appending the extra option
        nnoohhiiddddeenn33dd to the wwiitthh specifier.

        Hidden3d does not affect solid surfaces drawn using the pm3d
        mode. To achieve a similar effect for pm3d surfaces, use
        instead set ppmm33dd ddeepptthhoorrddeerr.

        Functions are evaluated at isoline intersections.  The algo-
        rithm interpolates linearly between function points or data
        points when determining the visible line segments.  This means
        that the appearance of a function may be different when plotted
        with hhiiddddeenn33dd than when plotted with nnoohhiiddddeenn33dd because in the
        latter case functions are evaluated at each sample.  Please see
        sseett ssaammpplleess and sseett iissoossaammpplleess for discussion of the differ-
        ence.











   GNUPLOT 4.1                                                      125


        The algorithm used to remove the hidden parts of the surfaces
        has some additional features controllable by this command.
        Specifying ddeeffaauullttss will set them all to their default set-
        tings, as detailed below.  If ddeeffaauullttss is not given, only
        explicitly specified options will be influenced: all others
        will keep their previous values, so you can turn on/off hidden
        line removal via sseett {{nnoo}}hhiiddddeenn33dd, without modifying the set of
        options you chose.

        The first option, ooffffsseett, influences the linestyle used for
        lines on the 'back' side.  Normally, they are drawn in a
        linestyle one index number higher than the one used for the
        front, to make the two sides of the surface distinguishable.
        You can specify a different line style offset to add instead of
        the default 1, by ooffffsseett <<ooffffsseett>>.  Option nnooooffffsseett stands for
        ooffffsseett 00, making the two sides of the surface use the same
        linestyle.

        Next comes the option ttrriiaanngglleeppaatttteerrnn <<bbiittppaatttteerrnn>>.  <bitpat-
        tern> must be a number between 0 and 7, interpreted as a bit
        pattern.  Each bit determines the visibility of one edge of the
        triangles each surface is split up into.  Bit 0 is for the
        'horizontal' edges of the grid, Bit 1 for the 'vertical' ones,
        and Bit 2 for the diagonals that split each cell of the origi-
        nal grid into two triangles.  The default pattern is 3, making
        all horizontal and vertical lines visible, but not the diago-
        nals.  You may want to choose 7 to see those diagonals as well.

        The uunnddeeffiinneedd <<lleevveell>> option lets you decide what the algorithm
        is to do with data points that are undefined (missing data, or
        undefined function values), or exceed the given x-, y- or z-
        ranges.  Such points can either be plotted nevertheless, or
        taken out of the input data set.  All surface elements touching
        a point that is taken out will be taken out as well, thus cre-
        ating a hole in the surface.  If <level> = 3, equivalent to
        option nnoouunnddeeffiinneedd, no points will be thrown away at all.  This
        may produce all kinds of problems elsewhere, so you should
        avoid this.  <level> = 2 will throw away undefined points, but
        keep the out-of-range ones.  <level> = 1, the default, will get
        rid of out-of-range points as well.

        By specifying nnooaallttddiiaaggoonnaall, you can override the default han-
        dling of a special case can occur if uunnddeeffiinneedd is active (i.e.
        <level> is not 3).  Each cell of the grid-structured input sur-
        face will be divided in two triangles along one of its diago-
        nals.  Normally, all these diagonals have the same orientation
        relative to the grid.  If exactly one of the four cell corners
        is excluded by the uunnddeeffiinneedd handler, and this is on the usual
        diagonal, both triangles will be excluded.  However if the
        default setting of aallttddiiaaggoonnaall is active, the other diagonal
        will be chosen for this cell instead, minimizing the size of
        the hole in the surface.











   GNUPLOT 4.1                                                      126


        The bbeennttoovveerr option controls what happens to another special
        case, this time in conjunction with the ttrriiaanngglleeppaatttteerrnn.  For
        rather crumply surfaces, it can happen that the two triangles a
        surface cell is divided into are seen from opposite sides (i.e.
        the original quadrangle is 'bent over'), as illustrated in the
        following ASCII art:

                                                                      C----B
            original quadrangle:  A--B      displayed quadrangle:
        |\   |
              ("set view 0,0")    | /|    ("set view 75,75" perhaps)  |
        \  |
                                  |/ |                                |
        \ |
                                  C--D                                |
        \|
                                                                      A
        D

        If the diagonal edges of the surface cells aren't generally
        made visible by bit 2 of the <bitpattern> there, the edge CB
        above wouldn't be drawn at all, normally, making the resulting
        display hard to understand.  Therefore, the default option of
        bbeennttoovveerr will turn it visible in this case.  If you don't want
        that, you may choose nnoobbeennttoovveerr instead.  See also hidden line
        removal demo (hidden.dem) and complex hidden line demo (sin-
        gulr.dem).



        4455..2266..  HHiissttoorryyssiizzee


        Note: the command sseett hhiissttoorryyssiizzee is only available when gnu-
        plot has been configured with the GNU readline.

        Syntax:
              set historysize <int>
              unset historysize

        When leaving gnuplot, the value of historysize is used for
        truncating the history to at most that much lines. The default
        is 500.  uunnsseett hhiissttoorryyssiizzee will disable history truncation and
        thus allow an infinite number of lines to be written to the
        history file.



        4455..2277..  IIssoossaammpplleess


        The isoline density (grid) for plotting functions as surfaces
        may be changed by the sseett iissoossaammpplleess command.










   GNUPLOT 4.1                                                      127


        Syntax:
              set isosamples <iso_1> {,<iso_2>}
              show isosamples

        Each function surface plot will have <iso_1> iso-u lines and
        <iso_2> iso-v lines.  If you only specify <iso_1>, <iso_2> will
        be set to the same value as <iso_1>.  By default, sampling is
        set to 10 isolines per u or v axis.  A higher sampling rate
        will produce more accurate plots, but will take longer.  These
        parameters have no effect on data file plotting.

        An isoline is a curve parameterized by one of the surface
        parameters while the other surface parameter is fixed.  Iso-
        lines provide a simple means to display a surface.  By fixing
        the u parameter of surface s(u,v), the iso-u lines of the form
        c(v) = s(u0,v) are produced, and by fixing the v parameter, the
        iso-v lines of the form c(u) = s(u,v0) are produced.

        When a function surface plot is being done without the removal
        of hidden lines, sseett ssaammpplleess  controls the number of points
        sampled along each isoline;  see sseett ssaammpplleess and sseett hhiiddddeenn33dd.
        The contour algorithm assumes that a function sample occurs at
        each isoline intersection, so change in ssaammpplleess as well as
        iissoossaammpplleess may be desired when changing the resolution of a
        function surface/contour.



        4455..2288..  KKeeyy


        The sseett kkeeyy command enables a key (or legend) describing plots
        on a plot.

        The contents of the key, i.e., the names given to each plotted
        data set and function and samples of the lines and/or symbols
        used to represent them, are determined by the ttiittllee and wwiitthh
        options of the {ss}pplloott command.  Please see pplloott ttiittllee and pplloott
        wwiitthh for more information.

        Syntax:
              set key {on|off} {default}
                      {{inside | outside} | {lmargin | rmargin | tmar-
        gin | bmargin}
                        | {at <position>}}
                      {left | right | center} {top | bottom | center}
                      {vertical | horizontal} {Left | Right}
                      {{no}reverse} {{no}invert}
                      {samplen <sample_length>} {spacing <verti-
        cal_spacing>}
                      {width <width_increment>}
                      {height <height_increment>}
                      {{no}autotitle {columnheader}}










   GNUPLOT 4.1                                                      128


                      {title "<text>"} {{no}enhanced}
                      {{no}box { {linestyle | ls <line_style>}
                                 | {linetype | lt <line_type>}
                                   {linewidth | lw <line_width>}}}
              unset key
              show key

        Plots may be drawn with no visible key by requesting sseett kkeeyy
        ooffff or uunnsseett kkeeyy.

        Elements within the key are stacked according to vveerrttiiccaall or
        hhoorriizzoonnttaall.  In the case of vveerrttiiccaall, the key occupies as few
        columns as possible.  That is, elements are aligned in a column
        until running out of vertical space at which point a new column
        is started.  In the case of hhoorriizzoonnttaall, the key occupies as few
        rows as possible.

        By default the key is placed in the upper right inside corner
        of the graph.  The keywords lleefftt, rriigghhtt, ttoopp, bboottttoomm, cceenntteerr,
        iinnssiiddee, oouuttssiiddee, llmmaarrggiinn, rrmmaarrggiinn, ttmmaarrggiinn, bbmmaarrggiinn (, aabboovvee,
        oovveerr, bbeellooww and uunnddeerr) may be used to automatically place the
        key in other positions of the graph.  Also an aatt <<ppoossiittiioonn>> may
        be given to indicate precisely where the plot should be placed.
        In this case, the keywords lleefftt, rriigghhtt, ttoopp, bboottttoomm and cceenntteerr
        serve an analogous purpose for alignment.

        To understand positioning, the best concept is to think of a
        region, i.e., inside/outside, or one of the margins.  Along
        with the region, keywords lleefftt//cceenntteerr//rriigghhtt (l/c/r) and
        ttoopp//cceenntteerr//bboottttoomm (t/c/b) control where within the particular
        region the key should be placed.

        When in iinnssiiddee mode, the keywords lleefftt (l), rriigghhtt (r), ttoopp (t),
        bboottttoomm (b), and cceenntteerr (c) push the key out toward the plot
        boundary as illustrated:

             t/l   t/c   t/r

             c/l    c    c/r

             b/l   b/c   b/r


        When in oouuttssiiddee mode, automatic placement is similar to the
        above illustration, but with respect to the view, rather than
        the graph boundary.  That is, a border is moved inward to make
        room for the key outside of the plotting area, although this
        may interfere with other labels and may cause an error on some
        devices.  The particular plot border that is moved depends upon
        the position described above and the stacking direction.  For
        options centered in one of the dimensions, there is no ambigu-
        ity about which border to move.  For the corners, when the
        stack direction is vveerrttiiccaall, the left or right border is moved










   GNUPLOT 4.1                                                      129


        inward appropriately.  When the stack direction is hhoorriizzoonnttaall,
        the top or bottom border is moved inward appropriately.

        The margin syntax allows automatic placement of key regardless
        of stack direction.  When one of the margins llmmaarrggiinn (lm),
        rrmmaarrggiinn (rm), ttmmaarrggiinn (tm), and bbmmaarrggiinn (bm) is combined with a
        single, non-conflicting direction keyword, the following illus-
        trated positions may contain the key:

                  l/tm  c/tm  r/tm

             t/lm                  t/rm

             c/lm                  c/rm

             b/lm                  b/rm

                  l/bm  c/bm  r/bm


        Keywords aabboovvee and oovveerr are synonymous with ttmmaarrggiinn.  For ver-
        sion compatibility, aabboovvee or oovveerr without an additional l/c/r
        or stack direction keyword uses cceenntteerr and hhoorriizzoonnttaall.  Key-
        words bbeellooww and uunnddeerr are synonymous with bbmmaarrggiinn.  For compat-
        ibility, bbeellooww or uunnddeerr without an additional l/c/r or stack
        direction keyword uses cceenntteerr and hhoorriizzoonnttaall.  A further com-
        patibility issue is that oouuttssiiddee appearing without an addi-
        tional t/b/c or stack direction keyword uses ttoopp, rriigghhtt and
        vveerrttiiccaall (i.e., the same as t/rm above).

        The <position> can be a simple x,y,z as in previous versions,
        but these can be preceded by one of five keywords (ffiirrsstt, sseecc--
        oonndd, ggrraapphh, ssccrreeeenn, cchhaarraacctteerr) which selects the coordinate
        system in which the position of the first sample line is speci-
        fied.  See ccoooorrddiinnaatteess for more details.  The effect of lleefftt,
        rriigghhtt, ttoopp, bboottttoomm, and cceenntteerr when <position> is given is to
        align the key as though it were text positioned using the label
        command, i.e., lleefftt means left align with key to the right of
        <position>, etc.

        Justification of the labels within the key is controlled by
        LLeefftt or RRiigghhtt (default is RRiigghhtt).  The text and sample can be
        reversed (rreevveerrssee) and a box can be drawn around the key (bbooxx
        {{......}}) in a specified lliinneettyyppee and lliinneewwiiddtthh, or a user-defined
        lliinneessttyyllee. Note that not all terminal drivers support linewidth
        selection, though.

        By default the first plot label is at the top of the key and
        successive labels are entered below it. The iinnvveerrtt option
        causes the first label to be placed at the bottom of the key,
        with successive labels entered above it. This option is useful
        to force the vertical ordering of labels in the key to match
        the order of box types in a stacked histogram.










   GNUPLOT 4.1                                                      130


        The length of the sample line can be controlled by ssaammpplleenn.
        The sample length is computed as the sum of the tic length and
        <sample_length> times the character width.  ssaammpplleenn also
        affects the positions of point samples in the key since these
        are drawn at the midpoint of the sample line, even if the sam-
        ple line itself is not drawn.

        The vertical spacing between lines is controlled by ssppaacciinngg.
        The spacing is set equal to the product of the pointsize, the
        vertical tic size, and <vertical_spacing>.  The program will
        guarantee that the vertical spacing is no smaller than the
        character height.

        The <width_increment> is a number of character widths to be
        added to or subtracted from the length of the string.  This is
        useful only when you are putting a box around the key and you
        are using control characters in the text.  ggnnuupplloott simply
        counts the number of characters in the string when computing
        the box width; this allows you to correct it.

        The <height_increment> is a number of character heights to be
        added to or subtracted from the height of the key box.  This is
        useful mainly when you are putting a box around the key, other-
        wise it can be used to adjust the vertical shift of automati-
        cally chosen key position by <height_increment>/2.

        All plotted curves of ppllootts and ssppllootts are titled according to
        the default option aauuttoottiittlleess. The automatic generation of
        titles can be suppressed by nnooaauuttoottiittlleess; then only those
        titles explicitly defined by ((ss))pplloott ...... ttiittllee ...... will be
        drawn.

        The sseett kkeeyy aauuttoottiittllee ccoolluummnnhheeaaddeerr option is available if gnu-
        plot was built with --enable-datastrings. This command causes
        the first entry in each column of plotted data to be inter-
        preted as a text string and used as a title for the correspond-
        ing plot. If the quantity being plotted is a function of data
        from several columns, gnuplot may be confused as to which col-
        umn to draw the title from. In this case it is necessary to
        specify the column explicitly in the plot command, e.g. pplloott
        ""ddaattaaffiillee"" uussiinngg (((($$22++$$33))//$$44)) ttiittllee 33 wwiitthh lliinneess.

        A title can be put on the key (ttiittllee ""<<tteexxtt>>"")---see also ssyynn--
        ttaaxx for the distinction between text in single- or double-
        quotes.  The key title uses the same justification as do the
        plot titles.

        An explicitly given title is typeset using enhanced text prop-
        erties on terminals supporting this, see eennhhaanncceedd tteexxtt for more
        details.  This default behavior can be switched off by the
        nnooeennhhaanncceedd option.

        The defaults for sseett kkeeyy are oonn, rriigghhtt, ttoopp, vveerrttiiccaall, RRiigghhtt,










   GNUPLOT 4.1                                                      131


        nnoorreevveerrssee, nnooiinnvveerrtt, ssaammpplleenn 44, ssppaacciinngg 11..2255, ttiittllee """", and
        nnoobbooxx.  The default <linetype> is the same as that used for the
        plot borders.  Entering sseett kkeeyy ddeeffaauulltt returns the key to its
        default configuration.

        The key is drawn as a sequence of lines, with one plot
        described on each line.  On the right-hand side (or the left-
        hand side, if rreevveerrssee is selected) of each line is a represen-
        tation that attempts to mimic the way the curve is plotted.  On
        the other side of each line is the text description (the line
        title), obtained from the pplloott command.  The lines are verti-
        cally arranged so that an imaginary straight line divides the
        left- and right-hand sides of the key.  It is the coordinates
        of the top of this line that are specified with the sseett kkeeyy
        command.  In a pplloott, only the x and y coordinates are used to
        specify the line position.  For a sspplloott, x, y and z are all
        used as a 3-d location mapped using the same mapping as the
        graph itself to form the required 2-d screen position of the
        imaginary line.

        When using the TeX or PostScript drivers, or similar drivers
        where formatting information is embedded in the string, ggnnuupplloott
        is unable to calculate correctly the width of the string for
        key positioning.  If the key is to be positioned at the left,
        it may be convenient to use the combination  sseett kkeeyy lleefftt LLeefftt
        rreevveerrssee.  The box and gap in the grid will be the width of the
        literal string.

        If sspplloott is being used to draw contours, the contour labels
        will be listed in the key.  If the alignment of these labels is
        poor or a different number of decimal places is desired, the
        label format can be specified.  See sseett ccllaabbeell for details.

        Examples:

        This places the key at the default location:
              set key default

        This disables the key:
              unset key

        This places a key at coordinates 2,3.5,2 in the default (first)
        coordinate system:
              set key at 2,3.5,2

        This places the key below the graph:
              set key below

        This places the key in the bottom left corner, left-justifies
        the text, gives it a title, and draws a box around it in line-
        type 3:
              set key left bottom Left title 'Legend' box 3











   GNUPLOT 4.1                                                      132


        4455..2299..  LLaabbeell


        Arbitrary labels can be placed on the plot using the sseett llaabbeell
        command.

        Syntax:
              set label {<tag>} {"<label text>"} {at <position>}
                        {left | center | right}
                        {norotate | rotate {by <degrees>}}
                        {font "<name>{,<size>}"}
                        {noenhanced}
                        {front | back}
                        {textcolor <colorspec>}
                        {point <pointstyle> | nopoint}
                        {offset <offset>}
              unset label {<tag>}
              show label

        The <position> is specified by either x,y or x,y,z, and may be
        preceded by ffiirrsstt, sseeccoonndd, ggrraapphh, ssccrreeeenn, or cchhaarraacctteerr to
        select the coordinate system.  See ccoooorrddiinnaatteess for details.

        The tag is an integer that is used to identify the label. If no
        <tag> is given, the lowest unused tag value is assigned auto-
        matically.  The tag can be used to delete or modify a specific
        label.  To change any attribute of an existing label, use the
        sseett llaabbeell command with the appropriate tag, and specify the
        parts of the label to be changed.

        The <label text> can be a string constant, a string variable,
        or a string- valued expression. See ssttrriinnggss, sspprriinnttff, and
        ggpprriinnttff.

        By default, the text is placed flush left against the point
        x,y,z.  To adjust the way the label is positioned with respect
        to the point x,y,z, add the justification parameter, which may
        be lleefftt, rriigghhtt or cceenntteerr, indicating that the point is to be at
        the left, right or center of the text.  Labels outside the
        plotted boundaries are permitted but may interfere with axis
        labels or other text.

        If rroottaattee is given, the label is written vertically (if the
        terminal can do so, of course).  If rroottaattee bbyy <<ddeeggrreeeess>> is
        given, conforming terminals will try to write the text at the
        specified angle; non-conforming terminals will treat this as
        vertical text.

        Font and its size can be chosen explicitly by ffoonntt
        ""<<nnaammee>>{{,,<<ssiizzee>>}}"" if the terminal supports font settings.  Oth-
        erwise the default font of the terminal will be used.

        Normally the enhanced text mode string interpretation, if










   GNUPLOT 4.1                                                      133


        enabled for the current terminal, is applied to all text
        strings including label text.  The nnooeennhhaanncceedd property can be
        used to exempt a specific label from the enhanced text mode
        processing.  The can be useful if the label contains under-
        scores, for example. See eennhhaanncceedd tteexxtt.

        If ffrroonntt is given, the label is written on top of the graphed
        data. If bbaacckk is given (the default), the label is written
        underneath the graphed data.  Using ffrroonntt will prevent a label
        from being obscured by dense data.

        tteexxttccoolloorr <<ccoolloorrssppeecc>> changes the color of the label text.
        <colorspec> can be a linetype, an rgb color, or a palette map-
        ping. See help for ccoolloorrssppeecc and ppaalleettttee.  tteexxttccoolloorr may be
        abbreviated ttcc.
           `tc default` resets the text color to its default state.
           `tc lt <n>` sets the text color to that of line type <n>.
           `tc ls <n>` sets the text color to that of line style <n>.
           `tc palette z` selects a palette color corresponding to the
        label z position.
           `tc palette cb <val>` selects a color corresponding to <val>
        on the colorbar.
           `tc palette fraction <val>`, with 0<=val<=1, selects a color
        corresponding to
               the mapping [0:1] to grays/colors of the `palette`.
           `tc rgb "#RRGGBB"` selects an arbitrary 24-bit RGB color.

        If a <pointstyle> is given, using keywords lltt, pptt and ppss, see
        ssttyyllee, a point with the given style and color of the given line
        type is plotted at the label position and the text of the label
        is displaced slightly.  This option is used by default for
        placing labels in mmoouussee enhanced terminals.  Use nnooppooiinntt to
        turn off the drawing of a point near the label (this is the
        default).

        The displacement defaults to 1,1 in ppooiinnttssiizzee units if a
        <pointstyle> is given, 0,0 if no <pointstyle> is given.  The
        displacement can be controlled by the optional ooffffsseett <<ooffffsseett>>
        where <offset> is specified by either x,y or x,y,z, and may be
        preceded by ffiirrsstt, sseeccoonndd, ggrraapphh, ssccrreeeenn, or cchhaarraacctteerr to
        select the coordinate system.  See ccoooorrddiinnaatteess for details.

        If one (or more) axis is timeseries, the appropriate coordinate
        should be given as a quoted time string according to the
        ttiimmeeffmmtt format string.  See sseett xxddaattaa and sseett ttiimmeeffmmtt.

        The EEPIC, Imagen, LaTeX, and TPIC drivers allow \\ in a string
        to specify a newline.

        Examples:

        To set a label at (1,2) to "y=x", use:
              set label "y=x" at 1,2










   GNUPLOT 4.1                                                      134


        To set a Sigma of size 24, from the Symbol font set, at the
        center of the graph, use:
              set label "S" at graph 0.5,0.5 center font "Symbol,24"

        To set a label "y=x^2" with the right of the text at (2,3,4),
        and tag the label as number 3, use:
              set label 3 "y=x^2" at 2,3,4 right

        To change the preceding label to center justification, use:
              set label 3 center

        To delete label number 2, use:
              unset label 2

        To delete all labels, use:
              unset label

        To show all labels (in tag order), use:
              show label

        To set a label on a graph with a timeseries on the x axis, use,
        for example:
              set timefmt "%d/%m/%y,%H:%M"
              set label "Harvest" at "25/8/93",1

        To display a freshly fitted parameter on the plot with the data
        and the fitted function, do this after the ffiitt, but before the
        pplloott:
              set label sprintf("a = %3.5g",par_a) at 30,15
              bfit = gprintf("b = %s*10^%S",par_b)
              set label bfit at 30,20

        To set a label displaced a little bit from a small point:
              set label 'origin' at 0,0 point lt 1 pt 2 ps 3 offset
        1,-1

        To set a label whose color matches the z value (in this case
        5.5) of some point on a 3D splot colored using pm3d:
              set label 'text' at 0,0,5.5 tc palette z




        4455..3300..  LLmmaarrggiinn


        The command sseett llmmaarrggiinn sets the size of the left margin.
        Please see sseett mmaarrggiinn for details.















   GNUPLOT 4.1                                                      135


        4455..3311..  LLooaaddppaatthh


        The llooaaddppaatthh setting defines additional locations for data and
        command files searched by the ccaallll, llooaadd, pplloott and sspplloott com-
        mands.  If a file cannot be found in the current directory, the
        directories in llooaaddppaatthh are tried.

        Syntax:
              set loadpath {"pathlist1" {"pathlist2"...}}
              show loadpath

        Path names may be entered as single directory names, or as a
        list of path names separated by a platform-specific path sepa-
        rator, eg. colon (':') on Unix, semicolon (';') on DOS/Win-
        dows/OS/2/Amiga platforms.  The sshhooww llooaaddppaatthh, ssaavvee and ssaavvee
        sseett commands replace the platform-specific separator with a
        space character (' ') for maximum portability.

        If the environment variable GNUPLOT_LIB is set, its contents
        are appended to llooaaddppaatthh.  However, sshhooww llooaaddppaatthh prints the
        contents of user defined loadpath and system loadpath sepa-
        rately.  Also, the ssaavvee and ssaavvee sseett commands save only the
        user specified parts of llooaaddppaatthh, for portability reasons.



        4455..3322..  LLooccaallee


        The llooccaallee setting determines the language with which
        {{xx,,yy,,zz}}{{dd,,mm}}ttiiccss will write the days and months.

        Syntax:
              set locale {"<locale>"}

        <locale> may be any language designation acceptable to your
        installation.  See your system documentation for the available
        options.  The default value is determined from the LC_TIME,
        LC_ALL, or LANG environment variables.

        To change the decimal point locale, see sseett ddeecciimmaallssiiggnn.



        4455..3333..  LLooggssccaallee


        Syntax:
              set logscale <axes> <base>
              unset logscale <axes>
              show logscale











   GNUPLOT 4.1                                                      136


        where <axes> may be any combination of xx, xx22, yy, yy22, zz, and ccbb
        in any order, and where <base> is the base of the log scaling.
        If <base> is not given, then 10 is assumed.  If <axes> is not
        given, then all axes are assumed.  uunnsseett llooggssccaallee turns off log
        scaling for the specified axes.

        Examples:

        To enable log scaling in both x and z axes:
              set logscale xz

        To enable scaling log base 2 of the y axis:
              set logscale y 2

        To enable z and color log axes for a pm3d plot:
              set logscale zcb

        To disable z axis log scaling:
              unset logscale z



        4455..3344..  MMaaccrrooss


        If command line macro substitution is enabled, then tokens in
        the command line of the form @<stringvariablename> will be
        replaced by the text string contained in <stringvariablename>.
        See ssuubbssttiittuuttiioonn.

        Syntax:
             set macros




        4455..3355..  MMaappppiinngg


        If data are provided to sspplloott in spherical or cylindrical coor-
        dinates, the sseett mmaappppiinngg command should be used to instruct
        ggnnuupplloott how to interpret them.

        Syntax:
              set mapping {cartesian | spherical | cylindrical}

        A cartesian coordinate system is used by default.

        For a spherical coordinate system, the data occupy two or three
        columns (or uussiinngg entries).  The first two are interpreted as
        the azimuthal and polar angles theta and phi (or "longitude"
        and "latitude"), in the units specified by sseett aanngglleess.  The
        radius r is taken from the third column if there is one, or is










   GNUPLOT 4.1                                                      137


        set to unity if there is no third column.  The mapping is:

              x = r * cos(theta) * cos(phi)
              y = r * sin(theta) * cos(phi)
              z = r * sin(phi)

        Note that this is a "geographic" spherical system, rather than
        a "polar" one (that is, phi is measured from the equator,
        rather than the pole).

        For a cylindrical coordinate system, the data again occupy two
        or three columns.  The first two are interpreted as theta (in
        the units specified by sseett aanngglleess) and z.  The radius is either
        taken from the third column or set to unity, as in the spheri-
        cal case.  The mapping is:

              x = r * cos(theta)
              y = r * sin(theta)
              z = z

        The effects of mmaappppiinngg can be duplicated with the uussiinngg filter
        on the sspplloott command, but mmaappppiinngg may be more convenient if
        many data files are to be processed.  However even if mmaappppiinngg
        is used, uussiinngg may still be necessary if the data in the file
        are not in the required order.

        mmaappppiinngg has no effect on pplloott.  world.dem: mapping demos.



        4455..3366..  MMaarrggiinn


        The computed margins can be overridden by the sseett mmaarrggiinn com-
        mands.  sshhooww mmaarrggiinn shows the current settings.

        Syntax:
              set bmargin {<margin>}
              set lmargin {<margin>}
              set rmargin {<margin>}
              set tmargin {<margin>}
              show margin

        The units of <margin> are character heights or widths, as
        appropriate.  A positive value defines the absolute size of the
        margin.  A negative value (or none) causes ggnnuupplloott to revert to
        the computed value.  For 3D plots, only the left margin setting
        has any effect so far.

        Normally the margins of a plot are automatically calculated
        based on tics, tic labels, axis labels, the plot title, the
        timestamp and the size of the key if it is outside the borders.
        If, however, tics are attached to the axes (sseett xxttiiccss aaxxiiss, for










   GNUPLOT 4.1                                                      138


        example), neither the tics themselves nor their labels will be
        included in either the margin calculation or the calculation of
        the positions of other text to be written in the margin.  This
        can lead to tic labels overwriting other text if the axis is
        very close to the border.



        4455..3377..  MMoouussee


        The command sseett mmoouussee enables mouse actions. Currently the pm,
        x11, ggi, windows and wxt terminals are mouse enhanced. There
        are two mouse modes. The 2d-graph mode works for 2d graphs and
        for maps (i.e. splots with sseett vviieeww having z-rotation 0, 90,
        180, 270 or 360 degrees, including sseett vviieeww mmaapp) and it allows
        tracing the position over graph, zooming, annotating graph etc.
        For 3d graphs sspplloott, the view and scaling of the graph can be
        changed with mouse buttons 1 and 2. If additionally to these
        buttons the modifier <ctrl> is hold down, the coordinate system
        only is rotated which is useful for large data sets. A vertical
        motion of Button 2 with the shift key hold down changes the
        ttiiccsslleevveell.

        Mousing is not available in multiplot mode. When multiplot is
        finished using uunnsseett mmuullttiipplloott, then the mouse will be turned
        on again and acts on the last plot (like replot does).

        Syntax:
              set mouse {doubleclick <ms>} {nodoubleclick} \
                        {{no}zoomcoordinates} \
                        {noruler | ruler {at x,y}} \
                        {polardistance{deg|tan} | nopolardistance} \
                        {format <string>} \
                        {clipboardformat <int>/<string>} \
                        {mouseformat <int>/<string>} \
                        {{no}labels} {labeloptions <string>} \
                        {{no}zoomjump} {{no}verbose}
              unset mouse

        The doubleclick resolution is given in milliseconds and used
        for Button 1 which copies the current mouse position to the
        cclliippbbooaarrdd. If you want that to be done by single clicking a
        value of 0 ms can be used. The default value is 300 ms.

        The option zzoooommccoooorrddiinnaatteess determines if the coordinates of the
        zoom box are drawn at the edges while zooming. This is on by
        default.

        The options nnoorruulleerr and rruulleerr switch the ruler off and on, the
        latter optionally at given ccoooorrddiinnaatteess. This corresponds to the
        default key binding 'r'.











   GNUPLOT 4.1                                                      139


        The option ppoollaarrddiissttaannccee determines if the distance between the
        mouse cursor and the ruler is also shown in polar coordinates
        (distance and angle in degrees or tangent (slope)). This corre-
        sponds to the default key binding '5'.

        The ffoorrmmaatt option takes a fprintf like format string which
        determines how floating point numbers are printed to the driv-
        ers window and the clipboard.  The default is "% #g".

        cclliippbbooaarrddffoorrmmaatt and mmoouusseeffoorrmmaatt are used for formatting the
        text on Button1 and Button2 actions -- copying the coordinates
        to the clipboard and temporarily annotating the mouse position.
        This corresponds to the key bindings '1', '2', '3', '4' (see
        the drivers's help window). If the argument is a string this
        string is used as c format specifier and should contain two
        float specifiers, e.g. sseett mmoouussee mmoouusseeffoorrmmaatt ""mmoouussee == %%55..22gg,,
        %%1100..22ff"". Use sseett mmoouussee mmoouusseeffoorrmmaatt """" to turn this string off
        again.

        The following formats are available (format 6 may only be
        selected if the format string was specified already):

         0   real coordinates in  brackets e.g. [1.23, 2.45]
         1   real coordinates w/o brackets e.g.  1.23, 2.45
         2   x == timefmt                       [(as set by `set
        timefmt`), 2.45]
         3   x == date                          [31. 12. 1999, 2.45]
         4   x == time                          [23:59, 2.45]
         5   x == date / time                   [31. 12. 1999 23:59,
        2.45]
         6   alt. format, specified as string   ""

        Choose the option llaabbeellss to get real gnuplot labels on Button
        2. (The default is nnoollaabbeellss which makes Button 2 drawing only
        temporary annotations at the mouse positions). The labels are
        drawn with the current setting of mmoouusseeffoorrmmaatt. llaabbeellooppttiioonnss
        controls which options are passed to the sseett llaabbeell command. The
        default is "pointstyle 1" which will plot a small plus at the
        label position.  Note that the pointsize is taken from the sseett
        ppooiinnttssiizzee command.  Labels can be removed by holding the Ctrl-
        Key down while clicking with Button 2 on the label's point. The
        threshold for how close you must be to the label is also deter-
        mined by the ppooiinnttssiizzee.

        If the option zzoooommjjuummpp is on, the mouse pointer will be auto-
        matically offset a small distance after starting a zoom region
        with button 3. This can be useful to avoid a tiny (or even
        empty) zoom region. zzoooommjjuummpp is off by default.

        If the option vveerrbboossee is turned on the communication commands
        are shown during execution. This option can also be toggled by
        hitting 66 in the driver's window. vveerrbboossee is off by default.











   GNUPLOT 4.1                                                      140


        Press 'h' in the driver's window for a short summary of the
        mouse and key bindings.  This will also display user defined
        bindings or hhoottkkeeyyss which can be defined using the bbiinndd com-
        mand, see help for bbiinndd.  Note, that user defined hhoottkkeeyyss may
        override the default bindings.

        Press 'q' in the driver's window to close the window. This key
        cannot be overridden with the bbiinndd command.

        See also help for bbiinndd and llaabbeell.




             4455..3377..11..  XX1111 mmoouussee


             If multiple X11 plot windows have been opened using the
             sseett tteerrmm xx1111 <<nn>> terminal option, then only the current
             plot window supports the entire range of mouse commands
             and hotkeys.  The other windows will, however, continue to
             display mouse coordinates at the lower left.

             For consistency with other screen terminals, X11 mouse
             support is turned on by default, wherever the standard
             input comes from. However, on some UNIX flavors, special
             input devices as /dev/null might not be sseelleecctt--aabbllee; using
             such devices with the mouse turned on will hang gnuplot.
             Please turn off mousing with uunnsseett mmoouussee if you are in
             this situation.



        4455..3388..  MMuullttiipplloott


        The command sseett mmuullttiipplloott places ggnnuupplloott in the multiplot mode,
        in which several plots are placed on the same page, window, or
        screen.

        Syntax:
              set multiplot { layout <rows>,<cols>
                              {rowsfirst|columnsfirst} {down-
        wards|upwards}
                              {title <page title>}
                              {scale <xscale>{,<yscale>}} {offset
        <xoff>{,<yoff>}}
                            }
              unset multiplot

        For some terminals, no plot is displayed until the command
        uunnsseett mmuullttiipplloott is given, which causes the entire page to be
        drawn and then returns gnuplot to its normal single-plot mode.










   GNUPLOT 4.1                                                      141


        For other terminals, each separate pplloott command produces an
        updated display, either by redrawing all previous ones and the
        newly added plot, or by just adding the new plot to the exist-
        ing display.

        The area to be used by the next plot is not erased before doing
        the new plot.  The cclleeaarr command can be used to do this if
        wanted, as is typically the case for "inset" plots.

        Any labels or arrows that have been defined will be drawn for
        each plot according to the current size and origin (unless
        their coordinates are defined in the ssccrreeeenn system).  Just
        about everything else that can be sseett is applied to each plot,
        too.  If you want something to appear only once on the page,
        for instance a single time stamp, you'll need to put a sseett
        ttiimmee/uunnsseett ttiimmee pair around one of the pplloott, sspplloott or rreepplloott
        commands within the sseett mmuullttiipplloott/uunnsseett mmuullttiipplloott block.

        The multiplot title is separate from the individual plot
        titles, if any.  Space is reserved for it at the top of the
        page, spanning the full width of the canvas.

        The commands sseett oorriiggiinn and sseett ssiizzee must be used to correctly
        position each plot if no layout is specified or if fine tuning
        is desired.  See sseett oorriiggiinn and sseett ssiizzee for details of their
        usage.

        Example:
              set multiplot
              set size 0.4,0.4
              set origin 0.1,0.1
              plot sin(x)
              set size 0.2,0.2
              set origin 0.5,0.5
              plot cos(x)
              unset multiplot

        This displays a plot of cos(x) stacked above a plot of sin(x).

        sseett ssiizzee and sseett oorriiggiinn refer to the entire plotting area used
        for each plot.  Please also see sseett tteerrmm ssiizzee.  If you want to
        have the axes themselves line up, you can guarantee that the
        margins are the same size with the sseett mmaarrggiinn commands.  See
        sseett mmaarrggiinn for their use.  Note that the margin settings are
        absolute, in character units, so the appearance of the graph in
        the remaining space will depend on the screen size of the dis-
        play device, e.g., perhaps quite different on a video display
        and a printer.

        With the llaayyoouutt option you can generate simple multiplots with-
        out having to give the sseett ssiizzee and sseett oorriiggiinn commands before
        each plot:  Those are generated automatically, but can be over-
        ridden at any time.  With llaayyoouutt the display will be divided by










   GNUPLOT 4.1                                                      142


        a grid with <rows> rows and <cols> columns.  This grid is
        filled rows first or columns first depending on whether the
        corresponding option is given in the multiplot command.  The
        stack of plots can grow ddoowwnnwwaarrddss or uuppwwaarrddss.  Default is rroowwss--
        ffiirrsstt and ddoowwnnwwaarrddss.

        Each plot can be scaled by ssccaallee and shifted with ooffffsseett; if
        the y-values for scale or offset are omitted, the x-value will
        be used.  uunnsseett mmuullttiipplloott will turn off the automatic layout
        and restore the values of sseett ssiizzee and sseett oorriiggiinn as they were
        before sseett mmuullttiipplloott llaayyoouutt.

        Example:
              set size 1,1
              set origin 0,0
              set multiplot layout 3,2 columnsfirst scale 1.1,0.9
              [ up to 6 plot commands here ]
              unset multiplot

        The above example will produce 6 plots in 2 columns filled top
        to bottom, left to right.  Each plot will have a horizontal
        size of 1.1/2 and a vertical size of 0.9/3.

        See also multiplot demo (multiplt.dem)



        4455..3399..  MMxx22ttiiccss


        Minor tic marks along the x2 (top) axis are controlled by sseett
        mmxx22ttiiccss.  Please see sseett mmxxttiiccss.



        4455..4400..  MMxxttiiccss


        Minor tic marks along the x axis are controlled by sseett mmxxttiiccss.
        They can be turned off with uunnsseett mmxxttiiccss.  Similar commands
        control minor tics along the other axes.

        Syntax:
              set mxtics {<freq> | default}
              unset mxtics
              show mxtics

        The same syntax applies to mmyyttiiccss, mmzzttiiccss, mmxx22ttiiccss, mmyy22ttiiccss and
        mmccbbttiiccss.

        <freq> is the number of sub-intervals (NOT the number of minor
        tics) between major tics (the default for a linear axis is
        either two or five depending on the major tics, so there are










   GNUPLOT 4.1                                                      143


        one or four minor tics between major tics). Selecting ddeeffaauulltt
        will return the number of minor ticks to its default value.

        If the axis is logarithmic, the number of sub-intervals will be
        set to a reasonable number by default (based upon the length of
        a decade).  This will be overridden if <freq> is given.  How-
        ever the usual minor tics (2, 3, ..., 8, 9 between 1 and 10,
        for example) are obtained by setting <freq> to 10, even though
        there are but nine sub-intervals.

        To set minor tics at arbitrary positions, use the ("<label>"
        <pos> <level>, ...) form of sseett {{xx||xx22||yy||yy22||zz}}ttiiccss with <label>
        empty and <level> set to 1.

        The sseett mm{{xx||xx22||yy||yy22||zz}}ttiiccss commands work only when there are
        uniformly spaced major tics.  If all major tics were placed
        explicitly by sseett {{xx||xx22||yy||yy22||zz}}ttiiccss, then minor tic commands
        are ignored.  Implicit major tics and explicit minor tics can
        be combined using sseett {{xx||xx22||yy||yy22||zz}}ttiiccss and sseett
        {{xx||xx22||yy||yy22||zz}}ttiiccss aadddd.

        Examples:
              set xtics 0, 5, 10
              set xtics add (7.5)
              set mxtics 5
        Major tics at 0,5,7.5,10, minor tics at 1,2,3,4,6,7,8,9
              set logscale y
              set ytics format ""
              set ytics 1e-6, 10, 1
              set ytics add ("1" 1, ".1" 0.1, ".01" 0.01, "10^-3"
        0.001, \
                             "10^-4" 0.0001)
              set mytics 10
        Major tics with special formatting, minor tics at log positions

        By default, minor tics are off for linear axes and on for loga-
        rithmic axes.  They inherit the settings for aaxxiiss||bboorrddeerr and
        {{nnoo}}mmiirrrroorr specified for the major tics.  Please see sseett xxttiiccss
        for information about these.



        4455..4411..  MMyy22ttiiccss


        Minor tic marks along the y2 (right-hand) axis are controlled
        by sseett mmyy22ttiiccss.  Please see sseett mmxxttiiccss.
















   GNUPLOT 4.1                                                      144


        4455..4422..  MMyyttiiccss


        Minor tic marks along the y axis are controlled by sseett mmyyttiiccss.
        Please see sseett mmxxttiiccss.



        4455..4433..  MMzzttiiccss


        Minor tic marks along the z axis are controlled by sseett mmzzttiiccss.
        Please see sseett mmxxttiiccss.



        4455..4444..  OOffffsseettss


        Offsets provide a mechanism to put a boundary around the data
        inside of an autoscaled graph.

        Syntax:
              set offsets <left>, <right>, <top>, <bottom>
              unset offsets
              show offsets

        Each offset may be a constant or an expression.  Each defaults
        to 0.  Left and right offsets are given in units of the x axis,
        top and bottom offsets in units of the y axis.  A positive off-
        set expands the graph in the specified direction, e.g., a posi-
        tive bottom offset makes ymin more negative.  Negative offsets,
        while permitted, can have unexpected interactions with
        autoscaling and clipping.

        Offsets are ignored in ssppllootts.

        Example:
              set offsets 0, 0, 2, 2
              plot sin(x)

        This graph of sin(x) will have a y range [-3:3] because the
        function will be autoscaled to [-1:1] and the vertical offsets
        are each two.



        4455..4455..  OOrriiggiinn


        The sseett oorriiggiinn command is used to specify the origin of a plot-
        ting surface (i.e., the graph and its margins) on the screen.
        The coordinates are given in the ssccrreeeenn coordinate system (see










   GNUPLOT 4.1                                                      145


        ccoooorrddiinnaatteess for information about this system).

        Syntax:
              set origin <x-origin>,<y-origin>



        4455..4466..  OOuuttppuutt


        By default, screens are displayed to the standard output. The
        sseett oouuttppuutt command redirects the display to the specified file
        or device.

        Syntax:
              set output {"<filename>"}
              show output

        The filename must be enclosed in quotes.  If the filename is
        omitted, any output file opened by a previous invocation of sseett
        oouuttppuutt will be closed and new output will be sent to STDOUT.
        (If you give the command sseett oouuttppuutt ""SSTTDDOOUUTT"", your output may
        be sent to a file named "STDOUT"!  ["May be", not "will be",
        because some terminals, like xx1111 or wwxxtt, ignore sseett oouuttppuutt.])

        MSDOS users should note that the \ character has special sig-
        nificance in double-quoted strings, so single-quotes should be
        used for filenames in different directories.

        When both sseett tteerrmmiinnaall and sseett oouuttppuutt are used together, it is
        safest to give sseett tteerrmmiinnaall first, because some terminals set a
        flag which is needed in some operating systems.  This would be
        the case, for example, if the operating system needs to know
        whether or not a file is to be formatted in order to open it
        properly.

        On machines with popen functions (Unix), output can be piped
        through a shell command if the first non-whitespace character
        of the filename is '|'.  For instance,

              set output "|lpr -Plaser filename"
              set output "|lp -dlaser filename"

        On MSDOS machines, sseett oouuttppuutt ""PPRRNN"" will direct the output to
        the default printer.  On VMS, output can be sent directly to
        any spooled device.  It is also possible to send the output to
        DECnet transparent tasks, which allows some flexibility.
















   GNUPLOT 4.1                                                      146


        4455..4477..  PPaarraammeettrriicc


        The sseett ppaarraammeettrriicc command changes the meaning of pplloott (sspplloott)
        from normal functions to parametric functions.  The command
        uunnsseett ppaarraammeettrriicc restores the plotting style to normal, single-
        valued expression plotting.

        Syntax:
              set parametric
              unset parametric
              show parametric

        For 2-d plotting, a parametric function is determined by a pair
        of parametric functions operating on a parameter.  An example
        of a 2-d parametric function would be pplloott ssiinn((tt)),,ccooss((tt)), which
        draws a circle (if the aspect ratio is set correctly---see sseett
        ssiizzee).  ggnnuupplloott will display an error message if both functions
        are not provided for a parametric pplloott.

        For 3-d plotting, the surface is described as x=f(u,v),
        y=g(u,v), z=h(u,v).  Therefore a triplet of functions is
        required.  An example of a 3-d parametric function would be
        ccooss((uu))**ccooss((vv)),,ccooss((uu))**ssiinn((vv)),,ssiinn((uu)), which draws a sphere.  ggnnuu--
        pplloott will display an error message if all three functions are
        not provided for a parametric sspplloott.

        The total set of possible plots is a superset of the simple
        f(x) style plots, since the two functions can describe the x
        and y values to be computed separately.  In fact, plots of the
        type t,f(t) are equivalent to those produced with f(x) because
        the x values are computed using the identity function.  Simi-
        larly, 3-d plots of the type u,v,f(u,v) are equivalent to
        f(x,y).

        Note that the order the parametric functions are specified is
        xfunction, yfunction (and zfunction) and that each operates
        over the common parametric domain.

        Also, the sseett ppaarraammeettrriicc function implies a new range of val-
        ues.  Whereas the normal f(x) and f(x,y) style plotting assume
        an xrange and yrange (and zrange), the parametric mode addi-
        tionally specifies a trange, urange, and vrange.  These ranges
        may be set directly with sseett ttrraannggee, sseett uurraannggee, and sseett
        vvrraannggee, or by specifying the range on the pplloott or sspplloott com-
        mands.  Currently the default range for these parametric vari-
        ables is [-5:5].  Setting the ranges to something more meaning-
        ful is expected.















   GNUPLOT 4.1                                                      147


        4455..4488..  PPlloott


        The sshhooww pplloott command shows the current plotting command as it
        results from the last pplloott and/or sspplloott and possible subsequent
        rreepplloott commands.

        In addition, the sshhooww pplloott aadddd22hhiissttoorryy command adds this cur-
        rent plot command into the hhiissttoorryy. It is useful if you have
        used rreepplloott to add more curves to the current plot and you want
        to edit the whole command now.



        4455..4499..  PPmm33dd


        pm3d is an sspplloott style for drawing palette-mapped 3d and 4d
        data as color/gray maps and surfaces.  It uses a pm3d algorithm
        which allows plotting gridded as well as non-gridded data with-
        out preprocessing, even when the data scans do not have the
        same number of points.

        Drawing of color surfaces is available on terminals supporting
        filled colored polygons with color mapping specified by
        ppaalleettttee. Currently supported terminals include

          Screen terminals:
            OS/2 Presentation Manager
            X11
            Linux VGA (vgagl)
            GGI
            Windows
            AquaTerm (Mac OS X)
            wxWidgets (wxt)
          Files:
            PostScript
            pslatex, pstex, epslatex
            gif, png, jpeg
            (x)fig
            tgif
            cgm
            pdf
            svg
            emf

        Let us first describe how a map/surface is drawn.  The input
        data come from an evaluated function or from an sspplloott ddaattaa
        ffiillee.  Each surface consists of a sequence of separate scans
        (isolines).  The pm3d algorithm fills the region between two
        neighbouring points in one scan with another two points in the
        next scan by a gray (or color) according to z-values (or
        according to an additional 'color' column, see help for uussiinngg)










   GNUPLOT 4.1                                                      148


        of these 4 corners; by default the 4 corner values are aver-
        aged, but this can be changed by the option ccoorrnneerrss22ccoolloorr.  In
        order to get a reasonable surface, the neighbouring scans
        should not cross and the number of points in the neighbouring
        scans should not differ too much; of course, the best plot is
        with scans having same number of points.  There are no other
        requirements (e.g. the data need not be gridded).  Another
        advantage is that the pm3d algorithm does not draw anything
        outside of the input (measured or calculated) region.

        Surface coloring works with the following input data:

        1. splot of function or of data file with one or three data
        columns: The gray/color scale is obtained by mapping the aver-
        aged (or ccoorrnneerrss22ccoolloorr) z-coordinate of the four corners of the
        above-specified quadrangle into the range
        [min_color_z,max_color_z] of zzrraannggee or ccbbrraannggee providing a gray
        value in the range [0:1].  This value can be used directly as
        the gray for gray maps.  The normalized gray value can be fur-
        ther mapped into a color---see sseett ppaalleettttee for the complete
        description.

        2. splot of data file with two or four data columns: The
        gray/color value is obtained by using the last-column coordi-
        nate instead of the z-value, thus allowing the color and the z-
        coordinate be mutually independent.  This can be used for 4d
        data drawing.

        Other notes:

        1. The term 'scan' referenced above is used more among physi-
        cists than the term 'iso_curve' referenced in gnuplot documen-
        tation and sources.  You measure maps recorded one scan after
        another scan, that's why.

        2. The 'gray' or 'color' scale is a linear mapping of a contin-
        uous variable onto a smoothly varying palette of colors. The
        mapping is shown in a rectangle next to the main plot. This
        documentation refers to this as a "colorbox", and refers to the
        indexing variable as lying on the colorbox axis.  See sseett ccooll--
        oorrbbooxx, sseett ccbbrraannggee.

        3. To use pm3d coloring to generate a two-dimensional plot
        rather than a 3D surface, use sseett vviieeww mmaapp or sseett ppmm33dd mmaapp.

        Syntax (the options can be given in any order):
              set pm3d {
                         { at <bst combination> }
                         { interpolate <steps in scan>,<steps between
        scans> }
                         { scansautomatic | scansforward | scansback-
        ward | depthorder }
                         { flush { begin | center | end } }










   GNUPLOT 4.1                                                      149


                         { ftriangles | noftriangles }
                         { clip1in | clip4in }
                         { corners2color {
        mean|geomean|median|min|max|c1|c2|c3|c4 } }
                         { hidden3d <linestyle> | nohidden3d }
                         { implicit | explicit }
                         { map }
                       }
              show pm3d
              unset pm3d

        Color surface is drawn if data or function ssttyyllee is set to pm3d
        globally or via 'with' option, or if the option iimmpplliicciitt is
        on---then the pm3d surface is combined with the line surface
        mesh. See bottom of this section for mode details.

        Color surface can be drawn at the base or top (then it is a
        gray/color planar map) or at z-coordinates of surface points
        (gray/color surface).  This is defined by the aatt option with a
        string of up to 6 combinations of bb, tt and ss. For instance, aatt
        bb plots at bottom only, aatt sstt plots firstly surface and then
        top map, while aatt bbssttbbsstt will never by seriously used.

        Colored quadrangles are plotted one after another.  When plot-
        ting surfaces (aatt ss), the later quadrangles overlap (overdraw)
        the previous ones.  (Gnuplot is not virtual reality tool to
        calculate intersections of filled polygon meshes.)  You may try
        to switch between ssccaannssffoorrwwaarrdd and ssccaannssbbaacckkwwaarrdd to force the
        first scan of the data to be plotted first or last.  The
        default is ssccaannssaauuttoommaattiicc where gnuplot makes a guess about
        scans order.  On the other hand, the ddeepptthhoorrddeerr option com-
        pletely reorders the qudrangles. The rendering is performed
        after a depth sorting, which allows to visualize even compli-
        cated surfaces; see hheellpp ppmm33dd ddeepptthhoorrddeerr for more details.

        If two subsequent scans do not have same number of points, then
        it has to be decided whether to start taking points for quad-
        rangles from the beginning of both scans (fflluusshh bbeeggiinn), from
        their ends (fflluusshh eenndd) or to center them (fflluusshh cceenntteerr).  Note,
        that fflluusshh ((cceenntteerr||eenndd)) are incompatible with ssccaannssaauuttoommaattiicc:
        if you specify fflluusshh cceenntteerr or fflluusshh eenndd and ssccaannssaauuttoommaattiicc is
        set, it is silently switched to ssccaannssffoorrwwaarrdd.

        If two subsequent scans do not have the same number of points,
        the option ffttrriiaanngglleess specifies whether color triangles are
        drawn at the scan tail(s) where there are not enough points in
        either of the scan. This can be used to draw a smooth map
        boundary.

        Clipping with respect to x, y coordinates of quadrangles can be
        done in two ways.  cclliipp11iinn: all 4 points of each quadrangle
        must be defined and at least 1 point of the quadrangle must lie
        in the x and y ranges.  cclliipp44iinn: all 4 points of each










   GNUPLOT 4.1                                                      150


        quadrangle must lie in the x and y ranges.

        There is a single gray/color value associated to each drawn
        pm3d quadrangle (no smooth color change among vertices).  The
        value is calculated from z-coordinates from the surrounding
        corners according to ccoorrnneerrss22ccoolloorr <<ooppttiioonn>>.  The options
        'mean' (default), 'geomean' and 'median' produce various kinds
        of surface color smoothing, while options 'min' and 'max'
        choose minimal or maximal value, respectively. This may not be
        desired for pixel images or for maps with sharp and intense
        peaks, in which case the options 'c1', 'c2', 'c3' or 'c4' can
        be used instead to assign the quadrangle color based on the z-
        coordinate of only one corner.  Some experimentation may be
        needed to determine which corner corresponds to 'c1', as the
        orientation depends on the drawing direction.  Because the pm3d
        algorithm does not extend the colored surface outside the range
        of the input data points, the 'c<j>' coloring options will
        result in pixels along two edges of the grid not contributing
        to the color of any quadrangle.  For example, applying the pm3d
        algorithm to the 4x4 grid of data points in script
        ddeemmoo//ppmm33dd..ddeemm (please have a look) produces only (4-1)x(4-1)=9
        colored rectangles.

        Another drawing algorithm, which would draw quadrangles around
        a given node by taking corners from averaged (x,y)-coordinates
        of its surrounding 4 nodes while using node's color, could be
        implemented in the future. This is already done for drawing
        images (2D grids) via iimmaaggee and rrggbbiimmaaggee styles.

        Notice that ranges of z-values and color-values for surfaces
        are adjustable independently by sseett zzrraannggee, sseett ccbbrraannggee, as
        well as sseett lloogg for z or cb.  Maps can be adjusted by the cb-
        axis only; see also sseett vviieeww mmaapp and sseett ccoolloorrbbooxx.

        The option hhiiddddeenn33dd takes as the argument a linestyle which
        must be created by sseett ssttyyllee lliinnee ....... (The style need not to
        be present when setting pm3d, but it must be present when plot-
        ting).  If set, lines are drawn using the specified line style,
        taking into account hidden line removal.  This is by far more
        efficient than using the command sseett hhiiddddeenn33dd as it doesn't
        really calculate hidden line removal, but just draws the filled
        polygons in the correct order. So the recommended choice when
        using pm3d is
              set pm3d at s hidden3d 100
              set style line 100 lt 5 lw 0.5
              unset hidden3d
              unset surf
              splot x*x+y*y

        There used to be an option {transparent|solid} to this command.
        Now you get the same effect from sseett ggrriidd {{ffrroonntt||llaayyeerrddeeffaauulltt}},
        respectively.











   GNUPLOT 4.1                                                      151


        The sseett ppmm33dd mmaapp is an abbreviation for sseett ppmm33dd aatt bb; sseett vviieeww
        mmaapp; sseett ssttyyllee ddaattaa ppmm33dd; sseett ssttyyllee ffuunncc ppmm33dd;.  It is used for
        backwards compatibility, when sseett vviieeww mmaapp was not available.
        Take care that you properly use zzrraannggee and ccbbrraannggee for input
        data point filtering and color range scaling, respectively; and
        also sseett ((nnoo))ssuurrffaaccee seems to have a (side?) effect.

        The option iinntteerrppoollaattee will interpolate grid points into a
        finer mesh, and color each quadrangle appropriately. For data
        files, this will smoothen the color surface, and enhance spikes
        in a color surface. For functions, interpolation makes little
        sense, except to trade off precision for memory.  It would usu-
        ally make more sense to use ssaammpplleess and iissoossaammpplleess when working
        with functions.

        The coloring setup as well as the color box drawing are deter-
        mined by sseett ppaalleettttee.  There can be only one palette for the
        current plot.  Drawing of several surfaces with different
        palettes can be achieved by mmuullttiipplloott with fixed oorriiggiinn and
        ssiizzee; don't forget to use sseett ppaalleettttee mmaaxxccoolloorrss when your ter-
        minal is running out of available colors.

        On gnuplot start-up, mode is eexxpplliicciitt. For historical and thus
        compatibility reasons, commands sseett ppmm33dd;; (i.e. no options) and
        sseett ppmm33dd aatt XX ...... (i.e.  aatt is the first option) sets mode
        iimmpplliicciitt. Further, sseett ppmm33dd;; sets up the other options to their
        default.

        If the option iimmpplliicciitt is on, all surface plots will be plotted
        additionally to the default type, e.g.
              splot 'fred.dat' with lines, 'lola.dat' with lines
        would give both plots (meshes) additionally to a pm3d surface.
        That's what you are used to after sseett ppmm33dd;;.

        If the option eexxpplliicciitt is on (or iimmpplliicciitt is off) only plots
        specified by the wwiitthh ppmm33dd attribute are plotted with a pm3d
        surface, e.g.:
              splot 'fred.dat' with lines, 'lola.dat' with pm3d
        would plot 'fred.dat' with lines (and only lines) and
        'lola.dat' with a pm3d surface.

        If you set the default data or function style to ppmm33dd, e.g.:
              set style data pm3d
        then the options iimmpplliicciitt and eexxpplliicciitt have no effect.

        Note that when plotting several plots, they are plotted in the
        order given on the command line. This can be of interest espe-
        cially for filled surfaces which can overwrite and therefore
        hide part of earlier plots.

        If wwiitthh ppmm33dd is specified in the sspplloott command line, then it
        accepts the 'at' option.  The following plots draw three color
        surfaces at different altitudes:










   GNUPLOT 4.1                                                      152


              set border 4095
              set pm3d at s
              splot 10*x with pm3d at b, x*x-y*y, x*x+y*y with pm3d at
        t

        See also help for sseett ppaalleettttee, sseett ccbbrraannggee, sseett ccoolloorrbbooxx, xx1111
        ppmm33dd and definitely the demo file ddeemmoo//ppmm33dd..ddeemm.




             4455..4499..11..  DDeepptthhoorrddeerr


             By default the quadrangles making up a pm3d solid surface
             are rendered in the order they are encountered along the
             surface grid points.  This order may be controlled by the
             options ssccaannssaauuttoommaattiicc|ssccaannssffoorrwwaarrdd|ssccaannssbbaacckkwwaarrdd.  These
             scan options are not in general compatible with hidden-
             surface removal.

             Gnuplot does not do true hidden surface removal for solid
             surfaces, but often it is sufficient to render the compo-
             nent quadrangles in order from furthest to closest.  This
             mode may be selected using the options
                   set pm3d depthorder hidden3d
             The ddeepptthhoorrddeerr option orders the solid quadrangles; the
             hhiiddddeenn33dd option similarly orders the bounding lines (if
             drawn).  Note that the global option sseett hhiiddddeenn33dd does not
             affect pm3d surfaces.



        4455..5500..  PPaalleettttee


        Palette is a color storage for use by ppmm33dd, filled color con-
        tours or polygons, color histograms, color gradient background,
        and whatever it is or it will be implemented...  Here it stands
        for a palette of smooth "continuous" colors or grays, but let's
        call it just a palette.

        Color palettes require terminal entries for filled color poly-
        gons and palettes of smooth colors, are currently available for
        terminals listed in help for sseett ppmm33dd. The range of color val-
        ues are adjustable independently by sseett ccbbrraannggee and sseett lloogg ccbb.
        The whole color palette is visualized in the ccoolloorrbbooxx.

        Syntax:
              set palette
              set palette {
                         { gray | color }
                         { gamma <gamma> }










   GNUPLOT 4.1                                                      153


                         {   rgbformulae <r>,<g>,<b>
                           | defined { ( <gray1> <color1> {, <grayN>
        <colorN>}... ) }
                           | file '<filename>' {datafile-modifiers}
                           | functions <R>,<G>,<B>
                         }
                         { model { RGB | HSV | CMY | YIQ | XYZ } }
                         { positive | negative }
                         { nops_allcF | ps_allcF }
                         { maxcolors <maxcolors> }
                       }
              show palette
              show palette palette <n> {{float | int}}
              show palette gradient
              show palette fit2rgbformulae
              show palette rgbformulae
              show palette colornames

        sseett ppaalleettttee (i.e. without options) sets up the default values.
        Otherwise, the options can be given in any order.  sshhooww ppaalleettttee
        shows the current palette properties.

        sshhooww ppaalleettttee ggrraaddiieenntt displays the gradient defining the
        palette (if appropriate).  sshhooww ppaalleettttee rrggbbffoorrmmuullaaee prints the
        available fixed gray --> color transformation formulae.  sshhooww
        ppaalleettttee ccoolloorrnnaammeess prints the implemented color names.

        sshhooww ppaalleettttee ppaalleettttee <<nn>> prints to screen or to the file given
        by sseett oouuttppuutt table of RGB triplets calculated for the current
        palette settings and a palette having <n> discrete colors.  The
        default wide table can be limited to 3 columns of r,g,b float
        values [0..1] or integer values [0..255] by options float or
        int, respectively.  This way, the current gnuplot color palette
        can be loaded into other imaging applications, for example
        Octave.  Additionally to this textual list of RGB table, you
        can enjoy command tteesstt ppaalleettttee to draw graphically the R,G,B
        profiles for the current palette.

        The following options determine the coloring properties.

        Figure using this palette can be ggrraayy or ccoolloorr.  For instance,
        in ppmm33dd color surfaces the gray of each small spot is obtained
        by mapping the averaged z-coordinate of the 4 corners of sur-
        face quadrangles into the range [min_z,max_z] providing range
        of grays [0:1]. This value can be used directly as the gray for
        gray maps. The color map requires a transformation gray -->
        (R,G,B), i.e. a mapping [0:1] --> ([0:1],[0:1],[0:1]).

        Basically two different types of mappings can be used:  Ana-
        lytic formulae to convert gray to color, or discrete mapping
        tables which are interpolated.  ppaalleettttee rrggbbffoorrmmuullaaee and ppaalleettttee
        ffuunnccttiioonnss use analytic formulae whereas ppaalleettttee ddeeffiinneedd and
        ppaalleettttee ffiillee use interpolated tables.  ppaalleettttee rrggbbffoorrmmuullaaee










   GNUPLOT 4.1                                                      154


        reduces the size of postscript output to a minimum.

        The command sshhooww ppaalleettttee ffiitt22rrggbbffoorrmmuullaaee finds the best match-
        ing sseett ppaalleettttee rrggbbffoorrmmuullaaee for the current sseett ppaalleettttee. Natu-
        rally, it makes sense to use it for non-rgbformulae palettes.
        This command can be found useful mainly for external programs
        using the same rgbformulae definition of palettes as gnuplot,
        like zimg (
                  http://zimg.sourceforge.net
         ).

        sseett ppaalleettttee ggrraayy switches to a gray only palette. sseett ppaalleettttee
        rrggbbffoorrmmuullaaee, sseett ppaalleettttee ddeeffiinneedd, sseett ppaalleettttee ffiillee and sseett
        ppaalleettttee ffuunnccttiioonnss switch to a color mapping. sseett ppaalleettttee ccoolloorr
        is an easy way to switch back from the gray palette to the last
        color mapping.

        Automatic gamma correction via sseett ppaalleettttee ggaammmmaa <<ggaammmmaa>> can be
        done for gray maps only (sseett ppaalleettttee ggrraayy).  Linear mapping to
        gray is for gamma equals 1, see tteesstt ppaalleettttee.  Gamma is ignored
        for color mappings.

        Most terminals support only discrete number of colors (e.g. 256
        colors in gif).  All entries of the palette remaining after the
        default gnuplot linetype colors declaration are allocated for
        pm3d by default.  Then mmuullttiipplloott could fail if there are no
        more color positions in the terminal available.  Then you
        should use sseett ppaalleettttee mmaaxxccoolloorrss <<mmaaxxccoolloorrss>> with a reasonably
        small value.  This option can also be used to separate levels
        of z=constant in discrete steps, thus to emulate filled con-
        tours. Default value of 0 stays for allocating all remaining
        entries in the terminal palette or for to use exact mapping to
        RGB.

        RGB color space might not be the most useful color space to
        work in.  For that reason you may change the color space with
        mmooddeell to one of RRGGBB, HHSSVV, CCMMYY, YYIIQQ and XXYYZZ.  Using color names
        for sseett ppaalleettttee ddeeffiinneedd tables and a color space other than RGB
        will result in funny colors.  All explanation have been written
        for RGB color space, so please note, that RR can be HH, CC, YY, or
        XX, depending on the actual color space (GG and BB accordingly).

        All values for all color spaces are limited to [0,1].

        RGB stands for Red, Green and Blue;  CMY stands for Cyan,
        Magenta and Yellow; HSV stands for Hue, Saturation, and Value;
        YIQ is the color model used by the U.S. Commercial Color Tele-
        vision Broadcasting, it is basically an RGB recoding with down-
        ward compatibility for black and white television; XYZ are the
        three primary colors of the color model defined by the 'Commis-
        sion Internationale de l'Eclairage' (CIE).  For more informa-
        tion on color models see:
                  http://www.cs.rit.edu/~ncs/color/glossary.htm










   GNUPLOT 4.1                                                      155


        and
                  http://cs.fit.edu/wds/classes/cse5255/cse5255/davis/index.html





             4455..5500..11..  RRggbbffoorrmmuullaaee


             For rrggbbffoorrmmuullaaee three suitable mapping functions have to
             be chosen.  This is done via rrggbbffoorrmmuullaaee <<rr>>,,<<gg>>,,<<bb>>.  The
             available mapping functions are listed by sshhooww ppaalleettttee
             rrggbbffoorrmmuullaaee.  Default is 77,,55,,1155, some other examples are
             33,,1111,,66, 2211,,2233,,33 or 33,,2233,,2211.  Negative numbers, like
             33,,--1111,,--66, mean inverted color (i.e.  1-gray passed into
             the formula, see also ppoossiittiivvee and nneeggaattiivvee options
             below).

             Some nice schemes in RGB color space
                7,5,15   ... traditional pm3d (black-blue-red-yellow)
                3,11,6   ... green-red-violet
                23,28,3  ... ocean (green-blue-white); try also all
             other permutations
                21,22,23 ... hot (black-red-yellow-white)
                30,31,32 ... color printable on gray (black-blue-vio-
             let-yellow-white)
                33,13,10 ... rainbow (blue-green-yellow-red)
                34,35,36 ... AFM hot (black-red-yellow-white)

             A full color palette in HSV color space
                3,2,2    ... red-yellow-green-cyan-blue-magenta-red

             Please note that even if called rrggbbffoorrmmuullaaee the formulas
             might actually determine the <H>,<S>,<V> or <X>,<Y>,<Z> or
             ... color components as usual.

             Use ppoossiittiivvee and nneeggaattiivvee to invert the figure colors.

             Note that it is possible to find a set of the best match-
             ing rgbformulae for any other color scheme by the command
                show palette fit2rgbformulae



             4455..5500..22..  DDeeffiinneedd


             Gray-to-rgb mapping can be manually set by use of ppaalleettttee
             ddeeffiinneedd:  A color gradient is defined and used to give the
             rgb values.  Such a  gradient is a piecewise linear map-
             ping from gray values in [0,1] to the RGB space
             [0,1]x[0,1]x[0,1].  You have to specify the gray values










   GNUPLOT 4.1                                                      156


             and the corresponding RGB values in between a linear
             interpolation shall take place:

             Syntax:
                   set palette  defined { ( <gray1> <color1> {, <grayN>
             <colorN>}... ) }

             <grayX> are gray values which are mapped to [0,1] and
             <colorX> are the corresponding rgb colors.  The color can
             be specified in three different ways:

                  <color> :=  { <r> <g> <b> | '<color-name>' |
             '#rrggbb' }

             Either by three numbers (each in [0,1]) for red, green and
             blue, separated by whitespace, or the name of the color in
             quotes or X style color specifiers also in quotes.  You
             may freely mix the three types in a gradient definition,
             but the named color "red" will be something strange if RGB
             is not selected as color space.  Use sshhooww ppaalleettttee ccoolloorr--
             nnaammeess for a list of known color names.

             Please note, that even if written as <r>, this might actu-
             ally be the <H> component in HSV color space or <X> in
             CIE-XYZ space, or ...  depending on the selected color
             model.

             The <gray> values have to form an ascending sequence of
             real numbers; the sequence will be automatically rescaled
             to [0,1].

             sseett ppaalleettttee ddeeffiinneedd (without a gradient definition in
             braces) switches to RGB color space and uses a preset
             full-spectrum color gradient.  Use sshhooww ppaalleettttee ggrraaddiieenntt
             to display the gradient.

             Examples:

             To produce a gray palette (useless but instructive) use:
                   set palette model RGB
                   set palette defined ( 0 "black", 1 "white" )

             To produce a blue yellow red palette use (all equivalent):
                   set palette defined ( 0 "blue", 1 "yellow", 2 "red"
             )
                   set palette defined ( 0 0 0 1, 1 1 1 0, 2 1 0 0 )
                   set palette defined ( 0 "#0000ff", 1 "#ffff00", 2
             "#ff0000" )

             To produce some rainbow-like palette use:
                   set palette defined ( 0 "blue", 3 "green", 6 "yel-
             low", 10 "red" )











   GNUPLOT 4.1                                                      157


             Full color spectrum within HSV color space:
                   set palette model HSV
                   set palette defined ( 0 0 1 1, 1 1 1 1 )
                   set palette defined ( 0 0 1 0, 1 0 1 1, 6 0.8333 1
             1, 7 0.8333 0 1)

             To produce a palette with few colors only use:
                   set palette model RGB maxcolors 4
                   set palette defined ( 0 "blue", 1 "green", 2 "yel-
             low", 3 "red" )

             'Traffic light' palette (non-smooth color jumps at gray =
             1/3 and 2/3).
                   set palette model RGB
                   set palette defined (0 "dark-green", 1 "green", 1
             "yellow", \
                                        2 "dark-yellow", 2 "red", 3
             "dark-red" )




             4455..5500..33..  FFuunnccttiioonnss


             Use sseett ppaalleettttee ffuunnccttiioonnss <<RReexxpprr>>,, <<GGeexxpprr>>,, <<BBeexxpprr>> to
             define three formulae for the R(gray), G(gray) and B(gray)
             mapping.  The three formulae may depend on the variable
             ggrraayy which will take values in [0,1] and should also pro-
             duce values in [0,1].  Please note that <Rexpr> might be a
             formula for the H-value if HSV color space has been chosen
             (same for all other formulae and color spaces).

             Examples:

             To produce a full color palette use:
                   set palette model HSV functions gray, 1, 1

             A nice black to gold palette:
                   set palette model XYZ functions gray**0.35,
             gray**0.5, gray**0.8

             A gamma-corrected black and white palette
                   gamma = 2.2
                   color(gray) = gray**(1./gamma)
                   set palette model RGB functions color(gray),
             color(gray), color(gray)
















   GNUPLOT 4.1                                                      158


             4455..5500..44..  FFiillee


             sseett ppaalleettttee ffiillee is basically a sseett ppaalleettttee ddeeffiinneedd ((<<ggrraa--
             ddiieenntt>>)) where <gradient> is read from a datafile.  Either
             4 columns (gray,R,G,B) or just three columns (R,G,B) have
             to be selected via the uussiinngg data file modifier.  In the
             three column case, the line number will be used as gray.
             The gray range is automatically rescaled to [0,1].  The
             file is read as a normal data file, so all datafile modi-
             fiers can be used.  Please note, that RR might actually be
             e.g. HH if HSV color space is selected.

             As usual <filename> may be ''--'' which means that the data
             follow the command inline and are terminated by a single ee
             on a line of its own.

             Use sshhooww ppaalleettttee ggrraaddiieenntt to display the gradient.

             Examples:

             Read in a palette of RGB triples each in range [0,255]:
                   set palette file 'some-palette' using
             ($1/255):($2/255):($3/255)

             Equidistant rainbow (blue-green-yellow-red) palette:
                   set palette model RGB file "-"
                   0 0 1
                   0 1 0
                   1 1 0
                   1 0 0
                   e

             Binary palette files are supported as well, see bbiinnaarryy
             ggeenneerraall. Example: put 64 triplets of R,G,B doubles into
             file palette.bin and load it by
                   set palette file "palette.bin" binary record=64
             using 1:2:3





             4455..5500..55..  GGaammmmaa ccoorrrreeccttiioonn


             For gray mappings gamma correction can be turned on by sseett
             ppaalleettttee ggaammmmaa <<ggaammmmaa>>.  <gamma> defaults to 1.5 which is
             quite suitable for most terminals.

             For color mappings no automatic gamma correction is done
             by gnuplot.  However, you may easily implement gamma cor-
             rection.  Here is an example for a gray scale image by use










   GNUPLOT 4.1                                                      159


             of explicit functions for the red, green and blue compo-
             nent with slightly different values of gamma

             Example:
                   set palette model RGB
                   set palette functions gray**0.64, gray**0.67,
             gray**0.70

             To use gamma correction with interpolated gradients spec-
             ify intermediate gray values with appropriate colors.
             Instead of

                   set palette defined ( 0 0 0 0, 1 1 1 1 )

             use e.g.

                   set palette defined ( 0 0 0 0, 0.5 .73 .73 .73, 1 1
             1 1 )

             or even more intermediate points until the linear interpo-
             lation fits the "gamma corrected" interpolation well
             enough.




             4455..5500..66..  PPoossttssccrriipptt


             In order to reduce the size of postscript files, the gray
             value and not all three calculated r,g,b values are writ-
             ten to the file.  Therefore the analytical formulae are
             coded directly in the postscript language as a header just
             before the pm3d drawing, see /g and /cF definitions.  Usu-
             ally, it makes sense to write therein definitions of only
             the 3 formulae used.  But for multiplot or any other rea-
             son you may want to manually edit the transformations
             directly in the postscript file.  This is the default
             option nnooppss__aallllccFF.  Using the option ppss__aallllccFF writes post-
             script definitions of all formulae.  This you may find
             interesting if you want to edit the postscript file in
             order to have different palettes for different surfaces in
             one graph.  Well, you can achieve this functionality by
             mmuullttiipplloott with fixed oorriiggiinn and ssiizzee.

             If pm3d map has been plotted from gridded or almost regu-
             lar data with an output to a postscript file, then it is
             possible to reduce the size of this postscript file up to
             at about 50% by the enclosed awk script ppmm33ddCCoommpprreessss..aawwkk.
             This you may find  interesting if you intend to keep the
             file for including it into your publication or before
             downloading a very large file into a slow printer. Usage:
                 awk -f pm3dCompress.awk thefile.ps >smallerfile.ps










   GNUPLOT 4.1                                                      160


             If pm3d map has been plotted from rectangular gridded data
             with an output to a postscript file, then it is possible
             to reduce the file size even more by the enclosed awk
             script ppmm33ddCCoonnvveerrttTTooIImmaaggee..aawwkk.  Usage:
                 awk -f pm3dConvertToImage.awk <thefile.ps >smaller-
             file.ps

             You may manually change the postscript output from gray to
             color and vice versa and change the definition of <maxcol-
             ors>.



             4455..5500..77..  CCoolloorrnnaammeess


             Gnuplot knows a limited number of color names. You can use
             these to define the color range spanned by a pm3d palette,
             or to assign a terminal-independent colot to a particular
             linetype or linestyle. To see the list of know color
             names, use the command sshhooww ppaalleettttee ccoolloorrnnaammeess.  See sseett
             ppaalleettttee, lliinneessttyyllee.



        4455..5511..  PPooiinnttssiizzee


        The sseett ppooiinnttssiizzee command scales the size of the points used in
        plots.

        Syntax:
              set pointsize <multiplier>
              show pointsize

        The default is a multiplier of 1.0.  Larger pointsizes may be
        useful to make points more visible in bitmapped graphics.

        The pointsize of a single plot may be changed on the pplloott com-
        mand.  See pplloott wwiitthh for details.

        Please note that the pointsize setting is not supported by all
        terminal types.



        4455..5522..  PPoollaarr


        The sseett ppoollaarr command changes the meaning of the plot from
        rectangular coordinates to polar coordinates.

        Syntax:










   GNUPLOT 4.1                                                      161


              set polar
              unset polar
              show polar

        There have been changes made to polar mode in version 3.7, so
        that scripts for ggnnuupplloott versions 3.5 and earlier will require
        modification.  The main change is that the dummy variable t is
        used for the angle so that the x and y ranges can be controlled
        independently.  Other changes are: 1) tics are no longer put
        along the zero axes automatically ---use sseett xxttiiccss aaxxiiss nnoommiirr--
        rroorr; sseett yyttiiccss aaxxiiss nnoommiirrrroorr; 2) the grid, if selected, is not
        automatically polar ---use sseett ggrriidd ppoollaarr; 3) the grid is not
        labelled with angles ---use sseett llaabbeell as necessary.

        In polar coordinates, the dummy variable (t) is an angle.  The
        default range of t is [0:2*pi], or, if degree units have been
        selected, to [0:360] (see sseett aanngglleess).

        The command uunnsseett ppoollaarr changes the meaning of the plot back to
        the default rectangular coordinate system.

        The sseett ppoollaarr command is not supported for ssppllootts.  See the sseett
        mmaappppiinngg command for similar functionality for ssppllootts.

        While in polar coordinates the meaning of an expression in t is
        really r = f(t), where t is an angle of rotation.  The trange
        controls the domain (the angle) of the function, and the x and
        y ranges control the range of the graph in the x and y direc-
        tions.  Each of these ranges, as well as the rrange, may be
        autoscaled or set explicitly.  See sseett xxrraannggee for details of
        all the rraannggeess commands.

        Example:
              set polar
              plot t*sin(t)
              plot [-2*pi:2*pi] [-3:3] [-3:3] t*sin(t)

        The first pplloott uses the default polar angular domain of 0 to
        2*pi.  The radius and the size of the graph are scaled automat-
        ically.  The second pplloott expands the domain, and restricts the
        size of the graph to [-3:3] in both directions.

        You may want to sseett ssiizzee ssqquuaarree to have ggnnuupplloott try to make the
        aspect ratio equal to unity, so that circles look circular.
        See also polar demos (polar.dem) and polar data plot (pol-
        dat.dem).



        4455..5533..  PPrriinntt













   GNUPLOT 4.1                                                      162


        The sseett pprriinntt command redirects the output of the pprriinntt command
        to a file.

        Syntax:
              set print
              set print "-"
              set print "<filename>"
              set print "<filename>" append
              set print "|<shell_command>"

        Without "<filename>", the output file is restored to <STDERR>.
        The <filename> "-" means <STDOUT>. The aappppeenndd flag causes the
        file to be opened in append mode.  A <filename> starting with
        "|" is opened as a pipe to the <shell_command> on platforms
        that support piping.



        4455..5544..  OObbjjeecctt


        This command defines a single object, which will appear in all
        subsequent 2D plots. You may define as many objects as you
        like. Currently the only object type supported is rreeccttaannggllee.
        Each rectangle is specified by a pair of points that define
        diagonal vertices.  A default set of style properties (fill,
        color, border) are inherited from those set by the command sseett
        ssttyyllee rreeccttaannggllee, but each rectangle can also be given individ-
        ual style properties.

        Syntax:
            set object <index> rectangle
                {from <position> {to|rto} <position> |
                 center <position> size <w>,<h> |
                 at <position> size <w>,<h>}
                {front|back|behind} {fc|fillcolor <colorspec>} {fs
        <fillstyle>}
                {default} {lw|linewidth <width>}

        The position of the rectangle may be specified by giving the
        position of two diagonal corners (bottom left and top right) or
        by giving the position of the center followed by the width and
        the height.  In either case the positions may be given in axis,
        graph, or screen coordinates. See ccoooorrddiinnaatteess.  The options aatt
        and cceenntteerr are synonyms.

        Setting ffrroonntt will draw the rectangle in front of all plot ele-
        ments, but behind any labels that are also marked ffrroonntt. Set-
        ting bbaacckk will place the rectangle behind all plot curves and
        labels. Setting bbeehhiinndd will place the rectangle behind every-
        thing including the axes and bbaacckk rectangles, and can be used
        to provide a colored background for the entire graph or page.











   GNUPLOT 4.1                                                      163


        The fill color of the rectangle is taken from the <colorspec>.
        ffiillllccoolloorr may be abbreviated ffcc.  The fill style is taken from
        <fillstyle>.  See ccoolloorrssppeecc and ffiillllssttyyllee.  If the keyword
        ddeeffaauulltt is given, these properties are inherited from the
        default settings of at the time a plot is drawn. See sseett ssttyyllee
        rreeccttaannggllee.

        Examples:
            # Force the entire area enclosed by the axes to have back-
        ground color cyan
            set object 1 rect from graph 0, graph 0 to graph 1, graph 1
        back
            set object 1 rect fc rgb "cyan" fillstyle solid 1.0

            # Position a red square with lower left at 0,0 and upper
        right at 2,3
            set object 2 rect from 0,0 to 2,3 fc lt 1

            # Position an empty rectangle (no fill) with a blue border
            set object 3 rect from 0,0 to 2,3 fs empty border 3

            # Return fill and color to the default style but leave ver-
        tices unchanged
            set object 2 rect default




        4455..5555..  RRmmaarrggiinn


        The command sseett rrmmaarrggiinn sets the size of the right margin.
        Please see sseett mmaarrggiinn for details.



        4455..5566..  RRrraannggee


        The sseett rrrraannggee command sets the range of the radial coordinate
        for a graph in polar mode.  Please see sseett xxrraannggee for details.



        4455..5577..  SSaammpplleess


        The sampling rate of functions, or for interpolating data, may
        be changed by the sseett ssaammpplleess command.

        Syntax:
              set samples <samples_1> {,<samples_2>}
              show samples










   GNUPLOT 4.1                                                      164


        By default, sampling is set to 100 points.  A higher sampling
        rate will produce more accurate plots, but will take longer.
        This parameter has no effect on data file plotting unless one
        of the interpolation/approximation options is used.  See pplloott
        ssmmooootthh re 2-d data and sseett ccnnttrrppaarraamm and sseett ddggrriidd33dd re 3-d
        data.

        When a 2-d graph is being done, only the value of <samples_1>
        is relevant.

        When a surface plot is being done without the removal of hidden
        lines, the value of samples specifies the number of samples
        that are to be evaluated for the isolines.  Each iso-v line
        will have <sample_1> samples and each iso-u line will have
        <sample_2> samples.  If you only specify <samples_1>, <sam-
        ples_2> will be set to the same value as <samples_1>.  See also
        sseett iissoossaammpplleess.



        4455..5588..  SSiizzee


        Syntax:
              set size {{no}square | ratio <r> | noratio}
        {<xscale>,<yscale>}
              show size

        The <xscale> and <yscale> values are scale factors for the size
        of the plot, which includes the graph, labels, and margins.

        Important note:
              In earlier versions of gnuplot, some terminal types used
        the values from
              `set size` to control also the size of the output canvas;
        others did not.
              In version 4.2 almost all terminals now follow the fol-
        lowing convention:

        sseett tteerrmm <<tteerrmmiinnaall__ttyyppee>> ssiizzee <<XXXX>>,, <<YYYY>> controls the size of
        the output file, or ccaannvvaass. Please see individual terminal doc-
        umentation for allowed values of the size parameters.  By
        default, the plot will fill this canvas.

        sseett ssiizzee <<XXXX>>,, <<YYYY>> scales the plot itself relative to the size
        of the canvas.  Scale values less than 1 will cause the plot to
        not fill the entire canvas.  Scale values larger than 1 will
        cause only a portion of the plot to fit on the canvas.  Please
        be aware that setting scale values larger than 1 may cause
        problems on some terminal types.

        rraattiioo causes ggnnuupplloott to try to create a graph with an aspect
        ratio of <r> (the ratio of the y-axis length to the x-axis










   GNUPLOT 4.1                                                      165


        length) within the portion of the plot specified by <xscale>
        and <yscale>.

        The meaning of a negative value for <r> is different.  If
        <r>=-1, gnuplot tries to set the scales so that the unit has
        the same length on both the x and y axes (suitable for geo-
        graphical data, for instance).  If <r>=-2, the unit on y has
        twice the length of the unit on x, and so on.

        The success of ggnnuupplloott in producing the requested aspect ratio
        depends on the terminal selected.  The graph area will be the
        largest rectangle of aspect ratio <r> that will fit into the
        specified portion of the output (leaving adequate margins, of
        course).

        ssqquuaarree is a synonym for rraattiioo 11.

        Both nnoorraattiioo and nnoossqquuaarree return the graph to the default
        aspect ratio of the terminal, but do not return <xscale> or
        <yscale> to their default values (1.0).

        rraattiioo and ssqquuaarree have no effect on 3-d plots.

        Examples:

        To set the size so that the plot fills the available canvas:
              set size 1,1

        To make the graph half size and square use:
              set size square 0.5,0.5

        To make the graph twice as high as wide use:
              set size ratio 2

        See also
         airfoil demo.



        4455..5599..  SSttyyllee


        Default plotting styles are chosen with the sseett ssttyyllee ddaattaa and
        sseett ssttyyllee ffuunnccttiioonn commands.  See pplloott wwiitthh for information
        about how to override the default plotting style for individual
        functions and data sets.  See pplloottttiinngg ssttyylleess for a complete
        list of styles.

        Syntax:
              set style function <style>
              set style data <style>
              show style function
              show style data










   GNUPLOT 4.1                                                      166


        Default styles for specific plotting elements may also be set.

        Syntax:
              set style arrow <n> <arrowstyle>
              set style fill <fillstyle>
              set style histogram <histogram style options>
              set style line <n> <linestyle>





             4455..5599..11..  SSeett ssttyyllee aarrrrooww


             Each terminal has a default set of arrow and point types,
             which can be seen by using the command tteesstt.  sseett ssttyyllee
             aarrrrooww defines a set of arrow types and widths and point
             types and sizes so that you can refer to them later by an
             index instead of repeating all the information at each
             invocation.

             Syntax:
                   set style arrow <index> default
                   set style arrow <index> {nohead | head | heads}
                                           {size
             <length>,<angle>{,<backangle>}}
                                           {filled | empty | nofilled}
                                           {front | back}
                                           { {linestyle | ls
             <line_style>}
                                             | {linetype | lt
             <line_type>}
                                               {linewidth | lw
             <line_width} }
                   unset style arrow
                   show style arrow

             <index> is an integer that identifies the arrowstyle.

             If ddeeffaauulltt is given all arrow style parameters are set to
             their default values.

             If the linestyle <index> already exists, only the given
             parameters are changed while all others are preserved.  If
             not, all undefined values are set to the default values.

             Specifying nnoohheeaadd produces arrows drawn without a head---a
             line segment.  This gives you yet another way to draw a
             line segment on the plot.  By default, arrows have one
             head. Specifying hheeaaddss draws arrow heads on both ends of
             the line.











   GNUPLOT 4.1                                                      167


             Head size can be controlled by ssiizzee <<lleennggtthh>>,,<<aannggllee>> or
             ssiizzee <<lleennggtthh>>,,<<aannggllee>>,,<<bbaacckkaannggllee>>, where <<lleennggtthh>> defines
             length of each branch of the arrow head and <<aannggllee>> the
             angle (in degrees) they make with the arrow.  <<LLeennggtthh>> is
             in x-axis units; this can be changed by ffiirrsstt, sseeccoonndd,
             ggrraapphh, ssccrreeeenn, or cchhaarraacctteerr before the <length>;  see
             ccoooorrddiinnaatteess for details.  <<BBaacckkaannggllee>> only takes effect
             when ffiilllleedd or eemmppttyy is also used.  Then, <<bbaacckkaannggllee>> is
             the angle (in degrees) the back branches make with the
             arrow (in the same direction as <<aannggllee>>).  The ffiigg termi-
             nal has a restricted backangle function. It supports three
             different angles. There are two thresholds: Below 70
             degrees, the arrow head gets an indented back angle. Above
             110 degrees, the arrow head has an acute back angle.
             Between these thresholds, the back line is straight.

             Specifying ffiilllleedd produces filled arrow heads (if heads
             are used).  Filling is supported on filled-polygon capable
             terminals, see help of ppmm33dd for their list, otherwise the
             arrow heads are closed but not filled.  The same result
             (closed but not filled arrow head) is reached by specify-
             ing eemmppttyy.  Further, filling and outline is obviously not
             supported on terminals drawing arrows by their own spe-
             cific routines, like mmeettaaffoonntt, mmeettaappoosstt, llaatteexx or ttggiiff.

             The line style may be selected from a user-defined list of
             line styles (see sseett ssttyyllee lliinnee) or may be defined here by
             providing values for <<lliinnee__ttyyppee>> (an index from the
             default list of styles) and/or <<lliinnee__wwiiddtthh>> (which is a
             multiplier for the default width).

             Note, however, that if a user-defined line style has been
             selected, its properties (type and width) cannot be
             altered merely by issuing another sseett ssttyyllee aarrrrooww command
             with the appropriate index and lltt or llww.

             If ffrroonntt is given, the arrows are written on top of the
             graphed data. If bbaacckk is given (the default), the arrow is
             written underneath the graphed data.  Using ffrroonntt will
             prevent a arrow from being obscured by dense data.

             Examples:

             To draw an arrow without an arrow head and double width,
             use:
                   set style arrow 1 nohead lw 2
                   set arrow arrowstyle 1

              See also `set arrow` for further examples.














   GNUPLOT 4.1                                                      168


             4455..5599..22..  SSeett ssttyyllee ddaattaa


             The sseett ssttyyllee ddaattaa command changes the default plotting
             style for data plots.

             Syntax:
                   set style data <plotting-style>
                   show style data

             See pplloottttiinngg ssttyylleess for the choices.  If no choice is
             given, the choices are listed.  sshhooww ssttyyllee ddaattaa shows the
             current default data plotting style.



             4455..5599..33..  SSeett ssttyyllee ffiillll


             The sseett ssttyyllee ffiillll command is used to set the style of
             boxes, histograms, candlesticks and filledcurves.

             Syntax:
                   set style fill {empty | solid {<density>} | pattern
             {<n>}}
                                  {border {<linetype>} | noborder}

             The default fillstyle is eemmppttyy.

             The ssoolliidd option causes filling with a solid color, if the
             terminal supports that. The <density> parameter specifies
             the intensity of the fill color. At a <density> of 0.0,
             the box is empty, at <density> of 1.0, the inner area is
             of the same color as the current linetype.  Some terminal
             types can vary the density continuously; others implement
             only a few levels of partial fill.  If no <density> param-
             eter is given, it defaults to 1.

             The ppaatttteerrnn option causes filling to be done with a fill
             pattern supplied by the terminal driver.  The kind and
             number of available fill patterns depend on the terminal
             driver.  If multiple datasets using filled boxes are plot-
             ted, the pattern cycles through all available pattern
             types, starting from pattern <n>, much as the line type
             cycles for multiple line plots.

             The eemmppttyy option causes filled boxes not to be filled.
             This is the default.  It is equivalent to the ssoolliidd option
             with a <density> parameter of zero.

             By default, bboorrddeerr, the box is bounded by a solid line of
             the current linetype. bboorrddeerr <<lltt>> specifies that a border
             is to be drawn using linetype <lt>. nnoobboorrddeerr specifies










   GNUPLOT 4.1                                                      169


             that no bounding lines are drawn.



             4455..5599..44..  SSeett ssttyyllee ffuunnccttiioonn


             The sseett ssttyyllee ffuunnccttiioonn command changes the default plot-
             ting style for function plots.

             Syntax:
                   set style function <plotting-style>
                   show style function

             See pplloottttiinngg ssttyylleess for the choices.  If no choice is
             given, the choices are listed.  sshhooww ssttyyllee ffuunnccttiioonn shows
             the current default function plotting style.



             4455..5599..55..  SSeett ssttyyllee iinnccrreemmeenntt


             Syntax:
                   set style increment {default|userstyles}
                   show style increment

             By default, successive plots within the same graph will
             use successive linetypes from the default set for the cur-
             rent terminal type.  However, choosing sseett ssttyyllee iinnccrreemmeenntt
             uusseerr allows you to step through the user-defined line
             styles rather than through the default linetypes.

             Example:

                   set style line 1 lw 2 lc rgb "gold"
                   set style line 2 lw 2 lc rgb "purple"
                   set style line 4 lw 1 lc rgb "sea-green"
                   set style increment user

                   plot f1(x), f2(x), f3(x), f4(x)

             should plot functions f1, f2, f4 in your 3 newly defined
             line styles.  If a user-defined line style is not found
             then the corresponding default linetype is used instead.
             E.g. in the example above, f3(x) will be plotted using the
             default linetype 3.
















   GNUPLOT 4.1                                                      170


             4455..5599..66..  SSeett ssttyyllee lliinnee


             Each terminal has a default set of line and point types,
             which can be seen by using the command tteesstt.  sseett ssttyyllee
             lliinnee defines a set of line types and widths and point
             types and sizes so that you can refer to them later by an
             index instead of repeating all the information at each
             invocation.

             Syntax:
                   set style line <index> default
                   set style line <index> {{linetype  | lt} <line_type>
             | <colorspec>}
                                          {{linecolor | lc} <color-
             spec>}
                                          {{linewidth | lw}
             <line_width>}
                                          {{pointtype | pt}
             <point_type>}
                                          {{pointsize | ps}
             <point_size>}
                                          {palette}
                   unset style line
                   show style line

             If ddeeffaauulltt is given all line style parameters are set to
             their default values.

             If the linestyle <index> already exists, only the given
             parameters are changed while all others are preserved.  If
             not, all undefined values are set to the default values.

             The line and point types are taken from the default types
             for the terminal currently in use.  The line width and
             point size are multipliers for the default width and size
             (but note that <point_size> here is unaffected by the mul-
             tiplier given on sseett ppooiinnttssiizzee).

             The defaults for the line and point types is the index.
             The defaults for the width and size are both unity.

             Linestyles created by this mechanism do not replace the
             default linetype styles; both may be used.  If you want
             plots to use the defined styles in preference to the
             default linetypes, please see sseett ssttyyllee iinnccrreemmeenntt.

             Not all terminals support the lliinneewwiiddtthh and ppooiinnttssiizzee fea-
             tures; if not supported, the option will be ignored.

             Terminal-independent colors may be assigned using either
             lliinneeccoolloorr <<ccoolloorrssppeecc>> or lliinneettyyppee <<ccoolloorrssppeecc>>, abbreviated
             llcc or lltt.  This requires giving a RGB color triple, a










   GNUPLOT 4.1                                                      171


             known palette color name, a fractional index into the cur-
             rent palette, or a constant value from the current mapping
             of the palette onto cbrange.  See ccoolloorrss, ccoolloorrssppeecc, sseett
             ppaalleettttee, ccoolloorrnnaammeess, ccbbrraannggee.

             sseett ssttyyllee lliinnee <<nn>> lliinneettyyppee <<lltt>> will set both a terminal-
             dependent dot/dash pattern and color. The commandssseett
             ssttyyllee lliinnee <<nn>> lliinneeccoolloorr <<ccoolloorrssppeecc>> or sseett ssttyyllee lliinnee <<nn>>
             lliinneettyyppee <<ccoolloorrssppeecc>> will set a new line color while leav-
             ing the existing dot-dash pattern unchanged.

             In 3d mode (sspplloott command), the special keyword ppaalleettttee is
             allowed as a shorthand for "linetype palette z".  The
             color value corresponds to the z-value (elevation) of the
             splot, and varies smoothly along a line or surface.

             Examples: Suppose that the default lines for indices 1, 2,
             and 3 are red, green, and blue, respectively, and the
             default point shapes for the same indices are a square, a
             cross, and a triangle, respectively.  Then

                   set style line 1 lt 2 lw 2 pt 3 ps 0.5

             defines a new linestyle that is green and twice the
             default width and a new pointstyle that is a half-sized
             triangle.  The commands

                   set style function lines
                   plot f(x) lt 3, g(x) ls 1

             will create a plot of f(x) using the default blue line and
             a plot of g(x) using the user-defined wide green line.
             Similarly the commands

                   set style function linespoints
                   plot p(x) lt 1 pt 3, q(x) ls 1

             will create a plot of p(x) using the default triangles
             connected by a red line and q(x) using small triangles
             connected by a green line.

                   splot sin(sqrt(x*x+y*y))/sqrt(x*x+y*y) w l pal

             creates a surface plot using smooth colors according to
             ppaalleettttee. Note, that this works only on some terminals. See
             also sseett ppaalleettttee, sseett ppmm33dd.

                   set style line 10 linetype 1 linecolor rgb "cyan"

             will assign linestyle 10 to be a solid cyan line on any
             terminal that supports rgb colors.












   GNUPLOT 4.1                                                      172


             4455..5599..77..  PPlloottttiinngg ssttyylleess



             The commands sseett ssttyyllee ddaattaa and sseett ssttyyllee ffuunnccttiioonn change
             the default plotting style for subsequent pplloott and sspplloott
             commands.

             The types used for all line and point styles (i.e., solid,
             dash-dot, color, etc. for lines; circles, squares,
             crosses, etc. for points) will be either those specified
             on the pplloott or sspplloott command or will be chosen sequen-
             tially from the types available to the terminal in use.
             Use the command tteesstt to see what is available.

             None of the styles requiring more than two columns of
             information (e.g., eerrrroorrbbaarrss or eerrrroorrlliinneess) can be used
             with ssppllootts or function ppllootts. Neither bbooxxeess, ffiilllleeddccuurrvveess
             nor any of the sstteeppss styles can be used with ssppllootts. If an
             inappropriate style is specified, it will be changed to
             ppooiinnttss.

             The above caveat does not apply to pplloott wwiitthh llaabbeellss, for
             which the third column specifies a data source rather than
             coordinate information.  See sseett ssttyyllee llaabbeellss.

             For 2-d data with more than two columns, ggnnuupplloott is picky
             about the allowed eerrrroorrbbaarrss and eerrrroorrlliinneess styles. The
             uussiinngg option on the pplloott command can be used to set up the
             correct columns for the style you want. (In this discus-
             sion, "column" will be used to refer both to a column in
             the data file and an entry in the uussiinngg list.)

             For three columns, only xxeerrrroorrbbaarrss, yyeerrrroorrbbaarrss (or eerrrroorr--
             bbaarrss), xxeerrrroorrlliinneess, yyeerrrroorrlliinneess (or eerrrroorrlliinneess), bbooxxeess,
             and bbooxxeerrrroorrbbaarrss are allowed. If another plot style is
             used, the style will be changed to yyeerrrroorrbbaarrss. The bbooxxeerr--
             rroorrbbaarrss style will calculate the boxwidth automatically.

             For four columns, only xxeerrrroorrbbaarrss, yyeerrrroorrbbaarrss (or eerrrroorr--
             bbaarrss), xxyyeerrrroorrbbaarrss, xxeerrrroorrlliinneess, yyeerrrroorrlliinneess (or eerrrroorr--
             lliinneess), xxyyeerrrroorrlliinneess, bbooxxxxyyeerrrroorrbbaarrss, and bbooxxeerrrroorrbbaarrss are
             allowed.  An illegal style will be changed to yyeerrrroorrbbaarrss.

             Five-column data allow only the bbooxxeerrrroorrbbaarrss, ffiinnaanncceebbaarrss,
             and ccaannddlleessttiicckkss styles.  An illegal style will be changed
             to bbooxxeerrrroorrbbaarrss before plotting.

             Six- and seven-column data only allow the xxyyeerrrroorrbbaarrss,
             xxyyeerrrroorrlliinneess, and bbooxxxxyyeerrrroorrbbaarrss styles. Illegal styles
             will be changed to xxyyeerrrroorrbbaarrss before plotting.

             For more information about error bars with and without










   GNUPLOT 4.1                                                      173


             lines, please see pplloott eerrrroorrlliinneess and pplloott eerrrroorrbbaarrss.




             4455..5599..88..  SSeett ssttyyllee rreeccttaannggllee



             Rectangles defined with the sseett oobbjjeecctt rreeccttaannggllee command
             can have individual styles. However, if a rectangle is not
             assigned a private style then it inherits a default that
             is taken from the sseett ssttyyllee rreeccttaannggllee command.

             Syntax:
                 set style rectangle {front|back} {fillcolor <color-
             spec>} {fs <fillstyle>}
                                     {lw|linewidth <lw>}

             See ccoolloorrssppeecc and ffiillllssttyyllee.  ffiillllccoolloorr may be abbreviated
             as ffcc.

             Examples:
                 set style rectangle back fc rgb "white" fs solid 1.0
             border -1
                 set style rectangle fc linsestyle 3 fs pattern 2
             noborder

             The default values correspond to solid fill with the back-
             ground color and a black border.





                  4455..5599..88..11..  BBooxxeerrrroorrbbaarrss


                  The bbooxxeerrrroorrbbaarrss style is only relevant to 2-d data
                  plotting.  It is a combination of the bbooxxeess and yyeerr--
                  rroorrbbaarrss styles.  The boxwidth will come from the
                  fourth column if the y errors are in the form of
                  "ydelta" and the boxwidth was not previously set
                  equal to -2.0 (sseett bbooxxwwiiddtthh --22..00) or from the fifth
                  column if the y errors are in the form of "ylow
                  yhigh".  The special case  bbooxxwwiiddtthh == --22..00 is for
                  four-column data with y errors in the form "ylow
                  yhigh".  In this case the boxwidth will be calculated
                  so that each box touches the adjacent boxes.  The
                  width will also be calculated in cases where three-
                  column data are used.

                  The box height is determined from the y error in the










   GNUPLOT 4.1                                                      174


                  same way as it is for the yyeerrrroorrbbaarrss style---either
                  from y-ydelta to y+ydelta or from ylow to yhigh,
                  depending on how many data columns are provided.  See
                  also errorbar demo.



                  4455..5599..88..22..  BBooxxeess


                  The bbooxxeess style is only relevant to 2-d plotting.  It
                  draws a box centered about the given x coordinate
                  from the x axis (not the graph border) to the given y
                  coordinate.  The width of the box is obtained in one
                  of three ways.  If it is a data plot and the data
                  file has a third column, this will be used to set the
                  width of the box.  If not, if a width has been set
                  using the sseett bbooxxwwiiddtthh command, this will be used.
                  If neither of these is available, the width of each
                  box will be calculated automatically so that it
                  touches the adjacent boxes.

                  The interior of the boxes is drawn according to the
                  current fillstyle.  See sseett ssttyyllee ffiillll for details.
                  Alternatively a new fillstyle may be specified in the
                  plot command.

                  For fillstyle eemmppttyy the box is filled with the back-
                  ground color.

                  For fillstyle ssoolliidd the box is filled with a solid
                  rectangle of the current drawing color. There is an
                  optional parameter <density> that controls the fill
                  density; it runs from 0 (background color) to 1 (cur-
                  rent drawing color).

                  For fillstyle ppaatttteerrnn the box is filled in the cur-
                  rent drawing color with a pattern, if supported by
                  the terminal driver.

                  Examples:

                  To plot a data file with solid filled boxes with a
                  small vertical space separating them (bargraph):

                        set boxwidth 0.9 relative
                        set style fill solid 1.0
                        plot 'file.dat' with boxes

                  To plot a sine and a cosine curve in pattern-filled
                  boxes style:

                        set style fill pattern










   GNUPLOT 4.1                                                      175


                        plot sin(x) with boxes, cos(x) with boxes

                  The sin plot will use pattern 0; the cos plot will
                  use pattern 1.  Any additional plots would cycle
                  through the patterns supported by the terminal
                  driver.

                  To specify explicit fillstyles for each dataset:

                       plot 'file1' with boxes fs solid 0.25, \
                            'file2' with boxes fs solid 0.50, \
                            'file3' with boxes fs solid 0.75, \
                            'file4' with boxes fill pattern 1, \
                            'file5' with boxes fill empty

                  Currently only the following terminal drivers support
                  fillstyles other than eemmppttyy: x11, windows, pm, wxt,
                  postscript, fig, pbm, png, gif, hpdj, hppj, hpljii,
                  hp500c, jpeg, nec_cp6, epson_180dpi, epson_60dpi,
                  epson_lx800, okidata, starc and tandy_60dpi. The BeOS
                  driver (bbee) is untested.



                  4455..5599..88..33..  BBooxxxxyyeerrrroorrbbaarrss


                  The bbooxxxxyyeerrrroorrbbaarrss style is only relevant to 2-d data
                  plotting.  It is a combination of the bbooxxeess and xxyyeerr--
                  rroorrbbaarrss styles.

                  The box width and height are determined from the x
                  and y errors in the same way as they are for the
                  xxyyeerrrroorrbbaarrss style---either from xlow to xhigh and
                  from ylow to yhigh, or from x-xdelta to x+xdelta and
                  from y-ydelta to y+ydelta , depending on how many
                  data columns are provided.

                  If filled-box support is present, then the interior
                  of the boxes is drawn according to the current fill-
                  style.  See sseett ssttyyllee ffiillll and bbooxxeess for details.
                  Alternatively a new fillstyle may be specified in the
                  plot command.



                  4455..5599..88..44..  CCaannddlleessttiicckkss


                  The ccaannddlleessttiicckkss style can be used for 2-d data plot-
                  ting of financial data or for generating box-and-
                  whisker plots of statistical data.  Five columns of
                  data are required; in order, these should be the x










   GNUPLOT 4.1                                                      176


                  coordinate (most likely a date) and the opening, low,
                  high, and closing prices.  The symbol is a rectangu-
                  lar box, centered horizontally at the x coordinate
                  and limited vertically by the opening and closing
                  prices.  A vertical line segment at the x coordinate
                  extends up from the top of the rectangle to the high
                  price and another down to the low.  The vertical line
                  will be unchanged if the low and high prices are
                  interchanged.

                  The width of the rectangle can be controlled by the
                  sseett bbooxxwwiiddtthh command.  For backwards compatibility
                  with earlier gnuplot versions, when the boxwidth
                  parameter has not been set then the width of the can-
                  dlestick rectangle is controlled by sseett bbaarrss <<wwiiddtthh>>.

                  By default the vertical line segments have no cross-
                  bars at the top and bottom. If you want crossbars,
                  which are typically used for box-and-whisker plots,
                  then add the keyword wwhhiisskkeerrbbaarrss to the plot command.
                  By default these whiskerbars extend the full horizon-
                  tal width of the candlestick, but you can modify this
                  by specifying a fraction of the full width.

                  By default the rectangle is empty if (open > close),
                  and filled with three vertical bars if (close >
                  open). If filled-boxes support is present, then the
                  rectangle is colored according to sseett ssttyyllee ffiillll
                  <<ffiillllssttyyllee>>.  See sseett bbaarrss and ffiinnaanncceebbaarrss.  See also
                  finance demos .

                  Note: To place additional symbols, such as the median
                  value, on a box-and-whisker plot requires additional
                  plot commands as in this example:

                    # Data columns: X Min 1stQuartile Median 3rdQuar-
                  tile Max
                    set bars 4.0
                    set style fill empty
                    plot 'stat.dat' using 1:3:2:6:5 with candlesticks
                  title 'Quartiles', \
                         ''         using 1:4:4:4:4 with candlesticks
                  lt -1 notitle

                    # Plot with crossbars on the whiskers, crossbars
                  are 50% of full width
                    plot 'stat.dat' using 1:3:2:6:5 with candlesticks
                  whiskerbars 0.5

                   See `set boxwidth`, `set bars` and `set style fill`.













   GNUPLOT 4.1                                                      177


                  4455..5599..88..55..  DDoottss


                  The ddoottss style plots a tiny dot at each point; this
                  is useful for scatter plots with many points. For
                  some terminals (post, pdf) the size of the dot can be
                  controlled by changing the linewidth.



                  4455..5599..88..66..  FFiilllleeddccuurrvveess


                  The ffiilllleeddccuurrvveess style is only relevant to 2-d plot-
                  ting. Three variants are possible. The first two
                  variants require either a function or two columns of
                  input data, and may be further modified by the
                  options listed below.  The first variant, cclloosseedd,
                  treats the curve itself as a closed polygon.  This is
                  the default if there are two columns of input data.

                  The second variant is to fill the area between the
                  curve and a given axis, a horizontal or vertical
                  line, or a point.

                  The third variant requires three columns of input
                  data: the x coordinate and two y coordinates corre-
                  sponding to two curves sampled at the same set of x
                  coordinates; the area between the two curves is
                  filled.  This is the default if there are three or
                  more columns of input data.

                  Syntax:

                      set style [data | function] filledcurves [option]
                      plot ... with filledcurves [option]

                  where the option can be

                      [closed | {above | below} {x1 | x2 | y1 |
                  y2}[=<a>] | xy=<x>,<y>]

                  The first two plot variants can be further modified
                  by the options

                      filledcurves closed   ... just filled closed
                  curve,
                      filledcurves x1       ... x1 axis,
                      filledcurves x2       ... x2 axis, etc for y1 and
                  y2 axes,
                      filledcurves y1=0     ... line y=0 (at y1 axis)
                  ie parallel to x1 axis,
                      filledcurves y2=42    ... line y=42 (at y2 axis)










   GNUPLOT 4.1                                                      178


                  ie parallel to x2, etc,
                      filledcurves xy=10,20 ... point 10,20 of x1,y1
                  axes (arc-like shape).

                  Example of filling the area between two input curves.
                  fill between curves demo.

                      plot 'data' using 1:2:3 with filledcurves

                  The aabboovvee and bbeellooww options apply both to commands of
                  the form
                      ... filledcurves above {x1|x2|y1|y2}=<val>
                  and to commands of the form
                      ... using 1:2:3 with filledcurves below
                  In either case the option limits the filled area to
                  one side of the bounding line or curve.

                  Note: Not all terminal types support this plotting
                  mode.

                  Zoom of a filled curve drawn from a datafile may pro-
                  duce empty or incorrect area because gnuplot is clip-
                  ping points and lines, and not areas.

                  If the values of <a>, <x>, <y> are out of the drawing
                  boundary, then they are moved to the graph boundary.
                  Then the actually filled area in the case of option
                  xy=<x>,<y> will depend on xrange and yrange.



                  4455..5599..88..77..  FFiinnaanncceebbaarrss


                  The ffiinnaanncceebbaarrss style is only relevant for 2-d data
                  plotting of financial data.  Five columns of data are
                  required; in order, these should be the x coordinate
                  (most likely a date) and the opening, low, high, and
                  closing prices.  The symbol is a vertical line seg-
                  ment, located horizontally at the x coordinate and
                  limited vertically by the high and low prices.  A
                  horizontal tic on the left marks the opening price
                  and one on the right marks the closing price.  The
                  length of these tics may be changed by sseett bbaarrss.  The
                  symbol will be unchanged if the high and low prices
                  are interchanged.  See sseett bbaarrss and ccaannddlleessttiicckkss, and
                  also the finance demo.
















   GNUPLOT 4.1                                                      179


                  4455..5599..88..88..  FFsstteeppss


                  The ffsstteeppss style is only relevant to 2-d plotting.
                  It connects consecutive points with two line seg-
                  ments: the first from (x1,y1) to (x1,y2) and the sec-
                  ond from (x1,y2) to (x2,y2).  See also steps demo.



                  4455..5599..88..99..  HHiisstteeppss


                  The hhiisstteeppss style is only relevant to 2-d plotting.
                  It is intended for plotting histograms.  Y-values are
                  assumed to be centered at the x-values; the point at
                  x1 is represented as a horizontal line from
                  ((x0+x1)/2,y1) to ((x1+x2)/2,y1).  The lines repre-
                  senting the end points are extended so that the step
                  is centered on at x.  Adjacent points are connected
                  by a vertical line at their average x, that is, from
                  ((x1+x2)/2,y1) to ((x1+x2)/2,y2).

                  If aauuttoossccaallee is in effect, it selects the xrange from
                  the data rather than the steps, so the end points
                  will appear only half as wide as the others.  See
                  also steps demo.

                  hhiisstteeppss is only a plotting style; ggnnuupplloott does not
                  have the ability to create bins and determine their
                  population from some data set.



                  4455..5599..88..1100..  HHiissttooggrraammss


                  The hhiissttooggrraammss style is only relevant to 2-d plot-
                  ting.  It produces a bar chart from a sequence of
                  data columns in parallel. Each element of the pplloott
                  command must specify a single input data source (e.g.
                  one column of the input file), possibly with associ-
                  ated tic values or key titles.  Four styles of his-
                  togram layout are currently supported.

                        set style histogram clustered {gap <gapsize>}
                        set style histogram errorbars {gap <gapsize>}
                  {<linewidth>}
                        set style histogram rowstacked
                        set style histogram columnstacked

                  The default style corresponds to sseett ssttyyllee hhiissttooggrraamm
                  cclluusstteerreedd ggaapp 22.  In this style, each set of parallel










   GNUPLOT 4.1                                                      180


                  data values is collected into a group of boxes clus-
                  tered at the x-axis coordinate corresponding to their
                  sequential position (row #) in the selected datafile
                  columns.  Thus if <n> datacolumns are selected, the
                  first cluster is centered about x=1, and contains <n>
                  boxes whose heights are taken from the first entry in
                  the corresponding <n> data columns.  This is followed
                  by a gap and then a second cluster of boxes centered
                  about x=2 corresponding to the second entry in the
                  respective data columns, and so on.  The default gap
                  width of 2 indicates that the empty space between
                  clusters is equivalent to the width of 2 boxes.  All
                  boxes derived from any one column are given the same
                  fill color and/or pattern (see sseett ssttyyllee ffiillll).

                  Each cluster of boxes is derived from a single row of
                  the input data file.  It is common in such input
                  files that the first element of each row is a label.
                  Labels from this column may be placed along the x-
                  axis underneath the appropriate cluster of boxes with
                  the xxttiiccllaabbeellss option to uussiinngg.

                  The eerrrroorrbbaarrss style is very similar to the cclluusstteerreedd
                  style, except that it requires two columns of input
                  for each entry. The first column is treated as the
                  height (y-value) of that box, exactly as for the
                  cclluusstteerreedd style.  The second column is treated as an
                  error magnitude, and used to generate a vertical
                  error bar at the top of the box. The appearance of
                  the error bar is controlled by the current value of
                  sseett bbaarrss and by the optional <linewidth> specifica-
                  tion.

                  Two styles of stacked histogram are supported, chosen
                  by the command sseett ssttyyllee hhiissttooggrraamm {{rrooww--
                  ssttaacckkeedd||ccoolluummnnssttaacckkeedd}}.  In these styles the data
                  values from the selected columns are collected into
                  stacks of boxes.  The default stacking mode is rrooww--
                  ssttaacckkeedd.

                  The rroowwssttaacckkeedd style places a box resting on the x-
                  axis for each data value in the first selected col-
                  umn; the first data value results in a box a x=1, the
                  second at x=2, and so on.  Boxes corresponding to the
                  second and subsequent data columns are layered on top
                  of these, resulting in a stack of boxes at x=1 repre-
                  senting the first data value from each column, a
                  stack of boxes at x=2 representing the second data
                  value from each column, and so on.  All boxes derived
                  from any one column are given the same fill color
                  and/or pattern (see sseett ssttyyllee ffiillll).

                  The ccoolluummnnssttaacckkeedd style is similar, except that each










   GNUPLOT 4.1                                                      181


                  stack of boxes is built up from a single data column.
                  Each data value from the first specified column
                  yields a box in the stack at x=1, each data value
                  from the second specified column yields a box in the
                  stack at x=2, and so on.  In this style the color of
                  each box is taken from the row number, rather than
                  the column number, of the corresponding data field.

                  Box widths may be modified using the sseett bbooxxwwiiddtthh
                  command.  Box fill styles may be set using the sseett
                  ssttyyllee ffiillll command.

                  Histograms always use the x1 axis, but may use either
                  y1 or y2.  If a plot contains both histograms and
                  other plot styles, the non-histogram plot elements
                  may use either the x1 or the x2 axis.

                  Examples:

                  To plot a data file containing multiple columns of
                  data as a histogram of clustered boxes (the default
                  style):

                        set boxwidth 0.9 relative
                        set style data histograms
                        set style fill solid 1.0 border -1
                        plot 'file.dat' using 2, '' using 4, '' using 6

                  This will produce a plot with clusters of three boxes
                  (vertical bars) centered at each integral value on
                  the x axis.  If the first column of the input file
                  contains labels, they may be placed along the x-axis
                  using the variant command

                        plot 'file.dat' using 2, '' using 4, '' using
                  6:xticlabels(1)

                  If the file contains both a magnitude and an error
                  estimate for each value, then error bars can be added
                  to the plot.  The following commands will add error
                  bars extending from (y-<error>) to (y+<error>),
                  capped by horizontal bar ends drawn the same width as
                  the box itself. The error bars and bar ends are drawn
                  in black with linewidth 2.

                        set bars fullwidth
                        set style histogram errorbars gap 2 lt -1 lw 2
                        plot 'file.dat' using 2:3, '' using 4:5, ''
                  using 6:7:xticlabels(1)

                  To plot the same data as a rowstacked histogram:

                        set style histogram rows










   GNUPLOT 4.1                                                      182


                        plot 'file.dat' using 2, '' using 4, '' using
                  6:xtic(1)

                  This will produce a plot in which each vertical bar
                  contains a stack of three segments, corresponding in
                  height to the values found in columns 2, 4 and 6 of
                  the datafile.

                  Finally, the commands

                        set style histogram columnstacked
                        plot 'file.dat' using 2, '' using 4, '' using 6

                  will produce three vertical stacks. The stack at x=1
                  will contain a box for each entry in column 2 of the
                  datafile.  The stack at x=2 will contain a box for
                  each parallel entry in column 4 of the datafile, and
                  the stack at x=3 a box for each entry of column 6.
                  Because this interchanges gnuplot's usual interpreta-
                  tion of input rows and columns, the specification of
                  key titles and x-axis tic labels must also be modi-
                  fied.

                        set style histogram columnstacked
                        plot '' u 5:key(1)            # uses first col-
                  umn to generate key titles
                        plot '' u 5 title columnhead  # uses first row
                  to generate xtic labels




                       4455..5599..88..1100..11..  NNeewwhhiissttooggrraamm


                       More than one set of histograms can appear in a
                       single plot. In this case you can force a gap
                       between them, and a separate label for each set,
                       by using the plot command nneewwhhiissttooggrraamm
                       {{""<<ttiittllee>>""}} {{<<lliinneessttyyllee>>}}.  For example

                             set style histogram  cluster
                             plot newhistogram "Set A", 'a' using 1, ''
                       using 2, '' using 3, \
                                  newhistogram "Set B", 'b' using 1, ''
                       using 2, '' using 3

                       The labels "Set A" and "Set B" will appear
                       beneath the respective sets of histograms, under
                       the overall x axis label.

                       The newhistogram command can also be used to
                       force histogram coloring to begin with a










   GNUPLOT 4.1                                                      183


                       specific color (linetype). By default colors
                       will continue to increment successively even
                       across histogram boundaries. Here is an example
                       using the same coloring for multiple histograms
                             plot newhistogram "Set A" lt 4, 'a' using
                       1, '' using 2, '' using 3, \
                                  newhistogram "Set B" lt 4, 'b' using
                       1, '' using 2, '' using 3




                  4455..5599..88..1111..  IImmaaggee


                  The iimmaaggee style is intendend for plotting 2D images.
                  It may be used for both pplloott and sspplloott in the form of
                  3D data (x,y,value) or projected 4D data
                  (x,y,z,value), respectively.  It is assumed that in
                  the viewing plane the image data forms an equidistant
                  sampling grid in the viewing plane along two, not
                  necessarily  orthogonal, directions.  In other words,
                  groups of four adjacent points are assumed to form
                  the same size parallelogram.  The variable vvaalluuee in
                  the tuples represent a palette color (gray value) for
                  indexing in the current palette.

                  The iimmaaggee style will attempt to create a properly
                  positioned and scaled data matrix to match the plot
                  borders for those terminals supporting palettes and
                  images.  Such output is efficient and draws quickly.
                  However, when a terminal driver does not support
                  palettes and images, or when image support is not
                  implemented, the iimmaaggee style reverts to drawing
                  filled rectangular boxes for pixels, which is not as
                  efficient.  General parallelogram-shaped images cur-
                  rently always have filled parallelograms for pixels.

                  The coordinate of each data point of an image will
                  lie at the center of a pixel.  That is, an M x N set
                  of data will form an image with M x N pixels.  This
                  is slightly different than pm3d elements where an M x
                  N set of data will form a surface of (M-1) x (N-1)
                  elements.  The scan directions for the image data
                  grid can be any of eight possible combinations.

                  Here are some specific comments about particular ter-
                  minal drivers:

                  x11 and wxt - Pixels are either repeated or decimated
                  to fit the display
                        resolution; no other processing (filtering) is
                  done.  Thus, aliasing may










   GNUPLOT 4.1                                                      184


                        occur when decimating images having high spa-
                  tial frequency content.

                  postscript (pslatex, epslatex, pstex) - Image is
                  copied in its original
                        resolution, and sample interpolation is turned
                  off.

                  See also rrggbbiimmaaggee.



                  4455..5599..88..1122..  IImmppuullsseess


                  The iimmppuullsseess style displays a vertical line from the
                  x axis (not the graph border), or from the grid base
                  for sspplloott, to each point.



                  4455..5599..88..1133..  LLaabbeellss


                  The llaabbeellss style is available only if gnuplot is
                  built with configuration option --enable-datastrings.
                  For a 2-D plot with labels you must specify 3 input
                  data columns; the text string found in the third col-
                  umn is printed at the X and Y coordinates generated
                  by the first two column specifiers. The font, color,
                  rotation angle and other properties of the printed
                  text may be specified as additional command options
                  (see sseett llaabbeell). The example below will generate a
                  2-D plot with text labels taken from column 4 of the
                  input file (ttcc lltt 22 is shorthand for tteexxttccoolloorr lliinnee--
                  ttyyppee 22, which is green).

                    plot 'datafile' using 1:(0.5 * $2):4 with labels
                  font "arial,11" tc lt 2

                  The llaabbeellss style can also be used in 3-D plots. In
                  this case four input column specifiers are required,
                  corresponding to X Y Z and text.

                    splot 'datafile' using 1:2:3:4 with labels

                  See also ddaattaassttrriinnggss, sseett ssttyyllee ddaattaa.
















   GNUPLOT 4.1                                                      185


                  4455..5599..88..1144..  LLiinneess


                  The lliinneess style connects adjacent points with
                  straight line segments.  See also lliinneettyyppee,
                  lliinneewwiiddtthh, and lliinneessttyyllee.



                  4455..5599..88..1155..  LLiinneessppooiinnttss


                  The lliinneessppooiinnttss style does both lliinneess and ppooiinnttss,
                  that is, it draws a small symbol at each point and
                  then connects adjacent points with straight line seg-
                  ments.  The command sseett ppooiinnttssiizzee may be used to
                  change the size of the points.  See sseett ppooiinnttssiizzee for
                  its usage.

                  lliinneessppooiinnttss may be abbreviated llpp.



                  4455..5599..88..1166..  PPooiinnttss


                  The ppooiinnttss style displays a small symbol at each
                  point.  The command sseett ppooiinnttssiizzee may be used to
                  change the size of the points.  See sseett ppooiinnttssiizzee for
                  its usage.



                  4455..5599..88..1177..  SStteeppss


                  The sstteeppss style is only relevant to 2-d plotting.  It
                  connects consecutive points with two line segments:
                  the first from (x1,y1) to (x2,y1) and the second from
                  (x2,y1) to (x2,y2).  See also steps demo.



                  4455..5599..88..1188..  RRggbbiimmaaggee


                  The rrggbbiimmaaggee style is intended for plotting 2D images
                  and is similar in concept to iimmaaggee.  See iimmaaggee for
                  details.  The difference is that 5D data (x,y,r,g,b)
                  for pplloott and 6D data (x,y,z,r,g,b) for sspplloott describe
                  the coordinates and color components of an image.

                  See also iimmaaggee.










   GNUPLOT 4.1                                                      186


                  4455..5599..88..1199..  VVeeccttoorrss


                  The 2D vveeccttoorrss style draws a vector from (x,y) to
                  (x+xdelta,y+ydelta).  Thus it requires four columns
                  of data.  It also draws a small arrowhead at the end
                  of the vector.  The 3D vveeccttoorrss style is similar, but
                  requires six columns of data.  splot with vectors is
                  supported only for sseett mmaappppiinngg ccaarrtteessiiaann.  The key-
                  words "with vectors" may be followed by arrow style
                  specifications.  See aarrrroowwssttyyllee for more details.

                  Example:
                        plot 'file.dat' using 1:2:3:4 with vectors head
                  filled lt 2
                        splot 'file.dat' using 1:2:3:(1):(1):(1) with
                  vectors filled head lw 2

                  sseett cclliipp oonnee and sseett cclliipp ttwwoo affect vectors drawn in
                  2D.  Please see sseett cclliipp and aarrrroowwssttyyllee.



                  4455..5599..88..2200..  XXeerrrroorrbbaarrss


                  The xxeerrrroorrbbaarrss style is only relevant to 2-d data
                  plots.  xxeerrrroorrbbaarrss is like ddoottss, except that a hori-
                  zontal error bar is also drawn.  At each point (x,y),
                  a line is drawn from (xlow,y) to (xhigh,y) or from
                  (x-xdelta,y) to (x+xdelta,y), depending on how many
                  data columns are provided.  A tic mark is placed at
                  the ends of the error bar (unless sseett bbaarrss is
                  used---see sseett bbaarrss for details).



                  4455..5599..88..2211..  XXyyeerrrroorrbbaarrss


                  The xxyyeerrrroorrbbaarrss style is only relevant to 2-d data
                  plots.  xxyyeerrrroorrbbaarrss is like ddoottss, except that hori-
                  zontal and vertical error bars are also drawn.  At
                  each point (x,y), lines are drawn from (x,y-ydelta)
                  to (x,y+ydelta) and from (x-xdelta,y) to (x+xdelta,y)
                  or from (x,ylow) to (x,yhigh) and from (xlow,y) to
                  (xhigh,y), depending upon the number of data columns
                  provided.  A tic mark is placed at the ends of the
                  error bar (unless sseett bbaarrss is used---see sseett bbaarrss for
                  details).

                  If data are provided in an unsupported mixed form,
                  the uussiinngg filter on the pplloott command should be used










   GNUPLOT 4.1                                                      187


                  to set up the appropriate form.  For example, if the
                  data are of the form (x,y,xdelta,ylow,yhigh), then
                  you can use

                        plot 'data' using 1:2:($1-$3):($1+$3):4:5 with
                  xyerrorbars



                  4455..5599..88..2222..  YYeerrrroorrbbaarrss


                  The yyeerrrroorrbbaarrss (or eerrrroorrbbaarrss) style is only relevant
                  to 2-d data plots.  yyeerrrroorrbbaarrss is like ppooiinnttss, except
                  that a vertical error bar is also drawn.  At each
                  point (x,y), a line is drawn from (x,y-ydelta) to
                  (x,y+ydelta) or from (x,ylow) to (x,yhigh), depending
                  on how many data columns are provided.  A tic mark is
                  placed at the ends of the error bar (unless sseett bbaarrss
                  is used---see sseett bbaarrss for details).  See also error-
                  bar demo.



                  4455..5599..88..2233..  XXeerrrroorrlliinneess


                  The xxeerrrroorrlliinneess style is only relevant to 2-d data
                  plots.  xxeerrrroorrlliinneess is like lliinneessppooiinnttss, except that
                  a horizontal error line is also drawn. At each point
                  (x,y), a line is drawn from (xlow,y) to (xhigh,y) or
                  from (x-xdelta,y) to (x+xdelta,y), depending on how
                  many data columns are provided. A tic mark is placed
                  at the ends of the error bar (unless sseett bbaarrss is
                  used---see sseett bbaarrss for details).



                  4455..5599..88..2244..  XXyyeerrrroorrlliinneess


                  The xxyyeerrrroorrlliinneess style is only relevant to 2-d data
                  plots.  xxyyeerrrroorrlliinneess is like lliinneessppooiinnttss, except that
                  horizontal and vertical error bars are also drawn. At
                  each point (x,y), lines are drawn from (x,y-ydelta)
                  to (x,y+ydelta) and from (x-xdelta,y) to (x+xdelta,y)
                  or from (x,ylow) to (x,yhigh) and from (xlow,y) to
                  (xhigh,y), depending upon the number of data columns
                  provided. A tic mark is placed at the ends of the
                  error bar (unless sseett bbaarrss is used---see sseett bbaarrss for
                  details).

                  If data are provided in an unsupported mixed form,










   GNUPLOT 4.1                                                      188


                  the uussiinngg filter on the pplloott command should be used
                  to set up the appropriate form.  For example, if the
                  data are of the form (x,y,xdelta,ylow,yhigh), then
                  you can use

                        plot 'data' using 1:2:($1-$3):($1+$3):4:5 with
                  xyerrorlines



                  4455..5599..88..2255..  YYeerrrroorrlliinneess


                  The yyeerrrroorrlliinneess (or eerrrroorrlliinneess) style is only rele-
                  vant to 2-d data plots. yyeerrrroorrlliinneess is like lliinneess--
                  ppooiinnttss, except that a vertical error line is also
                  drawn. At each point (x,y), a line is drawn from
                  (x,y-ydelta) to (x,y+ydelta) or from (x,ylow) to
                  (x,yhigh), depending on how many data columns are
                  provided. A tic mark is placed at the ends of the
                  error bar (unless sseett bbaarrss is used---see sseett bbaarrss for
                  details).  See also errorbar demo.



        4455..6600..  SSuurrffaaccee


        The command sseett ssuurrffaaccee controls the display of surfaces by
        sspplloott.

        Syntax:
              set surface
              unset surface
              show surface

        The surface is drawn with the style specified by wwiitthh, or else
        the appropriate style, data or function.

        Whenever uunnsseett ssuurrffaaccee is issued, sspplloott will not draw points or
        lines corresponding to the function or data file points.  Con-
        tours may still be drawn on the surface, depending on the sseett
        ccoonnttoouurr option. uunnsseett ssuurrffaaccee;; sseett ccoonnttoouurr bbaassee is useful for
        displaying contours on the grid base.  See also sseett ccoonnttoouurr.



        4455..6611..  TTaabbllee


        When ttaabbllee mode is enabled, pplloott and sspplloott commands print out a
        multicolumn ASCII table of X Y {Z} R values rather than creat-
        ing an actual plot on the current terminal.  The character R










   GNUPLOT 4.1                                                      189


        takes on one of three values: "i" if the point is in the active
        range, "o" if it is out-of-range, or "u" if it is undefined.
        The data format is determined by the format of the axis labels
        (see sseett ffoorrmmaatt), and the columns are separated by single spa-
        ces.  This can be useful if you want to generate contours and
        then save them for further use, perhaps for plotting with pplloott;
        see sseett ccoonnttoouurr for example.  The same method can be used to
        save interpolated data (see sseett ssaammpplleess and sseett ddggrriidd33dd).

        Syntax:
              set table {"outfile"}
              plot <whatever>
              unset table

        Tabular output is written to the named file, if any, otherwise
        it is written to the current value of sseett oouuttppuutt.  You must
        explicitly uunnsseett ttaabbllee in order to go back to normal plotting
        on the current terminal.



        4455..6622..  TTeerrmmiinnaall


        ggnnuupplloott supports many different graphics devices.  Use sseett tteerr--
        mmiinnaall to tell ggnnuupplloott what kind of output to generate. Use sseett
        oouuttppuutt to redirect that output to a file or device.

        Syntax:
              set terminal {<terminal-type> | push | pop}
              show terminal

        If <terminal-type> is omitted, ggnnuupplloott will list the available
        terminal types.  <terminal-type> may be abbreviated.

        If both sseett tteerrmmiinnaall and sseett oouuttppuutt are used together, it is
        safest to give sseett tteerrmmiinnaall first, because some terminals set a
        flag which is needed in some operating systems.

        Several terminals have many additional options.  For example,
        see ppnngg, or ppoossttssccrriipptt.  The options used by a previous invoca-
        tion sseett tteerrmm <<tteerrmm>> <<ooppttiioonnss>> of a given <<tteerrmm>> are remem-
        bered, thus subsequent sseett tteerrmm <<tteerrmm>> does not reset them.
        This helps in printing, for instance, when switching among dif-
        ferent terminals---previous options don't have to be repeated.

        The command sseett tteerrmm ppuusshh remembers the current terminal
        including its settings while sseett tteerrmm ppoopp restores it. This is
        equivalent to ssaavvee tteerrmm and llooaadd tteerrmm, but without accessing
        the filesystem. Therefore they can be used to achieve platform
        independent restoring of the terminal after printing, for
        instance. After gnuplot's startup, the default terminal or that
        from ssttaarrttuupp file is pushed automatically. Therefore portable










   GNUPLOT 4.1                                                      190


        scripts can rely that sseett tteerrmm ppoopp restores the default termi-
        nal on a given platform unless another terminal has been pushed
        explicitly.

        For a complete list of available terminal types, see tteerrmmiinnaall.



        4455..6633..  TTeerrmmooppttiioonn


        The sseett tteerrmmooppttiioonn command allows you to change the behaviour
        of the current terminal without requiring a new sseett tteerrmmiinnaall
        command. Only one option can be changed per command, and only a
        small number of options can be changed this way. Currently the
        only options accepted are

             set termoption {no}enhanced
             set termoption font "<fontname>{,<fontsize>}"




        4455..6644..  TTiiccss


        Control of the major (labelled) tics on all axes at once is
        possible with the sseett ttiiccss command.

        Fine control of the major (labelled) tics on all axes at once
        is possible with the sseett ttiiccss command.  The tics may be turned
        off with the uunnsseett ttiiccss command, and may be turned on (the
        default state) with sseett ttiiccss.  Similar commands (by preceding
        'tics' by the axis name) control the major tics on a single
        axis.

        Syntax:
              set tics {axis | border} {{no}mirror}
                       {in | out} {scale {default | <major>
        {,<minor>}}}
                       {{no}rotate {by <ang>}} {offset <offset> |
        nooffset}
                       { format "formatstring" } { font "name{,<size>}"
        }
                       { textcolor <colorspec> }
              unset tics
              show tics

        All specified options apply to all axes, i.e., x, y, z, x2, y2,
        and cb.

        aaxxiiss or bboorrddeerr tells ggnnuupplloott to put the tics (both the tics
        themselves and the accompanying labels) along the axis or the










   GNUPLOT 4.1                                                      191


        border, respectively.  If the axis is very close to the border,
        the aaxxiiss option will move the tic labels to outside the border
        in case the border is printed (see sseett bboorrddeerr).  The relevant
        margin settings will usually be sized badly by the automatic
        layout algorithm in this case.

        mmiirrrroorr tells ggnnuupplloott to put unlabelled tics at the same posi-
        tions on the opposite border.  nnoommiirrrroorr does what you think it
        does.

        iinn and oouutt change the tic marks to be drawn inwards or out-
        wards.

        With ssccaallee, the size of the tic marks can be adjusted. If
        <minor> is not specified, it is 0.5*<major>.  The default size
        1.0 for major tics and 0.5 for minor tics is requested by ssccaallee
        ddeeffaauulltt.

        rroottaattee asks ggnnuupplloott to rotate the text through 90 degrees,
        which will be done if the terminal driver in use supports text
        rotation.  nnoorroottaattee cancels this. rroottaattee bbyy <<aanngg>> asks for
        rotation by <ang> degrees, supported by some terminal types.

        The defaults are bboorrddeerr mmiirrrroorr nnoorroottaattee for tics on the x and y
        axes, and bboorrddeerr nnoommiirrrroorr nnoorroottaattee for tics on the x2 and y2
        axes.  For the z axis, the default is nnoommiirrrroorr.

        The <offset> is specified by either x,y or x,y,z, and may be
        preceded by ffiirrsstt, sseeccoonndd, ggrraapphh, ssccrreeeenn, or cchhaarraacctteerr to
        select the coordinate system. <offset> is the offset of the
        tics texts from their default positions, while the default
        coordinate system is cchhaarraacctteerr.  See ccoooorrddiinnaatteess for details.
        nnooooffffsseett switches off the offset.

        sseett ttiiccss with no options restores to place tics inwards. Every
        other options are retained.

        See also sseett xxttiiccss for more control of major (labelled) tic
        marks and sseett mmxxttiiccss for control of minor tic marks.  These
        commands provide control at a axis by axis basis.



        4455..6655..  TTiiccsslleevveell


        See sseett xxyyppllaannee.
















   GNUPLOT 4.1                                                      192


        4455..6666..  TTiiccssccaallee


        The sseett ttiiccssccaallee command is deprecated, use sseett ttiiccss ssccaallee
        instead.



        4455..6677..  TTiimmeessttaammpp


        The command sseett ttiimmeessttaammpp places the time and date of the plot
        in the left margin.

        Syntax:
              set timestamp {"<format>"} {top|bottom} {{no}rotate}
                            {offset <xoff>{,<yoff>}} {font
        "<fontspec>"}
              unset timestamp
              show timestamp

        The format string allows you to choose the format used to write
        the date and time.  Its default value is what asctime() uses:
        "%a %b %d %H:%M:%S %Y" (weekday, month name, day of the month,
        hours, minutes, seconds, four-digit year).  With ttoopp or bboottttoomm
        you can place the timestamp at the top or bottom of the left
        margin (default: bottom).  rroottaattee lets you write the timestamp
        vertically, if your terminal supports vertical text.  The con-
        stants <xoff> and <yoff> are offsets that let you adjust the
        position more finely.  <font> is used to specify the font with
        which the time is to be written.

        The abbreviation ttiimmee may be used in place of ttiimmeessttaammpp.

        Example:
              set timestamp "%d/%m/%y %H:%M" offset 80,-2 font "Hel-
        vetica"

        See sseett ttiimmeeffmmtt for more information about time format strings.



        4455..6688..  TTiimmeeffmmtt


        This command applies to timeseries where data are composed of
        dates/times.  It has no meaning unless the command sseett xxddaattaa
        ttiimmee is given also.

        Syntax:
              set timefmt "<format string>"
              show timefmt











   GNUPLOT 4.1                                                      193


        The string argument tells ggnnuupplloott how to read timedata from the
        datafile.  The valid formats are:




     +---------------------------------------------------------------+
     |Format   Explanation                                           |
     +---------------------------------------------------------------+
     |  %d     day of the month, 1--31                               |
     |  %m     month of the year, 1--12                              |
     |  %y     year, 0--99                                           |
     |  %Y     year, 4-digit                                         |
     |  %j     day of the year, 1--365                               |
     |  %H     hour, 0--24                                           |
     |  %M     minute, 0--60                                         |
     |  %s     seconds since the Unix epoch (1970-01-01 00:00 UTC)   |
     |  %S     second, 0--60                                         |
     |  %b     three-character abbreviation of the name of the month |
     |  %B     name of the month                                     |
     +---------------------------------------------------------------+
     +---------------------------------------------------------------+


   Any character is allowed in the string, but must match exactly.  \t
   (tab) is recognized.  Backslash-octals (\nnn) are converted to char.
   If there is no separating character between the time/date elements,
   then %d, %m, %y, %H, %M and %S read two digits each, %Y reads four
   digits and %j reads three digits.  %b requires three characters, and
   %B requires as many as it needs.

   Spaces are treated slightly differently.  A space in the string
   stands for zero or more whitespace characters in the file.  That is,
   "%H %M" can be used to read "1220" and "12     20" as well as "12
   20".

   Each set of non-blank characters in the timedata counts as one col-
   umn in the uussiinngg nn::nn specification.  Thus 1111::1111  2255//1122//7766  2211..00 con-
   sists of three columns.  To avoid confusion, ggnnuupplloott requires that
   you provide a complete uussiinngg specification if your file contains
   timedata.

   Since ggnnuupplloott cannot read non-numerical text, if the date format
   includes the day or month in words, the format string must exclude
   this text.  But it can still be printed with the "%a", "%A", "%b",
   or "%B" specifier: see sseett ffoorrmmaatt for more details about these and
   other options for printing timedata.  (ggnnuupplloott will determine the
   proper month and weekday from the numerical values.)

   See also sseett xxddaattaa and TTiimmee//ddaattee for more information.

   Example:
         set timefmt "%d/%m/%Y\t%H:%M"










   GNUPLOT 4.1                                                      194


   tells ggnnuupplloott to read date and time separated by tab.  (But look
   closely at your data---what began as a tab may have been converted
   to spaces somewhere along the line; the format string must match
   what is actually in the file.)  See also time data demo.



        4455..6699..  TTiittllee


        The sseett ttiittllee command produces a plot title that is centered at
        the top of the plot.  sseett ttiittllee is a special case of sseett llaabbeell.

        Syntax:
              set title {"<title-text>"} {offset <offset>} {font
        "<font>{,<size>}"}
                        {{textcolor | tc} {<colorspec> | default}}
        {{no}enhanced}
              show title

        If <offset> is specified by either x,y or x,y,z the title is
        moved by the given offset.  It may be preceded by ffiirrsstt, sseecc--
        oonndd, ggrraapphh, ssccrreeeenn, or cchhaarraacctteerr to select the coordinate sys-
        tem.  See ccoooorrddiinnaatteess for details.  By default, the cchhaarraacctteerr
        coordinate system is used.  For example, "sseett ttiittllee ooffffsseett
        00,,--11" will change only the y offset of the title, moving the
        title down by roughly the height of one character.  The size of
        a character depends on both the font and the terminal.

        <font> is used to specify the font with which the title is to
        be written; the units of the font <size> depend upon which ter-
        minal is used.

        tteexxttccoolloorr <<ccoolloorrssppeecc>> changes the color of the text. <color-
        spec> can be a linetype, an rgb color, or a palette mapping.
        See help for ccoolloorrssppeecc and ppaalleettttee.

        nnooeennhhaanncceedd requests that the title not be processed by the
        enhanced text mode parser, even if enhanced text mode is cur-
        rently active.

        sseett ttiittllee with no parameters clears the title.

        See ssyynnttaaxx for details about the processing of backslash
        sequences and the distinction between single- and double-
        quotes.



        4455..7700..  TTmmaarrggiinn













   GNUPLOT 4.1                                                      195


        The command sseett ttmmaarrggiinn sets the size of the top margin.
        Please see sseett mmaarrggiinn for details.



        4455..7711..  TTrraannggee


        The sseett ttrraannggee command sets the parametric range used to com-
        pute x and y values when in parametric or polar modes.  Please
        see sseett xxrraannggee for details.



        4455..7722..  UUrraannggee


        The sseett uurraannggee and sseett vvrraannggee commands set the parametric
        ranges used to compute x, y, and z values when in sspplloott para-
        metric mode.  Please see sseett xxrraannggee for details.



        4455..7733..  VVaarriiaabblleess


        The sshhooww vvaarriiaabblleess command lists all user-defined variables and
        their values.

        Syntax:
              show variables {all}

        With the optional keyword "all", also the ggnnuupplloott--ddeeffiinneedd vvaarrii--
        aabblleess that begin with GGPPVVAALL__ are listed.




        4455..7744..  VVeerrssiioonn


        The sshhooww vveerrssiioonn command lists the version of gnuplot being
        run, its last modification date, the copyright holders, and
        email addresses for the FAQ, the gnuplot-info mailing list, and
        reporting bugs--in short, the information listed on the screen
        when the program is invoked interactively.

        Syntax:
              show version {long}

        When the lloonngg option is given, it also lists the operating sys-
        tem, the compilation options used when ggnnuupplloott was installed,
        the location of the help file, and (again) the useful email










   GNUPLOT 4.1                                                      196


        addresses.



        4455..7755..  VViieeww


        The sseett vviieeww command sets the viewing angle for ssppllootts.  It
        controls how the 3-d coordinates of the plot are mapped into
        the 2-d screen space.  It provides controls for both rotation
        and scaling of the plotted data, but supports orthographic pro-
        jections only.  It supports both 3D projection or orthogonal 2D
        projection into a 2D plot-like map.

        Syntax:
              set view { <rot_x>{,{<rot_z>}{,{<scale>}{,<scale_z>}}} |
        map }
              show view

        where <rot_x> and <rot_z> control the rotation angles (in
        degrees) in a virtual 3-d coordinate system aligned with the
        screen such that initially (that is, before the rotations are
        performed) the screen horizontal axis is x, screen vertical
        axis is y, and the axis perpendicular to the screen is z.  The
        first rotation applied is <rot_x> around the x axis.  The sec-
        ond rotation applied is <rot_z> around the new z axis.

        Command sseett vviieeww mmaapp is used to represent the drawing as a map.
        It can be used for ccoonnttoouurr plots, or for color ppmm33dd maps. In
        the latter, take care that you properly use zzrraannggee and ccbbrraannggee
        for input data point filtering and color range scaling, respec-
        tively.

        <rot_x> is bounded to the [0:180] range with a default of 60
        degrees, while <rot_z> is bounded to the [0:360] range with a
        default of 30 degrees.  <scale> controls the scaling of the
        entire sspplloott, while <scale_z> scales the z axis only.  Both
        scales default to 1.0.

        Examples:
              set view 60, 30, 1, 1
              set view ,,0.5

        The first sets all the four default values.  The second changes
        only scale, to 0.5.

        See also sseett ttiiccsslleevveell.
















   GNUPLOT 4.1                                                      197


        4455..7766..  VVrraannggee


        The sseett uurraannggee and sseett vvrraannggee commands set the parametric
        ranges used to compute x, y, and z values when in sspplloott para-
        metric mode.  Please see sseett xxrraannggee for details.



        4455..7777..  XX22ddaattaa


        The sseett xx22ddaattaa command sets data on the x2 (top) axis to time-
        series (dates/times).  Please see sseett xxddaattaa.



        4455..7788..  XX22ddttiiccss


        The sseett xx22ddttiiccss command changes tics on the x2 (top) axis to
        days of the week.  Please see sseett xxddttiiccss for details.



        4455..7799..  XX22llaabbeell


        The sseett xx22llaabbeell command sets the label for the x2 (top) axis.
        Please see sseett xxllaabbeell.



        4455..8800..  XX22mmttiiccss


        The sseett xx22mmttiiccss command changes tics on the x2 (top) axis to
        months of the year.  Please see sseett xxmmttiiccss for details.



        4455..8811..  XX22rraannggee


        The sseett xx22rraannggee command sets the horizontal range that will be
        displayed on the x2 (top) axis.  Please see sseett xxrraannggee for
        details.
















   GNUPLOT 4.1                                                      198


        4455..8822..  XX22ttiiccss


        The sseett xx22ttiiccss command controls major (labelled) tics on the x2
        (top) axis.  Please see sseett xxttiiccss for details.



        4455..8833..  XX22zzeerrooaaxxiiss


        The sseett xx22zzeerrooaaxxiiss command draws a line at the origin of the x2
        (top) axis (y2 = 0).  For details, please see sseett zzeerrooaaxxiiss.



        4455..8844..  XXddaattaa


        This command sets the datatype on the x axis to time/date.  A
        similar command does the same thing for each of the other axes.

        Syntax:
              set xdata {time}
              show xdata

        The same syntax applies to yyddaattaa, zzddaattaa, xx22ddaattaa, yy22ddaattaa and
        ccbbddaattaa.

        The ttiimmee option signals that the datatype is indeed time/date.
        If the option is not specified, the datatype reverts to normal.

        See sseett ttiimmeeffmmtt to tell gnuplot how to read date or time data.
        The time/date is converted to seconds from start of the cen-
        tury.  There is currently only one timefmt, which implies that
        all the time/date columns must conform to this format.  Speci-
        fication of ranges should be supplied as quoted strings accord-
        ing to this format to avoid interpretation of the time/date as
        an expression.

        The function 'strftime' (type "man strftime" on unix to look it
        up) is used to print tic-mark labels.  ggnnuupplloott tries to figure
        out a reasonable format for this  unless the sseett ffoorrmmaatt xx
        ""ssttrriinngg"" has supplied something that does not look like a deci-
        mal format (more than one '%' or neither %f nor %g).

        See also TTiimmee//ddaattee for more information.
















   GNUPLOT 4.1                                                      199


        4455..8855..  XXddttiiccss


        The sseett xxddttiiccss commands converts the x-axis tic marks to days
        of the week where 0=Sun and 6=Sat.  Overflows are converted
        modulo 7 to dates.  sseett nnooxxddttiiccss returns the labels to their
        default values.  Similar commands do the same things for the
        other axes.

        Syntax:
              set xdtics
              unset xdtics
              show xdtics

        The same syntax applies to yyddttiiccss, zzddttiiccss, xx22ddttiiccss, yy22ddttiiccss and
        ccbbddttiiccss.

        See also the sseett ffoorrmmaatt command.



        4455..8866..  XXllaabbeell


        The sseett xxllaabbeell command sets the x axis label.  Similar commands
        set labels on the other axes.

        Syntax:
              set xlabel {"<label>"} {offset <offset>} {font
        "<font>{,<size>}"}
                         {{textcolor | tc} {lt <line_type> | default}}
        {{no}enhanced}
                         {rotate by <degrees>}
              show xlabel

        The same syntax applies to xx22llaabbeell, yyllaabbeell, yy22llaabbeell, zzllaabbeell and
        ccbbllaabbeell.

        If <offset> is specified by either x,y or x,y,z the label is
        moved by the given offset.  It may be preceded by ffiirrsstt, sseecc--
        oonndd, ggrraapphh, ssccrreeeenn, or cchhaarraacctteerr to select the coordinate sys-
        tem.  See ccoooorrddiinnaatteess for details.  By default, the cchhaarraacctteerr
        coordinate system is used.  For example, "sseett xxllaabbeell ooffffsseett
        --11,,00" will change only the x offset of the title, moving the
        label roughly one character width to the left.  The size of a
        character depends on both the font and the terminal.

        <font> is used to specify the font in which the label is writ-
        ten; the units of the font <size> depend upon which terminal is
        used.

        tteexxttccoolloorr lltt <<nn>> sets the text color to that of line type <n>.











   GNUPLOT 4.1                                                      200


        nnooeennhhaanncceedd requests that the label text not be processed by the
        enhanced text mode parser, even if enhanced text mode is cur-
        rently active.

        To clear a label, put no options on the command line, e.g.,
        "sseett yy22llaabbeell".

        The default positions of the axis labels are as follows:

        xlabel:  The x-axis label is centered below the bottom axis.

        ylabel:  The position of the y-axis label depends on the termi-
        nal, and can be one of the following three positions:

        1. Horizontal text flushed left at the top left of the plot.
        Terminals that cannot rotate text will probably use this
        method.  If sseett xx22ttiiccss is also in use, the ylabel may overwrite
        the left-most x2tic label.  This may be remedied by adjusting
        the ylabel position or the left margin.

        2. Vertical text centered vertically at the left of the plot.
        Terminals that can rotate text will probably use this method.

        3. Horizontal text centered vertically at the left of the plot.
        The EEPIC, LaTeX and TPIC drivers use this method.  The EEPIC
        driver will produce a stack of characters so as not to over-
        write the plot. With other drivers (such as LaTeX and TPIC),
        the user probably has to insert line breaks using \\ to prevent
        the ylabel from overwriting the plot.

        zlabel: The z-axis label is centered along the z axis and
        placed in the space above the grid level.

        cblabel: The color box axis label is centered along the box and
        placed below or right according to horizontal or vertical color
        box gradient.

        y2label: The y2-axis label is placed to the right of the y2
        axis.  The position is terminal-dependent in the same manner as
        is the y-axis label.

        x2label: The x2-axis label is placed above the top axis but
        below the plot title.  It is also possible to create an x2-axis
        label by using new-line characters to make a multi-line plot
        title, e.g.,

              set title "This is the title\n\nThis is the x2label"

        Note that double quotes must be used.  The same font will be
        used for both lines, of course.

        The y and y2 axis labels can be explicitly rotated from their
        default orientation, but this applies only to 2D plots and only










   GNUPLOT 4.1                                                      201


        on terminals that support text rotation.

        If you are not satisfied with the default position of an axis
        label, use sseett llaabbeell instead--that command gives you much more
        control over where text is placed.

        Please see ssyynnttaaxx for further information about backslash pro-
        cessing and the difference between single- and double-quoted
        strings.



        4455..8877..  XXmmttiiccss


        The sseett xxmmttiiccss command converts the x-axis tic marks to months
        of the year where 1=Jan and 12=Dec.  Overflows are converted
        modulo 12 to months.  The tics are returned to their default
        labels by uunnsseett xxmmttiiccss.  Similar commands perform the same
        duties for the other axes.

        Syntax:
              set xmtics
              unset xmtics
              show xmtics

        The same syntax applies to xx22mmttiiccss, yymmttiiccss, yy22mmttiiccss, zzmmttiiccss and
        ccbbmmttiiccss.

        See also the sseett ffoorrmmaatt command.



        4455..8888..  XXrraannggee


        The sseett xxrraannggee command sets the horizontal range that will be
        displayed.  A similar command exists for each of the other
        axes, as well as for the polar radius r and the parametric
        variables t, u, and v.

        Syntax:
              set xrange { [{{<min>}:{<max>}}] {{no}reverse}
        {{no}writeback} }
                         | restore
              show xrange

        where <min> and <max> terms are constants, expressions or an
        asterisk to set autoscaling.  If the data are time/date, you
        must give the range as a quoted string according to the sseett
        ttiimmeeffmmtt format.  Any value omitted will not be changed.

        The same syntax applies to yyrraannggee, zzrraannggee, xx22rraannggee, yy22rraannggee,










   GNUPLOT 4.1                                                      202


        ccbbrraannggee, rrrraannggee, ttrraannggee, uurraannggee and vvrraannggee.

        The rreevveerrssee option reverses the direction of the axis, e.g.,
        sseett xxrraannggee [[00::11]] rreevveerrssee will produce an axis with 1 on the
        left and 0 on the right.  This is identical to the axis pro-
        duced by sseett xxrraannggee [[11::00]], of course.  rreevveerrssee is intended pri-
        marily for use with aauuttoossccaallee.

        The wwrriitteebbaacckk option essentially saves the range found by
        aauuttoossccaallee in the buffers that would be filled by sseett xxrraannggee.
        This is useful if you wish to plot several functions together
        but have the range determined by only some of them.  The wwrriittee--
        bbaacckk operation is performed during the pplloott execution, so it
        must be specified before that command.  To restore, the last
        saved horizontal range use sseett xxrraannggee rreessttoorree.  For example,

              set xrange [-10:10]
              set yrange [] writeback
              plot sin(x)
              set yrange restore
              replot x/2

        results in a yrange of [-1:1] as found only from the range of
        sin(x); the [-5:5] range of x/2 is ignored.  Executing sshhooww
        yyrraannggee after each command in the above example should help you
        understand what is going on.

        In 2-d, xxrraannggee and yyrraannggee determine the extent of the axes,
        ttrraannggee determines the range of the parametric variable in para-
        metric mode or the range of the angle in polar mode.  Similarly
        in parametric 3-d, xxrraannggee, yyrraannggee, and zzrraannggee govern the axes
        and uurraannggee and vvrraannggee govern the parametric variables.

        In polar mode, rrrraannggee determines the radial range plotted.
        <rmin> acts as an additive constant to the radius, whereas
        <rmax> acts as a clip to the radius---no point with radius
        greater than <rmax> will be plotted.  xxrraannggee and yyrraannggee are
        affected---the ranges can be set as if the graph was of
        r(t)-rmin, with rmin added to all the labels.

        Any range may be partially or totally autoscaled, although it
        may not make sense to autoscale a parametric variable unless it
        is plotted with data.

        Ranges may also be specified on the pplloott command line.  A range
        given on the plot line will be used for that single pplloott com-
        mand; a range given by a sseett command will be used for all sub-
        sequent plots that do not specify their own ranges.  The same
        holds true for sspplloott.

        Examples:

        To set the xrange to the default:










   GNUPLOT 4.1                                                      203


              set xrange [-10:10]

        To set the yrange to increase downwards:
              set yrange [10:-10]

        To change zmax to 10 without affecting zmin (which may still be
        autoscaled):
              set zrange [:10]

        To autoscale xmin while leaving xmax unchanged:
              set xrange [*:]



        4455..8899..  XXttiiccss


        Fine control of the major (labelled) tics on the x axis is pos-
        sible with the sseett xxttiiccss command.  The tics may be turned off
        with the uunnsseett xxttiiccss command, and may be turned on (the default
        state) with sseett xxttiiccss.  Similar commands control the major tics
        on the y, z, x2 and y2 axes.

        Syntax:
              set xtics {axis | border} {{no}mirror}
                        {in | out} {scale {default | <major>
        {,<minor>}}}
                        {{no}rotate {by <ang>}} {offset <offset> |
        nooffset}
                        {add}
                        {  autofreq
                         | <incr>
                         | <start>, <incr> {,<end>}
                         | ({"<label>"} <pos> {<level>}
        {,{"<label>"}...) }
                        { formt "formatstring" } { font "name{,<size>}"
        }
                        { textcolor <colorspec> }
              unset xtics
              show xtics

        The same syntax applies to yyttiiccss, zzttiiccss, xx22ttiiccss, yy22ttiiccss and
        ccbbttiiccss.

        aaxxiiss or bboorrddeerr tells ggnnuupplloott to put the tics (both the tics
        themselves and the accompanying labels) along the axis or the
        border, respectively.  If the axis is very close to the border,
        the aaxxiiss option will move the tic labels to outside the border.
        The relevant margin settings will usually be sized badly by the
        automatic layout algorithm in this case.

        mmiirrrroorr tells ggnnuupplloott to put unlabelled tics at the same posi-
        tions on the opposite border.  nnoommiirrrroorr does what you think it










   GNUPLOT 4.1                                                      204


        does.

        iinn and oouutt change the tic marks to be drawn inwards or out-
        wards.

        With ssccaallee, the size of the tic marks can be adjusted. If
        <minor> is not specified, it is 0.5*<major>.  The default size
        1.0 for major tics and 0.5 for minor tics is requested by ssccaallee
        ddeeffaauulltt.

        rroottaattee asks ggnnuupplloott to rotate the text through 90 degrees,
        which will be done if the terminal driver in use supports text
        rotation.  nnoorroottaattee cancels this. rroottaattee bbyy <<aanngg>> asks for
        rotation by <ang> degrees, supported by some terminal types.

        The defaults are bboorrddeerr mmiirrrroorr nnoorroottaattee for tics on the x and y
        axes, and bboorrddeerr nnoommiirrrroorr nnoorroottaattee for tics on the x2 and y2
        axes.  For the z axis, the {{aaxxiiss || bboorrddeerr}} option is not avail-
        able and the default is nnoommiirrrroorr.  If you do want to mirror the
        z-axis tics, you might want to create a bit more room for them
        with sseett bboorrddeerr.

        The <offset> is specified by either x,y or x,y,z, and may be
        preceded by ffiirrsstt, sseeccoonndd, ggrraapphh, ssccrreeeenn, or cchhaarraacctteerr to
        select the coordinate system. <offset> is the offset of the
        tics texts from their default positions, while the default
        coordinate system is cchhaarraacctteerr.  See ccoooorrddiinnaatteess for details.
        nnooooffffsseett switches off the offset.

        Example:

        Move xtics more closely to the plot.
              set xtics offset 0,graph 0.05

        sseett xxttiiccss with no options restores the default border or axis
        if xtics are being displayed;  otherwise it has no effect.  Any
        previously specified tic frequency or position {and labels} are
        retained.

        Positions of the tics are calculated automatically by default
        or if the aauuttooffrreeqq option is given; otherwise they may be spec-
        ified in either of two forms:

        The implicit <start>, <incr>, <end> form specifies that a
        series of tics will be plotted on the axis between the values
        <start> and <end> with an increment of <incr>.  If <end> is not
        given, it is assumed to be infinity.  The increment may be neg-
        ative.  If neither <start> nor <end> is given, <start> is
        assumed to be negative infinity, <end> is assumed to be posi-
        tive infinity, and the tics will be drawn at integral multiples
        of <incr>.  If the axis is logarithmic, the increment will be
        used as a multiplicative factor.











   GNUPLOT 4.1                                                      205


        If you specify to a negative <start> or <incr> after a numeri-
        cal value (e.g., rroottaattee bbyy <<aannggllee>> or ooffffsseett <<ooffffsseett>>), the
        parser fails because it subtracts <start> or <incr> from that
        value.  As a workaround, specify 00--<<ssttaarrtt>> resp. 00--<<iinnccrr>> in
        that case.

        Example:
              set xtics border offset 0,0.5 -5,1,5
        Fails with 'invalid expression' at the last comma.
              set xtics border offset 0,0.5 0-5,1,5
        or
              set xtics offset 0,0.5 border -5,1,5
        Sets tics at the border, tics text with an offset of 0,0.5
        characters, and sets the start, increment, and end to -5, 1,
        and 5, as requested.

        The sseett ggrriidd options 'front', 'back' and 'layerdefault' affect
        the drawing order of the xtics, too.

        Examples:

        Make tics at 0, 0.5, 1, 1.5, ..., 9.5, 10.
              set xtics 0,.5,10

        Make tics at ..., -10, -5, 0, 5, 10, ...
              set xtics 5

        Make tics at 1, 100, 1e4, 1e6, 1e8.
              set logscale x; set xtics 1,100,1e8

        The explicit ("<label>" <pos> <level>, ...) form allows arbi-
        trary tic positions or non-numeric tic labels.  In this form,
        the tics do not need to be listed in numerical order.  Each tic
        has a position, optionally with a label.  Note that the label
        is a string enclosed by quotes.  It may be a constant string,
        such as "hello", may contain formatting information for con-
        verting the position into its label, such as "%3f clients", or
        may be empty, "".  See sseett ffoorrmmaatt for more information.  If no
        string is given, the default label (numerical) is used.

        An explicit tic mark has a third parameter, the "level".  The
        default is level 0, a major tic.  A level of 1 generates a
        minor tic.  If the level is specified, then the label must also
        be supplied.

        Examples:
              set xtics ("low" 0, "medium" 50, "high" 100)
              set xtics (1,2,4,8,16,32,64,128,256,512,1024)
              set ytics ("bottom" 0, "" 10, "top" 20)
              set ytics ("bottom" 0, "" 10 1, "top" 20)

        In the second example, all tics are labelled.  In the third,
        only the end tics are labelled.  In the fourth, the unlabeled










   GNUPLOT 4.1                                                      206


        tic is a minor tic.

        Normally if explicit tics are given, they are used instead of
        auto-generated tics. Conversely if you specify sseett xxttiiccss aauuttoo
        or the like it will erase any previously specified explicit
        tics. You can mix explicit and auto- generated tics by using
        the keyword aadddd, which must appear before the tic style being
        added.

        Example:
              set xtics 0,.5,10
              set xtics add ("Pi" 3.14159)

        This will automatically generate tic marks every 0.5 along x,
        but will also add an explicit labeled tic mark at pi.

        However they are specified, tics will only be plotted when in
        range.

        Format (or omission) of the tic labels is controlled by sseett
        ffoorrmmaatt, unless the explicit text of a label is included in the
        sseett xxttiiccss ((""<<llaabbeell>>"")) form.

        Minor (unlabelled) tics can be added automatically by the sseett
        mmxxttiiccss command, or at explicit positions by the sseett xxttiiccss ((""""
        <<ppooss>> 11,, ......)) form.

        In case of timeseries data, position values must be given as
        quoted dates or times according to the format ttiimmeeffmmtt.  If the
        <start>, <incr>, <end> form is used, <start> and <end> must be
        given according to ttiimmeeffmmtt, but <incr> must be in seconds.
        Times will be written out according to the format given on sseett
        ffoorrmmaatt, however.

        Examples:
              set xdata time
              set timefmt "%d/%m"
              set xtics format "%b %d"
              set xrange ["01/12":"06/12"]
              set xtics "01/12", 172800, "05/12"

              set xdata time
              set timefmt "%d/%m"
              set xtics format "%b %d"
              set xrange ["01/12":"06/12"]
              set xtics ("01/12", "" "03/12", "05/12")
        Both of these will produce tics "Dec 1", "Dec 3", and "Dec 5",
        but in the second example the tic at "Dec 3" will be unla-
        belled.














   GNUPLOT 4.1                                                      207


        4455..9900..  XXyyppllaannee


        The sseett xxyyppllaannee command adjusts the position at which the xy
        plane is drawn in a 3D plot.  The synonym "set ticslevel" is
        accepted for backwards compatibility.

        Syntax:
              set ticslevel <frac>
              set xyplane <frac>
              set xyplane at <zvalue>
              show xyplane

        The form sseett ttiiccsslleevveell <<ffrraacc>> places the xy plane below the
        range in Z, where the distance from the xy plane to Zmin is
        given as a fraction of the total range in z.  The default value
        is 0.5.  Negative values are permitted, but tic labels on the
        three axes may overlap.

        To place the xy-plane at a position 'pos' on the z-axis, ttiicc--
        sslleevveell may be set equal to  (pos - zmin) / (zmin - zmax).  How-
        ever, this position will change if the z range is changed.

        The alternative form sseett xxyyppllaannee aatt <<zzvvaalluuee>> fixes the place-
        ment of the xy plane at a specific Z value regardless of the
        current z range. Thus to force the x, y, and z axes to meet at
        a common origin one would specify sseett xxyyppllaannee aatt 00.

        See also sseett vviieeww, and sseett zzeerrooaaxxiiss.



        4455..9911..  XXzzeerrooaaxxiiss


        The sseett xxzzeerrooaaxxiiss command draws a line at y = 0.  For details,
        please see sseett zzeerrooaaxxiiss.



        4455..9922..  YY22ddaattaa


        The sseett yy22ddaattaa command sets y2 (right-hand) axis data to time-
        series (dates/times).  Please see sseett xxddaattaa.



        4455..9933..  YY22ddttiiccss


        The sseett yy22ddttiiccss command changes tics on the y2 (right-hand)
        axis to days of the week.  Please see sseett xxddttiiccss for details.










   GNUPLOT 4.1                                                      208


        4455..9944..  YY22llaabbeell


        The sseett yy22llaabbeell command sets the label for the y2 (right-hand)
        axis.  Please see sseett xxllaabbeell.



        4455..9955..  YY22mmttiiccss


        The sseett yy22mmttiiccss command changes tics on the y2 (right-hand)
        axis to months of the year.  Please see sseett xxmmttiiccss for details.



        4455..9966..  YY22rraannggee


        The sseett yy22rraannggee command sets the vertical range that will be
        displayed on the y2 (right-hand) axis.  Please see sseett xxrraannggee
        for details.



        4455..9977..  YY22ttiiccss


        The sseett yy22ttiiccss command controls major (labelled) tics on the y2
        (right-hand) axis.  Please see sseett xxttiiccss for details.



        4455..9988..  YY22zzeerrooaaxxiiss


        The sseett yy22zzeerrooaaxxiiss command draws a line at the origin of the y2
        (right-hand) axis (x2 = 0).  For details, please see sseett
        zzeerrooaaxxiiss.



        4455..9999..  YYddaattaa


        The sseett yyddaattaa commands sets y-axis data to timeseries
        (dates/times).  Please see sseett xxddaattaa.
















   GNUPLOT 4.1                                                      209


        4455..110000..  YYddttiiccss


        The sseett yyddttiiccss command changes tics on the y axis to days of
        the week.  Please see sseett xxddttiiccss for details.



        4455..110011..  YYllaabbeell


        This command sets the label for the y axis.  Please see sseett
        xxllaabbeell.



        4455..110022..  YYmmttiiccss


        The sseett yymmttiiccss command changes tics on the y axis to months of
        the year.  Please see sseett xxmmttiiccss for details.



        4455..110033..  YYrraannggee


        The sseett yyrraannggee command sets the vertical range that will be
        displayed on the y axis.  Please see sseett xxrraannggee for details.



        4455..110044..  YYttiiccss


        The sseett yyttiiccss command controls major (labelled) tics on the y
        axis.  Please see sseett xxttiiccss for details.



        4455..110055..  YYzzeerrooaaxxiiss


        The sseett yyzzeerrooaaxxiiss command draws a line at x = 0.  For details,
        please see sseett zzeerrooaaxxiiss.



        4455..110066..  ZZddaattaa


        The sseett zzddaattaa command sets zaxis data to timeseries
        (dates/times).  Please see sseett xxddaattaa.










   GNUPLOT 4.1                                                      210


        4455..110077..  ZZddttiiccss


        The sseett zzddttiiccss command changes tics on the z axis to days of
        the week.  Please see sseett xxddttiiccss for details.



        4455..110088..  ZZzzeerrooaaxxiiss


        The sseett zzzzeerrooaaxxiiss command draws a line through (x=0,y=0).  This
        has no effect on 2D plots, including splot with sseett vviieeww mmaapp.
        For details, please see sseett zzeerrooaaxxiiss and sseett xxyyppllaannee.



        4455..110099..  CCbbddaattaa


        Set color box axis data to timeseries (dates/times).  Please
        see sseett xxddaattaa.



        4455..111100..  CCbbddttiiccss


        The sseett ccbbddttiiccss command changes tics on the color box axis to
        days of the week. Please see sseett xxddttiiccss for details.



        4455..111111..  ZZeerroo


        The zzeerroo value is the default threshold for values approaching
        0.0.

        Syntax:
              set zero <expression>
              show zero

        ggnnuupplloott will not plot a point if its imaginary part is greater
        in magnitude than the zzeerroo threshold.  This threshold is also
        used in various other parts of ggnnuupplloott as a (crude) numerical-
        error threshold.  The default zzeerroo value is 1e-8.  zzeerroo values
        larger than 1e-3 (the reciprocal of the number of pixels in a
        typical bitmap display) should probably be avoided, but it is
        not unreasonable to set zzeerroo to 0.0.













   GNUPLOT 4.1                                                      211


        4455..111122..  ZZeerrooaaxxiiss


        The x axis may be drawn by sseett xxzzeerrooaaxxiiss and removed by uunnsseett
        xxzzeerrooaaxxiiss.  Similar commands behave similarly for the y, x2,
        y2, and z axes.

        Syntax:
              set {x|x2|y|y2|z}zeroaxis { {linestyle | ls <line_style>}
                                         | { linetype | lt <line_type>}
                                           { linewidth | lw
        <line_width>}}
              unset {x|x2|y|y2|z}zeroaxis
              show {x|y|z}zeroaxis


        By default, these options are off.  The selected zero axis is
        drawn with a line of type <line_type> and width <line_width>
        (if supported by the terminal driver currently in use), or a
        user-defined style <line_style>.

        If no linetype is specified, any zero axes selected will be
        drawn using the axis linetype (linetype 0).

        sseett zzeerrooaaxxiiss is equivalent to sseett xxzzeerrooaaxxiiss;; sseett yyzzeerrooaaxxiiss.
        Note that the z-axis must be set separately using sseett zzzzee--
        rrooaaxxiiss.

        Examples:

        To simply have the y=0 axis drawn visibly:

               set xzeroaxis

        If you want a thick line in a different color or pattern,
        instead:

               set xzeroaxis linetype 3 linewidth 2.5



        4455..111133..  ZZllaabbeell


        This command sets the label for the z axis.  Please see sseett
        xxllaabbeell.



        4455..111144..  ZZmmttiiccss













   GNUPLOT 4.1                                                      212


        The sseett zzmmttiiccss command changes tics on the z axis to months of
        the year.  Please see sseett xxmmttiiccss for details.



        4455..111155..  ZZrraannggee


        The sseett zzrraannggee command sets the range that will be displayed on
        the z axis.  The zrange is used only by sspplloott and is ignored by
        pplloott.  Please see sseett xxrraannggee for details.



        4455..111166..  ZZttiiccss


        The sseett zzttiiccss command controls major (labelled) tics on the z
        axis.  Please see sseett xxttiiccss for details.



        4455..111177..  CCbbllaabbeell


        This command sets the label for the color box axis.  Please see
        sseett xxllaabbeell.



        4455..111188..  CCbbmmttiiccss


        The sseett ccbbmmttiiccss command changes tics on the color box axis to
        months of the year. Please see sseett xxmmttiiccss for details.



        4455..111199..  CCbbrraannggee


        The sseett ccbbrraannggee command sets the range of values which are col-
        ored using the current ppaalleettttee by styles wwiitthh ppmm33dd, wwiitthh iimmaaggee
        and wwiitthh ppaalleettttee.  Values outside of the color range use color
        of the nearest extreme.

        If the cb-axis is autoscaled in sspplloott, then the colorbox range
        is taken from zzrraannggee.  Points drawn in sspplloott ...... ppmm33dd||ppaalleettttee
        can be filtered by using different zzrraannggee and ccbbrraannggee.

        Please see sseett xxrraannggee for details on sseett ccbbrraannggee syntax. See
        also sseett ppaalleettttee and sseett ccoolloorrbbooxx.











   GNUPLOT 4.1                                                      213


        4455..112200..  CCbbttiiccss


        The sseett ccbbttiiccss command controls major (labelled) tics on the
        color box axis.  Please see sseett xxttiiccss for details.



   4466..  SShheellll


   The sshheellll command spawns an interactive shell.  To return to ggnnuu--
   pplloott, type llooggoouutt if using VMS, eexxiitt or the END-OF-FILE character if
   using Unix, eennddccllii if using AmigaOS, or eexxiitt if using MS-DOS or
   OS/2.

   There are two ways of spawning a shell command: using ssyysstteemm command
   or via !! ($ if using VMS). The former command takes a string as a
   parameter and thus it can be used anywhere among other gnuplot com-
   mands, while the latter syntax requires to be the only command on
   the line. Control will return immediately to ggnnuupplloott after this com-
   mand is executed.  For example, in AmigaOS, MS-DOS or OS/2,

         ! dir
   or
         system "dir"


   prints a directory listing and then returns to ggnnuupplloott.


   Other examples of the former syntax:
          system "date"; set time; plot "a.dat"
          print=1; if (print) replot; set out; system "lpr x.ps"

   On an Atari, the !! command first checks whether a shell is already
   loaded and uses it, if available.  This is practical if ggnnuupplloott is
   run from gguullaamm, for example.



   4477..  SSpplloott


   sspplloott is the command for drawing 3-d plots (well, actually projec-
   tions on a 2-d surface, but you knew that).  It can create a plot
   from functions or a data file in a manner very similar to the pplloott
   command.

   See pplloott for features common to the pplloott command; only differences
   are discussed in detail here.  Note specifically pplloott's aaxxeess option
   is not available for sspplloott.











   GNUPLOT 4.1                                                      214


   Syntax:
         splot {<ranges>}
               <function> | "<datafile>" {datafile-modifiers}}
               {<title-spec>} {with <style>}
               {, {definitions,} <function> ...}

   where either a <function> or the name of a data file enclosed in
   quotes is supplied.  The function can be a mathematical expression,
   or a triple of mathematical expressions in parametric mode.

   By default sspplloott draws the xy plane completely below the plotted
   data.  The offset between the lowest ztic and the xy plane can be
   changed by sseett ttiiccsslleevveell.  The orientation of a sspplloott projection is
   controlled by sseett vviieeww.  See sseett vviieeww and sseett ttiiccsslleevveell for more
   information.

   The syntax for setting ranges on the sspplloott command is the same as
   for pplloott.  In non-parametric mode, the order in which ranges must be
   given is xxrraannggee, yyrraannggee, and zzrraannggee.  In parametric mode, the order
   is uurraannggee, vvrraannggee, xxrraannggee, yyrraannggee, and zzrraannggee.

   The ttiittllee option is the same as in pplloott.  The operation of wwiitthh is
   also the same as in pplloott, except that the plotting styles available
   to sspplloott are limited to lliinneess, ppooiinnttss, lliinneessppooiinnttss, ddoottss, and
   iimmppuullsseess;  the error-bar capabilities of pplloott are not available for
   sspplloott.

   The ddaattaaffiillee options have more differences.

   See also sshhooww pplloott.




        4477..11..  DDaattaa--ffiillee


        As for pplloott, discrete data contained in a file can be displayed
        by specifying the name of the data file, enclosed in quotes,
        on the sspplloott command line.

        Syntax:
              splot '<file_name>' {binary <binary list>}
                                  {matrix}
                                  {index <index list>}
                                  {every <every list>}
                                  {using <using list>}

        The special filenames """" and ""--"" are permitted, as in pplloott.

        In brief, bbiinnaarryy and mmaattrriixx indicate that the data are in a
        special form, iinnddeexx selects which data sets in a multi-data-set
        file are to be plotted, eevveerryy specifies which datalines










   GNUPLOT 4.1                                                      215


        (subsets) within a single data set are to be plotted, and uussiinngg
        determines how the columns within a single record are to be
        interpreted.

        The options iinnddeexx and eevveerryy behave the same way as with pplloott;
        uussiinngg does so also, except that the uussiinngg list must provide
        three entries instead of two.

        The pplloott options tthhrruu and ssmmooootthh are not available for sspplloott,
        but ccnnttrrppaarraamm and ddggrriidd33dd provide limited smoothing capabili-
        ties.

        Data file organization is essentially the same as for pplloott,
        except that each point is an (x,y,z) triple.  If only a single
        value is provided, it will be used for z, the datablock number
        will be used for y, and the index of the data point in the dat-
        ablock will be used for x.  If two or four values are provided,
        ggnnuupplloott uses the last value for calculating the color in pm3d
        plots.  Three values are interpreted as an (x,y,z) triple.
        Additional values are generally used as errors, which can be
        used by ffiitt.

        Single blank records separate datablocks in a sspplloott datafile;
        sspplloott treats datablocks as the equivalent of function y-iso-
        lines.  No line will join points separated by a blank record.
        If all datablocks contain the same number of points, ggnnuupplloott
        will draw cross-isolines between datablocks, connecting corre-
        sponding points.  This is termed "grid data", and is required
        for drawing a surface, for contouring (sseett ccoonnttoouurr) and hidden-
        line removal (sseett hhiiddddeenn33dd). See also sspplloott ggrriidd__ddaattaa.

        It is no longer necessary to specify ppaarraammeettrriicc mode for three-
        column ssppllootts.




             4477..11..11..  BBiinnaarryy mmaattrriixx


             Gnuplot can read matrix binary files by use of the option
             bbiinnaarryy appearing without keyword qualifications unique to
             general binary, i.e., aarrrraayy, rreeccoorrdd, ffoorrmmaatt, or ffiilleettyyppee.
             Other general binary keywords for translation should also
             apply to matrix binary.  (See bbiinnaarryy ggeenneerraall for more
             details.)

             In previous versions, ggnnuupplloott dynamically detected binary
             data files.  It is now necessary to specify the keyword
             bbiinnaarryy directly after the filename.

             Single precision floats are stored in a binary file as
             follows:










   GNUPLOT 4.1                                                      216


                   <N+1>  <y0>   <y1>   <y2>  ...  <yN>
                    <x0> <z0,0> <z0,1> <z0,2> ... <z0,N>
                    <x1> <z1,0> <z1,1> <z1,2> ... <z1,N>
                     :      :      :      :   ...    :

             which are converted into triplets:
                   <x0> <y0> <z0,0>
                   <x0> <y1> <z0,1>
                   <x0> <y2> <z0,2>
                    :    :     :
                   <x0> <yN> <z0,N>

                   <x1> <y0> <z1,0>
                   <x1> <y1> <z1,1>
                    :    :     :

             These triplets are then converted into ggnnuupplloott iso-curves
             and then ggnnuupplloott proceeds in the usual manner to do the
             rest of the plotting.

             A collection of matrix and vector manipulation routines
             (in C) is provided in bbiinnaarryy..cc.  The routine to write
             binary data is

                   int
             fwrite_matrix(file,m,nrl,nrl,ncl,nch,row_title,col-
             umn_title)

             An example of using these routines is provided in the file
             bbff__tteesstt..cc, which generates binary files for the demo file
             ddeemmoo//bbiinnaarryy..ddeemm.

             The iinnddeexx keyword is not supported, since the file format
             allows only one surface per file.  The eevveerryy and uussiinngg
             filters are supported.  uussiinngg operates as if the data were
             read in the above triplet form.

             See also bbiinnaarryy ggeenneerraall and

             Binary File Splot Demo.



             4477..11..22..  EExxaammppllee ddaattaaffiillee


             A simple example of plotting a 3-d data file is

                   splot 'datafile.dat'

             where the file "datafile.dat" might contain:

                   # The valley of the Gnu.










   GNUPLOT 4.1                                                      217


                      0 0 10
                      0 1 10
                      0 2 10

                      1 0 10
                      1 1 5
                      1 2 10

                      2 0 10
                      2 1 1
                      2 2 10

                      3 0 10
                      3 1 0
                      3 2 10

             Note that "datafile.dat" defines a 4 by 3 grid ( 4 rows of
             3 points each ).  Rows (datablocks) are separated by blank
             records.

             Note also that the x value is held constant within each
             dataline.  If you instead keep y constant, and plot with
             hidden-line removal enabled, you will find that the sur-
             face is drawn 'inside-out'.

             Actually for grid data it is not necessary to keep the x
             values constant within a datablock, nor is it necessary to
             keep the same sequence of y values.  ggnnuupplloott requires only
             that the number of points be the same for each datablock.
             However since the surface mesh, from which contours are
             derived, connects sequentially corresponding points, the
             effect of an irregular grid on a surface plot is unpre-
             dictable and should be examined on a case-by-case basis.



             4477..11..33..  MMaattrriixx__aasscciiii


             The mmaattrriixx keyword (without a sequent bbiinnaarryy keyword) in
                 {s}plot 'a.dat' matrix
             indicates that data are stored in an ascii numbers matrix
             format.

             The z-values are read in a row at a time, i. e.,
                 z11 z12 z13 z14 ...
                 z21 z22 z23 z24 ...
                 z31 z32 z33 z34 ...
             and so forth.

             In 3D, the x- and y-indices of the matrix surface plot
             correspond to column and row indices of the matrix,
             respectively, being enumerated from 0. You can rescale or










   GNUPLOT 4.1                                                      218


             transform the axes as usual for a data file with three
             columns by means of x=$1, y=$2, z=$3. For example
                 splot 'a.dat' matrix using (1+$1/100):(1+$2*10):3

             A blank line or comment line ends the matrix, and starts a
             new surface mesh.  You can select among the meshes inside
             a file by the iinnddeexx option to the sspplloott command, as usual.

             See mmaattrriixx for examples of plotting rows and columns of
             the matrix in a 2D plot.



             4477..11..44..  MMaattrriixx


             Datafile can be in an ascii or binary matrix format. The
             mmaattrriixx flag indicates that the file is ascii, the bbiinnaarryy
             or mmaattrriixx bbiinnaarryy stands for a binary format. For details,
             see mmaattrriixx aasscciiii and mmaattrriixx bbiinnaarryy.

             Basic usage in sspplloott:
                 splot 'a.dat' matrix
                 splot 'a.gpbin' {matrix} binary
             Advanced usage in sspplloott:
                 splot 'a.dat' matrix using 1:2:3
                 splot 'a.gpbin' {matrix} binary using 1:2:3
             allows to transform the axes coordinates and the z-data
             independently.

             Usage in pplloott:
                 plot `a.dat` matrix
                 plot `a.dat` matrix using 1:3
                 plot 'a.gpbin' {matrix} binary using 1:3
             will plot rows of the matrix, while using 2:3 will plot
             matrix columns, and using 1:2 the point coordinates
             (rather useless). Applying the eevveerryy option you can spec-
             ify explicit rows and columns.

             Example -- rescale axes of a matrix in an ascii file:
                 splot `a.dat` matrix using (1+$1):(1+$2*10):3

             Example -- plot the 3rd row of a matrix in an ascii file:
                 plot 'a.dat' matrix using 1:3 every 1:999:1:2
             (rows are enumerated from 0, thus 2 instead of 3).



        4477..22..  GGrriidd ddaattaa


        The 3D routines are designed for points in a grid format, with
        one sample, datapoint, at each mesh intersection; the










   GNUPLOT 4.1                                                      219


        datapoints may originate from either evaluating a function, see
        sseett iissoossaammpplleess, or reading a datafile, see sspplloott ddaattaaffiillee.  The
        term "isoline" is applied to the mesh lines for both functions
        and data.  Note that the mesh need not be rectangular in x and
        y, as it may be parameterized in u and v, see sseett iissoossaammpplleess.

        However, ggnnuupplloott does not require that format.  In the case of
        functions, 'samples' need not be equal to 'isosamples', i.e.,
        not every x-isoline sample need intersect a y-isoline. In the
        case of data files, if there are an equal number of scattered
        data points in each datablock, then "isolines" will connect the
        points in a datablock, and "cross-isolines" will connect the
        corresponding points in each datablock to generate a "surface".
        In either case, contour and hidden3d modes may give different
        plots than if the points were in the intended format.  Scat-
        tered data can be converted to a {different} grid format with
        sseett ddggrriidd33dd.

        The contour code tests for z intensity along a line between a
        point on a y-isoline and the corresponding point in the next y-
        isoline.  Thus a sspplloott contour of a surface with samples on the
        x-isolines that do not coincide with a y-isoline intersection
        will ignore such samples. Try:
               set xrange [-pi/2:pi/2]; set yrange [-pi/2:pi/2]
               set style function lp
               set contour
               set isosamples 10,10; set samples 10,10;
               splot cos(x)*cos(y)
               set samples 4,10; replot
               set samples 10,4; replot




        4477..33..  SSpplloott oovveerrvviieeww


        sspplloott can display a surface as a collection of points, or by
        connecting those points.  As with pplloott, the points may be read
        from a data file or result from evaluation of a function at
        specified intervals, see sseett iissoossaammpplleess.  The surface may be
        approximated by connecting the points with straight line seg-
        ments, see sseett ssuurrffaaccee, in which case the surface can be made
        opaque with sseett hhiiddddeenn33dd..  The orientation from which the 3d
        surface is viewed can be changed with sseett vviieeww.

        Additionally, for points in a grid format, sspplloott can interpo-
        late points having a common amplitude (see sseett ccoonnttoouurr) and can
        then connect those new points to display contour lines, either
        directly with straight-line segments or smoothed lines (see sseett
        ccnnttrrppaarraamm).  Functions are already evaluated in a grid format,
        determined by sseett iissoossaammpplleess and sseett ssaammpplleess, while file data
        must either be in a grid format, as described in ddaattaa--ffiillee, or










   GNUPLOT 4.1                                                      220


        be used to generate a grid (see sseett ddggrriidd33dd).

        Contour lines may be displayed either on the surface or pro-
        jected onto the base.  The base projections of the contour
        lines may be written to a file, and then read with pplloott, to
        take advantage of pplloott's additional formatting capabilities.



   4488..  SSyysstteemm


   ssyysstteemm spawns shell to execute a command. Please type hheellpp sshheellll for
   more details.



   4499..  TTeesstt


   This command graphically tests or presents terminal and palette
   capabilities.

   Syntax:
         test {terminal | palette [rgb|rbg|grb|gbr|brg|bgr]}

   tteesstt or tteesstt tteerrmmiinnaall creates a display of line and point styles and
   other useful things appropriate for and supported by the tteerrmmiinnaall
   you are just using.

   tteesstt ppaalleettttee draws graphically profiles R(z),G(z),B(z), where
   0<=z<=1, as calculated by the current color ppaalleettttee. In other words,
   it is a beautiful plot you would have to do yourself with the result
   of sshhooww ppaalleettttee ppaalleettttee 225566 ffllooaatt.  The optional parameter, a permu-
   tation of letters rgb, determines the sequence of r,g,b profiles
   drawn one after the other --- try this yourself for sseett ppaalleettttee
   ggrraayy. The default sequence is rgb.



   5500..  UUnnsseett


   Options set using the sseett command may be returned to their default
   state by issuing the corresponding uunnsseett command.

   Example:
         set xtics mirror rotate by -45 0,10,100
         ...
         unset xtics













   GNUPLOT 4.1                                                      221


   5511..  UUppddaattee


   This command writes the current values of the fit parameters into
   the given file, formatted as an initial-value file (as described in
   the ffiittsection).  This is useful for saving the current values for
   later use or for restarting a converged or stopped fit.

   Syntax:
         update <filename> {<filename>}

   If a second filename is supplied, the updated values are written to
   this file, and the original parameter file is left unmodified.

   Otherwise, if the file already exists, ggnnuupplloott first renames it by
   appending ..oolldd and then opens a new file.  That is, "uuppddaattee ''ffrreedd''"
   behaves the same as "!!rreennaammee ffrreedd ffrreedd..oolldd;; uuppddaattee ''ffrreedd..oolldd''
   ''ffrreedd''".  [On DOS and other systems that use the twelve-character
   "filename.ext" naming convention, "ext" will be "oolldd" and "filename"
   will be related (hopefully recognizably) to the initial name.
   Renaming is not done at all on VMS systems, since they use file-ver-
   sioning.]

   Please see ffiitt for more information.




   5522..  TTeerrmmiinnaall ttyyppeess





   5533..  TTeerrmmiinnaall


   Gnuplot supports a large number of output formats. These are
   selected by choosing an appropriate terminal type, possibly with
   additional modifying options. See sseett tteerrmmiinnaall.

   This document may describe terminal types that are not available to
   you because they were not configured or installed on your system. To
   see a list of terminals available on a particular gnuplot installa-
   tion, type 'set terminal' with no modifiers.


















   GNUPLOT 4.1                                                      222


        5533..11..  AAeedd776677


        The aaeedd551122 and aaeedd776677 terminal drivers support AED graphics
        terminals.  The two drivers differ only in their horizontal
        ranges, which are 512 and 768 pixels, respectively.  Their ver-
        tical range is 575 pixels.  There are no options for these
        drivers.



        5533..22..  AAiiffmm



        NOTE: this terminal driver is outdated. Since Adobe Illustrator
        understands PostScript level 1 directly, you should use sseett
        tteerrmmiinnaall ppoosstt lleevveell11 instead.

        Several options may be set in aaiiffmm---the Adobe Illustrator 3.0+
        driver.

        Syntax:
              set terminal aifm {<color>} {"<fontname>"} {<fontsize>}

        <color> is either ccoolloorr or mmoonnoocchhrroommee; "<fontname>" is the name
        of a valid PostScript font; <fontsize> is the size of the font
        in PostScript points, before scaling by the sseett ssiizzee command.
        Selecting ddeeffaauulltt sets all options to their default values:
        mmoonnoocchhrroommee, "Times-Roman", and 14pt.

        Since AI does not really support multiple pages, multiple
        graphs will be drawn directly on top of one another.  However,
        each graph will be grouped individually, making it easy to sep-
        arate them inside AI (just pick them up and move them).

        Examples:
              set term aifm
              set term aifm 22
              set size 0.7,1.4; set term aifm color "Times-Roman" 14



        5533..33..  AAmmiiggaa


        The aammiiggaa terminal, for Commodore Amiga computers, allows the
        user to plot either to a screen (default), or, if Kickstart 3.0
        or higher is installed, to a window on the current public
        screen. The font and its size can also be selected.

        Syntax:
              set terminal amiga {screen | window} {"<fontname>"}










   GNUPLOT 4.1                                                      223


        {<fontsize>}

        The default font is 8-point "topaz".

        The screen option uses a virtual screen, so it is possible that
        the graph will be larger than the screen.



        5533..44..  AAppoolllloo


        The aappoolllloo terminal driver supports the Apollo Graphics Primi-
        tive Resource with rescaling after window resizing.  It has no
        options.

        If a fixed-size window is desired, the ggpprr terminal may be used
        instead.



        5533..55..  AAqquuaa


        This terminal relies on AquaTerm.app for display on Mac OS X.

        Syntax:
              set terminal aqua {<n>} {title "<wintitle>"} {size <x>
        <y>}
                                {font "<fontname>{,<fontsize>}"}
                                {{no}enhanced} {solid|dashed} {dl
        <dashlength>}}

        where <n> is the number of the window to draw in (default is
        0), <wintitle> is the name shown in the title bar (default
        "Figure <n>"), <x> <y> is the size of the plot (default is
        846x594 pt = 11.75x8.25 in).

        Use <fontname> to specify the font to use (default is "Times-
        Roman"), and <fontsize> to specify the font size (default is
        14.0 pt). The old syntax {fname "<fontname>"} {fsize <font-
        size>} is still supported.

        The aqua terminal supports enhanced text mode (see eennhhaanncceedd),
        except for overprint. Font support is limited to the fonts
        available on the system.  Character encoding can be selected by
        sseett eennccooddiinngg and currently supports iso_latin_1, iso_latin_2,
        cp1250, and default which equals UTF8.

        Lines can be drawn either solid or dashed, (default is solid)
        and the dash spacing can be modified by <dashlength> which is a
        multiplier > 0.











   GNUPLOT 4.1                                                      224


        5533..66..  AAttaarrii SSTT ((vviiaa AAEESS))


        The aattaarrii terminal has options to set the character size and
        the screen colors.

        Syntax:
              set terminal atari {<fontsize>} {<col0> <col1> ...
        <col15>}

        The character size must appear if any colors are to be speci-
        fied.  Each of the (up to 16) colors is given as a three-digit
        hex number, where the digits represent RED, GREEN and BLUE (in
        that order).  The range of 0--15 is scaled to whatever color
        range the screen actually has.  On a normal ST screen, odd and
        even intensities are the same.

        Examples:
              set terminal atari 4    # use small (6x6) font
              set terminal atari 6 0  # set monochrome screen to white
        on black
              set terminal atari 13 0 fff f00 f0 f ff f0f
                         # set first seven colors to black, white, red,
        green,
                         # blue, cyan, and purple and use large font
        (8x16).

        Additionally, if an environment variable GNUCOLORS exists, its
        contents are interpreted as an options string, but an explicit
        terminal option takes precedence.



        5533..77..  BBee


        ggnnuupplloott provides the bbee terminal type for use with X servers.
        This terminal type is set automatically at startup if the DDIISS--
        PPLLAAYY environment variable is set, if the TTEERRMM environment vari-
        able is set to xxtteerrmm, or if the --ddiissppllaayy command line option is
        used.

        Syntax:
                  set terminal be {reset} {<n>}

        Multiple plot windows are supported: sseett tteerrmmiinnaall bbee <<nn>>
        directs the output to plot window number n.  If n>0, the termi-
        nal number will be appended to the window title and the icon
        will be labeled ggpplltt <<nn>>.  The active window may distinguished
        by a change in cursor (from default to crosshair.)

        Plot windows remain open even when the ggnnuupplloott driver is
        changed to a different device.  A plot window can be closed by










   GNUPLOT 4.1                                                      225


        pressing the letter q while that window has input focus, or by
        choosing cclloossee from a window manager menu.  All plot windows
        can be closed by specifying rreesseett, which actually terminates
        the subprocess which maintains the windows (unless --ppeerrssiisstt was
        specified).

        Plot windows will automatically be closed at the end of the
        session unless the --ppeerrssiisstt option was given.

        The size or aspect ratio of a plot may be changed by resizing
        the ggnnuupplloott window.

        Linewidths and pointsizes may be changed from within ggnnuupplloott
        with sseett lliinneessttyyllee.

        For terminal type bbee, ggnnuupplloott accepts (when initialized) the
        standard X Toolkit options and resources such as geometry,
        font, and name from the command line arguments or a configura-
        tion file.  See the X(1) man page (or its equivalent) for a
        description of such options.

        A number of other ggnnuupplloott options are available for the bbee ter-
        minal.  These may be specified either as command-line options
        when ggnnuupplloott is invoked or as resources in the configuration
        file ".Xdefaults".  They are set upon initialization and cannot
        be altered during a ggnnuupplloott session.




             5533..77..11..  CCoommmmaanndd--lliinnee__ooppttiioonnss


             In addition to the X Toolkit options, the following
             options may be specified on the command line when starting
             ggnnuupplloott or as resources in your ".Xdefaults" file:



   +---------------------------------------------------------------------------------+
   |    `-mono`        forces monochrome rendering on color displays.                |
   |    `-gray`        requests grayscale rendering on grayscale or color displays.  |
   |                   (Grayscale displays receive monochrome rendering by default.) |
   |    `-clear`       requests that the window be cleared momentarily before a      |
   |                   new plot is displayed.                                        |
   |    `-raise`       raises plot window after each plot                            |
   |   `-noraise`      does not raise plot window after each plot                    |
   |   `-persist`      plots windows survive after main gnuplot program exits        |
   +---------------------------------------------------------------------------------+


   The options are shown above in their command-line syntax.  When
   entered as resources in ".Xdefaults", they require a different










   GNUPLOT 4.1                                                      226


   syntax.

   Example:
             gnuplot*gray: on

   ggnnuupplloott also provides a command line option (--ppooiinnttssiizzee <<vv>>) and a
   resource, ggnnuupplloott**ppooiinnttssiizzee:: <<vv>>, to control the size of points
   plotted with the ppooiinnttss plotting style.  The value vv is a real num-
   ber (greater than 0 and less than or equal to ten) used as a scaling
   factor for point sizes.  For example, --ppooiinnttssiizzee 22 uses points twice
   the default size, and --ppooiinnttssiizzee 00..55 uses points half the normal
   size.



             5533..77..22..  MMoonnoocchhrroommee__ooppttiioonnss


             For monochrome displays, ggnnuupplloott does not honor foreground
             or background colors.  The default is black-on-white.  --rrvv
             or ggnnuupplloott**rreevveerrsseeVViiddeeoo:: oonn requests white-on-black.




             5533..77..33..  CCoolloorr__rreessoouurrcceess


             For color displays, ggnnuupplloott honors the following resources
             (shown here with their default values) or the greyscale
             resources.  The values may be color names as listed in the
             BE rgb.txt file on your system, hexadecimal RGB color
             specifications (see BE documentation), or a color name
             followed by a comma and an iinntteennssiittyy value from 0 to 1.
             For example, bblluuee,, 00..55 means a half intensity blue.



                    +--------------------------------+
                    |    gnuplot*background: white   |
                    |    gnuplot*textColor: black    |
                    |    gnuplot*borderColor: black  |
                    |    gnuplot*axisColor: black    |
                    |    gnuplot*line1Color: red     |
                    |    gnuplot*line2Color: green   |
                    |    gnuplot*line3Color: blue    |
                    |    gnuplot*line4Color: magenta |
                    |    gnuplot*line5Color: cyan    |
                    |    gnuplot*line6Color: sienna  |
                    |    gnuplot*line7Color: orange  |
                    |    gnuplot*line8Color: coral   |
                    +--------------------------------+











   GNUPLOT 4.1                                                      227


   The command-line syntax for these is, for example,

   Example:
             gnuplot -background coral




             5533..77..44..  GGrraayyssccaallee__rreessoouurrcceess


             When --ggrraayy is selected, ggnnuupplloott honors the following
             resources for grayscale or color displays (shown here with
             their default values).  Note that the default background
             is black.



                     +-------------------------------+
                     |    gnuplot*background: black  |
                     |    gnuplot*textGray: white    |
                     |    gnuplot*borderGray: gray50 |
                     |    gnuplot*axisGray: gray50   |
                     |    gnuplot*line1Gray: gray100 |
                     |    gnuplot*line2Gray: gray60  |
                     |    gnuplot*line3Gray: gray80  |
                     |    gnuplot*line4Gray: gray40  |
                     |    gnuplot*line5Gray: gray90  |
                     |    gnuplot*line6Gray: gray50  |
                     |    gnuplot*line7Gray: gray70  |
                     |    gnuplot*line8Gray: gray30  |
                     +-------------------------------+






             5533..77..55..  LLiinnee__rreessoouurrcceess


             ggnnuupplloott honors the following resources for setting the
             width (in pixels) of plot lines (shown here with their
             default values.)  0 or 1 means a minimal width line of 1
             pixel width.  A value of 2 or 3 may improve the appearance
             of some plots.

















   GNUPLOT 4.1                                                      228


                       +---------------------------+
                       |    gnuplot*borderWidth: 2 |
                       |    gnuplot*axisWidth: 0   |
                       |    gnuplot*line1Width: 0  |
                       |    gnuplot*line2Width: 0  |
                       |    gnuplot*line3Width: 0  |
                       |    gnuplot*line4Width: 0  |
                       |    gnuplot*line5Width: 0  |
                       |    gnuplot*line6Width: 0  |
                       |    gnuplot*line7Width: 0  |
                       |    gnuplot*line8Width: 0  |
                       +---------------------------+



   ggnnuupplloott honors the following resources for setting the dash style
   used for plotting lines.  0 means a solid line.  A two-digit number
   jjkk (jj and kk are >= 1  and <= 9) means a dashed line with a repeated
   pattern of jj pixels on followed by kk pixels off.  For example, '16'
   is a "dotted" line with one pixel on followed by six pixels off.
   More elaborate on/off patterns can be specified with a four-digit
   value.  For example, '4441' is four on, four off, four on, one off.
   The default values shown below are for monochrome displays or mono-
   chrome rendering on color or grayscale displays.  For color dis-
   plays, the default for each is 0 (solid line) except for aaxxiissDDaasshheess
   which defaults to a '16' dotted line.



                     +------------------------------+
                     |    gnuplot*borderDashes: 0   |
                     |    gnuplot*axisDashes: 16    |
                     |    gnuplot*line1Dashes: 0    |
                     |    gnuplot*line2Dashes: 42   |
                     |    gnuplot*line3Dashes: 13   |
                     |    gnuplot*line4Dashes: 44   |
                     |    gnuplot*line5Dashes: 15   |
                     |    gnuplot*line6Dashes: 4441 |
                     |    gnuplot*line7Dashes: 42   |
                     |    gnuplot*line8Dashes: 13   |
                     +------------------------------+





        5533..88..  CCggii


        The ccggii and hhccggii terminal drivers support SCO CGI drivers.
        hhccggii is for printers; the environment variable CGIPRNT must be
        set.  ccggii may be used for either a display or hardcopy; if the
        environment variable CGIDISP is set, then that display is used.










   GNUPLOT 4.1                                                      229


        Otherwise CGIPRNT is used.

        These terminals have no options.



        5533..99..  CCggmm


        The ccggmm terminal generates a Computer Graphics Metafile, Ver-
        sion 1.  This file format is a subset of the ANSI X3.122-1986
        standard entitled "Computer Graphics - Metafile for the Storage
        and Transfer of Picture Description Information".  Several
        options may be set in ccggmm.

        Syntax:
              set terminal cgm {<mode>} {<color>} {<rotation>} {solid |
        dashed}
                               {width <plot_width>} {linewidth
        <line_width>}
                               {"<font>"} {<fontsize>}
                               {<color0> <color1> <color2> ...}

        where <mode> is llaannddssccaappee, ppoorrttrraaiitt, or ddeeffaauulltt; <color> is
        either ccoolloorr or mmoonnoocchhrroommee; <rotation> is either rroottaattee or
        nnoorroottaattee; ssoolliidd draws all curves with solid lines, overriding
        any dashed patterns; <plot_width> is the assumed width of the
        plot in points; <line_width> is the line width in points
        (default 1); <font> is the name of a font; and <fontsize> is
        the size of the font in points (default 12).

        By default, ccggmm uses rotated text for the Y axis label.

        The first six options can be in any order.  Selecting ddeeffaauulltt
        sets all options to their default values.

        Each color must be of the form 'xrrggbb', where x is the lit-
        eral character 'x' and 'rrggbb' are the red, green and blue
        components in hex.  For example, 'x00ff00' is green.  The back-
        ground color is set first, then the plotting colors.

        Examples:
              set terminal cgm landscape color rotate dashed width 432
        \
                             linewidth 1  'Helvetica Bold' 12       #
        defaults
              set terminal cgm linewidth 2  14  # wider lines & larger
        font
              set terminal cgm portrait "Times Italic" 12
              set terminal cgm color solid      # no pesky dashes!













   GNUPLOT 4.1                                                      230


             5533..99..11..  FFoonntt


             The first part of a Computer Graphics Metafile, the
             metafile description, includes a font table.  In the pic-
             ture body, a font is designated by an index into this ta-
             ble.  By default, this terminal generates a table with the
             following 35 fonts, plus six more with iittaalliicc replaced by
             oobblliiqquuee, or vice-versa (since at least the Microsoft
             Office and Corel Draw CGM import filters treat iittaalliicc and
             oobblliiqquuee as equivalent):




















































   GNUPLOT 4.1                                                      231


                   +-----------------------------------+
                   |        CGM fonts                  |
                   +-----------------------------------+
                   |        Helvetica                  |
                   |        Helvetica Bold             |
                   |        Helvetica Oblique          |
                   |        Helvetica Bold Oblique     |
                   |        Times Roman                |
                   |        Times Bold                 |
                   |        Times Italic               |
                   |        Times Bold Italic          |
                   |        Courier                    |
                   |        Courier Bold               |
                   |        Courier Oblique            |
                   |        Courier Bold Oblique       |
                   |        Symbol                     |
                   |        Hershey/Cartographic_Roman |
                   |        Hershey/Cartographic_Greek |
                   |        Hershey/Simplex_Roman      |
                   |        Hershey/Simplex_Greek      |
                   |        Hershey/Simplex_Script     |
                   |        Hershey/Complex_Roman      |
                   |        Hershey/Complex_Greek      |
                   |        Hershey/Complex_Script     |
                   |        Hershey/Complex_Italic     |
                   |        Hershey/Complex_Cyrillic   |
                   |        Hershey/Duplex_Roman       |
                   |        Hershey/Triplex_Roman      |
                   |        Hershey/Triplex_Italic     |
                   |        Hershey/Gothic_German      |
                   |        Hershey/Gothic_English     |
                   |        Hershey/Gothic_Italian     |
                   |        Hershey/Symbol_Set_1       |
                   |        Hershey/Symbol_Set_2       |
                   |        Hershey/Symbol_Math        |
                   |        ZapfDingbats               |
                   |        Script                     |
                   |        15                         |
                   +-----------------------------------+


   The first thirteen of these fonts are required for WebCGM.  The
   Microsoft Office CGM import filter implements the 13 standard fonts
   listed above, and also 'ZapfDingbats' and 'Script'.  However, the
   script font may only be accessed under the name '15'.  For more on
   Microsoft import filter font substitutions, check its help file
   which you may find here:
     C:\Program Files\Microsoft Office\Office\Cgmimp32.hlp
   and/or its configuration file, which you may find here:
     C:\Program Files\Common Files\Microsoft
   Shared\Grphflt\Cgmimp32.cfg

   In the sseett tteerrmm command, you may specify a font name which does not










   GNUPLOT 4.1                                                      232


   appear in the default font table.  In that case, a new font table is
   constructed with the specified font as its first entry. You must
   ensure that the spelling, capitalization, and spacing of the name
   are appropriate for the application that will read the CGM file.
   (Gnuplot and any MIL-D-28003A compliant application ignore case in
   font names.)  If you need to add several new fonts, use several sseett
   tteerrmm commands.

   Example:
         set terminal cgm 'Old English'
         set terminal cgm 'Tengwar'
         set terminal cgm 'Arabic'
         set output 'myfile.cgm'
         plot ...
         set output

   You cannot introduce a new font in a sseett llaabbeell command.



             5533..99..22..  FFoonnttssiizzee


             Fonts are scaled assuming the page is 6 inches wide.  If
             the ssiizzee command is used to change the aspect ratio of the
             page or the CGM file is converted to a different width,
             the resulting font sizes will be scaled up or down accord-
             ingly.  To change the assumed width, use the wwiiddtthh option.



             5533..99..33..  LLiinneewwiiddtthh


             The lliinneewwiiddtthh option sets the width of lines in pt.  The
             default width is 1 pt.  Scaling is affected by the actual
             width of the page, as discussed under the ffoonnttssiizzee and
             wwiiddtthh options.



             5533..99..44..  RRoottaattee


             The nnoorroottaattee option may be used to disable text rotation.
             For example, the CGM input filter for Word for Windows
             6.0c can accept rotated text, but the DRAW editor within
             Word cannot.  If you edit a graph (for example, to label a
             curve), all rotated text is restored to horizontal.  The Y
             axis label will then extend beyond the clip boundary.
             With nnoorroottaattee, the Y axis label starts in a less attrac-
             tive location, but the page can be edited without damage.
             The rroottaattee option confirms the default behavior.










   GNUPLOT 4.1                                                      233


             5533..99..55..  SSoolliidd


             The ssoolliidd option may be used to disable dashed line styles
             in the plots.  This is useful when color is enabled and
             the dashing of the lines detracts from the appearance of
             the plot. The ddaasshheedd option confirms the default behavior,
             which gives a different dash pattern to each curve.



             5533..99..66..  SSiizzee


             Default size of a CGM plot is 32599 units wide and 23457
             units high for landscape, or 23457 units wide by 32599
             units high for portrait.



             5533..99..77..  WWiiddtthh


             All distances in the CGM file are in abstract units.  The
             application that reads the file determines the size of the
             final plot.  By default, the width of the final plot is
             assumed to be 6 inches (15.24 cm).  This distance is used
             to calculate the correct font size, and may be changed
             with the wwiiddtthh option.  The keyword should be followed by
             the width in points.  (Here, a point is 1/72 inch, as in
             PostScript.  This unit is known as a "big point" in TeX.)
             Gnuplot eexxpprreessssiioonnss can be used to convert from other
             units.

             Example:
                   set terminal cgm width 432            # default
                   set terminal cgm width 6*72           # same as
             above
                   set terminal cgm width 10/2.54*72     # 10 cm wide



             5533..99..88..  NNooffoonnttlliisstt


             The default font table includes the fonts recommended for
             WebCGM, which are compatible with the Computer Graphics
             Metafile input filter for Microsoft Office and Corel Draw.
             Another application might use different fonts and/or dif-
             ferent font names, which may not be documented.  As a
             workaround, the nnooffoonnttlliisstt option deletes the font table
             from the CGM file.  In this case, the reading application
             should use a default table.  Gnuplot will still use its










   GNUPLOT 4.1                                                      234


             own default font table to select font indices.  Thus,
             'Helvetica' will give you an index of 1, which should get
             you the first entry in your application's default font ta-
             ble. 'Helvetica Bold' will give you its second entry, etc.

             The former wwiinnwwoorrdd66 option is now a deprecated synonym for
             nnooffoonnttlliisstt.  The problems involving the color and font
             tables that the wwiinnwwoorrdd66 option was intended to work
             around turned out to be gnuplot bugs which have now been
             fixed.



        5533..1100..  CCoorreell


        The ccoorreell terminal driver supports CorelDraw.

        Syntax:
              set terminal corel {  default
                                  | {monochrome | color
                                       {"<font>" {<fontsize>
                                          {<xsize> <ysize> {<linewidth>
        }}}}}

        where the fontsize and linewidth are specified in points and
        the sizes in inches.  The defaults are monochrome, "Switzer-
        landLight", 22, 8.2, 10 and 1.2.



        5533..1111..  DDeebbuugg


        This terminal is provided to allow for the debugging of ggnnuu--
        pplloott.  It is likely to be of use only for users who are modify-
        ing the source code.



        5533..1122..  DDoossppcc


        The ddoossppcc terminal driver supports PCs with arbitrary graphics
        boards, which will be automatically detected.  It should be
        used only if you are not using the gcc or Zortec C/C++ compil-
        ers.
















   GNUPLOT 4.1                                                      235


        5533..1133..  DDuummbb


        The dduummbb terminal driver has an optional size specification and
        trailing linefeed control.

        Syntax:
              set terminal dumb {[no]feed} {<xsize> <ysize>}
                                {[no]enhanced}

        where <xsize> and <ysize> set the size of the dumb terminals.
        Default is 79 by 24. The last newline is printed only if ffeeeedd
        is enabled.

        Examples:
              set term dumb nofeed
              set term dumb 79 49 # VGA screen---why would anyone do
        that?



        5533..1144..  DDxxff


        The ddxxff terminal driver creates pictures that can be imported
        into AutoCad (Release 10.x).  It has no options of its own, but
        some features of its plots may be modified by other means.  The
        default size is 120x80 AutoCad units, which can be changed by
        sseett ssiizzee.  ddxxff uses seven colors (white, red, yellow, green,
        cyan, blue and magenta), which can be changed only by modifying
        the source file.  If a black-and-white plotting device is used,
        the colors are mapped to differing line thicknesses.  See the
        description of the AutoCad print/plot command.



        5533..1155..  DDxxyy880000aa


        This terminal driver supports the Roland DXY800A plotter.  It
        has no options.



        5533..1166..  EEeeppiicc


        The eeeeppiicc terminal driver supports the extended LaTeX picture
        environment.  It is an alternative to the llaatteexx driver.

        The output of this terminal is intended for use with the
        "eepic.sty" macro package for LaTeX.  To use it, you need
        "eepic.sty", "epic.sty" and a printer driver that supports the










   GNUPLOT 4.1                                                      236


        "tpic" \specials.  If your printer driver doesn't support those
        \specials, "eepicemu.sty" will enable you to use some of them.
        dvips and dvipdfm do support the "tpic" \specials.

        Syntax:
           set terminal eepic {color, dashed, rotate, small, tiny,
        default, <fontsize>}

        Options: You can give options in any order you wish.  'color'
        causes gnuplot to produce \color{...} commands so that the
        graphs are colored. Using this option, you must include \usepa-
        ckage{color} in the preambel of your latex document.  'dashed'
        will allow dashed line types; without this option, only solid
        lines with varying thickness will be used.  'dashed' and
        'color' are mutually exclusive; if 'color' is specified, then
        'dashed' will be ignored.  'rotate' will enable true rotated
        text (by 90 degrees). Otherwise, rotated text will be typeset
        with letters stacked above each other. If you use this option
        you must include \usepackage{graphicx} in the preamble.
        'small' will use \scriptsize symbols as point markers (Probably
        does not work with TeX, only LaTeX2e). Default is to use the
        default math size.  'tiny' uses \scriptscriptstyle symbols.
        'default' resets all options to their defaults = no color, no
        dashed lines, pseudo-rotated (stacked) text, large point sym-
        bols.  <fontsize> is a number which specifies the font size
        inside the picture environment; the unit is pt (points), i.e.,
        10 pt equals approx. 3.5 mm.  If fontsize is not specified,
        then all text inside the picture will be set in \footnotesize.

        Notes: Remember to escape the # character (or other chars mean-
        ingful to (La-)TeX) by \\ (2 backslashes).  It seems that
        dashed lines become solid lines when the vertices of a plot are
        too close. (I do not know if that is a general problem with the
        tpic specials, or if it is caused by a bug in eepic.sty or
        dvips/dvipdfm.)  The default size of an eepic plot is 5x3
        inches, which can be scaled by 'set size a,b'.  Points, among
        other things, are drawn using the LaTeX commands "\Diamond",
        "\Box", etc.  These commands no longer belong to the LaTeX2e
        core; they are included in the latexsym package, which is part
        of the base distribution and thus part of any LaTeX implementa-
        tion. Please do not forget to use this package.  Instead of
        latexsym, you can also include the amssymb package.  All driv-
        ers for LaTeX offer a special way of controlling text position-
        ing: If any text string begins with '{', you also need to
        include a '}' at the end of the text, and the whole text will
        be centered both horizontally and vertically.  If the text
        string begins with '[', you need to follow this with a position
        specification (up to two out of t,b,l,r), ']{', the text
        itself, and finally '}'.  The text itself may be anything LaTeX
        can typeset as an LR-box.  '\rule{}{}'s may help for best posi-
        tioning.

        Examples: set term eepic










   GNUPLOT 4.1                                                      237


          output graphs as eepic macros inside a picture environment;
          \input the resulting file in your LaTeX document.
        set term eepic color tiny rotate 8
          eepic macros with \color macros, \scripscriptsize point mark-
        ers,
          true rotated text, and all text set with 8pt.

        About label positioning: Use gnuplot defaults (mostly sensible,
        but sometimes not really best):
               set title '\LaTeX\ -- $ \gamma $'
        Force centering both horizontally and vertically:
               set label '{\LaTeX\ -- $ \gamma $}' at 0,0
        Specify own positioning (top here):
               set xlabel '[t]{\LaTeX\ -- $ \gamma $}'
        The other label -- account for long ticlabels:
               set ylabel '[r]{\LaTeX\ -- $ \gamma $\rule{7mm}{0pt}}'



        5533..1177..  EEmmff


        The eemmff terminal generates an Enhanced Metafile Format file.
        This file format is the metafile standard on MS Win32 Systems.

        Syntax:
              set terminal emf {<color>} {solid | dashed} {linewidth
        <X>}
                               {size XX,YY}
                               {"<fontname>"} {<fontsize>}    #old syn-
        tax
                               {font "<fontname>,<fontsize>"} #new syn-
        tax

        <color> is either ccoolloorr or mmoonnoocchhrroommee; ssoolliidd draws all curves
        with solid lines, overriding any dashed patterns; lliinneewwiiddtthh
        <<ffaaccttoorr>> multiplies all line widths by this factor.  <font> is
        the name of a font; and <<ffoonnttssiizzee>> is the size of the font in
        points.

        The nominal size of the output image default to 1024x768 in
        arbitrary units. You may specify a different nominal size using
        the ssiizzee option.

        The first two options can be in any order.  Selecting ddeeffaauulltt
        sets all options to their default values.

        Examples:
              set terminal emf 'Times Roman Italic' 12
              set terminal emf color solid    # no pesky dashes!













   GNUPLOT 4.1                                                      238


        5533..1188..  EEmmxxvvggaa


        The eemmxxvvggaa, eemmxxvveessaa and vvggaall terminal drivers support PCs with
        SVGA, vesa SVGA and VGA graphics boards, respectively.  They
        are intended to be compiled with "emx-gcc" under either DOS or
        OS/2.  They also need VESA and SVGAKIT maintained by Johannes
        Martin (JMARTIN@GOOFY.ZDV.UNI-MAINZ.DE) with additions by David
        J. Liu (liu@phri.nyu.edu).

        Syntax:
              set terminal emxvga
              set terminal emxvesa {vesa-mode}
              set terminal vgal

        The only option is the vesa mode for eemmxxvveessaa, which defaults to
        G640x480x256.



        5533..1199..  EEppssllaatteexx


        The eeppssllaatteexx driver generates output for further processing by
        LaTeX.

        Syntax:
              set terminal epslatex   {default}
              set terminal epslatex   {standalone | input}
                                      {oldstyle | newstyle}
                                      {level1 | leveldefault}
                                      {color | colour | monochrome}
                                      {solid | dashed}
                                      {dashlength | dl <DL>}
                                      {linewidth | lw <LW>}
                                      {rounded | butt}
                                      {palfuncparam <samples>{,<maxde-
        viation>}}
                                      {size <XX>{unit},<YY>{unit}}
                                      {header <header> | noheader}
                                      {blacktext | colortext | colour-
        text}
                                      {{font} "fontname{,fontsize}"
        {<fontsize>}}

        The epslatex terminal prints a plot as tteerrmmiinnaall ppoossttssccrriipptt eeppss
        but transfers the texts to LaTeX instead of including in the
        PostScript code. Thus, many options are the same as in the
        ppoossttssccrriipptt tteerrmmiinnaall.

        From version 4.0 to 4.2, some changes have been invoked into
        the default appearance of the epslatex terminal to reach better
        consistency with the postscript terminal:  The plot size has










   GNUPLOT 4.1                                                      239


        been changed from 5 x 3 inches to 5 x 3.5 inches;  the charac-
        ter width is now estimated to be 60% of the font size while the
        old epslatex terminal used 50%;  now, the larger number of
        postscript linetypes and symbols are used.  To reach an appear-
        ance that is nearly identical to the old one specify the option
        oollddssttyyllee. (In fact some small differences remain: the symbol
        sizes are slightly different, the tics are half as large as in
        the old terminal which can be changed using sseett ttiiccss ssccaallee, and
        the arrows have all features as in the postscript terminal.)

        If you see the error message
              "Can't find PostScript prologue file ... "
        Please see and follow the instructions in ppoossttssccrriipptt pprroolloogguuee.

        The option ccoolloorr enables color, while mmoonnoocchhrroommee prefers black
        and white drawing elements. Further, mmoonnoocchhrroommee uses gray
        ppaalleettttee but it does not change color of objects specified with
        an explicit ccoolloorrssppeecc.  ssoolliidd draws all plots with solid lines,
        overriding any dashed patterns.  ddaasshhlleennggtthh or ddll scales the
        length of the dashed-line segments by <DL>, which is a float-
        ing-point number greater than zero.  lliinneewwiiddtthh or llww scales all
        linewidths by <LW>.

        By default the generated PostScript code uses language features
        that were introduced in PostScript Level 2, notably filters and
        pattern-fill of irregular objects such as filledcurves.  Post-
        Script Level 2 features are conditionally protected so that
        PostScript Level 1 interpreters do not issue errors but,
        rather, display a message or a PostScript Level 1 approxima-
        tion.  The lleevveell11 option substitutes PostScript Level 1 approx-
        imations of these features and uses no PostScript Level 2 code.
        This may be required by some old printers and old versions of
        Adobe Illustrator.  The flag lleevveell11 can be toggled later by
        editing a single line in the PostScript output file to force
        PostScript Level 1 interpretation.  In the case of files con-
        taining level 2 code, the above features will not appear or
        will be replaced by a note when this flag is set or when the
        interpreting program does not indicate that it understands
        level 2 PostScript or higher.

        rroouunnddeedd sets line caps and line joins to be rounded; bbuutttt is
        the default, butt caps and mitered joins;

        ppaallffuunnccppaarraamm controls how sseett ppaalleettttee ffuunnccttiioonnss are encoded as
        gradients in the output. Analytic color component functions
        (set via sseett ppaalleettttee ffuunnccttiioonnss) are encoded as linear interpo-
        lated gradients in the postscript output:  The color component
        functions are sampled at <samples> points and all points are
        removed from this gradient which can be removed without chang-
        ing the resulting colors by more than <maxdeviation>. For
        almost every useful palette you may savely leave the defaults
        of <samples>=2000 and <maxdeviation>=0.003 untouched.











   GNUPLOT 4.1                                                      240


        The default size for postscript output is 10 inches x 7 inches.
        The default for eps output is 5 x 3.5 inches.  The ssiizzee option
        changes this to whatever the user requests. By default the X
        and Y sizes are taken to be in inches, but other units are pos-
        sibly (currently only cm). The BoundingBox of the plot is cor-
        rectly adjusted to contain the resized image.  Screen coordi-
        nates always run from 0.0 to 1.0 along the full length of the
        plot edges as specified by the ssiizzee option.  NB: tthhiiss iiss aa
        cchhaannggee ffrroomm tthhee pprreevviioouussllyy rreeccoommmmeennddeedd mmeetthhoodd ooff uussiinngg tthhee sseett
        ssiizzee ccoommmmaanndd pprriioorr ttoo sseettttiinngg tthhee tteerrmmiinnaall ttyyppee.  The old
        method left the BoundingBox unchanged and screen coordinates
        did not correspond to the actual limits of the plot.

        bbllaacckktteexxtt forces all text to be written in black even in color
        mode;

        The epslatex driver offers a special way of controlling text
        positioning: (a) If any text string begins with '{', you also
        need to include a '}' at the end of the text, and the whole
        text will be centered both horizontally and vertically by
        LaTeX.  (b) If the text string begins with '[', you need to
        continue it with: a position specification (up to two out of
        t,b,l,r,c), ']{', the text itself, and finally, '}'. The text
        itself may be anything LaTeX can typeset as an LR-box.
        \rule{}{}'s may help for best positioning.  See also the docu-
        mentation for the ppssllaatteexx terminal driver.  To create multiline
        labels, use \shortstack, for example
           set ylabel '[r]{\shortstack{first line \\ second line}}'

        The bbaacckk option of sseett llaabbeell commands is handled slightly dif-
        ferent than in other terminals. Labels using 'back' are printed
        behind all other elements of the plot while labels using
        'front' are printed above everything else.

        The driver produces two different files, one for the eps part
        of the figure and one for the LaTeX part. The name of the LaTeX
        file is taken from the sseett oouuttppuutt command. The name of the eps
        file is derived by replacing the file extension (normally ..tteexx)
        with ..eeppss instead.  There is no LaTeX output if no output file
        is given!  Remember to close the oouuttppuutt ffiillee before next plot
        unless in mmuullttiipplloott mode.

        In your LaTeX documents use '\input{filename}' to include the
        figure.  The ..eeppss file is included by the command \include-
        graphics{...}, so you must also include \usepackage{graphicx}
        in the LaTeX preamble.  If you want to use coloured text
        (option tteexxttccoolloouurr) you also have to include \usepackage{color}
        in the LaTeX preamble.

        Pdf files can be made from the eps file using 'epstopdf'. If
        the graphics package is properly configured, the LaTeX files
        can also be processed by pdflatex without changes, using the
        pdf files instead of the eps files.  The behaviour concerning










   GNUPLOT 4.1                                                      241


        font selection depends on the header mode.  In all cases, the
        given font size is used for the calculation of proper spacing.
        When not using the ssttaannddaalloonnee mode the actual LaTeX font and
        font size at the point of inclusion is taken, so use LaTeX com-
        mands for changing fonts. If you use e.g. 12pt as font size for
        your LaTeX document, use '"" 12' as options. The font name is
        ignored. If using ssttaannddaalloonnee the given font and font size are
        used, see below for a detailed description.

        If text is printed coloured is controlled by the TeX booleans
        \ifGPcolor and \ifGPblacktext. Only if \ifGPcolor is true and
        \ifGPblacktext is false, text is printed coloured. You may
        either change them in the generated TeX file or provide them
        globally in your TeX file, for example by using
           \newif\ifGPblacktext
           \GPblacktexttrue
        in the preamble of your document. The local assignment is only
        done if no global value is given.

        When using the epslatex terminal give the name of the TeX file
        in the sseett oouuttppuutt command including the file extension (nor-
        mally ".tex").  The eps filename is generated by replacing the
        extension by ".eps".

        If using the ssttaannddaalloonnee mode a complete LaTeX header is added
        to the LaTeX file; and "-inc" is added to the filename of the
        eps file.  The ssttaannddaalloonnee mode generates a TeX file that pro-
        duces output with the correct size when using dvips, pdfTeX, or
        VTeX.  The default, iinnppuutt, generates a file that has to be
        included into a LaTeX document using the \input command.

        If a font other than "" or "default" is given it is interpreted
        as LaTeX font name.  It contains up to three parts, separated
        by a comma: 'fontname,fontseries,fontshape'.  If the default
        fontshape or fontseries are requested, they can be omitted.
        Thus, the real syntax for the fontname is '[font-
        name][,fontseries][,fontshape]'.  The naming convention for all
        parts is given by the LaTeX font scheme.  The fontname is 3 to
        4 characters long and is built as follows: One character for
        the font vendor, two characters for the name of the font, and
        optionally one additional character for special fonts, e.g.,
        'j' for fonts with old-style numerals or 'x' for expert fonts.
        The names of many fonts is described in
                  http://www.tug.org/fontname/fontname.pdf
        For example, 'cmr' stands for Computer Modern Roman, 'ptm' for
        Times-Roman, and 'phv' for Helvetica.  The font series denotes
        the thickness of the glyphs, in most cases 'm' for normal
        ("medium") and 'bx' or 'b' for bold fonts.  The font shape is
        'n' for upright, 'it' for italics, 'sl' for slanted, or 'sc'
        for small caps, in general.  Some fonts may provide different
        font series or shapes.

        Examples:










   GNUPLOT 4.1                                                      242


        Use Times-Roman boldface (with the same shape as in the sur-
        rounding text):
              set terminal epslatex 'ptm,bx'
        Use Helvetica, boldface, italics:
              set terminal epslatex 'phv,bx,it'
        Continue to use the surrounding font in slanted shape:
              set terminal epslatex ',,sl'
        Use small capitals:
              set terminal epslatex ',,sc'

        By this method, only text fonts are changed. If you also want
        to change the math fonts you have to use the "gnuplot.cfg" file
        or the hheeaaddeerr option, described below.

        In standalone mode, the font size is taken from the given font
        size in the sseett tteerrmmiinnaall command. To be able to use a specified
        font size, a file "size<size>.clo" has to reside in the LaTeX
        search path.  By default, 10pt, 11pt, and 12pt are supported.
        If the package "extsizes" is installed, 8pt, 9pt, 14pt, 17pt,
        and 20pt are added.

        The hheeaaddeerr option takes a string as argument.  This string is
        written into the generated LaTeX file.  If using the ssttaannddaalloonnee
        mode, it is written into the preamble, directly before the
        \begin{document} command.  In the iinnppuutt mode, it is placed
        directly after the \begingroup command to ensure that all set-
        tings are local to the plot.

        Examples:

        Use T1 fontencoding, change the text and math font to Times-
        Roman as well as the sans-serif font to Helvetica:
            set terminal epslatex standalone header \
            "\\usepackage[T1]{fontenc}\n\\usepackage{mathptmx}\n\\usep-
        ackage{helvet}"
        Use a boldface font in the plot, not influencing the text out-
        side the plot:
            set terminal epslatex input header "\\bfseries"

        If the file "gnuplot.cfg" is found by LaTeX it is input in the
        preamble the LaTeX document, when using ssttaannddaalloonnee mode.  It
        can be used for further settings, e.g., changing the document
        font to Times-Roman, Helvetica, and Courier, including math
        fonts (handled by "mathptmx.sty"):
              \usepackage{mathptmx}
              \usepackage[scaled=0.92]{helvet}
              \usepackage{courier}
        The file "gnuplot.cfg" is loaded before the header information
        given by the hheeaaddeerr command.  Thus, you can use hheeaaddeerr to over-
        write some of settings performed using "gnuplot.cfg"













   GNUPLOT 4.1                                                      243


        5533..2200..  EEppssoonn--118800ddppii


        This driver supports a family of Epson printers and deriva-
        tives.

        eeppssoonn--118800ddppii and eeppssoonn--6600ddppii are drivers for Epson LQ-style
        24-pin printers with resolutions of 180 and 60 dots per inch,
        respectively.

        eeppssoonn--llxx880000 is a generic 9-pin driver appropriate for printers
        like the Epson LX-800, the Star NL-10 and NX-1000, the PRO-
        PRINTER, and so forth.

        nneecc--ccpp66 is generic 24-pin driver that can be used for printers
        like the NEC CP6 and the Epson LQ-800.

        The ookkiiddaattaa driver supports the 9-pin OKIDATA 320/321 Standard
        printers.

        The ssttaarrcc driver is for the Star Color Printer.

        The ttaannddyy--6600ddppii driver is for the Tandy DMP-130 series of
        9-pin, 60-dpi printers.

        Only nneecc--ccpp66 has any options.

        Syntax:
              set terminal nec-cp6 {monochrome | colour | draft}

        which defaults to monochrome.

        With each of these drivers, a binary copy is required on a PC
        to print.  Do not use pprriinntt---use instead ccooppyy ffiillee //bb llpptt11::.



        5533..2211..  EExxccll


        The eexxccll terminal driver supports Talaris printers such as the
        EXCL Laser printer and the 1590.  It has no options.



        5533..2222..  FFiigg


        The ffiigg terminal device generates output in the Fig graphics
        language.

        Syntax:
              set terminal fig {monochrome | color}










   GNUPLOT 4.1                                                      244


                               {landscape | portrait}
                               {small | big | size <xsize> <ysize>}
                               {metric | inches}
                               {pointsmax <max_points>}
                               {solid | dashed}
                               {fontsize <fsize>}
                               {textnormal | {textspecial texthidden
        textrigid}}
                               {{thickness|linewidth} <units>}
                               {depth <layer>}
                               {version <number>}

        mmoonnoocchhrroommee and ccoolloorr determine whether the picture is black-
        and-white or ccoolloorr.  ssmmaallll and bbiigg produce a 5x3 or 8x5 inch
        graph in the default llaannddssccaappee mode and 3x5 or 5x8 inches in
        ppoorrttrraaiitt mode.  ssiizzee sets (overrides) the size of the drawing
        area to <xsize>*<ysize> in units of inches or centimeters
        depending on the iinncchheess or mmeettrriicc setting in effect.  The lat-
        ter settings is also used as default units for editing with
        "xfig".

        ppooiinnttssmmaaxx <<mmaaxx__ppooiinnttss>> sets the maximum number of points per
        polyline.

        ssoolliidd inhibits automatic usage of ddaasshhed lines when solid
        linestyles are used up, which otherwise occurs.

        ffoonnttssiizzee sets the size of the text font to <fsize> points.
        tteexxttnnoorrmmaall resets the text flags and selects postscript fonts,
        tteexxttssppeecciiaall sets the text flags for LaTeX specials, tteexxtthhiiddddeenn
        sets the hidden flag and tteexxttrriiggiidd the rigid flag.

        ddeepptthh sets the default depth layer for all lines and text.  The
        default depth is 10 to leave room for adding material with
        "xfig" on top of the plot.

        vveerrssiioonn sets the format version of the generated fig output.
        Currently only versions 3.1 and 3.2 are supported.

        tthhiicckknneessss sets the default line thickness, which is 1 if not
        specified.  Overriding the thickness can be achieved by adding
        a multiple of 100 to the lliinneettyyppee value for a pplloott command.  In
        a similar way the ddeepptthh of plot elements (with respect to the
        default depth) can be controlled by adding a multiple of 1000
        to <linetype>.  The depth is then <layer> + <linetype>/1000 and
        the thickness is (<linetype>%1000)/100 or, if that is zero, the
        default line thickness. lliinneewwiiddtthh is a synonym for tthhiicckknneessss.

        Additional point-plot symbols are also available with the ffiigg
        driver. The symbols can be used through ppooiinnttttyyppee values % 100
        above 50, with different fill intensities controlled by <point-
        type> % 5 and outlines in black (for <pointtype> % 10 < 5) or
        in the current color.  Available symbols are










   GNUPLOT 4.1                                                      245


                50 - 59:  circles
                60 - 69:  squares
                70 - 79:  diamonds
                80 - 89:  upwards triangles
                90 - 99:  downwards triangles
        The size of these symbols is linked to the font size.  The
        depth of symbols is by default one less than the depth for
        lines to achieve nice error bars.  If <pointtype> is above
        1000, the depth is <layer> + <pointtype>/1000-1.  If <point-
        type>%1000 is above 100, the fill color is (<point-
        type>%1000)/100-1.

        Available fill colors are (from 1 to 9): black, blue, green,
        cyan, red, magenta, yellow, white and dark blue (in monochrome
        mode: black for 1 to 6 and white for 7 to 9).

        See pplloott wwiitthh for details of <linetype> and <pointtype>.

        The bbiigg option is a substitute for the bbffiigg terminal in earlier
        versions, which is no longer supported.

        Examples:
              set terminal fig monochrome small pointsmax 1000  #
        defaults

              plot 'file.dat' with points linetype 102 pointtype 759
        would produce circles with a blue outline of width 1 and yellow
        fill color.

              plot 'file.dat' using 1:2:3 with err linetype 1 pointtype
        554
        would produce errorbars with black lines and circles filled
        red.  These circles are one layer above the lines (at depth 9
        by default).

        To plot the error bars on top of the circles use
              plot 'file.dat' using 1:2:3 with err linetype 1 pointtype
        2554



        5533..2233..  GGggii


        The ggggii driver can run on different targets as X or svgalib.

        Syntax:
           set terminal ggi [acceleration <integer>] [[mode] {mode}]

        In X the window cannot be resized using window manager handles,
        but the mode can be given with the mode option, e.g.:
         - V1024x768
         - V800x600










   GNUPLOT 4.1                                                      246


         - V640x480
         - V320x200
        Please refer to the ggi documentation for other modes. The
        'mode' keyword is optional. It is recommended to select the
        target by environment variables as explained in the libggi man-
        ual page. To get DGA on X, you should for example
           bash> export GGI_DISPLAY=DGA
           csh>  setenv GGI_DISPLAY DGA

        'acceleration' is only used for targets which report relative
        pointer motion events (e.g. DGA) and is a strictly positive
        integer multiplication factor for the relative distances.  The
        default for acceleration is 7.

        Examples:
           set term ggi acc 10
           set term ggi acc 1 mode V1024x768
           set term ggi V1024x768



        5533..2244..  GGiiff



        Syntax:
              set terminal gif
                               {tiny | small | medium | large | giant}
                               {{no}transparent} {{no}enhanced}
                               {font <face> {<pointsize>}}
                               {animate {delay <time>} {{no}optimize}}
                               {size <x>,<y>} {{no}crop}
                               {<color0> <color1> <color2> ...}

        GIF images are created using libgd, with optional support for
        TrueType fonts via libfreetype.

        GIF plots may be conveniently viewed by piping the output to
        the 'display' program from the ImageMagick package as follows:
                       set term gif
                       set output '| display gif:-'

        View the output from successive plot commands interactively by
        hitting <space> in the display window.  To save a particular
        one to disk, left click in the display window and choose ssaavvee.

        Five basic fonts are supported directly by the gd library.
        These are ttiinnyy (5x8 pixels), ssmmaallll (6x12 pixels), mmeeddiiuumm, (7x13
        Bold), llaarrggee (8x16) or ggiiaanntt (9x15 pixels). These fonts cannot
        be scaled or rotated (pure horizontal or vertical text only).

        ttrraannssppaarreenntt instructs the driver to generate transparent GIFs.
        The first color will be the transparent one. Default is










   GNUPLOT 4.1                                                      247


        nnoottrraannssppaarreenntt.

        eennhhaanncceedd enables the enhanced text processing features, (sub-
        scripts, superscripts and mixed fonts). See eennhhaanncceedd for more
        information.  The full enhanced mode syntax is supported by the
        PNG/GIF driver itself, but some of these features are dependent
        on which version of the underlying libgd library is present,
        and which fonts are available.

        If your local gd library was built with support for TrueType
        and Adobe Type 1 fonts, they may be selected using the 'font
        <face> {<pointsize>}' option. <face> is either the full path-
        name to the font file, or a font face name that is assumed to
        be the first part of a filename in one of the directories
        listed in the GDFONTPATH environmental variable. That is, 'set
        term gif font "Face"' will look for a font file named either
        <somedirectory>/Face.ttf or <somedirectory>/Face.pfa. Both
        TrueType and Adobe Type 1 fonts are fully scalable and may be
        rotated through any angle.  If no font is specified, gnuplot
        checks the environmental variable GNUPLOT_DEFAULT_GDFONT to see
        if there is a preferred default font.

        The aanniimmaattee option is available only if your local gd library
        supports the creation of animated gifs. The default delay
        between display of successive images may be specified in units
        of 1/100 second (default 5).  The actual delay may vary depend-
        ing on the program used as a viewer.  An animation sequence is
        terminated by the next sseett oouuttppuutt or sseett tteerrmm command.  The
        ooppttiimmiizzee option has two effects on the animation.

        1) A single color map is used for the entire animation. This
        requires that all colors used in any frame of the animation are
        already defined in the first frame.

        2) If possible, only the portions of a frame that differ from
        the previous frame are stored in the animation file.  This
        space saving may not be possible if the animation uses trans-
        parency.

        Both of these optimizations are intended to produce a smaller
        output file, but the decrease in size is probably only signifi-
        cant for long animations or very small frame sizes.  The nnoooopp--
        ttiimmiizzee option turns off both of the effects just described.
        Each frame is stored in its entirety along with a private color
        map.  Note that it is possible to post-process a non-optimized
        animation using external utilities, and this post-processing
        can yield a smaller file than gnuplot's internal optimization
        mode.  The default is nnooooppttiimmiizzee.

        The size <x,y> is given in pixels---it defaults to 640x480.
        The number of pixels can be also modified by scaling with the
        sseett ssiizzee command.  ccrroopp trims blank space from the edges of the
        completed plot, resulting in a smaller final image size.










   GNUPLOT 4.1                                                      248


        Default is nnooccrroopp.

        Each color must be of the form 'xrrggbb', where x is the lit-
        eral character 'x' and 'rrggbb' are the red, green and blue
        components in hex.  For example, 'x00ff00' is green.  The back-
        ground color is set first, then the border colors, then the X &
        Y axis colors, then the plotting colors.  The maximum number of
        colors that can be set is 256.

        Examples:
              set terminal gif medium size 640,480 \
                               xffffff x000000 x404040 \
                               xff0000 xffa500 x66cdaa xcdb5cd \
                               xadd8e6 x0000ff xdda0dd x9500d3    #
        defaults

        which uses white for the non-transparent background, black for
        borders, gray for the axes, and red, orange, medium aquamarine,
        thistle 3, light blue, blue, plum and dark violet for eight
        plotting colors.

              set terminal gif font 'arial' 14 size 800,600

        which searches for a TrueType font with face name 'arial' in
        the directory specified by the environment variable GDFONTPATH
        and 14pt font size.




        5533..2255..  GGnnuuggrraapphh((GGNNUU pplloottuuttiillss))


        The ggnnuuggrraapphh driver produces device-independent output in the
        GNU plot graphics language.  The default size of the PostScript
        results generated by "plot2ps" is 5 x 3 inches; this can be
        increased up to about 8.25 x 8.25 by sseett ssiizzee.

        Syntax:
              set terminal gnugraph {"<fontname>"} {<fontsize>}
                                    {type <pt>} {size "<size>"}

        which defaults to 10-point "Courier".

        For ttyyppee, the following options are accepted: XX, ppnnmm, ggiiff, aaii,
        ppss, ccggmm, ffiigg, ppccll55, hhppggll, tteekk, and mmeettaa (default). The ssiizzee
        option (default is a4) is passed straight through to plotutils,
        it's the user's responsibility to provide correct values.
        Details can be found in the plotutils documentation.

        Examples:
              set terminal gnugraph type hpgl size "a4"
              set terminal gnugraph size










   GNUPLOT 4.1                                                      249


        "a4,xoffset=-5mm,yoffset=2.0cm" type pnm

        There is a non-GNU version of the ggnnuuggrraapphh driver which cannot
        be compiled unless this version is left out.



        5533..2266..  GGppiicc


        The ggppiicc terminal driver generates GPIC graphs in the Free
        Software Foundations's "groff" package.  The default size is 5
        x 3 inches.  The only option is the origin, which defaults to
        (0,0).

        Syntax:
              set terminal gpic {<x> <y>}

        where xx and yy are in inches.

        A simple graph can be formatted using

              groff -p -mpic -Tps file.pic > file.ps.

        The output from pic can be pipe-lined into eqn, so it is possi-
        ble to put complex functions in a graph with the sseett llaabbeell and
        sseett {{xx//yy}}llaabbeell commands.  For instance,

              set ylab '@space 0 int from 0 to x alpha ( t ) roman d
        t@'

        will label the y axis with a nice integral if formatted with
        the command:

              gpic filename.pic | geqn -d@@ -Tps | groff -m[macro-pack-
        age] -Tps
                  > filename.ps

        Figures made this way can be scaled to fit into a document.
        The pic language is easy to understand, so the graphs can be
        edited by hand if need be.  All co-ordinates in the pic-file
        produced by ggnnuupplloott are given as x+gnuplotx and y+gnuploty.  By
        default x and y are given the value 0.  If this line is removed
        with an editor in a number of files, one can put several graphs
        in one figure like this (default size is 5.0x3.0 inches):

              .PS 8.0
              x=0;y=3
              copy "figa.pic"
              x=5;y=3
              copy "figb.pic"
              x=0;y=0
              copy "figc.pic"










   GNUPLOT 4.1                                                      250


              x=5;y=0
              copy "figd.pic"
              .PE

        This will produce an 8-inch-wide figure with four graphs in two
        rows on top of each other.

        One can also achieve the same thing by the command

              set terminal gpic x y

        for example, using

              .PS 6.0
              copy "trig.pic"
              .PE



        5533..2277..  GGpprr


        The ggpprr terminal driver supports the Apollo Graphics Primitive
        Resource for a fixed-size window.  It has no options.

        If a variable window size is desired, use the aappoolllloo terminal
        instead.



        5533..2288..  GGrraassss


        The ggrraassss terminal driver gives ggnnuupplloott capabilities to users
        of the GRASS geographic information system.  Contact grassp-
        list@moon.cecer.army.mil for more information.  Pages are writ-
        ten to the current frame of the GRASS Graphics Window.  There
        are no options.



        5533..2299..  HHeerrccuulleess


        These drivers supports PC monitors with autodetected graphics
        boards.  They can be used only when compiled with Zortech
        C/C++.  None have options.
















   GNUPLOT 4.1                                                      251


        5533..3300..  HHpp22662233aa


        The hhpp22662233aa terminal driver supports the Hewlett Packard
        HP2623A.  It has no options.



        5533..3311..  HHpp22664488


        The hhpp22664488 terminal driver supports the Hewlett Packard HP2647
        and HP2648.  It has no options.



        5533..3322..  HHpp550000cc


        The hhpp550000cc terminal driver supports the Hewlett Packard HP
        DeskJet 500c.  It has options for resolution and compression.

        Syntax:
              set terminal hp500c {<res>} {<comp>}

        where rreess can be 75, 100, 150 or 300 dots per inch and ccoommpp can
        be "rle", or "tiff".  Any other inputs are replaced by the
        defaults, which are 75 dpi and no compression.  Rasterization
        at the higher resolutions may require a large amount of memory.



        5533..3333..  HHppggll


        The hhppggll driver produces HPGL output for devices like the
        HP7475A plotter.  There are two options which can be set: the
        number of pens and eejjeecctt, which tells the plotter to eject a
        page when done.  The default is to use 6 pens and not to eject
        the page when done.

        The international character sets ISO-8859-1 and CP850 are rec-
        ognized via sseett eennccooddiinngg iissoo__88885599__11 or sseett eennccooddiinngg ccpp885500 (see
        sseett eennccooddiinngg for details).

        Syntax:
              set terminal hpgl {<number_of_pens>} {eject}

        The selection

              set terminal hpgl 8 eject

        is equivalent to the previous hhpp77555500 terminal, and the










   GNUPLOT 4.1                                                      252


        selection

              set terminal hpgl 4

        is equivalent to the previous hhpp77558800bb terminal.

        The ppccll55 driver supports plotters such as the Hewlett-Packard
        Designjet 750C, the Hewlett-Packard Laserjet III, and the
        Hewlett-Packard Laserjet IV.  It actually uses HPGL-2, but
        there is a name conflict among the terminal devices.  It has
        several options which must be specified in the order indicated
        below:

        Syntax:
              set terminal pcl5 {mode <mode>} {<plotsize>}
                  {{color {<number_of_pens>}} | monochrome} {solid |
        dashed}
                  {font <font>} {size <fontsize>} {pspoints | nops-
        points}

        <mode> is llaannddssccaappee or ppoorrttrraaiitt. <plotsize> is the physical
        plotting size of the plot, which is one of the following: lleett--
        tteerr for standard (8 1/2" X 11") displays, lleeggaall for (8 1/2" X
        14") displays, nnooeexxtteennddeedd for (36" X 48") displays (a letter
        size ratio) or, eexxtteennddeedd for (36" X 55") displays (almost a
        legal size ratio).  ccoolloorr is for multi-pen (i.e. color) plots,
        and <number_of_pens> is the number of pens (i.e. colors) used
        in color plots. mmoonnoocchhrroommee is for one (e.g. black) pen plots.
        ssoolliidd draws all lines as solid lines, or ddaasshheedd will draw lines
        with different dashed and dotted line patterns.  <font> is
        ssttiicckk, uunniivveerrss, ccgg__ttiimmeess, zzaappff__ddiinnggbbaattss, aannttiiqquuee__oolliivvee, aarriiaall,
        ccoouurriieerr, ggaarraammoonndd__aannttiigguuaa, lleetttteerr__ggootthhiicc, ccgg__oommeeggaa, aallbbeerrttuuss,
        ttiimmeess__nneeww__rroommaann, ccllaarreennddoonn, ccoorroonneett, mmaarriiggoolldd, ttrruueettyyppee__ssyymm--
        bboollss, or wwiinnggddiinnggss. <fontsize> is the font size in points.  The
        point type selection can be the standard default set by speci-
        fying nnooppssppooiinnttss, or the same set of point types found in the
        postscript terminal by specifying ppssppooiinnttss.

        Note that built-in support of some of these options is printer
        device dependent. For instance, all the fonts are supposedly
        supported by the HP Laserjet IV, but only a few (e.g. univers,
        stick) may be supported by the HP Laserjet III and the Design-
        jet 750C. Also, color obviously won't work on the the laserjets
        since they are monochrome devices.

        Defaults: landscape, noextended, color (6 pens), solid,
        univers, 12 point,
                  and nopspoints.

        With ppccll55 international characters are handled by the printer;
        you just put the appropriate 8-bit character codes into the
        text strings.  You don't need to bother with sseett eennccooddiinngg.











   GNUPLOT 4.1                                                      253


        HPGL graphics can be imported by many software packages.



        5533..3344..  HHpplljjiiii


        The hhpplljjiiii terminal driver supports the HP Laserjet Series II
        printer.  The hhppddjj driver supports the HP DeskJet 500 printer.
        These drivers allow a choice of resolutions.

        Syntax:
              set terminal hpljii | hpdj {<res>}

        where rreess may be 75, 100, 150 or 300 dots per inch; the default
        is 75.  Rasterization at the higher resolutions may require a
        large amount of memory.

        The hhpp550000cc terminal is similar to hhppddjj; hhpp550000cc additionally
        supports color and compression.



        5533..3355..  HHppppjj


        The hhppppjj terminal driver supports the HP PaintJet and HP3630
        printers.  The only option is the choice of font.

        Syntax:
              set terminal hppj {FNT5X9 | FNT9X17 | FNT13X25}

        with the middle-sized font (FNT9X17) being the default.



        5533..3366..  IImmaaggeenn


        The iimmaaggeenn terminal driver supports Imagen laser printers.  It
        is capable of placing multiple graphs on a single page.

        Syntax:
              set terminal imagen {<fontsize>} {portrait | landscape}
                                  {[<horiz>,<vert>]}

        where ffoonnttssiizzee defaults to 12 points and the layout defaults to
        llaannddssccaappee.  <<hhoorriizz>> and <<vveerrtt>> are the number of graphs in the
        horizontal and vertical directions; these default to unity.

        Example:
              set terminal imagen portrait [2,3]











   GNUPLOT 4.1                                                      254


        puts six graphs on the page in three rows of two in portrait
        orientation.



        5533..3377..  IIrriiss44dd


        The iirriiss44dd terminal driver supports Silicon Graphics IRIS 4D
        computers.  Its only option is 8- or 24-bit color depth.  The
        default is 8.

        Syntax:
              set terminal iris4d {8 | 24}

        The color depth is not really a choice -- the value appropriate
        for the hardware should be selected.

        When using 24-bit mode, the colors can be directly specified
        via the file .gnuplot_iris4d that is searched in the current
        directory and then in the home directory specified by the HOME
        environment variable.  This file holds RGB values for the back-
        ground, border, labels and nine plotting colors, in that order.
        For example, here is a file containing the default colors:

              85   85   85     Background   (dark gray)
              0    0    0      Boundary     (black)
              170  0    170    Labeling     (magenta)
              85   255  255    Plot Color 1 (light cyan)
              170  0    0      Plot Color 2 (red)
              0    170  0      Plot Color 3 (green)
              255  85   255    Plot Color 4 (light magenta)
              255  255  85     Plot Color 5 (yellow)
              255  85   85     Plot Color 6 (light red)
              85   255  85     Plot Color 7 (light green)
              0    170  170    Plot Color 8 (cyan)
              170  170  0      Plot Color 9 (brown)

        This file must have exactly 12 lines of RGB triples.  No empty
        lines are allowed, and anything after the third number on a
        line is ignored.



        5533..3388..  JJppeegg



        Syntax:
              set terminal jpeg
                               {{no}interlace}
                               {tiny | small | medium | large | giant}
                               {font <face> {<pointsize>}}










   GNUPLOT 4.1                                                      255


                               {size <x>,<y>} {{no}crop}
                               {{no}enhanced}
                               {<color0> <color1> <color2> ...}

        JPEG images are created using libgd, with optional support for
        TrueType fonts via libfreetype.

        The iinntteerrllaaccee option creates a progressive JPEG image.  Default
        is nnooiinntteerrllaaccee.

        Five basic fonts are supported directly by the gd library.
        These are ttiinnyy (5x8 pixels), ssmmaallll (6x12 pixels), mmeeddiiuumm, (7x13
        Bold), llaarrggee (8x16) or ggiiaanntt (9x15 pixels). These fonts cannot
        be scaled or rotated (pure horizontal or vertical text only).

        If gnuplot was built with support for TrueType (*.ttf) or Adobe
        Type 1 (*.pfa) fonts, they may be selected using the 'font
        <face> {<pointsize>}' option. <face> is either the full path-
        name to the font file, or a font face name that is assumed to
        be the first part of a filename in one of the directories
        listed in the GDFONTPATH environmental variable. That is, 'set
        term jpeg font "Face"' will look for a font file named either
        <somedirectory>/Face.ttf or <somedirectory>/Face.pfa. Both
        TrueType and Adobe Type 1 fonts are fully scalable and may be
        rotated through any angle.  If no font is specified, gnuplot
        checks the environmental variable GNUPLOT_DEFAULT_GDFONT to see
        if there is a preferred default font.

        eennhhaanncceedd enables the enhanced text processing features, (sub-
        scripts, superscripts and mixed fonts). See eennhhaanncceedd for more
        information.  The full enhanced mode syntax is supported by the
        PNG/JPEG driver itself, but some of these features are depen-
        dent on which version of the underlying libgd library is
        present, and which fonts are available.

        The size <x,y> is given in pixels---it defaults to 640x480.
        The number of pixels can be also modified by scaling with the
        sseett ssiizzee command.  ccrroopp trims blank space from the edges of the
        completed plot, resulting in a smaller final image size.
        Default is nnooccrroopp.

        Each color must be of the form 'xrrggbb', where x is the lit-
        eral character 'x' and 'rrggbb' are the red, green and blue
        components in hex.  For example, 'x00ff00' is green.  The back-
        ground color is set first, then the border colors, then the X &
        Y axis colors, then the plotting colors.  The maximum number of
        colors that can be set is 256.

        Examples:
              set terminal jpeg medium size 640,480 \
                               xffffff x000000 x404040 \
                               xff0000 xffa500 x66cdaa xcdb5cd \
                               xadd8e6 x0000ff xdda0dd x9500d3    #










   GNUPLOT 4.1                                                      256


        defaults

        which uses white for the non-transparent background, black for
        borders, gray for the axes, and red, orange, medium aquamarine,
        thistle 3, light blue, blue, plum and dark violet for eight
        plotting colors.

              set terminal jpeg large font arial size 800,600

        which searches for a TrueType font with face name 'arial' in
        the directory specified by the environment variable GDFONTPATH
        and large (14pt) font size.




        5533..3399..  KKyyoo


        The kkyyoo and pprreessccrriibbee terminal drivers support the Kyocera
        laser printer.  The only difference between the two is that kkyyoo
        uses "Helvetica" whereas pprreessccrriibbee uses "Courier".  There are
        no options.



        5533..4400..  LLaatteexx


        Syntax:
              set terminal {latex | emtex} {default | {courier|roman}
        {<fontsize>}}
                           {size <XX>{unit}, <YY>{unit}}

        By default the plot will inherit font settings from the embed-
        ding document.  You have the option of forcing either Courier
        (cmtt) or Roman (cmr) fonts instead. In this case you may also
        specify a fontsize.  Unless your driver is capable of building
        fonts at any size (e.g. dvips), stick to the standard 10, 11
        and 12 point sizes.

        METAFONT users beware: METAFONT does not like odd sizes.

        All drivers for LaTeX offer a special way of controlling text
        positioning: If any text string begins with '{', you also need
        to include a '}' at the end of the text, and the whole text
        will be centered both horizontally and vertically.  If the text
        string begins with '[', you need to follow this with a position
        specification (up to two out of t,b,l,r), ']{', the text
        itself, and finally '}'.  The text itself may be anything LaTeX
        can typeset as an LR-box.  '\rule{}{}'s may help for best posi-
        tioning.











   GNUPLOT 4.1                                                      257


        Points, among other things, are drawn using the LaTeX commands
        "\Diamond" and "\Box".  These commands no longer belong to the
        LaTeX2e core; they are included in the latexsym package, which
        is part of the base distribution and thus part of any LaTeX
        implementation.  Please do not forget to use this package.

        The default size for the plot is 5 inches by 3 inches. The ssiizzee
        option changes this to whatever the user requests. By default
        the X and Y sizes are taken to be in inches, but other units
        are possible (currently only cm).

        Examples: About label positioning: Use gnuplot defaults (mostly
        sensible, but sometimes not really best):
               set title '\LaTeX\ -- $ \gamma $'
        Force centering both horizontally and vertically:
               set label '{\LaTeX\ -- $ \gamma $}' at 0,0
        Specify own positioning (top here):
               set xlabel '[t]{\LaTeX\ -- $ \gamma $}'
        The other label -- account for long ticlabels:
               set ylabel '[r]{\LaTeX\ -- $ \gamma $\rule{7mm}{0pt}}'



        5533..4411..  LLiinnuuxx


        The lliinnuuxx driver has no additional options to specify.  It
        looks at the environment variable GSVGAMODE for the default
        mode; if not set, it uses 1024x768x256 as default mode or, if
        that is not possible, 640x480x16 (standard VGA).



        5533..4422..  MMaacciinnttoosshh


        Several options may be set in the 'macintosh' driver.

        Syntax:
             set terminal macintosh {singlewin | multiwin} {vertical |
        novertical}
                                    {size <width>, <height> | default}

        'singlewin' limits the output to a single window and is useful
        for animations.  'multiwin' allows multiple windows.  'verti-
        cal' is only valid under the gx option. With this option,
        rotated text
            be drawn vertically. novertical turns this option off.
         size <width>, <height> overrides the graph size set in the
        preferences
            dialog until it is cleared with either 'set term mac size
        default'
            or 'set term mac default'.










   GNUPLOT 4.1                                                      258


         'set term mac size default' sets the window size settings to
        those set in
            the preferences dialog.

         'set term mac default' sets all options to their default val-
        ues.
            Default values: nogx, multiwin, novertical.

         If you generate graphs under the multiwin option and then
        switch to singlewin,
         the next plot command will cause one more window to be cre-
        ated. This new
         window will be reused as long as singlewin is in effect. If
        you switch back
         to multiwin, generate some graphs, and then switch to sin-
        glewin again, the
         orginal 'singlewin' window will be resused if it is still
        open. Otherwise
         a new 'singlewin' window will be created. The 'singlewin' win-
        dow is not numbered.



        5533..4433..  MMff


        The mmff terminal driver creates an input file to the METAFONT
        program.  Thus a figure may be used in the TeX document in the
        same way as is a character.

        To use a picture in a document, the METAFONT program must be
        run with the output file from ggnnuupplloott as input.  Thus, the user
        needs a basic knowledge of the font creating process and the
        procedure for including a new font in a document.  However, if
        the METAFONT program is set up properly at the local site, an
        unexperienced user could perform the operation without much
        trouble.

        The text support is based on a METAFONT character set.  Cur-
        rently the Computer Modern Roman font set is input, but the
        user is in principal free to choose whatever fonts he or she
        needs.  The METAFONT source files for the chosen font must be
        available.  Each character is stored in a separate picture
        variable in METAFONT.  These variables may be manipulated
        (rotated, scaled etc.) when characters are needed.  The draw-
        back is the interpretation time in the METAFONT program.  On
        some machines (i.e. PC) the limited amount of memory available
        may also cause problems if too many pictures are stored.

        The mmff terminal has no options.













   GNUPLOT 4.1                                                      259


             5533..4433..11..  MMEETTAAFFOONNTT IInnssttrruuccttiioonnss



             - Set your terminal to METAFONT:
               set terminal mf
             - Select an output-file, e.g.:
               set output "myfigures.mf"
             - Create your pictures. Each picture will generate a sepa-
             rate character. Its default size will be 5*3 inches. You
             can change the size by saying sseett ssiizzee 00..55,,00..55 or whatever
             fraction of the default size you want to have.

             - Quit ggnnuupplloott.

             - Generate a TFM and GF file by running METAFONT on the
             output of ggnnuupplloott.  Since the picture is quite large (5*3
             in), you will have to use a version of METAFONT that has a
             value of at least 150000 for memmax.  On Unix systems
             these are conventionally installed under the name bigmf.
             For the following assume that the command virmf stands for
             a big version of METAFONT.  For example:

             - Invoke METAFONT:
                 virmf '&plain'
             - Select the output device: At the METAFONT prompt ('*')
             type:
                 \mode:=CanonCX;     % or whatever printer you use
             - Optionally select a magnification:
                 mag:=1;             % or whatever you wish
             - Input the ggnnuupplloott-file:
                 input myfigures.mf
             On a typical Unix machine there will usually be a script
             called "mf" that executes virmf '&plain', so you probably
             can substitute mf for virmf &plain.  This will generate
             two files: mfput.tfm and mfput.$$$gf (where $$$ indicates
             the resolution of your device).  The above can be conve-
             niently achieved by typing everything on the command line,
             e.g.: virmf '&plain' '\mode:=CanonCX; mag:=1; input myfig-
             ures.mf' In this case the output files will be named
             myfigures.tfm and myfigures.300gf.

             - Generate a PK file from the GF file using gftopk:
               gftopk myfigures.300gf myfigures.300pk
             The name of the output file for gftopk depends on the DVI
             driver you use.  Ask your local TeX administrator about
             the naming conventions.  Next, either install the TFM and
             PK files in the appropriate directories, or set your envi-
             ronment variables properly.  Usually this involves setting
             TEXFONTS to include the current directory and doing the
             same thing for the environment variable that your DVI
             driver uses (no standard name here...).  This step is nec-
             essary so that TeX will find the font metric file and your










   GNUPLOT 4.1                                                      260


             DVI driver will find the PK file.

             - To include your pictures in your document you have to
             tell TeX the font:
               \font\gnufigs=myfigures
             Each picture you made is stored in a single character.
             The first picture is character 0, the second is character
             1, and so on...  After doing the above step, you can use
             the pictures just like any other characters.  Therefore,
             to place pictures 1 and 2 centered in your document, all
             you have to do is:
               \centerline{\gnufigs\char0}
               \centerline{\gnufigs\char1}
             in plain TeX.  For LaTeX you can, of course, use the pic-
             ture environment and place the picture wherever you wish
             by using the \makebox and \put macros.

             This conversion saves you a lot of time once you have gen-
             erated the font; TeX handles the pictures as characters
             and uses minimal time to place them, and the documents you
             make change more often than the pictures do.  It also
             saves a lot of TeX memory.  One last advantage of using
             the METAFONT driver is that the DVI file really remains
             device independent, because no \special commands are used
             as in the eepic and tpic drivers.



        5533..4444..  MMggrr


        The mmggrr terminal driver supports the Mgr Window system.  It has
        no options.



        5533..4455..  MMiiff


        The mmiiff terminal driver produces Frame Maker MIF format version
        3.00.  It plots in MIF Frames with the size 15*10 cm, and plot
        primitives with the same pen will be grouped in the same MIF
        group.  Plot primitives in a ggnnuupplloott page will be plotted in a
        MIF Frame, and several MIF Frames are collected in one large
        MIF Frame.  The MIF font used for text is "Times".

        Several options may be set in the MIF 3.00 driver.

        Syntax:
              set terminal mif {color | colour | monochrome} {polyline
        | vectors}
                               {help | ?}











   GNUPLOT 4.1                                                      261


        ccoolloouurr plots lines with line types >= 0 in colour (MIF sep.
        2--7) and mmoonnoocchhrroommee plots all line types in black (MIF sep.
        0).  ppoollyylliinnee plots curves as continuous curves and vveeccttoorrss
        plots curves as collections of vectors.  hheellpp and ?? print
        online help on standard error output---both print a short
        description of the usage; hheellpp also lists the options.

        Examples:
              set term mif colour polylines    # defaults
              set term mif                     # defaults
              set term mif vectors
              set term mif help



        5533..4466..  MMpp



        The mmpp driver produces output intended to be input to the Meta-
        post program.  Running Metapost on the file creates EPS files
        containing the plots. By default, Metapost passes all text
        through TeX.  This has the advantage of allowing essentially
        any TeX symbols in titles and labels.

        Syntax:
           set term mp {color | colour | monochrome}
                       {solid | dashed}
                       {notex | tex | latex}
                       {magnification <magsize>}
                       {psnfss | psnfss-version7 | nopsnfss}
                       {prologues <value>}
                       {a4paper}
                       {amstex}
                       {"<fontname>"} {<fontsize>}

        The option ccoolloorr causes lines to be drawn in color (on a
        printer or display that supports it), mmoonnoocchhrroommee (or nothing)
        selects black lines.  The option ssoolliidd draws solid lines, while
        ddaasshheedd (or nothing) selects lines with different patterns of
        dashes.  If ssoolliidd is selected but ccoolloorr is not, nearly all
        lines will be identical.  This may occasionally be useful, so
        it is allowed.

        The option nnootteexx bypasses TeX entirely, therefore no TeX code
        can be used in labels under this option.  This is intended for
        use on old plot files or files that make frequent use of common
        characters like $$ and %% that require special handling in TeX.

        The option tteexx sets the terminal to output its text for TeX to
        process.

        The option llaatteexx sets the terminal to output its text for










   GNUPLOT 4.1                                                      262


        processing by LaTeX. This allows things like \frac for frac-
        tions which LaTeX knows about but TeX does not.  Note that you
        must set the environment variable TEX to the name of your LaTeX
        executable (normally latex) if you use this option or use mmppoosstt
        ----tteexx==<<nnaammee ooff LLaaTTeeXX eexxeeccuuttaabbllee>> ....... Otherwise metapost will
        try and use TeX to process the text and it won't work.

        Changing font sizes in TeX has no effect on the size of mathe-
        matics, and there is no foolproof way to make such a change,
        except by globally  setting a magnification factor. This is the
        purpose of the mmaaggnniiffiiccaattiioonn option. It must be followed by a
        scaling factor. All text (NOT the graphs) will be scaled by
        this factor. Use this if you have math that you want at some
        size other than the default 10pt. Unfortunately, all math will
        be the same size, but see the discussion below on editing the
        MP output. mmaagg will also work under nnootteexx but there seems no
        point in using it as the font size option (below) works as
        well.

        The option ppssnnffssss uses postscript fonts in combination with
        LaTeX. Since this option only makes sense, if LaTeX is being
        used, the llaatteexx option is selected automatically. This option
        includes the following packages for LaTeX: inputenc(latin1),
        fontenc(T1), mathptmx, helvet(scaled=09.2), courier, latexsym
        and textcomp.

        The option ppssnnffssss--vveerrssiioonn77 uses also postscript fonts in LaTeX
        (option llaatteexx is also automatically selected), but uses the
        following packages with LaTeX: inputenc(latin1), fontenc(T1),
        times, mathptmx, helvet and courier.

        The option nnooppssnnffssss is the default and uses the standard font
        (cmr10 if not otherwise specified).

        The option pprroolloogguueess takes a value as an additional argument
        and adds the line pprroolloogguueess::==<<vvaalluuee>> to the metapost file. If a
        value of 22 is specified metapost uses postscript fonts to gen-
        erate the eps-file, so that the result can be viewed using e.g.
        ghostscript. Normally the output of metapost uses TeX fonts and
        therefore has to be included in a (La)TeX file before you can
        look at it.

        The option nnoopprroolloogguueess is the default. No additional line spec-
        ifying the prologue will be added.

        The option aa44ppaappeerr adds a [[aa44ppaappeerr]] to the documentclass. Nor-
        mally letter paper is used (default). Since this option is only
        used in case of LaTeX, the llaatteexx option is selected automati-
        cally.

        The option aammsstteexx automatically selects the llaatteexx option and
        includes the following LaTeX packages: amsfonts, ams-
        math(intlimits). By default these packages are not included.










   GNUPLOT 4.1                                                      263


        A name in quotes selects the font that will be used when no
        explicit font is given in a sseett llaabbeell or sseett ttiittllee.  A name
        recognized by TeX (a TFM file exists) must be used.  The
        default is "cmr10" unless nnootteexx is selected, then it is
        "pcrr8r" (Courier).  Even under nnootteexx, a TFM file is needed by
        Metapost. The file ppccrrrr88rr..ttffmm is the name given to Courier in
        LaTeX's psnfss package.  If you change the font from the nnootteexx
        default, choose a font that matches the ASCII encoding at least
        in the range 32-126.  ccmmtttt1100 almost works, but it has a non-
        blank character in position 32 (space).

        The size can be any number between 5.0 and 99.99.  If it is
        omitted, 10.0 is used.  It is advisable to use mmaaggsstteepp sizes:
        10 times an integer or half-integer power of 1.2, rounded to
        two decimals, because those are the most available sizes of
        fonts in TeX systems.

        All the options are optional.  If font information is given, it
        must be at the end, with size (if present) last.  The size is
        needed to select a size for the font, even if the font name
        includes size information.  For example, sseett tteerrmm mmpp ""ccmmtttt1122""
        selects cmtt12 shrunk to the default size 10.  This is probably
        not what you want or you would have used cmtt10.

        The following common ascii characters need special treatment in
        TeX:
           $, &, #, %, _;  |, <, >;  ^, ~,  \, {, and }
        The five characters $, #, &, _, and % can simply be escaped,
        e.g., \\$$.  The three characters <, >, and | can be wrapped in
        math mode, e.g., $$<<$$.  The remainder require some TeX work-
        arounds.  Any good book on TeX will give some guidance.

        If you type your labels inside double quotes, backslashes in
        TeX code need to be escaped (doubled). Using single quotes will
        avoid having to do this, but then you cannot use \\nn for line
        breaks.  As of this writing, version 3.7 of gnuplot processes
        titles given in a pplloott command differently than in other
        places, and backslashes in TeX commands need to be doubled
        regardless of the style of quotes.

        Metapost pictures are typically used in TeX documents.  Meta-
        post deals with fonts pretty much the same way TeX does, which
        is different from most other document preparation programs.  If
        the picture is included in a LaTeX document using the graphics
        package, or in a plainTeX document via epsf.tex, and then con-
        verted to PostScript with dvips (or other dvi-to-ps converter),
        the text in the plot will usually be handled correctly.  How-
        ever, the text may not appear if you send the Metapost output
        as-is to a PostScript interpreter.














   GNUPLOT 4.1                                                      264


             5533..4466..11..  MMeettaappoosstt IInnssttrruuccttiioonnss



             - Set your terminal to Metapost, e.g.:
                set terminal mp mono "cmtt12" 12

             - Select an output-file, e.g.:
                set output "figure.mp"

             - Create your pictures.  Each plot (or multiplot group)
             will generate a separate Metapost beginfig...endfig group.
             Its default size will be 5 by 3 inches.  You can change
             the size by saying sseett ssiizzee 00..55,,00..55 or whatever fraction
             of the default size you want to have.

             - Quit gnuplot.

             - Generate EPS files by running Metapost on the output of
             gnuplot:
                mpost figure.mp  OR  mp figure.mp
             The name of the Metapost program depends on the system,
             typically mmppoosstt for a Unix machine and mmpp on many others.
             Metapost will generate one EPS file for each picture.

             - To include your pictures in your document you can use
             the graphics package in LaTeX or epsf.tex in plainTeX:
                \usepackage{graphics} % LaTeX
                \input epsf.tex       % plainTeX
             If you use a driver other than dvips for converting TeX
             DVI output to PS, you may need to add the following line
             in your LaTeX document:
                \DeclareGraphicsRule{*}{eps}{*}{}
             Each picture you made is in a separate file.  The first
             picture is in, e.g., figure.0, the second in figure.1, and
             so on....  To place the third picture in your document,
             for example, all you have to do is:
                \includegraphics{figure.2} % LaTeX
                \epsfbox{figure.2}         % plainTeX

             The advantage, if any, of the mp terminal over a post-
             script terminal is editable output.  Considerable effort
             went into making this output as clean as possible.  For
             those knowledgeable in the Metapost language, the default
             line types and colors can be changed by editing the arrays
             lltt[[]] and ccooll[[]].  The choice of solid vs dashed lines, and
             color vs black lines can be change by changing the values
             assigned to the booleans ddaasshheeddlliinneess and ccoolloorrlliinneess.  If
             the default tteexx option was in effect, global changes to
             the text of labels can be achieved by editing the vveebbaattiimm--
             tteexx......eetteexx block.  In particular, a LaTeX preamble can be
             added if desired, and then LaTeX's built-in size changing
             commands can be used for maximum flexibility. Be sure to










   GNUPLOT 4.1                                                      265


             set the appropriate MP configuration variable to force
             Metapost to run LaTeX instead of plainTeX.



        5533..4477..  MMttooss


        The mmttooss terminal has no options.  It sends data via a pipe to
        an external program called GPCLIENT.  It runs under MULTITOS,
        Magic 3.x, MagicMAC. and MiNT.  If you cannot find GPCLIENT,
        than mail to dirk@lstm.uni-erlangen.de.



        5533..4488..  NNeexxtt


        Several options may be set in the next driver.

        Syntax:
              set terminal next {<mode>} {<type> } {<color>} {<dashed>}
                         {"<fontname>"} {<fontsize>} title {"<newti-
        tle>"}

        where <mode> is  ddeeffaauulltt, which sets all options to their
        defaults; <type> is either nneeww or oolldd, where oolldd invokes the
        old single window; <color> is either ccoolloorr or mmoonnoocchhrroommee;
        <dashed> is either ssoolliidd or ddaasshheedd; "<fontname>" is the name of
        a valid PostScript font; <fontsize> is the size of the font in
        PostScript points; and <title> is the title for the GnuTerm
        window.  Defaults are  nneeww, mmoonnoocchhrroommee, ddaasshheedd, "Helvetica",
        14pt.

        Examples:
              set term next default
              set term next 22
              set term next color "Times-Roman" 14
              set term next color "Helvetica" 12 title "MyPlot"
              set term next old

        Pointsizes may be changed with sseett lliinneessttyyllee.



        5533..4499..  OOppeennsstteepp ((nneexxtt))


        Several options may be set in the openstep (next) driver.

        Syntax:
              set terminal openstep {<mode>} {<type> } {<color>}
        {<dashed>}










   GNUPLOT 4.1                                                      266


                         {"<fontname>"} {<fontsize>} title {"<newti-
        tle>"}

        where <mode> is  ddeeffaauulltt, which sets all options to their
        defaults; <type> is either nneeww or oolldd, where oolldd invokes the
        old single window; <color> is either ccoolloorr or mmoonnoocchhrroommee;
        <dashed> is either ssoolliidd or ddaasshheedd; "<fontname>" is the name of
        a valid PostScript font; <fontsize> is the size of the font in
        PostScript points; and <title> is the title for the GnuTerm
        window.  Defaults are  nneeww, mmoonnoocchhrroommee, ddaasshheedd, "Helvetica",
        14pt.

        Examples:
              set term openstep default
              set term openstep 22
              set term openstep color "Times-Roman" 14
              set term openstep color "Helvetica" 12 title "MyPlot"
              set term openstep old

        Pointsizes may be changed with sseett lliinneessttyyllee.



        5533..5500..  PPbbmm


        Several options may be set in the ppbbmm terminal---the driver for
        PBMplus.

        Syntax:
              set terminal pbm {<fontsize>} {<mode>} {size <x>,<y>}

        where <fontsize> is ssmmaallll, mmeeddiiuumm, or llaarrggee and <mode> is mmoonnoo--
        cchhrroommee, ggrraayy or ccoolloorr.  The default plot size is 640 pixels
        wide and 480 pixels high.

        The output of the ppbbmm driver depends upon <mode>: mmoonnoocchhrroommee
        produces a portable bitmap (one bit per pixel), ggrraayy a portable
        graymap (three bits per pixel) and ccoolloorr a portable pixmap
        (color, four bits per pixel).

        The output of this driver can be used with various image con-
        version and manipulation utilities provided by NETPBM.  Based
        on Jef Poskanzer's PBMPLUS package, NETPBM provides programs to
        convert the above PBM formats to GIF, TIFF, MacPaint, Macintosh
        PICT, PCX, X11 bitmap and many others.  Complete information is
        available at http://netpbm.sourceforge.net/.

        Examples:
              set terminal pbm small monochrome                #
        defaults
              set terminal pbm color medium size 800,600
              set output '| pnmrotate 45 | pnmtopng > tilted.png'  #










   GNUPLOT 4.1                                                      267


        uses NETPBM



        5533..5511..  PPddff


        This terminal produces files in the Adobe Portable Document
        Format (PDF), useable for printing or display with tools like
        Acrobat Reader

        Syntax:
              set terminal pdf {monochrome|color|colour}
                               {{no}enhanced}
                               {fname "<font>"} {fsize <fontsize>}
                               {font "<fontname>{,<fontsize>}"}
                               {linewidth <lw>} {rounded|butt}
                               {solid|dashed} {dl <dashlength>}}
                               {size <XX>{unit},<YY>{unit}}

        The default is to use a different color for each line type.
        Selecting mmoonnoocchhoommee will use black for all linetypes, in which
        case you probably want to select ddaasshheedd to distinguish line
        types. Even in in mono mode you can still use explicit colors
        for filled areas or linestyles.

        where <font> is the name of the default font to use (default
        Helvetica) and <fontsize> is the font size (in points, default
        12).  For help on which fonts are available or how to install
        new ones, please see the documentation for your local installa-
        tion of pdflib.

        The eennhhaanncceedd option enables enhanced text processing features
        (subscripts, superscripts and mixed fonts). See eennhhaanncceedd.

        The width of all lines in the plot can be increased by the fac-
        tor <n> specified in lliinneewwiiddtthh. Similarly ddaasshhlleennggtthh is a mul-
        tiplier for the default dash spacing.

        rroouunnddeedd sets line caps and line joins to be rounded; bbuutttt is
        the default, butt caps and mitered joins.

        The default size for PDF output is 5 inches by 3 inches. The
        ssiizzee option changes this to whatever the user requests. By
        default the X and Y sizes are taken to be in inches, but other
        units are possible (currently only cm).

















   GNUPLOT 4.1                                                      268


        5533..5522..  PPmm


        The ppmm terminal driver provides an OS/2 Presentation Manager
        window in which the graph is plotted.  The window is opened
        when the first graph is plotted.  This window has its own
        online help as well as facilities for printing, copying to the
        clipboard and some line type and color adjustments.  The mmuullttii--
        pplloott option is supported.

        Syntax:
              set terminal pm {server {n}} {persist} {widelines}
        {enhanced} {"title"}

        If ppeerrssiisstt is specified, each graph appears in its own window
        and all windows remain open after ggnnuupplloott exits.  If sseerrvveerr is
        specified, all graphs appear in the same window, which remains
        open when ggnnuupplloott exits.  This option takes an optional numeri-
        cal argument which specifies an instance of the server process.
        Thus multiple server windows can be in use at the same time.

        If wwiiddeelliinneess is specified, all plots will be drawn with wide
        lines.  If eennhhaanncceedd is specified, sub- and superscripts and
        multiple fonts are enabled using the same syntax as the
        eennhhaanncceedd ppoossttssccrriipptt option (see sseett tteerrmmiinnaall ppoossttssccrriipptt
        eennhhaanncceedd for details).  Font names for the basic PostScript
        fonts may be abbreviated to single letters.

        If ttiittllee is specified, it will be used as the title of the plot
        window.  It will also be used as the name of the server
        instance, and will override the optional numerical argument.

        Linewidths may be changed with sseett lliinneessttyyllee.



        5533..5533..  PPnngg


        Syntax:
              set terminal png
                     {{no}transparent} {{no}interlace}
                     {{no}truecolor} {rounded|butt}
                     {tiny | small | medium | large | giant}
                     {font <face> {<pointsize>}}
                     {size <x>,<y>} {{no}crop}
                     {{no}enhanced}
                     {<color0> <color1> <color2> ...}

        PNG images are created using libgd, with optional support for
        TrueType and Adobe Type 1 fonts via libfreetype. Version 1.8 or
        greater of libgd is required.











   GNUPLOT 4.1                                                      269


        ttrraannssppaarreenntt instructs the driver to generate transparent PNGs.
        The first color will be the transparent one. Default is
        nnoottrraannssppaarreenntt.

        iinntteerrllaaccee instructs the driver to generate interlaced PNGs.
        Default is nnooiinntteerrllaaccee.

        bbuutttt instructs the driver to use a line drawing method that
        does not overshoot the desired end point of a line.  This set-
        ting is only applicable for line widths greater than 1.  This
        setting is most useful when drawing horizontal or vertical
        lines.  Default is rroouunnddeedd.  Version 2.0 or greater of libgd is
        required.

        PNG plots may be conveniently viewed by piping the output to
        the 'display' program from the ImageMagick package as follows:
                       set term png
                       set output '| display png:-'

        View the output from successive plot commands interactively by
        hitting <space> in the display window.  To save a particular
        one to disk, left click in the display window and choose ssaavvee.

        Five basic fonts are supported directly by the gd library.
        These are ttiinnyy (5x8 pixels), ssmmaallll (6x12 pixels), mmeeddiiuumm, (7x13
        Bold), llaarrggee (8x16) or ggiiaanntt (9x15 pixels). These fonts cannot
        be scaled or rotated (pure horizontal or vertical text only).

        If gnuplot was built with support for TrueType (*.ttf) or Adobe
        Type 1 (*.pfa) fonts, they may be selected using the 'font
        <face> {<pointsize>}' option. <face> is either the full path-
        name to the font file, or a font face name that is assumed to
        be the first part of a filename in one of the directories
        listed in the GDFONTPATH environmental variable. That is, 'set
        term png font "Face"' will look for a font file named either
        <somedirectory>/Face.ttf or <somedirectory>/Face.pfa. Both
        TrueType and Adobe Type 1 fonts are fully scalable and may be
        rotated through any angle.  If no font is specified, gnuplot
        checks the environmental variable GNUPLOT_DEFAULT_GDFONT to see
        if there is a preferred default font.

        eennhhaanncceedd enables the enhanced text processing features, (sub-
        scripts, superscripts and mixed fonts). See eennhhaanncceedd for more
        information.  The full enhanced mode syntax is supported by the
        PNG/JPEG driver itself, but some of these features are depen-
        dent on which version of the underlying libgd library is
        present, and which fonts are available.

        The size <x,y> is given in pixels---it defaults to 640x480.
        The number of pixels can be also modified by scaling with the
        sseett ssiizzee command.  ccrroopp trims blank space from the edges of the
        completed plot, resulting in a smaller final image size.
        Default is nnooccrroopp.










   GNUPLOT 4.1                                                      270


        Each color must be of the form 'xrrggbb', where x is the lit-
        eral character 'x' and 'rrggbb' are the red, green and blue
        components in hex.  For example, 'x00ff00' is green.  The back-
        ground color is set first, then the border colors, then the X &
        Y axis colors, then the plotting colors.  The maximum number of
        colors that can be set is 256.

        Examples:
              set terminal png medium size 640,480 \
                               xffffff x000000 x404040 \
                               xff0000 xffa500 x66cdaa xcdb5cd \
                               xadd8e6 x0000ff xdda0dd x9500d3    #
        defaults

        which uses white for the non-transparent background, black for
        borders, gray for the axes, and red, orange, medium aquamarine,
        thistle 3, light blue, blue, plum and dark violet for eight
        plotting colors.

              set terminal png font arial 14 size 800,600

        which searches for a TrueType font with face name 'arial' in
        the directory specified by the environment variable GDFONTPATH
        and 14pt font size.

              set terminal png transparent xffffff \
                               x000000 x202020 x404040 x606060 \
                               x808080 xA0A0A0 xC0C0C0 xE0E0E0

        which uses white for the transparent background, black for bor-
        ders, dark gray for axes, and a gray-scale for the six plotting
        colors.




        5533..5544..  PPoossttssccrriipptt


        Several options may be set in the ppoossttssccrriipptt driver.

        Syntax:
              set terminal postscript {default}
              set terminal postscript {landscape | portrait | eps}
                                      {enhanced | noenhanced}
                                      {defaultplex | simplex | duplex}
                                      {fontfile [add | delete] "<file-
        name>"
                                       | nofontfiles}
                                      {level1 | leveldefault}
                                      {color | colour | monochrome}
                                      {solid | dashed}
                                      {dashlength | dl <DL>}










   GNUPLOT 4.1                                                      271


                                      {linewidth | lw <LW>}
                                      {rounded | butt}
                                      {palfuncparam <samples>{,<maxde-
        viation>}}
                                      {size <XX>{unit},<YY>{unit}}
                                      {blacktext | colortext | colour-
        text}
                                      {{font} "fontname{,fontsize}"
        {<fontsize>}}
        If you see the error message
              "Can't find PostScript prologue file ... "
        Please see and follow the instructions in ppoossttssccrriipptt pprroolloogguuee.


        llaannddssccaappee and ppoorrttrraaiitt choose the plot orientation.  eeppss mode
        generates EPS (Encapsulated PostScript) output, which is just
        regular PostScript with some additional lines that allow the
        file to be imported into a variety of other applications.  (The
        added lines are PostScript comment lines, so the file may still
        be printed by itself.)  To get EPS output, use the eeppss mode and
        make only one plot per file.  In eeppss mode the whole plot,
        including the fonts, is reduced to half of the default size.

        eennhhaanncceedd enables enhanced text mode features (subscripts,
        superscripts and mixed fonts). See eennhhaanncceedd for more informa-
        tion.  bbllaacckktteexxtt forces all text to be written in black even in
        color mode;

        Duplexing in PostScript is the ability of the printer to print
        on both sides of the same sheet of paper.  With ddeeffaauullttpplleexx,
        the default setting of the printer is used; with ssiimmpplleexx only
        one side is printed; dduupplleexx prints on both sides (ignored if
        your printer can't do it).

        ""<<ffoonnttnnaammee>>"" is the name of a valid PostScript font; and <<ffoonntt--
        ssiizzee>> is the size of the font in PostScript points.  In addi-
        tion to the standard postscript fonts, an oblique version of
        the Symbol font, useful for mathematics, is defined. It is
        called "Symbol-Oblique".

        ddeeffaauulltt sets all options to their defaults: llaannddssccaappee, mmoonnoo--
        cchhrroommee, ddaasshheedd, ddll 11..00, llww 11..00, ddeeffaauullttpplleexx, nnooeennhhaanncceedd, "Hel-
        vetica" and 14pt.  Default size of a PostScript plot is 10
        inches wide and 7 inches high.  The option ccoolloorr enables color,
        while mmoonnoocchhrroommee prefers black and white drawing elements. Fur-
        ther, mmoonnoocchhrroommee uses gray ppaalleettttee but it does not change color
        of objects specified with an explicit ccoolloorrssppeecc.  ssoolliidd draws
        all plots with solid lines, overriding any dashed patterns.
        ddaasshhlleennggtthh or ddll scales the length of the dashed-line segments
        by <DL>, which is a floating-point number greater than zero.
        lliinneewwiiddtthh or llww scales all linewidths by <LW>.

        By default the generated PostScript code uses language features










   GNUPLOT 4.1                                                      272


        that were introduced in PostScript Level 2, notably filters and
        pattern-fill of irregular objects such as filledcurves.  Post-
        Script Level 2 features are conditionally protected so that
        PostScript Level 1 interpreters do not issue errors but,
        rather, display a message or a PostScript Level 1 approxima-
        tion.  The lleevveell11 option substitutes PostScript Level 1 approx-
        imations of these features and uses no PostScript Level 2 code.
        This may be required by some old printers and old versions of
        Adobe Illustrator.  The flag lleevveell11 can be toggled later by
        editing a single line in the PostScript output file to force
        PostScript Level 1 interpretation.  In the case of files con-
        taining level 2 code, the above features will not appear or
        will be replaced by a note when this flag is set or when the
        interpreting program does not indicate that it understands
        level 2 PostScript or higher.

        rroouunnddeedd sets line caps and line joins to be rounded; bbuutttt is
        the default, butt caps and mitered joins;

        ppaallffuunnccppaarraamm controls how sseett ppaalleettttee ffuunnccttiioonnss are encoded as
        gradients in the output. Analytic color component functions
        (set via sseett ppaalleettttee ffuunnccttiioonnss) are encoded as linear interpo-
        lated gradients in the postscript output:  The color component
        functions are sampled at <samples> points and all points are
        removed from this gradient which can be removed without chang-
        ing the resulting colors by more than <maxdeviation>. For
        almost every useful palette you may savely leave the defaults
        of <samples>=2000 and <maxdeviation>=0.003 untouched.

        The default size for postscript output is 10 inches x 7 inches.
        The default for eps output is 5 x 3.5 inches.  The ssiizzee option
        changes this to whatever the user requests. By default the X
        and Y sizes are taken to be in inches, but other units are pos-
        sibly (currently only cm). The BoundingBox of the plot is cor-
        rectly adjusted to contain the resized image.  Screen coordi-
        nates always run from 0.0 to 1.0 along the full length of the
        plot edges as specified by the ssiizzee option.  NB: tthhiiss iiss aa
        cchhaannggee ffrroomm tthhee pprreevviioouussllyy rreeccoommmmeennddeedd mmeetthhoodd ooff uussiinngg tthhee sseett
        ssiizzee ccoommmmaanndd pprriioorr ttoo sseettttiinngg tthhee tteerrmmiinnaall ttyyppee.  The old
        method left the BoundingBox unchanged and screen coordinates
        did not correspond to the actual limits of the plot.

        Fonts listed by ffoonnttffiillee or ffoonnttffiillee aadddd encapsulate the font
        definitions of the listed font from a postscript Type 1 or
        TrueType font file directly into the gnuplot output postscript
        file.  Thus, the enclosed font can be used in labels, titles,
        etc.  See the section ppoossttssccrriipptt ffoonnttffiillee for more details.
        With ffoonnttffiillee ddeelleettee, a fontfile is deleted from the list of
        embedded files.  nnooffoonnttffiilleess cleans the list of embedded fonts.

        Examples:
              set terminal postscript default       # old postscript
              set terminal postscript enhanced      # old enhpost










   GNUPLOT 4.1                                                      273


              set terminal postscript landscape 22  # old psbig
              set terminal postscript eps 14        # old epsf1
              set terminal postscript eps 22        # old epsf2
              set size 0.7,1.4; set term post portrait color "Times-
        Roman" 14
              set term post "VAGRoundedBT_Regular" 14 fontfile
        "bvrr8a.pfa"

        Linewidths and pointsizes may be changed with sseett ssttyyllee lliinnee.

        The ppoossttssccrriipptt driver supports about 70 distinct pointtypes,
        selectable through the ppooiinnttttyyppee option on pplloott and sseett ssttyyllee
        lliinnee.

        Several possibly useful files about ggnnuupplloott's PostScript are
        included in the /docs/psdoc subdirectory of the ggnnuupplloott distri-
        bution and at the distribution sites.  These are "ps_sym-
        bols.gpi" (a ggnnuupplloott command file that, when executed, creates
        the file "ps_symbols.ps" which shows all the symbols available
        through the ppoossttssccrriipptt terminal), "ps_guide.ps" (a PostScript
        file that contains a summary of the enhanced syntax and a page
        showing what the octal codes produce with text and symbol
        fonts), "ps_file.doc" (a text file that contains a discussion
        of the organization of a PostScript file written by ggnnuupplloott),
        and "ps_fontfile_doc.tex" (a LaTeX file which contains a short
        documentation concerning the encapsulation of LaTeX fonts with
        a glyph table of the math fonts).

        A PostScript file is editable, so once ggnnuupplloott has created one,
        you are free to modify it to your heart's desire.  See the
        eeddiittiinngg ppoossttssccrriipptt section for some hints.




             5533..5544..11..  EEnnhhaanncceedd ppoossttssccrriipptt


             Several terminal types support an enhanced text mode in
             which additional formatting information is embedded in the
             text string.






















   GNUPLOT 4.1                                                      274


     +--------------------------------------------------------------+
     |Control     Examples      Explanation                         |
     +--------------------------------------------------------------+
     |   ^           a^x        superscript                         |
     |   _           a_x        subscript                           |
     |   @       @x or a@^b_c   phantom box (occupies no width)     |
     |   &         &{space}     inserts space of specified length   |
     |   ~         ~a{.8-}      overprints '-' on 'a', raised by .8 |
     |                          times the current fontsize          |
     +--------------------------------------------------------------+



   Braces can be used to place multiple-character text where a single
   character is expected (e.g., 2^{10}).  To change the font and/or
   size, use the full form:  {/[fontname][=fontsize | *fontscale]
   text}.  Thus {/Symbol=20 G} is a 20-point GAMMA and {/*0.75 K} is a
   K at three-quarters of whatever fontsize is currently in effect.
   (The '/' character MUST be the first character after the '{'.)

   If the encoding vector has been changed by sseett eennccooddiinngg, the default
   encoding vector can be used instead by following the slash with a
   dash.  This is unnecessary if you use the Symbol font, how-
   ever---since /Symbol uses its own encoding vector, ggnnuupplloott will not
   apply any other encoding vector to it.

   The phantom box is useful for a@^b_c to align superscripts and sub-
   scripts but does not work well for overwriting an accent on a let-
   ter.  (To do the latter, it is much better to use 'set encoding
   iso_8859_1' to change to the ISO Latin-1 encoding vector, which con-
   tains a large variety of letters with accents or other diacritical
   marks.)  Since the box is non-spacing, it is sensible to put the
   shorter of the subscript or superscript in the box (that is, after
   the @).

   Space equal in length to a string can be inserted using the '&'
   character.  Thus
           'abc&{def}ghi'
   would produce
           'abc   ghi'.

   The '~' character causes the next character or bracketed text to be
   overprinted by the following character or bracketed text.  The sec-
   ond text will be horizontally centered on the first.  Thus '~a/'
   will result in an 'a' with a slash through it.  You can also shift
   the second text vertically by preceding the second text with a num-
   ber, which will define the fraction of the current fontsize by which
   the text will be raised or lowered.  In this case the number and
   text must be enclosed in brackets because more than one character is
   necessary.  If the overprinted text begins with a number, put a
   space between the vertical offset and the text ('~{abc}{.5 000}');
   otherwise no space is needed ('~{abc}{.5---}').  You can change the
   font for one or both strings ('~a{.5 /*.2 o}'---an 'a' with a one-










   GNUPLOT 4.1                                                      275


   fifth-size 'o' on top---and the space between the number and the
   slash is necessary), but you can't change it after the beginning of
   the string.  Neither can you use any other special syntax within
   either string.  You can, of course, use control characters by escap-
   ing them (see below), such as '~a{\^}'

   You can access special symbols numerically by specifying \character-
   code (in octal), e.g., {/Symbol \245} is the symbol for infinity.

   You can escape control characters using \, e.g.,  \\, \{, and so on.

   But be aware that strings in double-quotes are parsed differently
   than those enclosed in single-quotes.  The major difference is that
   backslashes may need to be doubled when in double-quoted strings.

   Examples (these are hard to describe in words---try them!):
         set xlabel 'Time (10^6 {/Symbol m}s)'
         set title '{/Symbol=18 \362@_{/=9.6 0}^{/=12 x}} \
                    {/Helvetica e^{-{/Symbol m}^2/2} d}{/Symbol m}'

   The file "ps_guide.ps" in the /docs/psdoc subdirectory of the ggnnuu--
   pplloott source distribution contains more examples of the enhanced syn-
   tax.



             5533..5544..22..  EEddiittiinngg ppoossttssccrriipptt


             The PostScript language is a very complex language---far
             too complex to describe in any detail in this document.
             Nevertheless there are some things in a PostScript file
             written by ggnnuupplloott that can be changed without risk of
             introducing fatal errors into the file.

             For example, the PostScript statement "/Color true def"
             (written into the file in response to the command sseett tteerr--
             mmiinnaall ppoossttssccrriipptt ccoolloorr), may be altered in an obvious way
             to generate a black-and-white version of a plot.  Simi-
             larly line colors, text colors, line weights and symbol
             sizes can also be altered in straight-forward ways.  Text
             (titles and labels) can be edited to correct misspellings
             or to change fonts.  Anything can be repositioned, and of
             course anything can be added or deleted, but modifications
             such as these may require deeper knowledge of the Post-
             Script language.

             The organization of a PostScript file written by ggnnuupplloott
             is discussed in the text file "ps_file.doc" in the docs/ps
             subdirectory of the gnuplot source distribution.













   GNUPLOT 4.1                                                      276


             5533..5544..33..  PPoossttssccrriipptt ffoonnttffiillee


             The ffoonnttffiillee or ffoonnttffiillee aadddd option takes one file name as
             argument and encapsulates this file into the postscript
             output in order to make this font available for text ele-
             ments (labels, tic marks, titles, etc.).  The ffoonnttffiillee
             ddeelleettee option also takes one file name as argument. It
             deletes this file name from the list of encapsulated
             files.

             The postscript terminal understands some font file for-
             mats: Type 1 fonts in ASCII file format (extension
             ".pfa"), Type 1 fonts in binary file format (extension
             ".pfb"), and TrueType fonts (extension ".ttf"). Pfa files
             are understood directly, pfb and ttf files are converted
             on the fly if appropriate conversion tools are installed
             (see below). You have to specify the full filename includ-
             ing the extension. Each ffoonnttffiillee option takes exact one
             font file name. This option can be used multiple times in
             order to include more than one font file.

             The font file is searched in the working directory and in
             all directories listed in the fontpath which is determined
             by sseett ffoonnttppaatthh.  In addition, the fontpath can be set
             using the environment variable GNUPLOT_FONTPATH. If this
             is not set a system dependent default search list is used.
             See sseett ffoonnttppaatthh for more details.

             For using the encapsulated font file you have to specify
             the font name (which normally is not the same as the file
             name). When embedding a font file by using the ffoonnttffiillee
             option in interactive mode, the font name is printed on
             the screen. E.g.
                Font file 'p052004l.pfb' contains the font 'URWPalla-
             dioL-Bold'. Location:
                /usr/lib/X11/fonts/URW/p052004l.pfb

             When using pfa or pfb fonts, you can also find it out by
             looking into the font file. There is a line similar to
             "/FontName /URWPalladioL-Bold def".  The middle string
             without the slash is the fontname, here "URWPalladioL-
             Bold".  For TrueType fonts, this is not so easy since the
             font name is stored in a binary format. In addition, they
             often have spaces in the font names which is not supported
             by Type 1 fonts (in which a TrueType is converted on the
             fly). The font names are changed in order to eliminate the
             spaces in the fontnames. The easiest way to find out which
             font name is generated for use with gnuplot, start gnuplot
             in interactive mode and type in "set terminal postscript
             fontfile '<filename.ttf>'".

             For converting font files (either ttf or pfb) to pfa










   GNUPLOT 4.1                                                      277


             format, the conversion tool has to read the font from a
             file and write it to standard output. If the output cannot
             be written to standard output, on-the-fly conversion is
             not possible.

             For pfb files "pfbtops" is a tool which can do this. If
             this program is installed on your system the on the fly
             conversion should work.  Just try to encapsulate a pfb
             file. If the compiled in program call does not work cor-
             rectly you can specify how this program is called by
             defining the environment variable GNUPLOT_PFBTOPFA e.g. to
             "pfbtops %s". The %%ss will be replaced by the font file
             name and thus has to exist in the string.

             If you don't want to do the conversion on the fly but get
             a pfa file of the font you can use the tool "pfb2pfa"
             which is written in simple c and should compile with any c
             compiler.  It is available from many ftp servers, e.g.
                       ftp://ftp.dante.de/tex-archive/fonts/utili-
             ties/ps2mf/
             In fact, "pfbtopfa" and "pfb2ps" do the same job.
             "pfbtopfa" puts the resulting pfa code into a file,
             whereas "pfbtops" writes it to standard output.

             TrueType fonts are converted into Type 1 pfa format, e.g.
             by using the tool "ttf2pt1" which is available from
                       http://ttf2pt1.sourceforge.net/
             If the builtin conversion does not work, the conversion
             command can be changed by the environment variable GNU-
             PLOT_TTFTOPFA. For usage with ttf2pt1 it may be set to
             "ttf2pt1 -a -e -W 0 %s - ". Here again, %%ss stands for the
             file name.

             For special purposes you also can use a pipe (if available
             for your operating system). Therefore you start the file
             name definition with the character "<" and append a pro-
             gram call. This program has to write pfa data to standard
             output. Thus, a pfa file may be accessed by sseett ffoonnttffiillee
             ""<< ccaatt ggaarraammoonndd..ppffaa"".

             For example, including Type 1 font files can be used for
             including the postscript output in LaTeX documents. The
             "european computer modern" font (which is a variant of the
             "computer modern" font) is available in pfb format from
             any CTAN server, e.g.
                       ftp://ftp.dante.de/tex-archive/fonts/ps-
             type1/cm-super/
             For example, the file "sfrm1000.pfb" contains the normal
             upright fonts with serifs in the design size 10pt (font
             name "SFRM1000").  The computer modern fonts, which are
             still necessary for mathematics, are available from
                       ftp://ftp.dante.de/tex-archive/fonts/cm/ps-
             type1/bluesky










   GNUPLOT 4.1                                                      278


             With these you can use any character available in TeX.
             However, the computer modern fonts have a strange encod-
             ing. (This is why you should not use cmr10.pfb for text,
             but sfrm1000.pfb instead.)  The usage of TeX fonts is
             shown in one of the demos.  The file "ps_fontfile_doc.tex"
             in the /docs/psdoc subdirectory of the ggnnuupplloott source dis-
             tribution contains a table with glyphs of the TeX math-
             fonts.

             If the font "CMEX10" is embedded (file "cmex10.pfb") gnu-
             plot defines the additional font "CMEX10-Baseline". It is
             shifted vertically in order to fit better to the other
             glyphs (CMEX10 has its baseline at the top of the sym-
             bols).



             5533..5544..44..  PPoossttssccrriipptt pprroolloogguuee


             Each PostScript output file includes a %%Prolog section
             and possibly some additional user-defined sections con-
             taining, for example, character encodings. These sections
             are copied from a set of PostScript prologue files which
             are either compiled in the gnuplot executable or stored
             elsewhere on your computer. This behaviour and the default
             directory where these files live are controlled at the
             time gnuplot is built. However, you can control this
             either by defining an environment variable GNUPLOT_PS_DIR
             or by using the gnuplot command sseett llooaaddppaatthh. See sseett
             llooaaddppaatthh.





        5533..5555..  PPssllaatteexx aanndd ppsstteexx


        The ppssllaatteexx driver generates output for further processing by
        LaTeX, while the ppsstteexx driver generates output for further pro-
        cessing by TeX. ppssllaatteexx uses \specials understandable by dvips
        and xdvi. Figures generated by ppsstteexx can be included in any
        plain-based format (including LaTeX).

        Syntax:
              set terminal [pslatex | pstex] {default}
              set terminal [pslatex | pstex]
                                      {rotate | norotate}
                                      {oldstyle | newstyle}
                                      {auxfile | noauxfile}
                                      {level1 | leveldefault}
                                      {color | colour | monochrome}










   GNUPLOT 4.1                                                      279


                                      {solid | dashed}
                                      {dashlength | dl <DL>}
                                      {linewidth | lw <LW>}
                                      {rounded | butt}
                                      {palfuncparam <samples>{,<maxde-
        viation>}}
                                      {size <XX>{unit},<YY>{unit}}
                                      {<font_size>}

        If you see the error message
              "Can't find PostScript prologue file ... "
        Please see and follow the instructions in ppoossttssccrriipptt pprroolloogguuee.

        The option ccoolloorr enables color, while mmoonnoocchhrroommee prefers black
        and white drawing elements. Further, mmoonnoocchhrroommee uses gray
        ppaalleettttee but it does not change color of objects specified with
        an explicit ccoolloorrssppeecc.  ssoolliidd draws all plots with solid lines,
        overriding any dashed patterns.  ddaasshhlleennggtthh or ddll scales the
        length of the dashed-line segments by <DL>, which is a float-
        ing-point number greater than zero.  lliinneewwiiddtthh or llww scales all
        linewidths by <LW>.

        By default the generated PostScript code uses language features
        that were introduced in PostScript Level 2, notably filters and
        pattern-fill of irregular objects such as filledcurves.  Post-
        Script Level 2 features are conditionally protected so that
        PostScript Level 1 interpreters do not issue errors but,
        rather, display a message or a PostScript Level 1 approxima-
        tion.  The lleevveell11 option substitutes PostScript Level 1 approx-
        imations of these features and uses no PostScript Level 2 code.
        This may be required by some old printers and old versions of
        Adobe Illustrator.  The flag lleevveell11 can be toggled later by
        editing a single line in the PostScript output file to force
        PostScript Level 1 interpretation.  In the case of files con-
        taining level 2 code, the above features will not appear or
        will be replaced by a note when this flag is set or when the
        interpreting program does not indicate that it understands
        level 2 PostScript or higher.

        rroouunnddeedd sets line caps and line joins to be rounded; bbuutttt is
        the default, butt caps and mitered joins;

        ppaallffuunnccppaarraamm controls how sseett ppaalleettttee ffuunnccttiioonnss are encoded as
        gradients in the output. Analytic color component functions
        (set via sseett ppaalleettttee ffuunnccttiioonnss) are encoded as linear interpo-
        lated gradients in the postscript output:  The color component
        functions are sampled at <samples> points and all points are
        removed from this gradient which can be removed without chang-
        ing the resulting colors by more than <maxdeviation>. For
        almost every useful palette you may savely leave the defaults
        of <samples>=2000 and <maxdeviation>=0.003 untouched.

        The default size for postscript output is 10 inches x 7 inches.










   GNUPLOT 4.1                                                      280


        The default for eps output is 5 x 3.5 inches.  The ssiizzee option
        changes this to whatever the user requests. By default the X
        and Y sizes are taken to be in inches, but other units are pos-
        sibly (currently only cm). The BoundingBox of the plot is cor-
        rectly adjusted to contain the resized image.  Screen coordi-
        nates always run from 0.0 to 1.0 along the full length of the
        plot edges as specified by the ssiizzee option.  NB: tthhiiss iiss aa
        cchhaannggee ffrroomm tthhee pprreevviioouussllyy rreeccoommmmeennddeedd mmeetthhoodd ooff uussiinngg tthhee sseett
        ssiizzee ccoommmmaanndd pprriioorr ttoo sseettttiinngg tthhee tteerrmmiinnaall ttyyppee.  The old
        method left the BoundingBox unchanged and screen coordinates
        did not correspond to the actual limits of the plot.

        if rroottaattee is specified, the y-axis label is rotated.
        <font_size> is the size (in pts) of the desired font.

        If aauuxxffiillee is specified, it directs the driver to put the Post-
        Script commands into an auxiliary file instead of directly into
        the LaTeX file.  This is useful if your pictures are large
        enough that dvips cannot handle them.  The name of the auxil-
        iary PostScript file is derived from the name of the TeX file
        given on the sseett oouuttppuutt command; it is determined by replacing
        the trailing ..tteexx (actually just the final extent in the file
        name) with ..ppss in the output file name, or, if the TeX file has
        no extension, ..ppss is appended.  The ..ppss is included into the
        ..tteexx file by a \special{psfile=...} command.  Remember to close
        the oouuttppuutt ffiillee before next plot unless in mmuullttiipplloott mode.

        Gnuplot versions prior version 4.2 have generated plots of the
        size 5 x 3 inches using the ps(la)tex terminal while the cur-
        rent version generates 5 x 3.5 inches to be consistent with the
        postscript eps terminal.  In addition, the character width is
        now estimated to be 60% of the font size while the old epslatex
        terminal used 50%. To reach the old format specify the option
        oollddssttyyllee.

        The pslatex driver offers a special way of controlling text
        positioning: (a) If any text string begins with '{', you also
        need to include a '}' at the end of the text, and the whole
        text will be centered both horizontally and vertically by
        LaTeX.  (b) If the text string begins with '[', you need to
        continue it with: a position specification (up to two out of
        t,b,l,r), ']{', the text itself, and finally, '}'. The text
        itself may be anything LaTeX can typeset as an LR-box.
        \rule{}{}'s may help for best positioning.

        The options not described here are identical to the PPoossttssccrriipptt
        tteerrmmiinnaall.  Look there if you want to know what they do.

        Examples:
              set term pslatex monochrome dashed rotate       # set to
        defaults
        To write the PostScript commands into the file "foo.ps":
              set term pslatex auxfile










   GNUPLOT 4.1                                                      281


              set output "foo.tex"; plot ...; set output
        About label positioning: Use gnuplot defaults (mostly sensible,
        but sometimes not really best):
               set title '\LaTeX\ -- $ \gamma $'
        Force centering both horizontally and vertically:
               set label '{\LaTeX\ -- $ \gamma $}' at 0,0
        Specify own positioning (top here):
               set xlabel '[t]{\LaTeX\ -- $ \gamma $}'
        The other label -- account for long ticlabels:
               set ylabel '[r]{\LaTeX\ -- $ \gamma $\rule{7mm}{0pt}}'

        Linewidths and pointsizes may be changed with sseett ssttyyllee lliinnee.



        5533..5566..  PPssttrriicckkss


        The ppssttrriicckkss driver is intended for use with the "pstricks.sty"
        macro package for LaTeX.  It is an alternative to the eeeeppiicc and
        llaatteexx drivers.  You need "pstricks.sty", and, of course, a
        printer that understands PostScript, or a converter such as
        Ghostscript.

        PSTricks is available via anonymous ftp from the /pub directory
        at Princeton.edu.  This driver definitely does not come close
        to using the full capability of the PSTricks package.

        Syntax:
              set terminal pstricks {hacktext | nohacktext} {unit |
        nounit}

        The first option invokes an ugly hack that gives nicer numbers;
        the second has to do with plot scaling.  The defaults are hhaacckk--
        tteexxtt and nnoouunniitt.



        5533..5577..  QQmmss


        The qqmmss terminal driver supports the QMS/QUIC Laser printer,
        the Talaris 1200 and others.  It has no options.



        5533..5588..  RReeggiiss


        The rreeggiiss terminal device generates output in the REGIS graph-
        ics language.  It has the option of using 4 (the default) or 16
        colors.











   GNUPLOT 4.1                                                      282


        Syntax:
              set terminal regis {4 | 16}



        5533..5599..  RRggiipp


        The rrggiipp and uunniipplleexx terminal drivers support RGIP metafiles.
        They can combine several graphs on a single page, but only one
        page is allowed in a given output file.

        Syntax:
              set terminal rgip | uniplex {portrait | landscape}
                                          {[<horiz>,<vert>]} {<font-
        size>}

        permissible values for the font size are in the range 1--8,
        with the default being 1.  The default layout is landscape.
        Graphs are placed on the page in a hhoorriizzxvveerrtt grid, which
        defaults to [1,1].

        Example:
              set terminal uniplex portrait [2,3]

        puts six graphs on a page in three rows of two in portrait ori-
        entation.



        5533..6600..  SSuunn


        The ssuunn terminal driver supports the SunView window system.  It
        has no options.



        5533..6611..  SSvvgg


        This terminal produces files in the W3C Scalable Vector Graph-
        ics format.

        Syntax:
              set terminal svg {size <x>,<y> {|fixed|dynamic}}
                               {{no}enhanced}
                               {fname "<font>"} {fsize <fontsize>}
                               {font "<fontname>{,<fontsize>}"}
                               {fontfile <filename>}
                               {rounded|butt} {linewidth <lw>}

        where <x> and <y> are the size of the SVG plot to generate,










   GNUPLOT 4.1                                                      283


        ddyynnaammiicc allows a svg-viewer to resize plot, whereas the default
        setting, ffiixxeedd, will request an absolute size.

        lliinneewwiiddtthh <<ww>> increases the width of all lines used in the fig-
        ure by a factor of <w>.

        <font> is the name of the default font to use (default Arial)
        and <fontsize> is the font size (in points, default 12). Gnu-
        plot does not currently provide a mechanism for embedding fonts
        in the output file, so svg viewing programs may substitute
        other fonts when the file is displayed.

        The svg terminal supports an enhanced text mode, which allows
        font and other formatting commands to be embedded in labels and
        other text strings. The enhanced text mode syntax is shared
        with other gnuplot terminal types. See eennhhaanncceedd for more
        details.

        SVG allows you to embed fonts directly into an SVG document, or
        to provide a hypertext link to the desired font. The ffoonnttffiillee
        option specifies a local file which is copied into the <defs>
        section of the resulting SVG output file.  This file may either
        itself contain a font, or may contain the records necessary to
        create a hypertext reference to the desired font. Gnuplot will
        look for the requested file using the directory list in the
        GNUPLOT_FONTPATH environmental variable.



        5533..6622..  SSvvggaa


        The ssvvggaa terminal driver supports PCs with SVGA graphics.  It
        can only be used if it is compiled with DJGPP.  Its only option
        is the font.

        Syntax:
              set terminal svga {"<fontname>"}



        5533..6633..  TTeekk4400


        This family of terminal drivers supports a variety of VT-like
        terminals.  tteekk4400xxxx supports Tektronix 4010 and others as well
        as most TEK emulators; vvtttteekk supports VT-like tek40xx terminal
        emulators; kkcc--tteekk4400xxxx supports MS-DOS Kermit Tek4010 terminal
        emulators in color: kkmm--tteekk4400xxxx supports them in monochrome;
        sseellaannaarr supports Selanar graphics; and bbiittggrraapphh supports BBN
        Bitgraph terminals.  None have any options.












   GNUPLOT 4.1                                                      284


        5533..6644..  TTeekk441100xx


        The tteekk441100xx terminal driver supports the 410x and 420x family
        of Tektronix terminals.  It has no options.



        5533..6655..  TTeexxddrraaww


        The tteexxddrraaww terminal driver supports the LaTeX texdraw environ-
        ment.  It is intended for use with "texdraw.sty" and "tex-
        draw.tex" in the texdraw package.

        Points, among other things, are drawn using the LaTeX commands
        "\Diamond" and "\Box".  These commands no longer belong to the
        LaTeX2e core; they are included in the latexsym package, which
        is part of the base distribution and thus part of any LaTeX
        implementation.  Please do not forget to use this package.

        It has no options.



        5533..6666..  TTggiiff


        Tgif is an X11-based drawing tool---it has nothing to do with
        GIF.

        The ttggiiff driver supports different pointsizes (with sseett ppooiinntt--
        ssiizzee), different label fonts and font sizes (e.g. sseett llaabbeell
        ""HHaalllloo"" aatt xx,,yy ffoonntt ""HHeellvveettiiccaa,,3344"") and multiple graphs on the
        page.  The proportions of the axes are not changed.

        Syntax:
              set terminal tgif {portrait | landscape | default}
        {<[x,y]>}
                                {monochrome | color}
                                {{linewidth | lw} <LW>}
                                {solid | dashed}
                                {font "<fontname>"} {<fontsize>}

        where <[x,y]> specifies the number of graphs in the x and y
        directions on the page, ccoolloorr enables color, lliinneewwiiddtthh scales
        all linewidths by <LW>, "<fontname>" is the name of a valid
        PostScript font, and <fontsize> specifies the size of the Post-
        Script font.  ddeeffaauullttss sets all options to their defaults: ppoorr--
        ttrraaiitt, [[11,,11]], ccoolloorr, lliinnwwiiddtthh 11..00, ddaasshheedd, ""HHeellvveettiiccaa"", and 1188.

        The ssoolliidd option is usually prefered if lines are colored, as
        they often are in the editor.  Hardcopy will be black-and-










   GNUPLOT 4.1                                                      285


        white, so ddaasshheedd should be chosen for that.

        Multiplot is implemented in two different ways.

        The first multiplot implementation is the standard gnuplot mul-
        tiplot feature:

              set terminal tgif
              set output "file.obj"
              set multiplot
              set origin x01,y01
              set size  xs,ys
              plot ...
                   ...
              set origin x02,y02
              plot ...
              unset multiplot

        See sseett mmuullttiipplloott for further information.

        The second version is the [x,y] option for the driver itself.
        The advantage of this implementation is that everything is
        scaled and placed automatically without the need for setting
        origins and sizes; the graphs keep their natural x/y propor-
        tions of 3/2 (or whatever is fixed by sseett ssiizzee).

        If both multiplot methods are selected, the standard method is
        chosen and a warning message is given.

        Examples of single plots (or standard multiplot):
              set terminal tgif                  # defaults
              set terminal tgif "Times-Roman" 24
              set terminal tgif landscape
              set terminal tgif landscape solid

        Examples using the built-in multiplot mechanism:
              set terminal tgif portrait [2,4]  # portrait; 2 plots in
        the x-
                                                # and 4 in the y-direc-
        tion
              set terminal tgif [1,2]           # portrait; 1 plot in
        the x-
                                                # and 2 in the y-direc-
        tion
              set terminal tgif landscape [3,3] # landscape; 3 plots in
        both
                                                # directions
















   GNUPLOT 4.1                                                      286


        5533..6677..  TTkkccaannvvaass


        This terminal driver generates Tk canvas widget commands based
        on Tcl/Tk (default) or Perl.  To use it, rebuild ggnnuupplloott (after
        uncommenting or inserting the appropriate line in "term.h"),
        then

         gnuplot> set term tkcanvas {perltk} {interactive}
         gnuplot> set output 'plot.file'

        After invoking "wish", execute the following sequence of Tcl/Tk
        commands:

         % source plot.file
         % canvas .c
         % pack .c
         % gnuplot .c

        Or, for Perl/Tk use a program like this:

         use Tk;
         my $top = MainWindow->new;
         my $c = $top->Canvas->pack;
         my $gnuplot = do "plot.pl";
         $gnuplot->($c);
         MainLoop;

        The code generated by ggnnuupplloott creates a procedure called "gnu-
        plot" that takes the name of a canvas as its argument.  When
        the procedure is called, it clears the canvas, finds the size
        of the canvas and draws the plot in it, scaled to fit.

        For 2-dimensional plotting (pplloott) two additional procedures are
        defined: "gnuplot_plotarea" will return a list containing the
        borders of the plotting area "xleft, xright, ytop, ybot" in
        canvas screen coordinates, while the ranges of the two axes
        "x1min, x1max, y1min, y1max, x2min, x2max, y2min, y2max" in
        plot coordinates can be obtained calling "gnuplot_axisranges".
        If the "interactive" option is specified, mouse clicking on a
        line segment will print the coordinates of its midpoint to std-
        out. Advanced actions can happen instead if the user supplies a
        procedure named "user_gnuplot_coordinates", which takes the
        following arguments: "win id x1s y1s x2s y2s x1e y1e x2e y2e
        x1m y1m x2m y2m", the name of the canvas and the id of the line
        segment followed by the coordinates of its start and end point
        in the two possible axis ranges; the coordinates of the mid-
        point are only filled for logarithmic axes.

        The current version of ttkkccaannvvaass supports neither mmuullttiipplloott nor
        rreepplloott.












   GNUPLOT 4.1                                                      287


        5533..6688..  TTppiicc


        The ttppiicc terminal driver supports the LaTeX picture environment
        with tpic \specials.  It is an alternative to the llaatteexx and
        eeeeppiicc terminal drivers.  Options are the point size, line
        width, and dot-dash interval.

        Syntax:
              set terminal tpic <pointsize> <linewidth> <interval>

        where ppooiinnttssiizzee and lliinneewwiiddtthh are integers in milli-inches and
        iinntteerrvvaall is a float in inches.  If a non-positive value is
        specified, the default is chosen: pointsize = 40, linewidth =
        6, interval = 0.1.

        All drivers for LaTeX offer a special way of controlling text
        positioning: If any text string begins with '{', you also need
        to include a '}' at the end of the text, and the whole text
        will be centered both horizontally and vertically by LaTeX. ---
        If the text string begins with '[', you need to continue it
        with: a position specification (up to two out of t,b,l,r),
        ']{', the text itself, and finally, '}'. The text itself may be
        anything LaTeX can typeset as an LR-box. \rule{}{}'s may help
        for best positioning.

        Examples: About label positioning: Use gnuplot defaults (mostly
        sensible, but sometimes not really best):
               set title '\LaTeX\ -- $ \gamma $'
        Force centering both horizontally and vertically:
               set label '{\LaTeX\ -- $ \gamma $}' at 0,0
        Specify own positioning (top here):
               set xlabel '[t]{\LaTeX\ -- $ \gamma $}'
        The other label -- account for long ticlabels:
               set ylabel '[r]{\LaTeX\ -- $ \gamma $\rule{7mm}{0pt}}'



        5533..6699..  UUnniixxppcc


        The uunniixxppcc terminal driver supports AT&T 3b1 and AT&T 7300 Unix
        PC.  It has no options.



        5533..7700..  UUnniixxpplloott


        The uunniixxpplloott terminal driver generates output in the Unix
        "plot" graphics language.  It has no options.

        This terminal cannot be compiled if the GNU version of plot is










   GNUPLOT 4.1                                                      288


        to be used; in that case, use the ggnnuuggrraapphh terminal instead.



        5533..7711..  AAttaarrii SSTT ((vviiaa VVDDII))


        The vvddii terminal is the same as the aattaarrii terminal, except that
        it sends output to the screen via the VDI and not into AES-Win-
        dows.

        The vvddii terminal has options to set the character size and the
        screen colors.

        Syntax:
              set terminal vdi {<fontsize>} {<col0> <col1> ... <col15>}

        The character size must appear if any colors are to be speci-
        fied.  Each of the (up to 16) colors is given as a three-digit
        hex number, where the digits represent RED, GREEN and BLUE (in
        that order).  The range of 0--15 is scaled to whatever color
        range the screen actually has.  On a normal ST screen, odd and
        even intensities are the same.

        Examples:
              set terminal vdi 4    # use small (6x6) font
              set terminal vdi 6 0  # set monochrome screen to white on
        black
              set terminal vdi 13 0 fff f00 f0 f ff f0f
                         # set first seven colors to black, white, red,
        green,
                         # blue, cyan, and purple and use large font
        (8x16).

        Additionally, if an environment variable GNUCOLORS exists, its
        contents are interpreted as an options string, but an explicit
        terminal option takes precedence.



        5533..7722..  VVggaaggll


        The vvggaaggll driver is a fast linux console driver with full mouse
        and pm3d support.  It looks at the environment variable
        SVGALIB_DEFAULT_MODE for the default mode; if not set, it uses
        a 256 color mode with the highest available resolution.

        Syntax:
           set terminal vgagl \
                        background [red] [[green] [blue]] \
                        [uniform | interpolate] \
                        [mode]










   GNUPLOT 4.1                                                      289


        The color mode can also be given with the mode option. Both
        Symbolic names as G1024x768x256 and integers are allowed. The
        bbaacckkggrroouunndd option takes either one or three integers in the
        range [0, 255]. If only one integers is supplied, it is taken
        as gray value for the background.  If three integers are
        present, the background gets the corresponding color.  The
        (mutually exclusive) options iinntteerrppoollaattee and uunniiffoorrmm control if
        color interpolation is done while drawing triangles (on by
        default).

        To get high resolution modes, you will probably have to modify
        the configuration file of libvga, usually /etc/vga/libvga.conf.
        Using the VESA fb is a good choice, but this needs to be com-
        piled in the kernel.

        The vgagl driver uses the first *available* vga mode from the
        following list:
         - the driver which was supplied when setting vgagl, e.g. `set
        term vgagl
           G1024x768x256` would first check, if the G1024x768x256 mode
        is available.
         - the environment variable SVGALIB_DEFAULT_MODE
         - G1024x768x256
         - G800x600x256
         - G640x480x256
         - G320x200x256
         - G1280x1024x256
         - G1152x864x256
         - G1360x768x256
         - G1600x1200x256




        5533..7733..  VVWWSS


        The VVWWSS terminal driver supports the VAX Windowing System.  It
        has no options.  It will sense the display type (monochrome,
        gray scale, or color.)  All line styles are plotted as solid
        lines.



        5533..7744..  VVxx338844


        The vvxx338844 terminal driver supports the Vectrix 384 and Tandy
        color printers.  It has no options.














   GNUPLOT 4.1                                                      290


        5533..7755..  WWiinnddoowwss


        Three options may be set in the wwiinnddoowwss terminal driver.

        Syntax:
              set terminal windows {color | monochrome}
                                   {enhanced | noenhanced}
                                   {{font} "fontname{,fontsize}"
        {<fontsize>}}

        where ccoolloorr and mmoonnoocchhrroommee select colored or mono output,
        eennhhaanncceedd enables enhanced text mode features (subscripts,
        superscripts and mixed fonts). See eennhhaanncceedd for more informa-
        tion.  ""<<ffoonnttnnaammee>>"" is the name of a valid Windows font, and
        <<ffoonnttssiizzee>> is the size of the font in points.

        Other options may be set with the graph-menu, the initializa-
        tion file, and sseett lliinneessttyyllee.  Note that there is one restric-
        tion imposed by the classic Windows GDI interface: modifiable
        linewidth only works with solid lines, not with dotted or
        dashed ones.

        The Windows version normally terminates immediately as soon as
        the end of any files given as command line arguments is reached
        (i.e. in non-interactive mode), unless you specify -- as the
        last command line option.  It will also not show the text-win-
        dow at all, in this mode, only the plot.  By giving the
        optional argument --ppeerrssiisstt (same as for gnuplot under x11; for-
        mer Windows-only options //nnooeenndd or --nnooeenndd are still accepted as
        well), will not close gnuplot. Contrary to gnuplot on other
        operating systems, gnuplot's interactive command line is acces-
        sible after the -persist option.




             5533..7755..11..  GGrraapphh--mmeennuu


             The ggnnuupplloott ggrraapphh window has the following options on a
             pop-up menu accessed by pressing the right mouse button or
             selecting OOppttiioonnss from the system menu:

             BBrriinngg ttoo TToopp when checked brings the graph window to the
             top after every plot.

             CCoolloorr when checked enables color linestyles.  When
             unchecked it forces monochrome linestyles.

             CCooppyy ttoo CClliippbbooaarrdd copies a bitmap and a Metafile picture.

             BBaacckkggrroouunndd...... sets the window background color.










   GNUPLOT 4.1                                                      291


             CChhoooossee FFoonntt...... selects the font used in the graphics win-
             dow.

             LLiinnee SSttyylleess...... allows customization of the line colors and
             styles.

             PPrriinntt...... prints the graphics windows using a Windows
             printer driver and allows selection of the printer and
             scaling of the output.  The output produced by PPrriinntt is
             not as good as that from ggnnuupplloott's own printer drivers.

             UUppddaattee wwggnnuupplloott..iinnii saves the current window locations,
             window sizes, text window font, text window font size,
             graph window font, graph window font size, background
             color and linestyles to the initialization file WWGGNNUU--
             PPLLOOTT..IINNII.



             5533..7755..22..  PPrriinnttiinngg


             In order of preference, graphs may be be printed in the
             following ways.

             11.. Use the ggnnuupplloott command sseett tteerrmmiinnaall to select a
             printer and sseett oouuttppuutt to redirect output to a file.

             22.. Select the PPrriinntt...... command from the ggnnuupplloott ggrraapphh win-
             dow.  An extra command ssccrreeeenndduummpp does this from the text
             window.

             33.. If sseett oouuttppuutt ""PPRRNN"" is used, output will go to a tempo-
             rary file.  When you exit from ggnnuupplloott or when you change
             the output with another sseett oouuttppuutt command, a dialog box
             will appear for you to select a printer port.  If you
             choose OK, the output will be printed on the selected
             port, passing unmodified through the print manager.  It is
             possible to accidentally (or deliberately) send printer
             output meant for one printer to an incompatible printer.



             5533..7755..33..  TTeexxtt--mmeennuu


             The ggnnuupplloott tteexxtt window has the following options on a
             pop-up menu accessed by pressing the right mouse button or
             selecting OOppttiioonnss from the system menu:

             CCooppyy ttoo CClliippbbooaarrdd copies marked text to the clipboard.

             PPaassttee copies text from the clipboard as if typed by the










   GNUPLOT 4.1                                                      292


             user.

             CChhoooossee FFoonntt...... selects the font used in the text window.

             SSyysstteemm CCoolloorrss when selected makes the text window honor
             the System Colors set using the Control Panel.  When unse-
             lected, text is black or blue on a white background.

             UUppddaattee wwggnnuupplloott..iinnii saves the current text window loca-
             tion, text window size, text window font and text window
             font size to the initialisation file WWGGNNUUPPLLOOTT..IINNII.

             MMEENNUU BBAARR

             If the menu file WWGGNNUUPPLLOOTT..MMNNUU is found in the same direc-
             tory as WGNUPLOT.EXE, then the menu specified in WWGGNNUU--
             PPLLOOTT..MMNNUU will be loaded.  Menu commands:

             [Menu] starts a new menu with the name on the following
             line.

             [EndMenu] ends the current menu.

             [--] inserts a horizontal menu separator.

             [|] inserts a vertical menu separator.

             [Button] puts the next macro on a push button instead of a
             menu.

             Macros take two lines with the macro name (menu entry) on
             the first line and the macro on the second line.  Leading
             spaces are ignored.  Macro commands:

             [INPUT] --- Input string with prompt terminated by [EOS]
             or {ENTER}

             [EOS] --- End Of String terminator.  Generates no output.

             [OPEN] --- Get name of file to open from list box, with
             title of list box terminated by [EOS], followed by default
             filename terminated by [EOS] or {ENTER}.  This uses COM-
             MDLG.DLL from Windows 3.1.

             [SAVE] --- Get name of file to save.  Similar to [OPEN]

             Macro character substitutions:

             {ENTER} --- Carriage Return '\r'

             {TAB} --- Tab '\011'

             {ESC} --- Escape '\033'










   GNUPLOT 4.1                                                      293


             {^A} --- '\001'

             ...

             {^_} --- '\031'

             Macros are limited to 256 characters after expansion.



             5533..7755..44..  WWggnnuupplloott..iinnii


             Windows ggnnuupplloott will read some of its options from the
             [[WWGGNNUUPPLLOOTT]] section of WWGGNNUUPPLLOOTT..IINNII in user's %APPDATA%
             directory.  A sample WWGGNNUUPPLLOOTT..IINNII file:

                   [WGNUPLOT]
                   TextOrigin=0 0
                   TextSize=640 150
                   TextFont=Terminal,9
                   GraphOrigin=0 150
                   GraphSize=640 330
                   GraphFont=Arial,10
                   GraphColor=1
                   GraphToTop=1
                   GraphBackground=255 255 255
                   Border=0 0 0 0 0
                   Axis=192 192 192 2 2
                   Line1=0 0 255 0 0
                   Line2=0 255 0 0 1
                   Line3=255 0 0 0 2
                   Line4=255 0 255 0 3
                   Line5=0 0 128 0 4

             The GGrraapphhFFoonntt entry specifies the font name and size in
             points.  The five numbers given in the BBoorrddeerr, AAxxiiss and
             LLiinnee entries are the RReedd intensity (0--255), GGrreeeenn inten-
             sity, BBlluuee intensity, CCoolloorr LLiinneessttyyllee and MMoonnoo LLiinneessttyyllee.
             LLiinneessttyylleess are 0=SOLID, 1=DASH, 2=DOT, 3=DASHDOT, 4=DASH-
             DOTDOT.  In the sample WWGGNNUUPPLLOOTT..IINNII file above, Line 2 is
             a green solid line in color mode, or a dashed line in
             monochrome mode.  The default line width is 1 pixel.  If
             LLiinneessttyyllee is negative, it specifies the width of a SOLID
             line in pixels.  Line1 and any linestyle used with the
             ppooiinnttss style must be SOLID with unit width.



             5533..7755..55..  WWiinnddoowwss33..00













   GNUPLOT 4.1                                                      294


             Windows 3.1 is preferred, but WGNUPLOT will run under Win-
             dows 3.0 with the following restrictions: 11.. COMMDLG.DLL
             and SHELL.DLL (available with Windows 3.1 or Borland C++
             3.1) must be in the windows directory.

             22.. WGNUPLOT.HLP produced by Borland C++ 3.1 is in Windows
             3.1 format.  You need to use the WINHELP.EXE supplied with
             Borland C++ 3.1.

             33.. It will not run in real mode due to lack of memory.

             44.. TrueType fonts are not available in the graph window.

             55.. Drag-drop does not work.



        5533..7766..  WWxxtt


        The wwxxtt terminal device generates output in a separate window.
        The window is created by the wxWidgets library, where the 'wxt'
        comes from. The actual drawing is done via cairo, a 2D graphics
        library, and pango, a library for laying out and rendering
        text.

        Syntax:
                set term wxt {<n>}
                             {{no}enhanced}
                             {font <font>}
                             {title "title"}
                             {{no}persist}
                             {{no}raise}
                             {{no}ctrl}
                             {close}

        Multiple plot windows are supported: sseett tteerrmmiinnaall wwxxtt <<nn>>
        directs the output to plot window number n.

        The default window title is based on the window number. This
        title can also be specified with the keyword "title".

        Plot windows remain open even when the ggnnuupplloott driver is
        changed to a different device.  A plot window can be closed by
        pressing the letter 'q' while that window has input focus, by
        choosing cclloossee from a window manager menu, or with sseett tteerrmm wwxxtt
        <<nn>> cclloossee.

        When you resize a window, the plot is immediately scaled to fit
        in the new size of the window. Unlike other interactive termi-
        nals, the wwxxtt terminal scales the whole plot, including fonts
        and linewidths, and keeps its global aspect ratio constant,
        leaving an empty space painted in gray.  If you type rreepplloott,










   GNUPLOT 4.1                                                      295


        click the rreepplloott icon in the terminal toolbar or type a new
        pplloott command, the new plot will completely fit in the window
        and the font size and the linewidths will be reset to their
        defaults.

        The active plot window (the one selected by sseett tteerrmm wwxxtt <<nn>>)
        is interactive. Its behaviour is shared with other terminal
        types. See mmoouussee for details. It also has some extra icons,
        which are supposed to be self-explanatory.

        This terminal supports an enhanced text mode, which allows font
        and other formatting commands (subscripts, superscripts, etc.)
        to be embedded in labels and other text strings. The enhanced
        text mode syntax is shared with other gnuplot terminal types.
        See eennhhaanncceedd for more details.

        <font> is in the format "FontFace,FontSize", i.e. the face and
        the size comma-separated in a single string. FontFace is a
        usual font face name, such as 'Arial'. If you do not provide
        FontFace, the wxt terminal will use 'Sans'. FontSize is the
        font size, in points. If you do not provide it, the wxt termi-
        nal will use a size of 10 points.
           For example :
              set term wxt font "Arial,12"
              set term wxt font "Arial" # to change the font face only
              set term wxt font ",12" # to change the font size only
              set term wxt font "" # to reset the font name and size

        The fonts are retrieved from the usual fonts subsystems. Under
        Windows, those fonts are to be found and configured in the
        entry "Fonts" of the control panel. Under UNIX, they are han-
        dled by "fontconfig".

        Pango, the library used to layout the text, is based on utf-8.
        Thus, the wxt terminal has to convert from your encoding to
        utf-8. The default input encoding is based on your 'locale'. If
        you want to use another encoding, make sure gnuplot knows which
        one you are using. See eennccooddiinngg for more details.

        Pango may give unexpected results with fonts that do not
        respect the unicode mapping. With the Symbol font, for example,
        the wxt terminal will use the map provided by http://www.uni-
        code.org/ to translate character codes to unicode.  Pango will
        do its best to find a font containing this character, looking
        for your Symbol font, or other fonts with a broad unicode cov-
        erage, like the DejaVu fonts. Note that "the Symbol font" is to
        be understood as the Adobe Symbol font, distributed with Acro-
        bat Reader as "SY______.PFB".  Alternatively, the OpenSymbol
        font, distributed with OpenOffice.org as "opens___.ttf", offers
        the same characters. Microsoft has distributed a Symbol font
        ("symbol.ttf"), but it has a different character set with sev-
        eral missing or moved mathematic characters. If you experience
        problems with your default setup (if the demo enhancedtext.dem










   GNUPLOT 4.1                                                      296


        is not displayed properly for example), you probably have to
        install one of the Adobe or OpenOffice Symbol fonts, and remove
        the Microsoft one.  Other non-conform fonts, such as
        "wingdings" have been observed working.

        The rendering of the plot can be altered with a dialog avail-
        able from the toolbar. To obtain the best output possible, the
        rendering involves three mechanisms : antialiasing, oversam-
        pling and hinting.  Antialiasing allows to display non-horizon-
        tal and non-vertical lines smoother.  Oversampling combined
        with antialiasing provides subpixel accuracy, so that gnuplot
        can draw a line from non-integer coordinates. This avoids wob-
        bling effects on diagonal lines ('plot x' for example).  Hint-
        ing avoids the blur on horizontal and vertical lines caused by
        oversampling. The terminal will snap these lines to integer
        coordinates so that a one-pixel-wide line will actually be
        drawn on one and only one pixel.

        By default, the window is raised to the top of your desktop
        when a plot is drawn. This can be controlled with the keyword
        "raise".  The keyword "persist" will prevent gnuplot from exit-
        ing before you explicitely close all the plot windows.
        Finally, by default the key <space> raises the gnuplot console
        window, and 'q' closes the plot window. The keyword "ctrl"
        allows you to replace those bindings by <ctrl>+<space> and
        <ctrl>+'q', respectively.  These three keywords (raise, persist
        and ctrl) can also be set and remembered between sessions
        through the configuration dialog.



        5533..7777..  XX1111


        ggnnuupplloott provides the xx1111 terminal type for use with X servers.
        This terminal type is set automatically at startup if the DDIISS--
        PPLLAAYY environment variable is set, if the TTEERRMM environment vari-
        able is set to xxtteerrmm, or if the --ddiissppllaayy command line option is
        used.

        Syntax:
           set terminal x11 {<n>}
                            {title "<string>"}
                            {{no}enhanced} {font <fontspec>}
                            {linewidth LW} {solid|dashed}
                            {{no}persist} {{no}raise} {{no}ctrlq}
                            {close}
           set terminal x11 {reset}

        Multiple plot windows are supported: sseett tteerrmmiinnaall xx1111 <<nn>>
        directs the output to plot window number n.  If n is not 0, the
        terminal number will be appended to the window title (unless a
        title has been supplied manually) and the icon will be labeled










   GNUPLOT 4.1                                                      297


        GGnnuupplloott <<nn>>.  The active window may be distinguished by a
        change in cursor (from default to crosshair).

        The x11 terminal support enhanced text mode (see eennhhaanncceedd),
        subject to the available fonts. In order for font size commands
        embedded in text to have any effect, the default x11 font must
        be scalable. Thus the first example below will work as
        expected, but the second will not.

           set term x11 enhanced font "arial,15"
           set title '{/=20 Big} Medium {/=5 Small}'

           set term x11 enhanced font "terminal-14"
           set title '{/=20 Big} Medium {/=5 Small}'

        Plot windows remain open even when the ggnnuupplloott driver is
        changed to a different device.  A plot window can be closed by
        pressing the letter q while that window has input focus, or by
        choosing cclloossee from a window manager menu.  All plot windows
        can be closed by specifying rreesseett, which actually terminates
        the subprocess which maintains the windows (unless --ppeerrssiisstt was
        specified).  The cclloossee command can be used to close individual
        plot windows by number.  However, after a rreesseett, those plot
        windows left due to persist cannot be closed with the command
        cclloossee.  A cclloossee without a number closes the current active plot
        window.

        The gnuplot outboard driver, gnuplot_x11, is searched in a
        default place chosen when the program is compiled.  You can
        override that by defining the environment variable GNU-
        PLOT_DRIVER_DIR to point to a different location.

        Plot windows will automatically be closed at the end of the
        session unless the --ppeerrssiisstt option was given.

        The options ppeerrssiisstt and rraaiissee are unset by default, which means
        that the defaults (persist == no and raise == yes) or the com-
        mand line options -persist / -raise or the Xresources are
        taken.  If [no]persist or [no]raise are specified, they will
        override command line options and Xresources.  Setting one of
        these options takes place immediately, so the behaviour of an
        already running driver can be modified.  If the window does not
        get raised, see discussion in rraaiissee.

        The option ttiittllee ""<<ttiittllee nnaammee>>"" will supply the title name of
        the window for the current plot window or plot window <n> if a
        number is given.  Where (or if) this title is shown depends on
        your X window manager.

        The size or aspect ratio of a plot may be changed by resizing
        the ggnnuupplloott window.

        Linewidths and pointsizes may be changed from within ggnnuupplloott










   GNUPLOT 4.1                                                      298


        with sseett lliinneessttyyllee.

        For terminal type xx1111, ggnnuupplloott accepts (when initialized) the
        standard X Toolkit options and resources such as geometry,
        font, and name from the command line arguments or a configura-
        tion file.  See the X(1) man page (or its equivalent) for a
        description of such options.

        A number of other ggnnuupplloott options are available for the xx1111
        terminal.  These may be specified either as command-line
        options when ggnnuupplloott is invoked or as resources in the configu-
        ration file ".Xdefaults".  They are set upon initialization and
        cannot be altered during a ggnnuupplloott session.  (except ppeerrssiisstt
        and rraaiissee)




             5533..7777..11..  XX1111__ffoonnttss


             Upon initial startup, the default font is taken from the
             X11 resources as set in the system or user .Xdefaults file
             or on the command line.

             Example:
                   gnuplot*font: lucidasans-bold-12
             A new default font may be specified to the x11 driver from
             inside gnuplot using
                  `set term x11 font "<fontspec>"`
             The driver first queries the X-server for a font of the
             exact name given.  If this query fails, then it tries to
             interpret <fontspec> as "<font>,<size>,<slant>,<weight>"
             and to construct a full X11 font name of the form
                   -*-<font>-<weight>-<s>-*-*-<size>-*-*-*-*-*-<encod-
             ing>

              <font> is the base name of the font (e.g. Times or Sym-
             bol)
              <size> is the point size (defaults to 12 if not speci-
             fied)
              <s> is `i` if <slant>=="italic" `o` if <slant>=="oblique"
             `r` otherwise
              <weight> is `medium` or `bold` if explicitly requested,
             otherwise `*`
              <encoding> is set based on the current character set (see
             `set encoding`).
             So sseett tteerrmm xx1111 ffoonntt ""aarriiaall,,1155,,iittaalliicc"" will be translated
             to -*-arial-*-i-*-*-15-*-*-*-*-*-iso8859-1 (assuming
             default encoding).  The <size>, <slant>, and <weight>
             specifications are all optional.  If you do not specify
             <slant> or <weight> then you will get whatever font vari-
             ant the font server offers first.  You may set a default










   GNUPLOT 4.1                                                      299


             enconding via the corresponding X11 resource. E.g.
                   gnuplot*encoding: iso8859-15
             The driver also recognizes some common PostScript font
             names and replaces them with possible X11 or TrueType
             equivalents.  This same sequence is used to process font
             requests from sseett llaabbeell.

             If your gnuplot was built with configuration option
             --enable-x11-mbfonts, you can specify multi-byte fonts by
             using the prefix "mbfont:" on the font name. An additional
             font may be given, separated by a semicolon.  Since multi-
             byte font encodings are interpreted according to the
             locale setting, you must make sure that the environmental
             variable LC_CTYPE is set to some appropriate locale value
             such as ja_JP.eucJP, ko_KR.EUC, or zh_CN.EUC.

             Example:
                   set term x11 font 'mbfont:kana14;k14'
                         # 'kana14' and 'k14' are Japanese X11 font
             aliases, and ';'
                         # is the separator of font names.
                   set term x11 font 'mbfont:fixed,16,r,medium'
                         # <font>,<size>,<slant>,<weight> form is also
             usable.
                   set title '(mb strings)' font 'mbfont:*-fixed-
             medium-r-normal--14-*'

             The same syntax applies to the default font in Xresources
             settings, for example,
                   gnuplot*font: \
                       mbfont:-misc-fixed-medium-r-nor-
             mal--14-*-*-*-c-*-jisx0208.1983-0

             If gnuplot is built with --enable-x11-mbfonts, you can use
             two special PostScript font names 'Ryumin-Light-*' and
             'GothicBBB-Medium-*' (standard Japanese PS fonts) without
             the prefix "mbfont:".




             5533..7777..22..  CCoommmmaanndd--lliinnee__ooppttiioonnss


             In addition to the X Toolkit options, the following
             options may be specified on the command line when starting
             ggnnuupplloott or as resources in your ".Xdefaults" file (note
             that rraaiissee and ppeerrssiisstt can be overridden later by sseett tteerrmm
             xx1111 [[nnoo]]rraaiissee [[nnoo]]ppeerrssiisstt)):














   GNUPLOT 4.1                                                      300


   +-----------------------------------------------------------------------------+
   |  `-mono`      forces monochrome rendering on color displays.                |
   |  `-gray`      requests grayscale rendering on grayscale or color displays.  |
   |               (Grayscale displays receive monochrome rendering by default.) |
   |  `-clear`     requests that the window be cleared momentarily before a      |
   |               new plot is displayed.                                        |
   |  `-tvtwm`     requests that geometry specifications for position of the     |
   |               window be made relative to the currently displayed portion    |
   |               of the virtual root.                                          |
   |  `-raise`     raises plot window after each plot                            |
   | `-noraise`    does not raise plot window after each plot                    |
   |`-novevents`   does not process mouse and key events                         |
   |  `-ctrlq`     closes window on ctrl-q rather than q                         |
   | `-persist`    plot windows survive after main gnuplot program exits         |
   +-----------------------------------------------------------------------------+


   The options are shown above in their command-line syntax.  When
   entered as resources in ".Xdefaults", they require a different syn-
   tax.

   Example:
         gnuplot*gray:  on
         gnuplot*ctrlq: on

   ggnnuupplloott also provides a command line option (--ppooiinnttssiizzee <<vv>>) and a
   resource, ggnnuupplloott**ppooiinnttssiizzee:: <<vv>>, to control the size of points
   plotted with the ppooiinnttss plotting style.  The value vv is a real num-
   ber (greater than 0 and less than or equal to ten) used as a scaling
   factor for point sizes.  For example, --ppooiinnttssiizzee 22 uses points twice
   the default size, and --ppooiinnttssiizzee 00..55 uses points half the normal
   size.

   The --nnooeevveennttss switch disables all mouse and key event processing
   (except for qq and <<ssppaaccee>> for closing the window). This is useful
   for programs which use the x11 driver independent of the gnuplot
   main program.

   The --ccttrrllqq switch changes the hot-key that closes a plot window from
   qq to <<ccttrrll>>qq. This is useful is you are using the keystroke-capture
   feature ppaauussee mmoouussee kkeeyyssttrrookkee, since it allows the character qq to be
   captured just as all other alphanumeric characters. The --ccttrrllqq
   switch similarly replaces the <space> hot-key with <ctrl><space> for
   the same reason.




             5533..7777..33..  MMoonnoocchhrroommee__ooppttiioonnss


             For monochrome displays, ggnnuupplloott does not honor foreground
             or background colors.  The default is black-on-white.  --rrvv










   GNUPLOT 4.1                                                      301


             or ggnnuupplloott**rreevveerrsseeVViiddeeoo:: oonn requests white-on-black.




             5533..7777..44..  CCoolloorr__rreessoouurrcceess


             For color displays, ggnnuupplloott honors the following resources
             (shown here with their default values) or the greyscale
             resources.  The values may be color names as listed in the
             X11 rgb.txt file on your system, hexadecimal RGB color
             specifications (see X11 documentation), or a color name
             followed by a comma and an iinntteennssiittyy value from 0 to 1.
             For example, bblluuee,, 00..55 means a half intensity blue.



                    +--------------------------------+
                    |    gnuplot*background: white   |
                    |    gnuplot*textColor: black    |
                    |    gnuplot*borderColor: black  |
                    |    gnuplot*axisColor: black    |
                    |    gnuplot*line1Color: red     |
                    |    gnuplot*line2Color: green   |
                    |    gnuplot*line3Color: blue    |
                    |    gnuplot*line4Color: magenta |
                    |    gnuplot*line5Color: cyan    |
                    |    gnuplot*line6Color: sienna  |
                    |    gnuplot*line7Color: orange  |
                    |    gnuplot*line8Color: coral   |
                    +--------------------------------+



   The command-line syntax for these is simple only for background,
   which maps directly to the usual X11 toolkit option "-bg".  All oth-
   ers can only be set on the command line by use of the generic "-xrm"
   resource override option

   Examples:

         gnuplot -background coral
   to change the background color.

         gnuplot -xrm 'gnuplot*line1Color:blue'
   to override the first linetype color.
















   GNUPLOT 4.1                                                      302


             5533..7777..55..  GGrraayyssccaallee__rreessoouurrcceess


             When --ggrraayy is selected, ggnnuupplloott honors the following
             resources for grayscale or color displays (shown here with
             their default values).  Note that the default background
             is black.



                     +-------------------------------+
                     |    gnuplot*background: black  |
                     |    gnuplot*textGray: white    |
                     |    gnuplot*borderGray: gray50 |
                     |    gnuplot*axisGray: gray50   |
                     |    gnuplot*line1Gray: gray100 |
                     |    gnuplot*line2Gray: gray60  |
                     |    gnuplot*line3Gray: gray80  |
                     |    gnuplot*line4Gray: gray40  |
                     |    gnuplot*line5Gray: gray90  |
                     |    gnuplot*line6Gray: gray50  |
                     |    gnuplot*line7Gray: gray70  |
                     |    gnuplot*line8Gray: gray30  |
                     +-------------------------------+






             5533..7777..66..  LLiinnee__rreessoouurrcceess


             ggnnuupplloott honors the following resources for setting the
             width (in pixels) of plot lines (shown here with their
             default values.)  0 or 1 means a minimal width line of 1
             pixel width.  A value of 2 or 3 may improve the appearance
             of some plots.

























   GNUPLOT 4.1                                                      303


                       +---------------------------+
                       |    gnuplot*borderWidth: 2 |
                       |    gnuplot*axisWidth: 0   |
                       |    gnuplot*line1Width: 0  |
                       |    gnuplot*line2Width: 0  |
                       |    gnuplot*line3Width: 0  |
                       |    gnuplot*line4Width: 0  |
                       |    gnuplot*line5Width: 0  |
                       |    gnuplot*line6Width: 0  |
                       |    gnuplot*line7Width: 0  |
                       |    gnuplot*line8Width: 0  |
                       +---------------------------+



   ggnnuupplloott honors the following resources for setting the dash style
   used for plotting lines.  0 means a solid line.  A two-digit number
   jjkk (jj and kk are >= 1 and <= 9) means a dashed line with a repeated
   pattern of jj pixels on followed by kk pixels off.  For example, '16'
   is a dotted line with one pixel on followed by six pixels off.  More
   elaborate on/off patterns can be specified with a four-digit value.
   For example, '4441' is four on, four off, four on, one off.  The
   default values shown below are for monochrome displays or monochrome
   rendering on color or grayscale displays.  Color displays default to
   dashed:off



                     +------------------------------+
                     |    gnuplot*dashed: off       |
                     |    gnuplot*borderDashes: 0   |
                     |    gnuplot*axisDashes: 16    |
                     |    gnuplot*line1Dashes: 0    |
                     |    gnuplot*line2Dashes: 42   |
                     |    gnuplot*line3Dashes: 13   |
                     |    gnuplot*line4Dashes: 44   |
                     |    gnuplot*line5Dashes: 15   |
                     |    gnuplot*line6Dashes: 4441 |
                     |    gnuplot*line7Dashes: 42   |
                     |    gnuplot*line8Dashes: 13   |
                     +------------------------------+






             5533..7777..77..  XX1111 ppmm33dd__rreessoouurrcceess


             Choosing the appropriate visual class and number of colors
             is a crucial point in X11 applications and a bit awkward,
             since X11 supports six visual types in different depths.










   GNUPLOT 4.1                                                      304


             By default ggnnuupplloott uses the default visual of the screen.
             The number of colors which can be allocated depends on the
             visual class chosen. On a visual class with a depth >
             12bit, gnuplot starts with a maximal number of 0x200 col-
             ors.  On a visual class with a depth > 8bit (but <= 12
             bit) the maximal number of colors is 0x100, on <= 8bit
             displays the maximum number of colors is 240 (16 are left
             for line colors).

             Gnuplot first starts to allocate the maximal number of
             colors as stated above.  If this fails, the number of col-
             ors is reduced by the factor 2 until gnuplot gets all col-
             ors which are requested. If dividing mmaaxxccoolloorrss by 2
             repeatedly results in a number which is smaller than mmiinn--
             ccoolloorrss ggnnuupplloott tries to install a private colormap. In
             this case the window manager is responsible for swapping
             colormaps when the pointer is moved in and out the x11
             driver's window.

             The default for mmiinnccoolloorrss is maxcolors / (num_colormaps >
             1 ? 2 : 8), where num_colormaps is the number of colormaps
             which are currently used by gnuplot (usually 1, if only
             one x11 window is open).

             Some systems support multiple (different) visual classes
             together on one screen. On these systems it might be nec-
             essary to force gnuplot to use a specific visual class,
             e.g. the default visual might be 8bit PseudoColor but the
             screen would also support 24bit TrueColor which would be
             the preferred choice.

             The information about an Xserver's capabilities can be
             obtained with the program xxddppyyiinnffoo.  For the visual names
             below you can choose one of StaticGray, GrayScale, Static-
             Color, PseudoColor, TrueColor, DirectColor.  If an Xserver
             supports a requested visual type at different depths, ggnnuu--
             pplloott chooses the visual class with the highest depth
             (deepest).  If the requested visual class matches the
             default visual and multiple classes of this type are sup-
             ported, the default visual is preferred.

             Example: on an 8bit PseudoColor visual you can force a
             private color map by specifying ggnnuupplloott**mmaaxxccoolloorrss:: 224400 and
             ggnnuupplloott**mmiinnccoolloorrss:: 224400.



















   GNUPLOT 4.1                                                      305


                +-----------------------------------------+
                |    gnuplot*maxcolors:  <integer number> |
                |    gnuplot*mincolors:  <integer number> |
                |    gnuplot*visual:     <visual name>    |
                +-----------------------------------------+






             5533..7777..88..  XX1111 ootthheerr__rreessoouurrcceess


             By default the contents of the current plot window are
             exported to the X11 clipboard in response to X events in
             the window. Setting the resource 'gnuplot*exportselection'
             to 'off' or 'false' will disable this.

             By default text rotation is done using a method that is
             fast, but can corrupt nearby colors depending on the back-
             ground.  If this is a problem, you can set the resource
             'gnuplot.fastrotate' to 'off'




                   +----------------------------------+
                   |    gnuplot*exportselection:  off |
                   |    gnuplot*fastrotate:  on       |
                   |    gnuplot*ctrlq:  off           |
                   +----------------------------------+





        5533..7788..  XXlliibb


        The xxlliibb terminal driver supports the X11 Windows System.  It
        generates gnuplot_x11 commands, but sends them to the output
        file specified by sseett oouuttppuutt ''<<ffiilleennaammee>>''. sseett tteerrmm xx1111 is
        equivalent to sseett tteerrmmiinnaall xxlliibb;; sseett oouuttppuutt ""||ggnnuupplloott__xx1111
        --nnooeevveennttss"".  xxlliibb takes the same set of options as xx1111.




        5544..  GGrraapphhiiccaall UUsseerr IInntteerrffaacceess













   GNUPLOT 4.1                                                      306


        Several graphical user interfaces have been written for ggnnuupplloott
        and one for win32 is included in this distribution.  In addi-
        tion, there is a Python interface at
                 http://py-gnuplot.darwinports.com/

        Also several X11 interfaces exist.  One of them is called xgfe.
        It uses the Qt library and can be found on
                 http://www.flash.net/~dmishee/xgfe/xgfe.html

        In addition three Tcl/Tk located at the usual Tcl/Tk reposito-
        ries exist.

        Bruce Ravel (ravel@phys.washington.edu) has written a new ver-
        sion of gnuplot-mode for GNU emacs and XEmacs. This version is
        based on the gnuplot.el file by Gershon Elber.  While the gnu-
        plot CVS repository has its own copy the most recent version of
        this package is available from
                  http://feff.phys.washington.edu/~ravel/software/gnu-
        plot-mode/





        5555..  BBuuggss


        Bugs reported since the current release as well as older ones
        may be located via the official distribution site on Source-
        Forge.

        Please e-mail bug reports to the gnuplot-bugs mailing list.  Or
        upload the report to the gnuplot web site on SourceForge.
        Please give complete information on the version of gnuplot you
        are using and, if possible, a test script that demonstrates the
        bug.  See SSeeeekkiinngg--aassssiissttaannccee.

        The sections below list problems known to be present in gnuplot
        version 4.2 at the time of release.  Some of these are actually
        bugs in external support libraries and may have been fixed
        indepently of any changes in gnuplot.




        5566..  GGnnuupplloott lliimmiittaattiioonnss


        Floating point exceptions (floating point number too
        large/small, divide by zero, etc.) may occasionally be gener-
        ated by user defined functions.  Some of the demos in particu-
        lar may cause numbers to exceed the floating point range.
        Whether the system ignores such exceptions (in which case










   GNUPLOT 4.1                                                      307


        ggnnuupplloott labels the corresponding point as undefined) or aborts
        ggnnuupplloott depends on the compiler/runtime environment.

        The gamma and bessel functions do not work for complex argu-
        ments.

        If a command line contains a "load" command, then anything on
        the line after the "load <filename>" is ignored.

        Only one color palette at a time is active for any given x11
        plot window.  This means that multiplots whose constituent
        plots use different palettes will not display correctly in x11.

        Coordinates specified as "time" wrap at 24 hours, and have a
        precision limited to 1 second.  This is in particular a limita-
        tion in using time format to handle geographic coordinates.

        Error bars are not handled properly in polar/spherical coordi-
        nate plot modes.

        The 'nohidden3d' option that is supposed to exempt individual
        plots from the global property 'set hidden3d' does not work for
        parametric curves.




        5577..  SSppeecciiffiicc tteerrmmiinnaallss


        Some older models of HP plotters do not have a page eject com-
        mand 'PG'.  The current HPGL driver uses this command in
        HPGL_reset.  This may need to be removed for these plotters.
        The current PCL5 driver uses HPGL/2 for text as well as graph-
        ics.  This should be modified to use scalable PCL fonts.




        5588..  EExxtteerrnnaall lliibbrraarriieess


        External library GD (used by PNG/JPEG/GIF drivers): Versions of
        libgd through 2.0.33 contain various bugs in mapping the char-
        acters of Adobe's Symbol font.  Also it is possible to trigger
        a library segfault if an anti-aliased line crosses an upper
        corner of the canvas.

        External library PDFlib (used by PDF driver): Gnuplot can be
        linked against libpdf versions 4, 5, or 6. However, these ver-
        sions differ in their handling of piped I/O.  Therefore gnuplot
        scripts using piped output to PDF may work only for some ver-
        sions of PDFlib.










   GNUPLOT 4.1                                                      308


        External library svgalib (used by linux and vgagl driver):
        Requires gnuplot to be suid root (bad!) and has many bugs that
        are specific to the video card or graphics driver used in X11.

        Internationalization (locale settings): Gnuplot uses the C run-
        time library routine setlocale() to control locale-specific
        formatting of input and output number, times, and date strings.
        The locales available, and the level of support for locale fea-
        tures such as "thousands' grouping separator", depend on the
        internationalization support provided by your individual
        machine.




















































   GNUPLOT 4.1                                                        i



                               TTaabbllee ooff CCoonntteennttss


        Gnuplot . . . . . . . . . . . . . . . . . . . . . . . . . .   1
        Copyright . . . . . . . . . . . . . . . . . . . . . . . . .   1
        Introduction  . . . . . . . . . . . . . . . . . . . . . . .   2
        Seeking-assistance  . . . . . . . . . . . . . . . . . . . .   3
        New features introduced in version 4.2  . . . . . . . . . .   4
        New plot styles . . . . . . . . . . . . . . . . . . . . . .   4
        Histogram . . . . . . . . . . . . . . . . . . . . . . . . .   4
        Label plots . . . . . . . . . . . . . . . . . . . . . . . .   4
        Image data  . . . . . . . . . . . . . . . . . . . . . . . .   5
        Filled curves . . . . . . . . . . . . . . . . . . . . . . .   5
        Vectors . . . . . . . . . . . . . . . . . . . . . . . . . .   5
        Input from binary data files  . . . . . . . . . . . . . . .   5
        New plot elements . . . . . . . . . . . . . . . . . . . . .   5
        RGB colors  . . . . . . . . . . . . . . . . . . . . . . . .   6
        Arbitrary rectangles  . . . . . . . . . . . . . . . . . . .   6
        String handling . . . . . . . . . . . . . . . . . . . . . .   6
        String and text data read from datafiles  . . . . . . . . .   6
        User-defined string variables, operators, and functions . .   6
        Macros  . . . . . . . . . . . . . . . . . . . . . . . . . .   6
        Auto-layout of multiple plots on a page . . . . . . . . . .   7
        Internal variables  . . . . . . . . . . . . . . . . . . . .   7
        New or revised terminal drivers . . . . . . . . . . . . . .   7
        `wxt` . . . . . . . . . . . . . . . . . . . . . . . . . . .   7
        `emf` . . . . . . . . . . . . . . . . . . . . . . . . . . .   7
        `gif`, `jpeg`, `png`  . . . . . . . . . . . . . . . . . . .   8
        `postscript`  . . . . . . . . . . . . . . . . . . . . . . .   8
        `ai`  . . . . . . . . . . . . . . . . . . . . . . . . . . .   8
        `epslatex`, `pslatex`, `pstex`  . . . . . . . . . . . . . .   8
        `windows` . . . . . . . . . . . . . . . . . . . . . . . . .   8
        Canvas size . . . . . . . . . . . . . . . . . . . . . . . .   8
        Backwards compatibility . . . . . . . . . . . . . . . . . .   9
        Features introduced in version 4.0  . . . . . . . . . . . .  10
        Mouse and hotkey support in interactive terminals . . . . .  10
        New terminals . . . . . . . . . . . . . . . . . . . . . . .  10
        New plot style `pm3d` . . . . . . . . . . . . . . . . . . .  11
        Filled boxes  . . . . . . . . . . . . . . . . . . . . . . .  11
        New plot option smooth frequency  . . . . . . . . . . . . .  11
        Improved text options . . . . . . . . . . . . . . . . . . .  12
        More text encodings . . . . . . . . . . . . . . . . . . . .  12
        Arrows  . . . . . . . . . . . . . . . . . . . . . . . . . .  12
        Data file format  . . . . . . . . . . . . . . . . . . . . .  13
        New commands  . . . . . . . . . . . . . . . . . . . . . . .  13
        Other changes and additions . . . . . . . . . . . . . . . .  13
        Accompanying documentation  . . . . . . . . . . . . . . . .  14
        Batch/Interactive Operation . . . . . . . . . . . . . . . .  14
        Command-line-editing  . . . . . . . . . . . . . . . . . . .  15
        Comments  . . . . . . . . . . . . . . . . . . . . . . . . .  16
        Coordinates . . . . . . . . . . . . . . . . . . . . . . . .  17
        Datastrings . . . . . . . . . . . . . . . . . . . . . . . .  17










   GNUPLOT 4.1                                                       ii


        Environment . . . . . . . . . . . . . . . . . . . . . . . .  18
        Expressions . . . . . . . . . . . . . . . . . . . . . . . .  20
        Functions . . . . . . . . . . . . . . . . . . . . . . . . .  21
        Random number generator . . . . . . . . . . . . . . . . . .  23
        Operators . . . . . . . . . . . . . . . . . . . . . . . . .  24
        Unary . . . . . . . . . . . . . . . . . . . . . . . . . . .  24
        Binary  . . . . . . . . . . . . . . . . . . . . . . . . . .  25
        Ternary . . . . . . . . . . . . . . . . . . . . . . . . . .  26
        Gnuplot-defined variables . . . . . . . . . . . . . . . . .  27
        User-defined variables and functions  . . . . . . . . . . .  27
        Glossary  . . . . . . . . . . . . . . . . . . . . . . . . .  28
        Linetype, colors, and styles  . . . . . . . . . . . . . . .  29
        Colorspec . . . . . . . . . . . . . . . . . . . . . . . . .  31
        Mouse input . . . . . . . . . . . . . . . . . . . . . . . .  32
        Bind  . . . . . . . . . . . . . . . . . . . . . . . . . . .  32
        Mouse variables . . . . . . . . . . . . . . . . . . . . . .  34
        Plotting  . . . . . . . . . . . . . . . . . . . . . . . . .  35
        Start-up  . . . . . . . . . . . . . . . . . . . . . . . . .  35
        String constants and string variables . . . . . . . . . . .  36
        Substitution and Command line macros  . . . . . . . . . . .  37
        Substitution of system commands in backquotes . . . . . . .  37
        Substitution of string variables as macros  . . . . . . . .  38
        String variables, macros, and command line substitution . .  38
        Syntax  . . . . . . . . . . . . . . . . . . . . . . . . . .  39
        Quote Marks . . . . . . . . . . . . . . . . . . . . . . . .  40
        Time/Date data  . . . . . . . . . . . . . . . . . . . . . .  41
        Commands  . . . . . . . . . . . . . . . . . . . . . . . . .  42
        Cd  . . . . . . . . . . . . . . . . . . . . . . . . . . . .  42
        Call  . . . . . . . . . . . . . . . . . . . . . . . . . . .  43
        Clear . . . . . . . . . . . . . . . . . . . . . . . . . . .  44
        Exit  . . . . . . . . . . . . . . . . . . . . . . . . . . .  44
        Fit . . . . . . . . . . . . . . . . . . . . . . . . . . . .  45
        Adjustable parameters . . . . . . . . . . . . . . . . . . .  46
        Short introduction  . . . . . . . . . . . . . . . . . . . .  47
        Error estimates . . . . . . . . . . . . . . . . . . . . . .  48
        Statistical overview  . . . . . . . . . . . . . . . . . . .  49
        Practical guidelines  . . . . . . . . . . . . . . . . . . .  50
        Control . . . . . . . . . . . . . . . . . . . . . . . . . .  52
        Control variables . . . . . . . . . . . . . . . . . . . . .  52
        Environment variables . . . . . . . . . . . . . . . . . . .  53
        Multi-branch  . . . . . . . . . . . . . . . . . . . . . . .  53
        Starting values . . . . . . . . . . . . . . . . . . . . . .  54
        Tips  . . . . . . . . . . . . . . . . . . . . . . . . . . .  54
        Help  . . . . . . . . . . . . . . . . . . . . . . . . . . .  56
        History . . . . . . . . . . . . . . . . . . . . . . . . . .  56
        If  . . . . . . . . . . . . . . . . . . . . . . . . . . . .  57
        Load  . . . . . . . . . . . . . . . . . . . . . . . . . . .  57
        Lower . . . . . . . . . . . . . . . . . . . . . . . . . . .  58
        Pause . . . . . . . . . . . . . . . . . . . . . . . . . . .  59
        Plot  . . . . . . . . . . . . . . . . . . . . . . . . . . .  60
        Data  . . . . . . . . . . . . . . . . . . . . . . . . . . .  61
        Binary  . . . . . . . . . . . . . . . . . . . . . . . . . .  63
        Binary general  . . . . . . . . . . . . . . . . . . . . . .  64










   =1 .if 0 .tl 'GNUPLOT 4.1''%'


        Array . . . . . . . . . . . . . . . . . . . . . . . . . . .  65
        Record  . . . . . . . . . . . . . . . . . . . . . . . . . .  65
        Format  . . . . . . . . . . . . . . . . . . . . . . . . . .  66
        Endian  . . . . . . . . . . . . . . . . . . . . . . . . . .  66
        Filetype  . . . . . . . . . . . . . . . . . . . . . . . . .  67
        Avs . . . . . . . . . . . . . . . . . . . . . . . . . . . .  67
        Edf . . . . . . . . . . . . . . . . . . . . . . . . . . . .  67
        Keywords  . . . . . . . . . . . . . . . . . . . . . . . . .  68
        Scan  . . . . . . . . . . . . . . . . . . . . . . . . . . .  68
        Transpose . . . . . . . . . . . . . . . . . . . . . . . . .  68
        Dx, dy, dz  . . . . . . . . . . . . . . . . . . . . . . . .  69
        Flipx, flipy, flipz . . . . . . . . . . . . . . . . . . . .  69
        Origin  . . . . . . . . . . . . . . . . . . . . . . . . . .  69
        Center  . . . . . . . . . . . . . . . . . . . . . . . . . .  70
        Rotate  . . . . . . . . . . . . . . . . . . . . . . . . . .  70
        Perpendicular . . . . . . . . . . . . . . . . . . . . . . .  70
        Binary examples . . . . . . . . . . . . . . . . . . . . . .  71
        Every . . . . . . . . . . . . . . . . . . . . . . . . . . .  72
        Example datafile  . . . . . . . . . . . . . . . . . . . . .  73
        Index . . . . . . . . . . . . . . . . . . . . . . . . . . .  73
        Smooth  . . . . . . . . . . . . . . . . . . . . . . . . . .  73
        Acsplines . . . . . . . . . . . . . . . . . . . . . . . . .  74
        Bezier  . . . . . . . . . . . . . . . . . . . . . . . . . .  75
        Csplines  . . . . . . . . . . . . . . . . . . . . . . . . .  75
        Sbezier . . . . . . . . . . . . . . . . . . . . . . . . . .  75
        Unique  . . . . . . . . . . . . . . . . . . . . . . . . . .  75
        Frequency . . . . . . . . . . . . . . . . . . . . . . . . .  76
        Special-filenames . . . . . . . . . . . . . . . . . . . . .  76
        Thru  . . . . . . . . . . . . . . . . . . . . . . . . . . .  78
        Using . . . . . . . . . . . . . . . . . . . . . . . . . . .  78
        Using title . . . . . . . . . . . . . . . . . . . . . . . .  81
        Xticlabels  . . . . . . . . . . . . . . . . . . . . . . . .  81
        X2ticlabels . . . . . . . . . . . . . . . . . . . . . . . .  82
        Yticlabels  . . . . . . . . . . . . . . . . . . . . . . . .  82
        Y2ticlabels . . . . . . . . . . . . . . . . . . . . . . . .  82
        Zticlabels  . . . . . . . . . . . . . . . . . . . . . . . .  82
        Errorbars . . . . . . . . . . . . . . . . . . . . . . . . .  82
        Errorlines  . . . . . . . . . . . . . . . . . . . . . . . .  83
        Parametric  . . . . . . . . . . . . . . . . . . . . . . . .  84
        Ranges  . . . . . . . . . . . . . . . . . . . . . . . . . .  85
        Title . . . . . . . . . . . . . . . . . . . . . . . . . . .  86
        With  . . . . . . . . . . . . . . . . . . . . . . . . . . .  87
        Print . . . . . . . . . . . . . . . . . . . . . . . . . . .  90
        Pwd . . . . . . . . . . . . . . . . . . . . . . . . . . . .  90
        Quit  . . . . . . . . . . . . . . . . . . . . . . . . . . .  90
        Raise . . . . . . . . . . . . . . . . . . . . . . . . . . .  90
        Replot  . . . . . . . . . . . . . . . . . . . . . . . . . .  91
        Reread  . . . . . . . . . . . . . . . . . . . . . . . . . .  92
        Reset . . . . . . . . . . . . . . . . . . . . . . . . . . .  93
        Save  . . . . . . . . . . . . . . . . . . . . . . . . . . .  93
        Set-show  . . . . . . . . . . . . . . . . . . . . . . . . .  94
        Angles  . . . . . . . . . . . . . . . . . . . . . . . . . .  94
        Arrow . . . . . . . . . . . . . . . . . . . . . . . . . . .  95










   GNUPLOT 4.1                                                       iv


        Autoscale . . . . . . . . . . . . . . . . . . . . . . . . .  98
        Parametric mode . . . . . . . . . . . . . . . . . . . . . .  99
        Polar mode  . . . . . . . . . . . . . . . . . . . . . . . . 100
        Bars  . . . . . . . . . . . . . . . . . . . . . . . . . . . 100
        Bmargin . . . . . . . . . . . . . . . . . . . . . . . . . . 101
        Border  . . . . . . . . . . . . . . . . . . . . . . . . . . 101
        Boxwidth  . . . . . . . . . . . . . . . . . . . . . . . . . 103
        Clabel  . . . . . . . . . . . . . . . . . . . . . . . . . . 104
        Clip  . . . . . . . . . . . . . . . . . . . . . . . . . . . 104
        Cntrparam . . . . . . . . . . . . . . . . . . . . . . . . . 105
        Color box . . . . . . . . . . . . . . . . . . . . . . . . . 107
        Contour . . . . . . . . . . . . . . . . . . . . . . . . . . 109
        Data style  . . . . . . . . . . . . . . . . . . . . . . . . 110
        Datafile  . . . . . . . . . . . . . . . . . . . . . . . . . 110
        Set datafile fortran  . . . . . . . . . . . . . . . . . . . 110
        Set datafile missing  . . . . . . . . . . . . . . . . . . . 110
        Set datafile separator  . . . . . . . . . . . . . . . . . . 111
        Set datafile commentschars  . . . . . . . . . . . . . . . . 112
        Set datafile binary . . . . . . . . . . . . . . . . . . . . 112
        Decimalsign . . . . . . . . . . . . . . . . . . . . . . . . 113
        Dgrid3d . . . . . . . . . . . . . . . . . . . . . . . . . . 114
        Dummy . . . . . . . . . . . . . . . . . . . . . . . . . . . 115
        Encoding  . . . . . . . . . . . . . . . . . . . . . . . . . 116
        Fit . . . . . . . . . . . . . . . . . . . . . . . . . . . . 116
        Fontpath  . . . . . . . . . . . . . . . . . . . . . . . . . 117
        Format  . . . . . . . . . . . . . . . . . . . . . . . . . . 118
        Gprintf . . . . . . . . . . . . . . . . . . . . . . . . . . 119
        Format specifiers . . . . . . . . . . . . . . . . . . . . . 119
        Time/date specifiers  . . . . . . . . . . . . . . . . . . . 121
        Function style  . . . . . . . . . . . . . . . . . . . . . . 122
        Functions . . . . . . . . . . . . . . . . . . . . . . . . . 122
        Grid  . . . . . . . . . . . . . . . . . . . . . . . . . . . 122
        Hidden3d  . . . . . . . . . . . . . . . . . . . . . . . . . 124
        Historysize . . . . . . . . . . . . . . . . . . . . . . . . 126
        Isosamples  . . . . . . . . . . . . . . . . . . . . . . . . 126
        Key . . . . . . . . . . . . . . . . . . . . . . . . . . . . 127
        Label . . . . . . . . . . . . . . . . . . . . . . . . . . . 132
        Lmargin . . . . . . . . . . . . . . . . . . . . . . . . . . 134
        Loadpath  . . . . . . . . . . . . . . . . . . . . . . . . . 135
        Locale  . . . . . . . . . . . . . . . . . . . . . . . . . . 135
        Logscale  . . . . . . . . . . . . . . . . . . . . . . . . . 135
        Macros  . . . . . . . . . . . . . . . . . . . . . . . . . . 136
        Mapping . . . . . . . . . . . . . . . . . . . . . . . . . . 136
        Margin  . . . . . . . . . . . . . . . . . . . . . . . . . . 137
        Mouse . . . . . . . . . . . . . . . . . . . . . . . . . . . 138
        X11 mouse . . . . . . . . . . . . . . . . . . . . . . . . . 140
        Multiplot . . . . . . . . . . . . . . . . . . . . . . . . . 140
        Mx2tics . . . . . . . . . . . . . . . . . . . . . . . . . . 142
        Mxtics  . . . . . . . . . . . . . . . . . . . . . . . . . . 142
        My2tics . . . . . . . . . . . . . . . . . . . . . . . . . . 143
        Mytics  . . . . . . . . . . . . . . . . . . . . . . . . . . 144
        Mztics  . . . . . . . . . . . . . . . . . . . . . . . . . . 144
        Offsets . . . . . . . . . . . . . . . . . . . . . . . . . . 144










   GNUPLOT 4.1                                                        v


        Origin  . . . . . . . . . . . . . . . . . . . . . . . . . . 144
        Output  . . . . . . . . . . . . . . . . . . . . . . . . . . 145
        Parametric  . . . . . . . . . . . . . . . . . . . . . . . . 146
        Plot  . . . . . . . . . . . . . . . . . . . . . . . . . . . 147
        Pm3d  . . . . . . . . . . . . . . . . . . . . . . . . . . . 147
        Depthorder  . . . . . . . . . . . . . . . . . . . . . . . . 152
        Palette . . . . . . . . . . . . . . . . . . . . . . . . . . 152
        Rgbformulae . . . . . . . . . . . . . . . . . . . . . . . . 155
        Defined . . . . . . . . . . . . . . . . . . . . . . . . . . 155
        Functions . . . . . . . . . . . . . . . . . . . . . . . . . 157
        File  . . . . . . . . . . . . . . . . . . . . . . . . . . . 158
        Gamma correction  . . . . . . . . . . . . . . . . . . . . . 158
        Postscript  . . . . . . . . . . . . . . . . . . . . . . . . 159
        Colornames  . . . . . . . . . . . . . . . . . . . . . . . . 160
        Pointsize . . . . . . . . . . . . . . . . . . . . . . . . . 160
        Polar . . . . . . . . . . . . . . . . . . . . . . . . . . . 160
        Print . . . . . . . . . . . . . . . . . . . . . . . . . . . 162
        Object  . . . . . . . . . . . . . . . . . . . . . . . . . . 162
        Rmargin . . . . . . . . . . . . . . . . . . . . . . . . . . 163
        Rrange  . . . . . . . . . . . . . . . . . . . . . . . . . . 163
        Samples . . . . . . . . . . . . . . . . . . . . . . . . . . 163
        Size  . . . . . . . . . . . . . . . . . . . . . . . . . . . 164
        Style . . . . . . . . . . . . . . . . . . . . . . . . . . . 165
        Set style arrow . . . . . . . . . . . . . . . . . . . . . . 166
        Set style data  . . . . . . . . . . . . . . . . . . . . . . 168
        Set style fill  . . . . . . . . . . . . . . . . . . . . . . 168
        Set style function  . . . . . . . . . . . . . . . . . . . . 169
        Set style increment . . . . . . . . . . . . . . . . . . . . 169
        Set style line  . . . . . . . . . . . . . . . . . . . . . . 170
        Plotting styles . . . . . . . . . . . . . . . . . . . . . . 172
        Set style rectangle . . . . . . . . . . . . . . . . . . . . 173
        Boxerrorbars  . . . . . . . . . . . . . . . . . . . . . . . 173
        Boxes . . . . . . . . . . . . . . . . . . . . . . . . . . . 174
        Boxxyerrorbars  . . . . . . . . . . . . . . . . . . . . . . 175
        Candlesticks  . . . . . . . . . . . . . . . . . . . . . . . 175
        Dots  . . . . . . . . . . . . . . . . . . . . . . . . . . . 177
        Filledcurves  . . . . . . . . . . . . . . . . . . . . . . . 177
        Financebars . . . . . . . . . . . . . . . . . . . . . . . . 178
        Fsteps  . . . . . . . . . . . . . . . . . . . . . . . . . . 179
        Histeps . . . . . . . . . . . . . . . . . . . . . . . . . . 179
        Histograms  . . . . . . . . . . . . . . . . . . . . . . . . 179
        Newhistogram  . . . . . . . . . . . . . . . . . . . . . . . 182
        Image . . . . . . . . . . . . . . . . . . . . . . . . . . . 183
        Impulses  . . . . . . . . . . . . . . . . . . . . . . . . . 184
        Labels  . . . . . . . . . . . . . . . . . . . . . . . . . . 184
        Lines . . . . . . . . . . . . . . . . . . . . . . . . . . . 185
        Linespoints . . . . . . . . . . . . . . . . . . . . . . . . 185
        Points  . . . . . . . . . . . . . . . . . . . . . . . . . . 185
        Steps . . . . . . . . . . . . . . . . . . . . . . . . . . . 185
        Rgbimage  . . . . . . . . . . . . . . . . . . . . . . . . . 185
        Vectors . . . . . . . . . . . . . . . . . . . . . . . . . . 186
        Xerrorbars  . . . . . . . . . . . . . . . . . . . . . . . . 186
        Xyerrorbars . . . . . . . . . . . . . . . . . . . . . . . . 186










   GNUPLOT 4.1                                                       vi


        Yerrorbars  . . . . . . . . . . . . . . . . . . . . . . . . 187
        Xerrorlines . . . . . . . . . . . . . . . . . . . . . . . . 187
        Xyerrorlines  . . . . . . . . . . . . . . . . . . . . . . . 187
        Yerrorlines . . . . . . . . . . . . . . . . . . . . . . . . 188
        Surface . . . . . . . . . . . . . . . . . . . . . . . . . . 188
        Table . . . . . . . . . . . . . . . . . . . . . . . . . . . 188
        Terminal  . . . . . . . . . . . . . . . . . . . . . . . . . 189
        Termoption  . . . . . . . . . . . . . . . . . . . . . . . . 190
        Tics  . . . . . . . . . . . . . . . . . . . . . . . . . . . 190
        Ticslevel . . . . . . . . . . . . . . . . . . . . . . . . . 191
        Ticscale  . . . . . . . . . . . . . . . . . . . . . . . . . 192
        Timestamp . . . . . . . . . . . . . . . . . . . . . . . . . 192
        Timefmt . . . . . . . . . . . . . . . . . . . . . . . . . . 192
        Title . . . . . . . . . . . . . . . . . . . . . . . . . . . 194
        Tmargin . . . . . . . . . . . . . . . . . . . . . . . . . . 195
        Trange  . . . . . . . . . . . . . . . . . . . . . . . . . . 195
        Urange  . . . . . . . . . . . . . . . . . . . . . . . . . . 195
        Variables . . . . . . . . . . . . . . . . . . . . . . . . . 195
        Version . . . . . . . . . . . . . . . . . . . . . . . . . . 195
        View  . . . . . . . . . . . . . . . . . . . . . . . . . . . 196
        Vrange  . . . . . . . . . . . . . . . . . . . . . . . . . . 197
        X2data  . . . . . . . . . . . . . . . . . . . . . . . . . . 197
        X2dtics . . . . . . . . . . . . . . . . . . . . . . . . . . 197
        X2label . . . . . . . . . . . . . . . . . . . . . . . . . . 197
        X2mtics . . . . . . . . . . . . . . . . . . . . . . . . . . 197
        X2range . . . . . . . . . . . . . . . . . . . . . . . . . . 197
        X2tics  . . . . . . . . . . . . . . . . . . . . . . . . . . 198
        X2zeroaxis  . . . . . . . . . . . . . . . . . . . . . . . . 198
        Xdata . . . . . . . . . . . . . . . . . . . . . . . . . . . 198
        Xdtics  . . . . . . . . . . . . . . . . . . . . . . . . . . 199
        Xlabel  . . . . . . . . . . . . . . . . . . . . . . . . . . 199
        Xmtics  . . . . . . . . . . . . . . . . . . . . . . . . . . 201
        Xrange  . . . . . . . . . . . . . . . . . . . . . . . . . . 201
        Xtics . . . . . . . . . . . . . . . . . . . . . . . . . . . 203
        Xyplane . . . . . . . . . . . . . . . . . . . . . . . . . . 207
        Xzeroaxis . . . . . . . . . . . . . . . . . . . . . . . . . 207
        Y2data  . . . . . . . . . . . . . . . . . . . . . . . . . . 207
        Y2dtics . . . . . . . . . . . . . . . . . . . . . . . . . . 207
        Y2label . . . . . . . . . . . . . . . . . . . . . . . . . . 208
        Y2mtics . . . . . . . . . . . . . . . . . . . . . . . . . . 208
        Y2range . . . . . . . . . . . . . . . . . . . . . . . . . . 208
        Y2tics  . . . . . . . . . . . . . . . . . . . . . . . . . . 208
        Y2zeroaxis  . . . . . . . . . . . . . . . . . . . . . . . . 208
        Ydata . . . . . . . . . . . . . . . . . . . . . . . . . . . 208
        Ydtics  . . . . . . . . . . . . . . . . . . . . . . . . . . 209
        Ylabel  . . . . . . . . . . . . . . . . . . . . . . . . . . 209
        Ymtics  . . . . . . . . . . . . . . . . . . . . . . . . . . 209
        Yrange  . . . . . . . . . . . . . . . . . . . . . . . . . . 209
        Ytics . . . . . . . . . . . . . . . . . . . . . . . . . . . 209
        Yzeroaxis . . . . . . . . . . . . . . . . . . . . . . . . . 209
        Zdata . . . . . . . . . . . . . . . . . . . . . . . . . . . 209
        Zdtics  . . . . . . . . . . . . . . . . . . . . . . . . . . 210
        Zzeroaxis . . . . . . . . . . . . . . . . . . . . . . . . . 210










   GNUPLOT 4.1                                                      vii


        Cbdata  . . . . . . . . . . . . . . . . . . . . . . . . . . 210
        Cbdtics . . . . . . . . . . . . . . . . . . . . . . . . . . 210
        Zero  . . . . . . . . . . . . . . . . . . . . . . . . . . . 210
        Zeroaxis  . . . . . . . . . . . . . . . . . . . . . . . . . 211
        Zlabel  . . . . . . . . . . . . . . . . . . . . . . . . . . 211
        Zmtics  . . . . . . . . . . . . . . . . . . . . . . . . . . 212
        Zrange  . . . . . . . . . . . . . . . . . . . . . . . . . . 212
        Ztics . . . . . . . . . . . . . . . . . . . . . . . . . . . 212
        Cblabel . . . . . . . . . . . . . . . . . . . . . . . . . . 212
        Cbmtics . . . . . . . . . . . . . . . . . . . . . . . . . . 212
        Cbrange . . . . . . . . . . . . . . . . . . . . . . . . . . 212
        Cbtics  . . . . . . . . . . . . . . . . . . . . . . . . . . 213
        Shell . . . . . . . . . . . . . . . . . . . . . . . . . . . 213
        Splot . . . . . . . . . . . . . . . . . . . . . . . . . . . 213
        Data-file . . . . . . . . . . . . . . . . . . . . . . . . . 214
        Binary matrix . . . . . . . . . . . . . . . . . . . . . . . 215
        Example datafile  . . . . . . . . . . . . . . . . . . . . . 216
        Matrix_ascii  . . . . . . . . . . . . . . . . . . . . . . . 217
        Matrix  . . . . . . . . . . . . . . . . . . . . . . . . . . 218
        Grid data . . . . . . . . . . . . . . . . . . . . . . . . . 218
        Splot overview  . . . . . . . . . . . . . . . . . . . . . . 219
        System  . . . . . . . . . . . . . . . . . . . . . . . . . . 220
        Test  . . . . . . . . . . . . . . . . . . . . . . . . . . . 220
        Unset . . . . . . . . . . . . . . . . . . . . . . . . . . . 220
        Update  . . . . . . . . . . . . . . . . . . . . . . . . . . 221
        Terminal types  . . . . . . . . . . . . . . . . . . . . . . 221
        Terminal  . . . . . . . . . . . . . . . . . . . . . . . . . 221
        Aed767  . . . . . . . . . . . . . . . . . . . . . . . . . . 222
        Aifm  . . . . . . . . . . . . . . . . . . . . . . . . . . . 222
        Amiga . . . . . . . . . . . . . . . . . . . . . . . . . . . 222
        Apollo  . . . . . . . . . . . . . . . . . . . . . . . . . . 223
        Aqua  . . . . . . . . . . . . . . . . . . . . . . . . . . . 223
        Atari ST (via AES)  . . . . . . . . . . . . . . . . . . . . 224
        Be  . . . . . . . . . . . . . . . . . . . . . . . . . . . . 224
        Command-line_options  . . . . . . . . . . . . . . . . . . . 225
        Monochrome_options  . . . . . . . . . . . . . . . . . . . . 226
        Color_resources . . . . . . . . . . . . . . . . . . . . . . 226
        Grayscale_resources . . . . . . . . . . . . . . . . . . . . 227
        Line_resources  . . . . . . . . . . . . . . . . . . . . . . 227
        Cgi . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228
        Cgm . . . . . . . . . . . . . . . . . . . . . . . . . . . . 229
        Font  . . . . . . . . . . . . . . . . . . . . . . . . . . . 230
        Fontsize  . . . . . . . . . . . . . . . . . . . . . . . . . 232
        Linewidth . . . . . . . . . . . . . . . . . . . . . . . . . 232
        Rotate  . . . . . . . . . . . . . . . . . . . . . . . . . . 232
        Solid . . . . . . . . . . . . . . . . . . . . . . . . . . . 233
        Size  . . . . . . . . . . . . . . . . . . . . . . . . . . . 233
        Width . . . . . . . . . . . . . . . . . . . . . . . . . . . 233
        Nofontlist  . . . . . . . . . . . . . . . . . . . . . . . . 233
        Corel . . . . . . . . . . . . . . . . . . . . . . . . . . . 234
        Debug . . . . . . . . . . . . . . . . . . . . . . . . . . . 234
        Dospc . . . . . . . . . . . . . . . . . . . . . . . . . . . 234
        Dumb  . . . . . . . . . . . . . . . . . . . . . . . . . . . 235










   GNUPLOT 4.1                                                     viii


        Dxf . . . . . . . . . . . . . . . . . . . . . . . . . . . . 235
        Dxy800a . . . . . . . . . . . . . . . . . . . . . . . . . . 235
        Eepic . . . . . . . . . . . . . . . . . . . . . . . . . . . 235
        Emf . . . . . . . . . . . . . . . . . . . . . . . . . . . . 237
        Emxvga  . . . . . . . . . . . . . . . . . . . . . . . . . . 238
        Epslatex  . . . . . . . . . . . . . . . . . . . . . . . . . 238
        Epson-180dpi  . . . . . . . . . . . . . . . . . . . . . . . 243
        Excl  . . . . . . . . . . . . . . . . . . . . . . . . . . . 243
        Fig . . . . . . . . . . . . . . . . . . . . . . . . . . . . 243
        Ggi . . . . . . . . . . . . . . . . . . . . . . . . . . . . 245
        Gif . . . . . . . . . . . . . . . . . . . . . . . . . . . . 246
        Gnugraph(GNU plotutils) . . . . . . . . . . . . . . . . . . 248
        Gpic  . . . . . . . . . . . . . . . . . . . . . . . . . . . 249
        Gpr . . . . . . . . . . . . . . . . . . . . . . . . . . . . 250
        Grass . . . . . . . . . . . . . . . . . . . . . . . . . . . 250
        Hercules  . . . . . . . . . . . . . . . . . . . . . . . . . 250
        Hp2623a . . . . . . . . . . . . . . . . . . . . . . . . . . 251
        Hp2648  . . . . . . . . . . . . . . . . . . . . . . . . . . 251
        Hp500c  . . . . . . . . . . . . . . . . . . . . . . . . . . 251
        Hpgl  . . . . . . . . . . . . . . . . . . . . . . . . . . . 251
        Hpljii  . . . . . . . . . . . . . . . . . . . . . . . . . . 253
        Hppj  . . . . . . . . . . . . . . . . . . . . . . . . . . . 253
        Imagen  . . . . . . . . . . . . . . . . . . . . . . . . . . 253
        Iris4d  . . . . . . . . . . . . . . . . . . . . . . . . . . 254
        Jpeg  . . . . . . . . . . . . . . . . . . . . . . . . . . . 254
        Kyo . . . . . . . . . . . . . . . . . . . . . . . . . . . . 256
        Latex . . . . . . . . . . . . . . . . . . . . . . . . . . . 256
        Linux . . . . . . . . . . . . . . . . . . . . . . . . . . . 257
        Macintosh . . . . . . . . . . . . . . . . . . . . . . . . . 257
        Mf  . . . . . . . . . . . . . . . . . . . . . . . . . . . . 258
        METAFONT Instructions . . . . . . . . . . . . . . . . . . . 259
        Mgr . . . . . . . . . . . . . . . . . . . . . . . . . . . . 260
        Mif . . . . . . . . . . . . . . . . . . . . . . . . . . . . 260
        Mp  . . . . . . . . . . . . . . . . . . . . . . . . . . . . 261
        Metapost Instructions . . . . . . . . . . . . . . . . . . . 264
        Mtos  . . . . . . . . . . . . . . . . . . . . . . . . . . . 265
        Next  . . . . . . . . . . . . . . . . . . . . . . . . . . . 265
        Openstep (next) . . . . . . . . . . . . . . . . . . . . . . 265
        Pbm . . . . . . . . . . . . . . . . . . . . . . . . . . . . 266
        Pdf . . . . . . . . . . . . . . . . . . . . . . . . . . . . 267
        Pm  . . . . . . . . . . . . . . . . . . . . . . . . . . . . 268
        Png . . . . . . . . . . . . . . . . . . . . . . . . . . . . 268
        Postscript  . . . . . . . . . . . . . . . . . . . . . . . . 270
        Enhanced postscript . . . . . . . . . . . . . . . . . . . . 273
        Editing postscript  . . . . . . . . . . . . . . . . . . . . 275
        Postscript fontfile . . . . . . . . . . . . . . . . . . . . 276
        Postscript prologue . . . . . . . . . . . . . . . . . . . . 278
        Pslatex and pstex . . . . . . . . . . . . . . . . . . . . . 278
        Pstricks  . . . . . . . . . . . . . . . . . . . . . . . . . 281
        Qms . . . . . . . . . . . . . . . . . . . . . . . . . . . . 281
        Regis . . . . . . . . . . . . . . . . . . . . . . . . . . . 281
        Rgip  . . . . . . . . . . . . . . . . . . . . . . . . . . . 282
        Sun . . . . . . . . . . . . . . . . . . . . . . . . . . . . 282










   GNUPLOT 4.1                                                       ix


        Svg . . . . . . . . . . . . . . . . . . . . . . . . . . . . 282
        Svga  . . . . . . . . . . . . . . . . . . . . . . . . . . . 283
        Tek40 . . . . . . . . . . . . . . . . . . . . . . . . . . . 283
        Tek410x . . . . . . . . . . . . . . . . . . . . . . . . . . 284
        Texdraw . . . . . . . . . . . . . . . . . . . . . . . . . . 284
        Tgif  . . . . . . . . . . . . . . . . . . . . . . . . . . . 284
        Tkcanvas  . . . . . . . . . . . . . . . . . . . . . . . . . 286
        Tpic  . . . . . . . . . . . . . . . . . . . . . . . . . . . 287
        Unixpc  . . . . . . . . . . . . . . . . . . . . . . . . . . 287
        Unixplot  . . . . . . . . . . . . . . . . . . . . . . . . . 287
        Atari ST (via VDI)  . . . . . . . . . . . . . . . . . . . . 288
        Vgagl . . . . . . . . . . . . . . . . . . . . . . . . . . . 288
        VWS . . . . . . . . . . . . . . . . . . . . . . . . . . . . 289
        Vx384 . . . . . . . . . . . . . . . . . . . . . . . . . . . 289
        Windows . . . . . . . . . . . . . . . . . . . . . . . . . . 290
        Graph-menu  . . . . . . . . . . . . . . . . . . . . . . . . 290
        Printing  . . . . . . . . . . . . . . . . . . . . . . . . . 291
        Text-menu . . . . . . . . . . . . . . . . . . . . . . . . . 291
        Wgnuplot.ini  . . . . . . . . . . . . . . . . . . . . . . . 293
        Windows3.0  . . . . . . . . . . . . . . . . . . . . . . . . 294
        Wxt . . . . . . . . . . . . . . . . . . . . . . . . . . . . 294
        X11 . . . . . . . . . . . . . . . . . . . . . . . . . . . . 296
        X11_fonts . . . . . . . . . . . . . . . . . . . . . . . . . 298
        Command-line_options  . . . . . . . . . . . . . . . . . . . 299
        Monochrome_options  . . . . . . . . . . . . . . . . . . . . 300
        Color_resources . . . . . . . . . . . . . . . . . . . . . . 301
        Grayscale_resources . . . . . . . . . . . . . . . . . . . . 302
        Line_resources  . . . . . . . . . . . . . . . . . . . . . . 302
        X11 pm3d_resources  . . . . . . . . . . . . . . . . . . . . 303
        X11 other_resources . . . . . . . . . . . . . . . . . . . . 305
        Xlib  . . . . . . . . . . . . . . . . . . . . . . . . . . . 305
        Graphical User Interfaces . . . . . . . . . . . . . . . . . 306
        Bugs  . . . . . . . . . . . . . . . . . . . . . . . . . . . 306
        Gnuplot limitations . . . . . . . . . . . . . . . . . . . . 306
        Specific terminals  . . . . . . . . . . . . . . . . . . . . 307
        External libraries  . . . . . . . . . . . . . . . . . . . . 307























