Table of contents: ================== * Installation from sources - For the impatient provides a quick overview of configuration and compilation instructions. - Lists those options to the configure shell script which are unique to gnuplot. - Compiling by config/makefile.* for specific platforms. * More details about ./configure --with-PACKAGE[=OPTION] * Platform compiler problems * Environment variables - The environment variables used by running gnuplot. * How to test gnuplot * Installing WPS object for gnuplot on OS/2 - How to install WPS icon for drag&drop. * Compiling Gnuplot with the wxWidgets terminal - Notes about the requirements of the `wxt` terminal. * Front-ends for gnuplot - Few notes about graphical front-ends for gnuplot. The description of preprocessor options previously found here has been moved to a new file called PORTING. Generic installation instructions for `configure', such as distributed with FSF/GNU packages, are in INSTALL.gnu. If you're installing a binary package, you may still want to check out some sections of this document, particularly the one discussing environment variables. Installation from sources ========================= For the impatient ----------------- Configuration options are in the Makefile and in src/term.h, which selects the set of terminal drivers to be compiled in. The recommended way to configure both of these is the GNU-style "./configure" script described below, and also in INSTALL.gnu. A complete overview of configure options is below in the Basic Installation section. On platforms which do not support GNU autoconf/configure, ie. most non-Unix platforms, look for a makefile that looks suitable in the "config" directory. Check "config/README" to see which of them to use for which platform. File location defaults ---------------------- PREFIX /usr/local gnuplot PREFIX/bin gnuplot_x11 PREFIX/libexec/gnuplot/$VERSION gnuplot.1 PREFIX/man/man1 gnuplot.gih PREFIX/share/gnuplot/$VERSION The only files where the runtime location is defined at compile time are gnuplot.gih and show.c. This is important if gnuplot is not installed by running 'make install'. The default path for the help library, gnuplot.gih, can be controlled in several different ways: o use configure's --with-gihdir option to specify the full path to the directory where gnuplot.gih is to be installed, e.g. ./configure --with-gihdir=/opt/docs o use configure's --datadir= option to specify a version and package independent data dir prefix, e.g. ./configure --datadir='/opt/docs' gnuplot will look for the online help file, gnuplot.gih, in /opt/docs/gnuplot/$VERSION. o with configure's --prefix= option, eg. ./configure --prefix=/gnuplot gnuplot will look for the online help file, gnuplot.gih, in /gnuplot/share/gnuplot/$VERSION. Attention: This option affects the location of *all* installed files! o at make time, eg. make HELPFILE='/gnuplot/docs/gnuplot.gih' gnuplot will look for the online help file /gnuplot/docs/gnupot.gih. o at execution time by specifying the helpfile with the environment variable GNUHELP (see "Environment Variables" below). The default location of the main executable can be controlled in different ways: o with configure's --prefix= option, eg. ./configure --prefix=/gnuplot gnuplot will be installed as /gnuplot/bin/gnuplot. Attention: This affects the location of *all* installed files! o with configure's --bindir= option, eg. ./configure --bindir='/gnuplot/bin' gnuplot will be installed as /gnuplot/bin/gnuplot. o at make time, eg. make bindir='/gnuplot/bin' gnuplot will be installed as /gnuplot/bin/gnuplot. The default location of the additional executable, like gnuplot_x11, can be controlled in different ways: o with configure's --prefix= option, eg. ./configure --prefix=/gnuplot gnuplot_x11 will be installed as /gnuplot/libexec/gnuplot/4.0/gnuplot_x11. Attention: This affects the location of *all* installed files! o with configure's --libexecdir= option, eg. ./configure --libexecdir='/gnuplot/lib' gnuplot_x11 will be installed as /gnuplot/lib/gnuplot/4.0/gnuplot_x11 o at make time, eg. make X11_DRIVER_DIR='/gnuplot/lib/4.0' gnuplot_x11 will be installed as /gnuplot/lib/4.0/gnuplot_x11 If you don't install the program at the place chosen by ./configure, e.g. by overriding the "prefix" at "make install" time, files written by the `save' command cannot be used as scripts on Un*x platforms, so this should be avoided. There is no way to specify the location of the executables during runtime. Other platforms are not affected by this. The gnuplot demo files are not installed by default, mainly because there is no universally agreed place where such files should go. If desired, they should be copied manually to a location of choice. Unix, configure --------------- On Unix, use $ ./configure $ make [ Optionally run demos--see "How to test gnuplot" below. ] $ make install If gcc is installed, it is used by default. A different compiler can be used by passing its name to configure: $ ./configure CC=c89 Any environment settings for CFLAGS are included into the Makefile, so please make sure that these are really needed. There are several options available for configure that you may want to change. A complete list of options is available through $ ./configure --help The options relevant to gnuplot are listed below: --prefix=PREFIX Install architecture-independent files in PREFIX [/usr/local] --exec-prefix=EPREFIX Install architecture-specific file in EPREFIX [PREFIX] --bindir=DIR user executables in DIR [EPREFIX/bin] The gnuplot binary is installed this directory --libexecdir=DIR program executables in DIR [EPREFIX/libexec] gnuplot_x11 goes into $libexecdir/gnuplot/. --datadir=DIR Read-only architecture-independent data in DIR [PREFIX/share]. The gnuplot help file is installed in this directory. --libdir=DIR object code libraries in DIR [EPREFIX/lib] --includedir=DIR C header files in DIR [PREFIX/include] --mandir=DIR Man documentation in DIR [PREFIX/man] --disable-history-file do not use history file --disable-mouse disable mouse for interactive terminals --disable-x11-mbfonts disable multi-byte font support for x11 --disable-binary-data-file disable binary_data_file --disable-with-image disable image support --disable-binary-x11-polygon disable binary_x11_polygon --enable-thin-splines enable thin plate splines --disable-datastrings disable reading strings from datafiles --disable-histograms disable histograms plot style --disable-objects disable rectangles and other objects --disable-stringvariables disable string variables --disable-macros disable command line macros --enable-iris enable IRIS terminal (IRIS4D only) --enable-mgr enable MGR terminal --disable-fiterrvars enable fitting error variables --enable-rgip enable Redwood Graphics Interface Protocol --disable-h3d-quadtree disable quadtree optimization in hidden3d code --enable-h3d-gridbox enable gridbox optimization in hidden3d code --disable-wxwidgets wxWidgets terminal (default enabled) --with-kpsexpand search for kpsexpand at run-time --with-x (*) use the X Window System --with-lasergnu install lasergnu printer script --with-gihdir=DIR location of .gih file (default PREFIX/share/PACKAGE/VERSION) --with-linux-vga use the Linux SVGA console driver (requires /usr/lib/libvga) --with-ggi=DIR enable the ggi driver (EXPERIMENTAL) --with-xmi=DIR ggi's xmi support for pm3d (EXPERIMENTAL) --with-readline (*) use the builtin minimal readline function (default) --without-readline do not use the builtin readline function --with-readline=gnu use the GNU readline library (4.2 or newer required) --with-readline=DIR Specify the location of GNU readline --with-plot=DIR use the Unix plot library --with-gd=DIR (*) where to find Tom Boutell's gd library --with-pdf=DIR (*) enable pdf terminal (requires PDFLib) --with-cwdrc check current directory for .gnuplot file, normally disabled for security reasons --without-lisp-files do not build emacs lisp files --with-row-help format help and subtopic tables by row (default) --without-row-help (*) format help and subtopic tables by column --without-tutorial do not build LaTeX tutorial --with-wx-config=PATH Use the given path to wx-config, the wxWidgets configuration program (default search in $PATH) Options marked with (*) are enabled by default, ie. these features or packages are used if configure detects them even if the corresponding option is not specified. Please note that the `--with-PACKAGE' options can have additional arguments: o `--with-PACKAGE' is equivalent to `--with-PACKAGE=yes' o `--with-PACKAGE=no' disables checking for PACKAGE. It has the same effect as `--without-PACKAGE'. o `--with-PACKAGE=DIR' checks for PACKAGE in DIR VMS --- John Hasstedt has written configure.vms, a command file that creates the necessary make and option files to build gnuplot. See the file for instructions on using it. If you have problems with it, the old build files are still included; instructions for using them follow. On VMS, you can use MMS, MMK, or another make utility, or you can use BUILDVMS.COM. The supplied files work with Alpha/VMS V6.2 and DECC V5.7; you may get warnings or more serious errors depending on the versions of the C compiler, the C run-time libraries, and VMS on your system. To compile using MMK: MMK/DESCRIPTION=MAKEFILE.VMS To compile using MMS on VAX: MMS/DESCRIPTION=MAKEFILE.VMS To compile using MMS on Alpha: MMS/DESCRIPTION=MAKEFILE.VMS/MACRO=__ALPHA__=1 Alternatively, you can use MAKE_VMS.COM. This command file will run MMK or MMS to build gnuplot. If you don't have either one installed, it will use the command file. The first parameter on the command line is the compiler you want to use (default DECC). It may sometimes be useful to add `/IGNORE=WARNING' to the `MMS' call. To compile using GNUC or VAXC: add /MACRO=GNUC or /MACRO=VAXC to the above command To compile with another make utility: check the documentation of your utility to specify the description file and any necessary macros (__ALPHA__, GNUC, or VAXC) Or if you don't have a suitable make: @BUILDVMS To tell gnuplot where to find the help library: $ define gnuplot$help disk:[directory]gnuplot.hlb Alternatively, put the help in the main system help library. AmigaOS ------- Using Aztec C 5.2a make -f makefile.ami Using SAS/C 6.1 or later versions smake -f makefile.amg You can also copy makefile.amg to smakefile and just type `smake'. At the beginning of makefile.amg you will find a configuration section where you have to adjust all settings which control the build process. Most important is probably to select the terminal devices which should be supported. You can create a version offering png graphics as well as gif support. Use the appropriate settings for CPU and MATH to compile for a specific machine type. Be sure to enable only those devices for which you have the necessary software already installed. Also ensure that the libraries and the sources are all compiled using the same settings for CPU and MATH. Using gcc: see Unix Atari/TOS --------- Using gcc 2.x as unix cross- or native compiler make -f makefile.st (Edit top of makefile.st for name of crosscompiler or choose native setting) Using PureC use gnuplot.prj Using TurboC use gnuplot.prj (Edit gnuplot.prj according to notes at the beginning) MS-Windows ---------- You'll need a help compiler from Microsoft to build the on-line help for gnuplot. Some versions of that, including the one coming with version 4.0 of MSVC++ and with Borland C++ Builder 1.0, appear unable to compile gnuplot.rtf. The freely available "Help Workshop" download from Microsoft is known to work, so in case of down you should get and use that. General install instructions: Change into the "src" subdirectory. Build the program using one of the ways shown below this note. Put wgnuplot.exe, wgnuplot.hlp and wgnuplot.mnu all in a single directory somewhere. You may want to add that directory to your PATH. There's no installer for gnuplot, so if you want a desktop link, program manager group or an association of *.plt or *.gpl files to wgnuplot, you'll have to do all that yourself. Using Visual C++ and compiling for Windows (32-bit, i.e. 9x and NT family) nmake -f ..\config\makefile.nt or copy ..\config\makefile.nt makefile nmake Using the MinGW32 port of gcc: you need parts of the Micrsoft SDK for the moment. copy ..\config\makefile.mgw makefile Look through the Makefile to see if you need to make any changes. make make install Using the Cygwin port of gcc, which includes MinGW32: you need parts of the Microsoft SDK for the moment. copy ..\config\makefile.cyg makefile Look through the Makefile to see if you need to make any changes. make Using Borland C++ 32 bit compilers, like the freely downloadable BCC55: copy ..\config\makefile.win makefile.win Look through makefile.win to see if you need to make any changes. You'll probably have to change TC and some others. make -fmakefile.win WIN32=1 [NOTE: the 16-bit Windows version no longer work. gnuplot has become too large.] Using Microsoft C 7.0 and compiling for MS-Windows (16-bit) copy ..\config\makefile.msw makefile Look through the Makefile to see if you need to make any changes. nmake Using Borland C++ 3.1 and compiling for MS-Windows (16-bit) copy ..\config\makefile.win makefile.win Look through the Makefile to see if you need to make any changes. You'll probably have to change TC and some others. make -fmakefile.win MSDOS ----- Using DJGPP (32-bit DOS port of GNU CC) Basically the same as Unix+configure. Andris Pavenis has contributed a shell script which makes the whole process even easier: just run djconfig.sh, and then make. Only if you don't have a complete Unix toolset installed with your DJGPP, it is recommended to use makefile.dj2 instead: copy makefile.dj2 makefile make [NOTE: the 16-bit DOS versions of gnuplot no longer work. gnuplot has outgrown this platform.] Using Microsoft C 7.0 targetting 16-bit DOS copy makefile.msc makefile nmake Using Borland C++ 3.0 targetting 16-bit DOS copy makefile.tc makefile Edit makefile to change TC, BIN, BGI, BGIOBJ. You may also want to turn off overlays (See manual for more on overlays). make You'll want to copy the compiled executable and gnuplot.gih to a directory on your PATH to make them easily usable. The file gnuplot.gih is needed for help on the PC. If the file gnuplot.gih is not in the default directory, then use: set GNUHELP={full path name of gnuplot.gih} OS/2 ---- To compile under OS/2 (2.x and above) you need the development suite EMX 0.9 (including gcc). You should also have GNU Make and IBM's IPFC (Information Presentation Facility Compiler, available from the Developer's Toolkit; nowadays it's accessible through an IBM website for free!). At the beginning of makefile.os2 you will find a configuration section where you have to adjust all settings which control the build process. Most important is probably to select the terminal devices which should be supported. You can create a version offering PM graphics as well as X11 support (to use with XFree86). Support for these two terminals is provided by additional executables. Be sure to enable only those devices for which you have the necessary software already installed. Also ensure that the libraries and the sources are all compiled (not) using the '-Zmt' flags. Executing make -f makefile.os2 should create a default build while make -f makefile.os2 help will show you all pre-defined targets. See other sections of the manuals for more information about installing/using gnuplot on OS/2. Ultrix ------ The mousing code requires a patch in order to compile properly under Ultrix. You can download this patch from the contributed scripts section of the gnuplot project pages on SourceForge: http://gnuplot.sourceforge.net/scripts/ Or you can avoid the problem via ./configure --disable-mouse More details about ./configure --with-PACKAGE[=OPTION] ====================================================== Every `--with-PACKAGE' option sets a `with_package' variable in configure. Depending on how `--with-PACKAGE' was invoked, there are only three different possible values for the `with_package' variable: Option $with_package ---------------------------------------- (not specified) yes or no; default set in configure --with-package yes --with-package=yes yes --with-package=no no --with-package=DIR DIR --without-package no In gnuplot, the following --with-PACKAGE options are available. The --with-PACKAGE=DIR form is always required if a package is installed in a non-default location that is not searched by the preprocessor or linker. --with-readline Use gnuplot's builtin readline function. This is enabled by default. --without-readline (same as --with-readline=no) Do not use gnuplot's builtin readline function. --with-readline=gnu Use the GNU readline library instead of gnuplot's builtin readline. Version 4.2 or better is required. Please note that there is a bug in GNU readline up to and including 4.3 that makes gnuplot exit if the terminal window is resized. A fix is described at http://sourceforge.net/tracker/index.php?func=detail&aid=608874&group_id=2055&atid=102055 . --with-readline[=DIR] Use the GNU readline library instead of gnuplot's builtin readline. This form is required if GNU readline is not installed in a default location. --with-gd[=DIR] Dto. for Thomas Boutell's gd library. configure determines whether the found library supports gif, png, jpeg, and freetype. This option is on by default, i.e. configure will check if the library exists, and use it if found, if you don't specify any option regarding this package. --with-png[=DIR] Dto. for the png library. This option is on by default. --with-pdf[=DIR] Dto. for the pdf library. This option is on by default. --with-plot[=DIR] If used without the DIR argument, this option selects the standard UNIX plot library, if available. If used with the DIR argument, configure looks for the plot library from GNU plotutils version 2.2 or better. The option is off by default. --with-gif=png If specified, the gif driver produces png images instead of gif. Other arguments to this option are ignored! This feature exists mainly for backwards compatibility with old plot scripts, and is off by default. Platform compiler problems ========================== This section addresses trouble shooting and testing issues. Userland questions are answered in the FAQ. Platform and compiler notes --------------------------- Generally, if you think that configure has made a mistake in detecting platform features, you should consider that a bug either in GNU autoconf or in gnuplot's use of it, which you should report. As a workaround you can override such faulty tests in a site-wide collection of preset configure test results, or manually override them after running configure. Example: configure was for some reason unable to detect the memset() function, but you are sure it is ok to use on your platform. To fix that, you'll have to edit the generated config.h and change the line /* #undef HAVE_MEMSET */ to #define HAVE_MEMSET 1 Note that changing such defines from outside config.h, eg. via 'make DEFS=-DHAVE_MEMSET' is wrong, because config.h will usually override such changes. Also note that this change will be lost whenever you re-run configure. - gcc -ansi If you wish to compile with gcc -ansi (CC='gcc -ansi -pedantic' ./configure), additional platform specific defines may be necessary to include non-ANSI function prototypes. E.g. on Solaris, -D__EXTENSIONS__ is needed. Otherwise, non-declared functions not returning int will be assumed to return int, with possibly dangerous consequences. Especially scpecfun.c is vulnerable here. - HP-UX 9.x It is recommended to use gcc, although the native compiler cc may work with warnings. - HP-UX 10.x and above GCC has known problems on this platform if configured to use HP's assembler. The telltale symptom are tic labels all ending up at position 0.0. So either make sure you use a GCC configured to use GNU as, or use HP's ANSI cc (the unbundled one). - Alpha CPUs The Alpha family of CPUs exhibits somewhat unusual behaviour in the case of floating point exceptions. In default mode, it doesn't comply to IEEE floating point standards very well, leading to crashes of the whole program because of a floating point exception in certain cases. In order to avoid these, you may want to turn on IEEE compatibility mode in your compiler flags. For DEC cc, the relevant option is `-ieee', for GCC, it's `-mieee'. The configure script tries to automatically detect this situation and apply the flag, but you may want to double-check it. - SunOS 4.x An ANSI/ISO C compiler should be used to compile gnuplot. It is recommended to install gcc. If this is not an option, the system compiler cc can be made to work with Wietse Venema's unproto tool. See entry below for instructions. As of 1998-11-18, gnuplot compiles again with the native compiler cc. - System V.2/Ultrix 4.x/M88 SysV.3 An ANSI/ISO C compiler should be used to compile gnuplot. It is recommended to install gcc. If this is not an option, the system compiler cc can be made to work with Wietse Venema's unproto tool. Note that as of gnuplot-4.0, the alternative tool ansi2knr is included with the gnuplot source distribution and should automatically be used by automake to do this job for you, so you shouldn't need unproto any longer. unproto is available from ftp://ftp.win.tue.nl/pub/unix/unproto5.shar.Z ftp://ftp.porcupine.org/pub/lang/unproto5.shar.Z After installing unproto, configure gnuplot with (Bourne shell syntax) $ cd gnuplot-4.0 $ CC='cc -B/full/path/to/unproto/dir/ -tp' ./configure or (C shell syntax) $ cd gnuplot-4.0 $ env CC='cc -B/full/path/to/unproto/dir/ -tp' ./configure The required compiler options shown here are for System V.2. For other platforms, consult the unproto documentation. `/full/path/to/unproto/dir' is the full path name of the directory where unproto is installed. It is not necessary to "install" unproto, one can just create a subdirectory in gnuplot's source directory and use it from there. Environment variables ===================== See 'help environment'. If the environment variable GNUTERM is found, it is used as the terminal type. Otherwise, in some cases the variable TERM will be used, or the hardware may be detected automatically. If all else fails, a compile-time default will be used. The PC version looks for the environment variable GNUPLOT to contain the name of the directory from which to load the initialization file GNUPLOT.INI and also to be used as the home directory in ~ substitution. See the help on 'start_up' for more information. HOME is examined as a directory where a .gnuplot startup file might be found. See help on "start-up". The Atari/MTOS version uses GNUPLOTPATH. If defined, the environment variable GNUHELP is used for the name of the .gih help file, otherwise HELPFILE (defined in makefile or command.c) is used. The VMS version looks for the logical name GNUPLOT$HELP to locate the help library. The usual system-wide environment variable is used to locate a command line shell to be used for executing commands and starting sub-shells. On the DOS family of platforms (including all versions of Windows and OS/2) the variable looked at is COMSPEC. Other platforms will consult SHELL. If gnuplot is configured to use its own, private history file, the size of this file can be set via GNUPLOT_HISTORY_SIZE. The default is 666 (lines). If gnuplot is configured for the X11 window system, it looks for the X11 driver program in GNUPLOT_DRIVER_DIR. The default position used for the driver is fixed by the build process, so you should only have to set this if you moved gnuplot_x11 away from its original location. GDFONTPATH is the directory where png terminal searches TrueType and Adobe Type 1 fonts. You should set it to directory where files like arial.ttf and Symbol.pfa exist. GNUPLOT_DEFAULT_GDFONT is the default font to be used by the png and jpeg terminal types. This must either be a full path to the font file or the face name of a font found in the GDFONTPATH search path. GNUPLOT_FONTPATH is used by the postscript driver as search path for postscript (Adobe Type 1 and Type 2) fonts. It is also used by the svg driver to look for svg or Adobe cef fonts. GNUPLOT_PS_DIR is used by the postscript driver to use external prologue 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 prologue files. 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 platforms. The contents of GNUPLOT_LIB are appended to the `loadpath` variable, but not saved with the `save` and `save set` commands. GNUFITLOG holds the name of a file that saves fit results. The default is fit.log. If the name ends with a "/" or "\", it is treated as a directory name, and "fit.log" will be created as a file in that directory. The CGI drivers need the CGIPATH environment variable to set the path to the CGI agents, and the CGIDISP and/or CGIPRNT environment variables to the CGI agents, and the CGIDISP and/or CGIPRNT environment variables to set the output devices. If creating dynamically linked executables, it may be necessary to add flags to the LIBS variable in Makefile to make sure gnuplot finds all required libraries at runtime. Systems like SunOS and Solaris use -R to specify the runtime library search path, whereas OSF/Dec Unix, Irix and Linux use -rpath. If this is not possible, the LD_LIBRARY_PATH environment variable should be set. Generally it's recommended to install shared libraries only in places that are already searched by the linker without such options. LD_LIBRARY_PATH is the second-best choice. How to test gnuplot =================== No comprehensive test suite for gnuplot's features has been written to date. However, the supplied demo files provide a good method of testing commonly used features. All command line examples below assume Unix Bourne shell syntax. The demo files can be run interactively by eg. $ cd gnuplot/demo $ gnuplot simple.dem or $ GNUPLOT_DRIVER_DIR=../src ../src/gnuplot simple.dem and gnuplot prompts the user to "Hit return to continue" to cycle through all the plots (the GNUPLOT_DRIVER_DIR= part is only required if you are using the X11 or BeOS plotting device and the gnuplot_x11/gnuplot_be binary has not been installed yet, or if you want to test the external binaries you just compiled at the same time). To run the demos in a specified file without interaction, one can use $ gnuplot simple.dem set term dumb gnuplot> load 'all.dem' To test the capabilities of the terminal you are using, there is the 'test' command: gnuplot> test `test` creates a display of line and point styles and other useful things appropriate for the terminal you are using. Installing WPS object for gnuplot on OS/2 ========================================= GNUPLOT can be run from the command line of an OS/2 session, or can be set up as a program object in the WPS. GNUPLOT starts up as a command line session which accepts the usual GNUPLOT input. The Presentation Manager (PM) window for graphics display is only opened when the first 'plot' or 'splot' command is entered. If GNUPLOT is set up as a program object, it can be configured for 'drag and drop' in the usual way, by specifying '%*' as the program parameter. The PM window has facilities for printing the plot, for changing the fonts used in the plot, and so on. These of course are handled through the usual PM interface. In addition, you can 'drop' a font onto the window to change the font. The usual GNUPLOT commands can also be used to produce output on supported devices. Settings and the positions and sizes of the windows can be saved in the file gnushell.ini. This file is saved in the program's working directory; several different directories can be set up (as program objects) with different options, if you wish. PM terminal is fully mouse-capable. Type 'm' to switch the mouse on/off (see 'help mouse' for more details), or 'h' for the full list of current hotkeys (see also 'help bind'). Compiling Gnuplot with the wxWidgets terminal ============================================== The `wxt` terminal provides an interactive windowed output. The code is cross-platform and can be compiled as soon as the following requirements are met: First, this terminal is based on the wxWidgets library. This library can be found on http://www.wxwidgets.org. It comes in different flavours corresponding to the underlying API : Microsoft Windows ("wxMSW"), GTK+ ("wxGTK"), X11 ("wxX11"), MacOS ("wxMAC"), etc. Only wxMSW and wxGTK have been tested for gnuplot 4.2. If you want to use one of the other flavours, some things are likely to need a little work. You can find help on the gnuplot-beta mailing list. If you compile against the wxGTK port, you are encouraged to have the gtk+ development files too for the raise/lower commands to work as expected. Then, the terminal needs the Cairo library (no specific backend is required) which can be found on http://www.cairographics.org, and the Pango library, which can be found on http://www.pango.org and need to be compiled with its Cairo backend. On Unix, use the usual `./configure; make; make install' build process to compile this terminal. On Windows, please use the MinGW/MSYS makefile, namely config/makefile.mgw. MinGW and MSYS can be found on http://www.mingw.org. Front-ends for gnuplot ====================== o See gnuplot web page http://gnuplot.sourceforge.net/links.html for an up-to-date version of gnuplot front-ends o Bruce Ravel has written a new version of gnuplot-mode for GNU emacs and XEmacs. This version is based on the gnuplot.el file by Gershon Elber which used to be included with earlier versions of gnuplot's source distribution. The package is available from http://feff.phys.washington.edu/~ravel/gnuplot/. As of gnuplot 4.0 Bruce's version of gnuplot-mode is included with the gnuplot distribution, so you should already have it.