GSP
Quick Navigator

Search Site

Unix VPS
A - Starter
B - Basic
C - Preferred
D - Commercial
MPS - Dedicated
Previous VPSs
* Sign Up! *

Support
Contact Us
Online Help
Handbooks
Domain Status
Man Pages

FAQ
Virtual Servers
Pricing
Billing
Technical

Network
Facilities
Connectivity
Topology Map

Miscellaneous
Server Agreement
Year 2038
Credits
 

USA Flag

 

 

Man Pages


Manual Reference Pages  -  MAXIMA (1)

NAME

Maxima - Common Lisp version of MACSYMA symbolic mathematics package released under the GNU Public License

Xmaxima - A graphical version of Maxima

CONTENTS

Synopsis
Description
Options
Introductory Instructions
Example
Built-in Help
Other Documentation
Command Primer
Plotting Commands
Files
Environment Variables
Customization Files
References
Bugs
Authors

SYNOPSIS

maxima [options]

xmaxima [options]

DESCRIPTION

Maxima is a version of the MIT-developed MACSYMA system, modified to run under Common Lisp. It is an interactive expert system and programming environment for symbolic and numerical mathematical manipulation. Written in Lisp, it allows differentiation, integration, solution of linear or polynomial equations, factoring of polynomials, expansion of functions in Laurent or Taylor series, computation of Poisson series, matrix and tensor manipulations, and two- and three-dimensional graphics. Procedures may be written using an ALGOL-like syntax, and both Lisp-like functions and pattern matching facilities are provided. Files containing Maxima objects may be read from and written to disk files. Pre-written Maxima commands may be read from a file and executed, allowing batch-mode use.

OPTIONS

-b file, --batch=file
  Process file in noninteractive mode.
--batch-lisp=file
  Process Lisp file file in noninteractive mode.
--batch-string=string
  Process string in noninteractive mode.
-d, --directories
  Display Maxima directory information.
--disable-readline
  Disable readline support.
-g, --enable-lisp-debugger
  Enable Lisp debugger.
-h, --help Display a brief usage summary.
--init=string
  Load the Maxima and Lisp initialization files string.mac and string.lisp at startup.
--init-mac=file
  Load the Maxima initialization file file at startup.
--init-lisp=file
  Load the Lisp initialization file file at startup.
-l lisp, --lisp=lisp
  Use Lisp implementation lisp. Use --list-avail to see the list of possible values.
--list-avail
  List the available Lisp and Maxima versions.
-p lisp_file, --preload-lisp=lisp_file
  Preload lisp_file.
-q, --quiet
  Suppress Maxima start-up message.
-r string, --run-string=string
  Process string in interactive mode.
-s port, --server=port
  Connect Maxima to server on port. Note that this does not create a Maxima server; Maxima is the client.
-u version, --use-version=version
  Launch Maxima version version. Use --list-avail to see the list of possible values.
--userdir=directory
  Use directory for user directory (default is $HOME/maxima for Windows, $HOME/.maxima for others)
-v, --verbose
  Print extra information from the Maxima wrapper script.
--version
  Print the (default) installed version.
--very-quiet
  Suppress expression labels and the Maxima start-up message.
-X Lisp options, --lisp-options=Lisp options
  Options to be given to the underlying Lisp.

INTRODUCTORY INSTRUCTIONS

Upon initialization, maxima prints a startup message, then a command line prompt:

(%i1)

All Maxima commands must be concluded with either:
1) a semicolon (in which case the result of the command is echoed on a display line, prefaced by %o with an appended sequence number), or
2) a dollar sign (which suppresses printing of a display line).

EXAMPLE

(%i1) diff(sin(x),x);

(%o1) cos(x)

(%i2) integrate(%o1,x);

(%o2) sin(x)

The user types in commands which create Maxima objects (such as functions and system variables) and which manipulate these objects.

On UNIX it may be preferable to run Maxima under Gnu Emacs or XEmacs. You can do this by invoking shell mode in emacs, and then invoking maxima. Preferably, install maxima.el from the distribution and use the command:
M-x maxima
The main advantage of working inside emacs is that it provides a complete history of input/output. If you execute the command
display2d: false
you will be able to use your output as input, by simply killing and yanking.

Lisp is built into Maxima. The function to_lisp() enters the Lisp read-eval-print loop. The Lisp function (run) may be used to return to Maxima. Alternatively, single Lisp commands may be invoked by starting a command line with :lisp.

BUILT-IN HELP

The reference manual can be accessed from the Maxima input prompt. A description of a given command can be obtained by typing the command

describe(command);

or, simply,

? command

searches the list of functions for the string command. Demonstration files provide complete examples of problems solved with Maxima, and may be accessed with the command demo(command);. A library of user-contributed command files is also provided (the share library), directed toward a variety of problems.

OTHER DOCUMENTATION

The reference manual is provided in both info and html formats.

COMMAND PRIMER

This list includes only commands which the beginner might find useful to know about prior to studying the reference manual and other texts.
batch( myfile );
  Execute the contents of file myfile, which is assumed to contain Maxima commands.
closefile( myfile );
  Close session file opened by a writefile command (see below).
demo( myfile );
  Execute the contents of file myfile, which is assumed to contain Maxima commands, one line at a time.
ev(infolists);
  Print the contents of all of the available information lists.
functions;
  Print a list of the names of currently defined functions.
infolists;
  Print a list of the various available information lists.
kill(objectlist);
  Eliminate the object(s) contained within parentheses; kill(all) Delete all objects created by the user, restoring Maxima to its initial state.
quit(); Leave Maxima.
reset();
  Reset all Maxima control parameters to their default states.
values;
  Print a list of the names of currently assigned scalar values.
writefile( myfile );
  Write record of session to file myfile; only one file at a time can be open, and the closefile command must be invoked prior to leaving Maxima to flush the buffer.

PLOTTING COMMANDS

Maxima is capable of producing 2- and 3-dimensional plots. Here is a simple 2-dimensional example

plot2d (sin(x), [x, -2*%pi, 2*%pi]);

and a simple 3-dimensional example

plot3d (2^(-u^2 + v^2), [u, -5, 5], [v, -7, 7]);

By default plots are made by the gnuplot plotting package. Plots can be made by other means; see "? plot_options". For more information about plotting, see "? plot".

FILES

/usr/local/lib/maxima/5.37.3/binary-lisp
  Compiled files for lisp implementation lisp
/usr/local/info primary documentation directory, containing info files which are used for the ’describe’ command, and also for viewing under emacs or other info viewer.
/usr/local/share/maxima/5.37.3/doc/html
  HTML version of info documentation.
/usr/local/share/maxima/5.37.3/demo
  Maxima demo files.
/usr/local/share/maxima/5.37.3/emacs
  Elisp files for use with Emacs or XEmacs.
/usr/local/share/maxima/5.37.3/share
  Contributed external packages.
/usr/local/share/maxima/5.37.3/doc/share
  Documentation for contributed external packages.
/usr/local/share/maxima/5.37.3/src
  Complete Maxima source.
/usr/local/share/maxima/5.37.3/tests
  Test suite.
/usr/local/share/maxima/5.37.3/xmaxima
  Xmaxima support files.
/usr/local/libexec/maxima/5.37.3/
  Maxima utility scripts.

ENVIRONMENT VARIABLES

MAXIMA_USERDIR
  Points to a directory for user customization files. Maxima’s default search paths include MAXIMA_USERDIR. Default value: $HOME/.maxima.
MAXIMA_PREFIX
  Maxima looks for its input files in the directory configured at compile time, /usr/local. Maxima can be relocated to a different directory as long as the maxima script maintains the same relative position with respect to the Maxima input files. If, for some reason, the maxima script needs to be relocated independently, MAXIMA_PREFIX needs to be set to point to the top of the tree holding the input files.
MAXIMA_DIRECTORY
  MAXIMA_DIRECTORY is equivalent to MAXIMA_PREFIX. It is included only for backward compatibility with older versions of Maxima.
Maxima uses several other environment variables for communication between the maxima script and the lisp image. All such variables start with MAXIMA_. They should not need to be modified by the user.

CUSTOMIZATION FILES

maximarc
  maximarc is sourced by the maxima script at startup. It should be located in $MAXIMA_USERDIR (see above). maximarc can be used, e.g., to change the user’s default lisp implementation choice to CMUCL by including the line "MAXIMA_LISP=cmucl".
maxima-init.lisp
  At startup, Maxima will load the lisp file maxima-init.lisp if it is found in the search path. For user customization, maxima-init.lisp should be placed in the $MAXIMA_USERDIR (see above). Since Maxima typically has a system maxima-init.lisp in the Maxima share directory, the user may want to copy the contents of the system maxima-init.lisp into his/her custom file. Alternatively, the user can load a Lisp initialization file with another name or location by means of the --init-lisp or --init command-line options.
maxima-init.mac
  At startup, Maxima will load the file maxima-init.mac if it is found in the search path. For user customization, maxima-init.mac should be placed in the $MAXIMA_USERDIR (see above). Alternatively, the user can load a Maxima initialization file with another name or location by means of the --init-mac or --init command-line options.

REFERENCES

Old Reference: MACSYMA Reference Manual (volumes 1 and 2). The Mathlab Group, Laboratory for Computer Science, MIT. Version 10. January 1983.

Newer references: http://maxima.sourceforge.net

BUGS

Maxima is a complex system. It includes both known and unknown bugs. Use at your own risk. The Maxima bug database is available at

http://sourceforge.net/p/maxima/bugs/

New bug reports are always appreciated. Please include the output of the Maxima function "build_info()" with the report.

AUTHORS

MACSYMA (Project MAC’s SYmbolic MAnipulation System) was developed by the Mathlab group of the MIT Laboratory for Computer Science (originally known as Project MAC), during the years 1969-1972. Their work was supported by grants NSG 1323 of the National Aeronautics and Space Administration, N00014-77-C-0641 of the Office of Naval Research, ET-78-C-02-4687 of the U.S. Department of Energy, and F49620-79-C-020 of the U.S. Air Force. MACSYMA was further modified for use under the UNIX operating system (for use on DEC VAX computers and Sun workstations), by Richard Fateman and colleagues at the University of California at Berkeley; this version of MACSYMA is known as VAXIMA. The present version stems from a re-working of the public domain MIT MACSYMA for GNU Common Lisp, prepared by William Schelter, University of Texas at Austin until his passing away in 2001. It contains numerous additions, extensions and enhancements of the original. The original version of this manual page was written by R. P. C. Rodgers, UCSF School of Pharmacy, San Francisco, CA 94143 (rodgers@maxwell.mmwb.ucsf.edu) in 1989. It was extensively revised by James Amundson in 2002.

Maxima is now developed and maintained by the Maxima project at <http://maxima.sourceforge.net>.

Search for    or go to Top of page |  Section 1 |  Main Index


--> MAXIMA (1L) September 10, 2005

Powered by GSP Visit the GSP FreeBSD Man Page Interface.
Output converted with manServer 1.07.