Artifact 96ebf0d1e5e8c7fd4c9ae5cd2d432d91bf613e0ffdc11f38570c1edce7863792:



   This is GRG 3.2  Copyright (C) 1997-2000  Vadim V. Zhytnikov

   The system with source code and documentation is distributed
   in the hope that it will be useful but without any warranty.
   You may modify it for personal use, but you are not allowed
   to remove author's name and/or to distribute modified files.

GRG 3.2 is available by anonymous ftp download at
   ftp://ftp.maths.qmw.ac.uk
in the directory  /pub/grg3.2

GRG 3.2 is free of charge but any contribution is highly appreciated.
I work on GRG in my spare time and if you like the program you can help
the development and support of new versions. Please, acknowledge use
of GRG in publications.

The address for correspondence:

   Vadim V. Zhytnikov
   Physics Department, Faculty of Mathematics,
   Moscow State Pedagogical University,
   Davydovskii per. 4, Moscow 107140, Russia
   Tel(home): (095) 188-16-11
   E-mail: vvzhy@mail.ru
           vvzhy@td.lpi.ac.ru


1. INTRODUCTION
---------------

GRG 3.2 is the computer algebra program designed for the problems
in the differential geometry, gravitation and field theory.

GRG 3.2 is based on the computer algebra system REDUCE and works
with REDUCE versions 3.3, 3.4, 3.4.1, 3.5, 3.6 and 3.7.


2. SYSTEM REQUIREMENTS
----------------------

Both GRG and REDUCE are written in LISP. There are several versions
of REDUCE which use different LISP dialects. At present GRG works
with REDUCE based on PSL (Portable Standard Lisp distributed by
Konrad-Zuse-Zentrum (ZIB) <http://www.zib.de/Symbolik/reduce/>) and
CSL (Codemist Standard Lisp distributed by Codemist Ltd.
<http://www.codemist.tc>). In practice you should not worry about
these details since GRG compilation script automatically determines
current LISP dialect. Some little details depending on the particular
REDUCE version which will be explained below.

GRG is distributed as the source code and in order to install it
one must compile the program. Usually REDUCE is equipped with the
compiler except so called "personal" REDUCE. To install GRG on the
system which has no compiler it is necessary to find the full REDUCE
installed on similar platform, compile GRG on this machine and then
copy the resulting fasl files (grg*.b or grg*.fsl, see below) on
your computer. GRG compilation script automatically determines
presence whether the compiler is installed on your system or not.


3. THE DISTRIBUTIVE FILE CONTENTS
---------------------------------

GRG 3.2 distributive includes the following files:

   readme.txt    - this file
   new-in32.txt  - the note describing new features of GRG 3.2
                   compared to  GRG 3.1. Can be useful for user
                   who is familiar with GRG 3.1
   compare.txt   - please read this file if you wonder
                   Why should I use GRG if I have excalc?
   timing.txt    - statistics on the performance of REDUCE
                   and GRG on various platforms

   guide32.tex   - documentation
   grg32.tex

   compile.grg   - GRG compilation script and relevant files
   compile.csl
   expand.csl
   expand.psl
   compile.psl
   xcompile.psl

   grg.sl        - GRG source code
   grg32.sl
   grgcfg.sl
   grgclass.sl
   grgcomm.sl
   grgcomp.sl
   grgcoper.sl
   grgdecl.sl
   grggeom.sl
   grggrav.sl
   grginit.sl
   grgmacro.sl
   grgmain.sl
   grgmater.sl
   grgprin.sl
   grgproc.sl
   grgtrans.sl
   grgxcomp.sl
   grgxmacr.sl

   grg.cfg       - GRG local configuration file

   bondi.low     - GRG tests
   bondi.up
   pgt.low
   pgt.up

   test.red      - Script which determines the background LISP version
   grg2tex.red   - REDUCE program which converts GRG output into LaTeX

Notice that the GRG distributive is completely the same for
all operational systems: various UNIX dialects, VAX/VMS, DOS,
MS Windows etc. One should take into account only that different
operational system have different text file formats.
Thus the DOS distributive may include the programs:
   dtou.exe  utod.exe  addz.exe  cutz.exe
The utod.exe converts UNIX text file into DOS text file format and
dtou.exe makes inverse transformation. The programs addz.exe and
cutz.exe add and cut ^Z at the very end of the text file (see below).


4. IMPORTANT NOTE FOR IBM-PC REDUCE 3.3 and maybe 3.4 !
-------------------------------------------------------

The PSL-based REDUCE 3.3 (possibly 3.4 too) for DOS has rather
nasty bug. If such REDUCE 3.3 reads the text file which has no
trailing ^Z (hexadecimal code 1A which is optionally used as
the end-of-file marker for DOS text files) and reaches the end
of the file then DOS hangs and it is necessary to reboot the
computer. This is not so important to REDUCE itself since REDUCE
input files are usually terminated by the `soft' end-of-file command
`end;' (if both end; and ^Z are missing the REDUCE hangs too).
The same relates to the GRG input files: they must be ended either
by the GRG `soft' end-of-file $ or by ^Z.  If GRG is compiled
under the DOS REDUCE 3.3 all GRG source files grg*.sl (see above)
must have trailing ^Z. The ^Z code can be added with the help of
the addz.exe program:
   addz *.sl
The program cutz.exe removes the trailing ^Z.

The ^Z problem is fixed in REDUCE 3.5 and (I hope)
in later PSL versions.


5. GRG COMPILATION
------------------

Step 1:

  Create a new directory and copy the files:
    grg*.sl (19 files)
    compile.grg
    compile.psl
    compile.csl
    expand.csl
  into this directory. Usually GRG is distributed in packed
  form, so it suffices to unpack the distributive in this
  directory.

Step 2: This step is required only for PSL REDUCE 3.3 (and 3.4 ?)
        under DOS, MS Windows and possibly OS/2.

   Copy addz.exe program into the directory and type the
   command (see above for explanations):
      addz *.sl

Step 3:

   To compile GRG start REDUCE and type the command:
      in "compile.grg";
   Compilation usually takes several minutes. Please watch error
   messages. The compilation will create 15 files grg*.b (PSL)
   or grg*.fsl (CSL). Usually *.fsl files are automatically stored
   into appropriate system directory (recent CSL versions do not
   create *.fsl files but automatically store them into single
   REDUCE image file). PSL based REDUCE creates grg*.b files
   in current directory. You can move them into your working directory
   or into REDUCE fasl directory. The second option is preferable
   since in this case GRG can be started from any place and will be
   accessible for any user.  Notice that under UNIX the REDUCE fasl
   directory is usually write protected for ordinary users and this
   step may require the interference of system administrator.
   The REDUCE fasl directory is located at $reduce/fasl (UNIX) or
   $reduce\fasl (DOS) where $reduce stands for the REDUCE root
   directory.

Step 4:

   You can remove the unnecessary source files:
     grg*.sl  *.csl  *.psl  compile.grg


6. RUNNING GRG
--------------

Now to run GRG it is necessary to start REDUCE and type
the command (depending on the REDUCE version):
  load grg;
or
  load_package grg;
or
  load!_package grg;
GRG will respond with something like this
-----------------------------------------------------------------
This is GRG 3.2 release 2 (Feb 9, 1997) ...

System variables are upper-cased: E I PI SIN ...
Dimension is 4 with Signature (-,+,+,+)

<-
-----------------------------------------------------------------
The symbol <- is the prompt which means that GRG waits for your
commands. Pay attention to the message
  System variables are upper-cased: E I PI SIN ...
The point is that REDUCE is case insensitive which means
that x-X is evaluated as zero while in GRG x and X are different.
So any variable or function declared in GRG (Unlike REDUCE all
variables and functions in GRG must be declared) must be later
used exactly as they indicated in declaration. But mathematical
constants and functions which are defined by REDUCE must
be used in Upper or Lower case depending on the current REDUCE
version. So in the example above they must be typed in upper-case:
E, I, PI etc. But if the message reads
  System variables are lower-cased: e i pi sin ...
then use e, i, pi etc instead.

The GRG session is terminated by the command
  quit;

Usually command
  load grg;
loads GRG program into memory and automatically starts it.
On some systems (recent CSL versions) it makes some troubles
which are manifested by the following symptoms:
(1) wrong timing during computations,
(2) command quit; terminates GRG session instead of terminating
whole REDUCE program.

In such situation one must start GRG manually using
two commands instead of one
  load grg32;
  grg;
Here the first command loads GRG into memory and second one
starts it. One can also recompile GRG to make `load grg;' behave
as `load grg32;' (see Section 8 below). After this you can start
GRG by the commands
  load grg;
  grg;


7. TESTING GRG
--------------

After installation it is good idea to run a test.  The GRG
distributive include the test which calculates the irreducible
curvature spinors for the Bondi metric. To run this test start
GRG and type the command
  "bondi.up";
or
  "bondi.low";
depending on the upper or lower case of the built-in constants
as explained above. The output of this test is automatically
stored into the file bondi.out. There is also another test
pgt.up/pgt.low which is far more complicated. See the file
timing.txt to compare performance of your system with other
platforms.


8. CONFIGURING GRG
------------------

The beginners may skip this section.

GRG has two configuration files grgcfg.sl and grg.cgf which allow
one to change some initial settings. The first configuration file
grgcfg.sl is used during the GRG compilation. You may to edit this
file before compiling GRG and in this case the corresponding settings
will be activated whenever GRG is started (global settings).  Other
configuration file grg.cfg is optional. If necessary you can place
it into working directory to override the global settings locally.

The structure of both configuration files is the same. They can
include the following commands:

(1) The default signature is established by the command
      (signature!> - + + +)
    which also determines the default dimensionality.
    Do not forget the spaces between + and - ! And newer
    remove this command from the global configuration
    file grgcfg.sl.

(2) The commands on!> and off!> determines the initial
    position of switches. For example the commands
      (on!> torsion)
      (off!> allfac)
    turn the switch TORSION on and the switch ALLFAC off.

(3) The command package!> loads any REDUCE package. For example
       (package!> specfn)
     loads the special functions package specfn.

(4) The command
      (synonymous!>
	(coordinates cord)
	(constants constant const)
	...
      )
    defines the words will be considered as synonyms in
    the GRG commands and object names (the synonymy is
    intended for making the input shorter).

(5) The only option which is valid only in the global
    configuration file grgcfg.sl is
      (setq ![autostart!] nil)
    By default GRG is started by the single REDUCE command
    `load grg;'. This option alters default behaviour and
    one must start GRG using two commands `load grg; grg;'.
    This is preferable way on some systems (recent CSL versions,
    see Section 6 above).

Finally you can change the default output line-length which can
be useful in the variable-size windows environments like X-Windows.
For example, to set the output line-length to 100 include the line
   (linelength 100)
to your configuration file.

Be careful with editing the configuration file. If you make some
mistake in them GRG probably will not start at all. The good idea is
to save original configuration files to be able to restore initial
state.

Notice also that lines in grg.cfg and grggfg.sl beginning with % are
the comments and are ignored by the system.


9. GRG ENVIRONMENT VARIABLE
--------------------------

The environment variable grg defines the GRG System Directory.
To set it use the command
   set grg=c:\xxx\yyy               in DOS
   setenv grg /xxx/yyy              in UNIX with csh
   grg=/xxx/yyy                     in UNIX with sh
   define grg sys$user:[xxx.yyy]    in VAX/VMS
When asked to input some file GRG looks for it in the current
directory and if the file is absent GRG tries to input it from
the system directory. Thus this directory can be used as the
storage for oftenly used files.

10. DOCUMENTATION
-----------------

The documentation is typeset in LaTeX 2e. The file guide32.tex
is short reference guide while grg32.tex is the detailed manual.
To print the manual use the following procedure

   latex grg32
   latex grg32
   latex grg32
   makeindex grg32
   latex grg32


11. ACKNOWLEDGMENTS
-------------------

I would like to express my sincere gratitude to S.I.Tertychniy
who initiated the GRG project. I also want to thank I.G.Obukhova,
Yu.N.Obukhov, V.P.Gerdt, and A.Raportirenko. I am grateful to
R.L.Agacy, M.A.H.MacCallum< J.M.Nester, and De-Ching Chern
for support.

----------------------------------------------------------------


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