**DEPRECATED** This fork of lrslib is deprecated, please use the official version in available at: http://cgm.cs.mcgill.ca/~avis/C/lrs.html

README file for lrslib : reverse search vertex enumeration program/CH package
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Documentation is currently being maintained at the URL:

http://cgm.cs.mcgill.ca/~avis/C/lrs.html
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2018.7.1  
Version 7.0 (Beta release)  (lrslib-070)

User's guide: http://cgm.cs.mcgill.ca/~avis/C/lrslib/USERGUIDE70.html

Recommended makes:
%make            # lrs,redund(hybrid arithmetic), lrsgmp, redundgmp
%make mplrs      # mplrs(hybrid arithmetic), mplrsgmp

1. hybrid (64bit/128bit/GMP) arithmetic implemented:
   speedups of roughly 3-5 times (64bit) and 2 times(128bit) over GMP for problems using small integers. 
2. overflow checking for 64/128 bit arithmetic
3. __int128 (gcc v.4.6.0 or later) and FLINT arithmetic now supported
4. lrsgmp, mplrsgmp uses only GMP arithmetic, same as lrslib-062
5. lrs/redund/mplrs start in 64 bit moving to 128 bit and then to gmp arithmetic as necessary
6. single arithmetic versions of lrs/mplrs available for comparison purposes
7. single arithmetic versions of lrsnash are available with overflow checking
8. plrs is no longer supported
9. removing the -DSAFE option disables overflow checking in 64/128 bit mode and results are unpredicable if overflow occurs
10. mplrs now prints maximum tree depth at end and supports printcobasis option in input files

Shared library:

To make just the shared library, and appropriate symlinks,

% make liblrs.o

This is a *multiarithmatic* library that contains the lrslib API
suffixed with _1, _2, and _gmp. To use as a replacement for the old liblrsgmp.so, use

CFLAGS+= "-DGMP -DMA"

The -DMA is new, and enables rewriting of your existing function call
lrs_foo(...) to lrs_foo_gmp(...). This is C preprocessor macros, and
is optional, you can also call the _1, _2, and _gmp versions
directly.

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2016.5.27

Several changes to mplrs:
 1. New command-line options -countonly, -stopafter <n>, -maxbuf <n>.  
 2. Volume output.
 3. Counting statistics on number of jobs, size of L, number of times
    empty changed to longs.
 4. Performance improvements for problems with large outputs.
 
-----------------------------------------------------------------------------
2016.3.28

Changed default to 64-bit arithmetic when using lrslong and lrsmp arithmetic. 
For 32bit machines a -DB32 compile flag is now required for make allmp and
for compiles of lrs1/mplrs1/plrs1.

-----------------------------------------------------------------------------
2016.1.18

countonly     option follows the end line and suppresses output of vertices/rays/facets

2015.11.20    Current version is lrslib-061      Version 6.1

1. Contains lrsnash.c and lrsnashlib.c replacing nash.c with a library version and simpler interface
that does not require setupnash. Big thanks to Terje Lensberg for this.
nashdemo.c is a very basic template for setting up games and calling the library function lrs_solve_nash(game *g).

To compile:

% make lrsnash

you get binaries lrsnash and nashdemo.

% nashdemo                     just runs the demo, no parameters

% lrsnash game                 finds the equlibrium for game, which is in setupnash format (recommended!)

% lrsnash game1 game2          finds the equilibrium for the same game in legacy nash format

The usersguide will be updated in due course

2. mplrs, plrs, lrs had some memory leaks and a few other issues that are fixed in this release (hopefully and thankfully)

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


2015.10.10
memory leak in nash fixed
2015.10.3
OpenMPI has memory leaks in version 1.8.6. We tested mplrs with version 1.10.0
and found no leaks.
2015.9.16
Bug in nash caused by duplicated rows and columns fixed
2015.9.14
Fixed some lrs memory leaks caused by nonnegative and linearity output  

2015.7.13
This a major revision of lrslib which contains mplrs.c, the MPI parallel version of lrs written by Skip Jordan and derived from plrs which was written by Gary Roumanis.
Tests of mplrs on Tsubame2 with up to 1200 cores by Kazuki Yoshizoe show near linear speedups. lrs has some new options which are primarily for use by mplrs.

To install mplrs see:  http://cgm.cs.mcgill.ca/~avis/C/lrslib/USERGUIDE.html#mplrs

You will need an MPI library and mpic++ installed.
If you feel lucky try:

% make mplrs

Defalut usage:

% mpirun -np p mplrs  <infile> [ <outfile> ] 

where p>3 is the number of core to be used.

If you use openmpi the hosts available and slots on each host may be in
/usr/local/etc/openmpi-default-hostfile

Other options available are described in http://cgm.cs.mcgill.ca/~avis/C/lrslib/USERGUIDE.html#mplrs


In particular plots can be made during the mplrs run of the job queue length, number of processors active etc.

The makefile was modified by David Bremner. Please direct any complaints to bremner@unb.ca

New option:
maxcobases n 
After maxbases have been generated the cobases of the unexplored subtrees are reported.
Each of these can be restarted as a separate lrs run with suitable mindepth option set

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Older versions

2014.12.4

With gcc 4.8 plrs does not compile. Changed memory ordering (plrs.cpp line 168) from
plrs_output* consume_list = output_list.exchange(0,boost::memory_order_consume);
to
plrs_output* consume_list = output_list.exchange(0,boost::memory_order_acquire);

For more details see here:
https://bitsharestalk.org/index.php?topic=15.msg14109#msg14109

To get plrsmp to compile I converted the length macro to a function call (conflict with str1.length in lrslib.c line 2792)

2014.12.2

From version 1.56.0 the boost library contains the Atomic library, so boost_atomic is no longer included in the lrs distribution. 
The instructions below for installing plrs are now simpler.
-----------------------------------------------------------------------------

2014.9.27

lrslib-050 released 

lrslib-050 contains a multi-thread version of lrs called plrs. The input/output files for plrs are the
same as for lrs, however plrs is intended just for vertex or facet enumeration, and other functionality
of lrs is not available. 

Usage is 

% plrs  <infile> [ <outfile> ] [ -mt <max threads> ] [ -id <initial depth> ]

-mt <max threads> specifies the number parallel threads calling lrs (default 12)
-id <initial depth> specifies the initial depth of the RS tree to generate before parallelization (default 5)

Setup instructions for plrs. Use version 1.57.0 or later of the boost libary

1. Install boost library from http://www.boost.org/ into prefix/boost157

If you have root permission, prefix=/usr/include  (or just do not specify it)
However you can install boost locally wherever you like.
 
Instructions for installing the library are located here 
http://www.boost.org/doc/libs/1_57_0/more/getting_started/unix-variants.html. 
Look at section 5 for an easy install. 
***Important: make a note of the path given at the end of the install process ****

2. Update the makefile to include the paths you recorded in step 1. 
 "make plrs" will make plrs with the gmp library (assuming the gmp library is already installed on that machine). 
 "make plrsmp" will make plrs with the standard lrsmp arithmetic library and plrs1 with the long integer library. 

-------------------------------------------------------------------------------
2013.5.22  modification to printcobasis so that the objective value is printed
------------------------------------------------------------------------------
2012.9.27  initial release of multithread version of lrs called plrs that uses a wrapper
           written by Gary Roumanis. It needs the Boost libraries at http://www.boost.org

           plrs setup instructions are in the file readme_plrs
           I regret that I cannot give any additional support for the correct installation of boost libraries.

           Note: makefile has now changed so that
          make all              gives gmp arithmetic library
          make allmp            uses native mp arithmetic if gmp not available
-----------------------------------------------------------------------------
2010.5.7  incidence no longer resets printcobasis frequency to zero. 
          If the printcobasis n option is used, the frequency will be n.
          Otherwise the default n=0 is used, and cobasis is printed only for lexmin bases.
-----------------------------------------------------------------------------

2010.4.26 bug when incidence and nonnegative options used together reported by 
          Jochen Koenemannkfix was fixed. 
          Bug in fourier reported by Laszlo David for input which is not full
          dimensional. I am temporarily removing fourier from distribution.
-----------------------------------------------------------------------------
2009.12.2 bug fix for redund caused problems in nash, reported by James Heather.
          Hopefully this new version solves both issues.
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2009.9.10  bug in redund reported by Alden Walker, when linearities are redundant, has been fixed.
           It is now under test, so please report any bugs!
           this bug also can cause printcobasis option to be incorrect for lrs under this condition. 
           Problems still seem to arise in fourier from time to time, so please report any anomalities.
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2009.2.5    bug in fourier when using linearity option pointed out by Conor Meagher.  Option disabled.
            2nash driver uses two processors to run nash with input files in both orders.
            terminates when first process terminates. Thanks again to Conor for this.
-----------------------------------------------------------------------------
2007.6.6    printcobasis output line modified to give also in_det
            det= the determinant of the current basis, which is always integer.
            in_det= the determinant of the input rows corresponding to the current basis. lrs rescales input rows if they are rational or have a common divisor, so in these cases det and in_det are different.
For V-representation, the volume will be the sum of the in_det of
each basis, divided by the dimension (n-1)!
-------------------------------------------------------------------
2006.10.31   Modified code for restartpivots, to allow DB to do something.
             Estimator now provides estimate of running time=time*bases/tree nodes
             Triangulation printed if getvolume and verbose options used
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2006.10.11   Bug fix for nash, and inclusion of polytope version
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             available by using setupnash2
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2006.3.1 incidence option now can be used compatibly with printcobasis n 
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2006.2.14
Version 4.2b

Bug fixed related to memory allocation for linearity reported by David Haws.
If you use the linearity option, you should upgrade to this version.

In the case of inconsistent linearities, the first inconsistent linearity
is now reported before termination.

----------------------------------------------------------------------------
2005.11.20
Version 4.2a

Bug fixed relating to miscaled lp dual variables output when lponly set

maxoutput n   Option limits output lines to n: either rays+vertices, or facets

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2005.6.1
Version 4.2 with two new drivers:

nash.c  which computes all Nash equilibria of a two person non-cooperative game,
        and uses setupnash.c to create the input files.

fourier.c  which does Fourier elimination on an H-representation to project it to
           a lower dimensional space. Contributed by Tallman Nkgau.

Other changes: lrs with the lponly option now provides dual variables for the 
        optimum solution.

Bug fix to mpdouble (reported by several users.)

_____________________________________________________________________________

2004.9.23
Version 4.2 updated with a patch from Bremner that has something to do with C++.

2003.10.24

Version 4.2 which appears here is a prerelease version, is not fully tested,
and will be modified frequently. However you are more than welcome to try
it - please report any bugs! Merci beaucoup.

2002.10.28

lrslib v.4.2        minor modifications to v.4.1

This is a pre-release for test purposes. Please report bugs!
Nonnegative option was fixed to allow input where origin is not necessarily
a vertex.
A memory leak was fixed.
A quiet mode is added - compile with LRS_QUIET set.

------------------------------------------------------------------------------
2001.6.20

lrslib v.4.1

lpsolve like procedures to build input data added. Demo programs are:

vedemo.c    vertex enumeration
chdemo.c    facet enumeration
lpdemo.c    linear programs

They can be build using: make demo

Proper garbage collection implemented to clean up after each problem has been
solved. See

http://cgm.cs.mcgill.ca/~avis/C/lrslib/lrslib.html 

for documentation.

-------------------------------------------------------------------------------
2000.6.14

Various binaries are available in the directory binaries.

Currently available:

binaries/debian        Debian Linux      
binaries/sun           Sun Ultra Sparc
binaries/win98         Windows 95/98

------------------------------------------------------------------------------
2000.6.14

lrslib v.4.0 which
supercedes all previous versions of the programs lrs and redund.
New Features:
------------

1. Library version allows customization of the search function, access to the
output as it is produced, and access to lrs from other programs.

2. Problems need no longer be in full dimension. This allows the
input of equations, partial enumeration on facets, ridges etc.

3. Choice of arithmetic packages. Currently available are:

   lrsmp     Extended precision arithmetic used in previous releases
  
   lrslong   Fixed length long integer arithmetic. No overflow checking
             but 5-10 times faster.

   lrsgmp    Requires preinstallation of GNU GMP package, available at
             http://www.swox.com/gmp/

  The standard "make all" gives lrs/redund with lrsmp, and lrs1/redund1 with lrslong. 
 
4. redund was completely rewritten and is faster than before. The previous
   version did not remove redundancy in the starting basis and should be
   discarded. 


Installation:
------------

1. From website go to "Download" and retrieve the file lrslib-040.tar.gz

2. Unpack with:

   % gunzip lrslib-040.tar.gz
   % tar xvf lrslib-040.tar

3. Go to the new directory

   % cd lrslib-040

4. make binaries by typing
   
   % make all               (most 32 bit unix machines)

or

  % make all64              (64 bit integer machines such as DEC Alpha)

If the make fails, it is usually due to timing and/or interrupt handling
routines. In this case try:

  % make nosigs

5. If successful you should get binaries: lrs redund lrs1 redund1

6. Test the program lrs by typing:

   lrs cube.ine

and you should get output resembling the file cube.ext

7. You will find additional test files in the directories: ine and ext

8. For GNU gmp library, edit the makefile to set the INCLUDE and LIB paths for
   the location of the gmp libarary, and type:

   %make gmp

   You should get binaries glrs and gredund