lemon-project-template-glpk

diff deps/glpk/NEWS @ 9:33de93886c88

Import GLPK 4.47
author Alpar Juttner <alpar@cs.elte.hu>
date Sun, 06 Nov 2011 20:59:10 +0100
parents
children
line diff
     1.1 --- /dev/null	Thu Jan 01 00:00:00 1970 +0000
     1.2 +++ b/deps/glpk/NEWS	Sun Nov 06 20:59:10 2011 +0100
     1.3 @@ -0,0 +1,1607 @@
     1.4 +GLPK 4.47 (release date: Sep 09, 2011)
     1.5 +
     1.6 +        The new API routine glp_intfeas1 was added to the package.
     1.7 +        This routine is a tentative implementation of the integer (0-1)
     1.8 +        feasibility solver based on the CNF-SAT solver (which currently
     1.9 +        is MiniSat). It may be used in the same way as glp_intopt to
    1.10 +        find either any integer feasible solution or a solution, for
    1.11 +        which the objective function is not worse than the specified
    1.12 +        value. Detailed description of this routine can be found in the
    1.13 +        document "CNF Satisfiability Problem", which is included in the
    1.14 +        distribution (see doc/cnfsat.pdf).
    1.15 +
    1.16 +        The following two options were added to glpsol:
    1.17 +
    1.18 +        --minisat       translate 0-1 feasibility problem to CNF-SAT
    1.19 +                        problem and solve it with glp_intfeas1/MiniSat
    1.20 +                        (if the problem instance is already in CNF-SAT
    1.21 +                        format, no translation is performed)
    1.22 +
    1.23 +        --objbnd bound  add inequality obj <= bound (minimization) or
    1.24 +                        obj >= bound (maximization) to 0-1 feasibility
    1.25 +                        problem (this option assumes --minisat)
    1.26 +
    1.27 +        The paint-by-numbers puzzle model (pbn.mod) included in the
    1.28 +        distribution is a nice example of the 0-1 feasibility problem,
    1.29 +        which can be efficiently solved with glp_intfeas1/MiniSat. This
    1.30 +        model along with a brief instruction (pbn.pdf) and benchmark
    1.31 +        examples from <webpbn.com> encoded in GNU MathProg (*.dat) can
    1.32 +        be found in subdirectory examples/pbn/.
    1.33 +
    1.34 +        The glpsol lp/mip solver was modified to bypass postprocessing
    1.35 +        of MathProg models if the solution reported is neither optimal
    1.36 +        nor feasible.
    1.37 +
    1.38 +        A minor bug in examples/Makefile.am was fixed to correctly
    1.39 +        build glpk in a separate directory. Thanks to Marco Atzeri
    1.40 +        <marco.atzeri@gmail.com> for bug report and patch.
    1.41 +
    1.42 +GLPK 4.46 (release date: Aug 09, 2011)
    1.43 +
    1.44 +        The following new API routines were added:
    1.45 +
    1.46 +        glp_read_cnfsat    read CNF-SAT problem data in DIMACS format
    1.47 +        glp_check_cnfsat   check for CNF-SAT problem instance
    1.48 +        glp_write_cnfsat   write CNF-SAT problem data in DIMACS format
    1.49 +        glp_minisat1       solve CNF-SAT problem instance with MiniSat
    1.50 +
    1.51 +        The routine glp_minisat1 is a driver to MiniSat, a CNF-SAT
    1.52 +        solver developed by Niklas Een and Niklas Sorensson, Chalmers
    1.53 +        University of Technology, Sweden. This routine is similar to
    1.54 +        the routine glp_intopt, however, it is intended to solve a 0-1
    1.55 +        programming problem instance, which is the MIP translation of
    1.56 +        a CNF-SAT problem instance.
    1.57 +
    1.58 +        Detailed description of these new API routines can be found in
    1.59 +        the document "CNF Satisfiability Problem", which is included in
    1.60 +        the distribution (see files doc/cnfsat.tex and doc/cnfsat.pdf).
    1.61 +
    1.62 +        The following new glpsol command-line options were added:
    1.63 +
    1.64 +        --cnf filename     read CNF-SAT problem instance in DIMACS
    1.65 +                           format from filename and translate it to MIP
    1.66 +        --wcnf filename    write CNF-SAT problem instance in DIMACS
    1.67 +                           format to filename
    1.68 +        --minisat          solve CNF-SAT problem instance with MiniSat
    1.69 +                           solver
    1.70 +
    1.71 +        The zlib compression library (version 1.2.5) was ANSIfied,
    1.72 +        modified according to GLPK requirements and included in the
    1.73 +        distribution as an external software module. Thus, now this
    1.74 +        feature is platform independent.
    1.75 +
    1.76 +        Some bugs were fixed in the SQL table driver. Thanks to Xypron
    1.77 +        <xypron.glpk@gmx.de>.
    1.78 +
    1.79 +GLPK 4.45 (release date: Dec 05, 2010)
    1.80 +
    1.81 +        This is a bug-fix release.
    1.82 +
    1.83 +        Several bugs/typos were fixed. Thanks to
    1.84 +        Xypron <xypron.glpk@gmx.de>,
    1.85 +        Robbie Morrison <robbie@actrix.co.nz>, and
    1.86 +        Ali Baharev <ali.baharev@gmail.com> for reports.
    1.87 +
    1.88 +        Some glpk documents was re-formatted and merged into a single
    1.89 +        document. Now the glpk documentation consists of the following
    1.90 +        three main documents (all included in the distribution):
    1.91 +
    1.92 +        GLPK: Reference Manual
    1.93 +
    1.94 +        GLPK: Graph and Network Routines
    1.95 +
    1.96 +        Modeling Language GNU MathProg: Language Reference
    1.97 +
    1.98 +GLPK 4.44 (release date: Jun 03, 2010)
    1.99 +
   1.100 +        The following suffixes for variables and constraints were
   1.101 +        implemented in the MathProg language:
   1.102 +
   1.103 +        .lb     (lower bound),
   1.104 +        .ub     (upper bound),
   1.105 +        .status (status in the solution),
   1.106 +        .val    (primal value), and
   1.107 +        .dual   (dual value).
   1.108 +
   1.109 +        Thanks to Xypron <xypron.glpk@gmx.de> for draft implementation
   1.110 +        and testing.
   1.111 +
   1.112 +        Now the MathProg language allows comment records (marked by
   1.113 +        '#' in the very first position) in CSV data files read with the
   1.114 +        table statements. Note that the comment records may appear only
   1.115 +        in the beginning of a CSV data file.
   1.116 +
   1.117 +        The API routine glp_cpp to solve the Critical Path Problem was
   1.118 +        added and documented.
   1.119 +
   1.120 +GLPK 4.43 (release date: Feb 20, 2010)
   1.121 +
   1.122 +        This is a maintainer release.
   1.123 +
   1.124 +        `configure.ac' was changed to allow building the package under
   1.125 +        Mac OS and Darwin with ODBC support.
   1.126 +        Thanks to Xypron <xypron.glpk@gmx.de> for suggestions and Noli
   1.127 +        Sicad <nsicad@gmail.com> for testing.
   1.128 +
   1.129 +        The SQL table driver was improved to process NULL data. Thanks
   1.130 +        to Xypron <xypron.glpk@gmx.de>.
   1.131 +
   1.132 +        Some bugs were fixed in the LP/MIP preprocessor.
   1.133 +
   1.134 +GLPK 4.42 (release date: Jan 13, 2010)
   1.135 +
   1.136 +        The following new API routines were added:
   1.137 +
   1.138 +        glp_check_dup         check for duplicate elements in sparse
   1.139 +                              matrix
   1.140 +        glp_sort_matrix       sort elements of the constraint matrix
   1.141 +        glp_read_prob         read problem data in GLPK format
   1.142 +        glp_write_prob        write problem data in GLPK format
   1.143 +        glp_analyze_bound     analyze active bound of non-basic variable
   1.144 +        glp_analyze_coef      analyze objective coefficient at basic
   1.145 +                              variable
   1.146 +        glp_print_ranges      print sensitivity analysis report (this
   1.147 +                              routine replaces lpx_print_sens_bnds and
   1.148 +                              makes it deprecated)
   1.149 +
   1.150 +        For description of these new routines and the GLPK LP/MIP
   1.151 +        format see a new edition of the reference manual included in
   1.152 +        the distribution. (Chapter "Graph and network API routines" was
   1.153 +        carried out from the main reference manual and included in the
   1.154 +        distribution as a separate document.)
   1.155 +
   1.156 +        The following new command-line options were added to the stand-
   1.157 +        alone solver glpsol:
   1.158 +        --glp filename        read problem data in GLPK format
   1.159 +        --wglp filename       write problem data in GLPK format
   1.160 +        --ranges filename     print sensitivity analysis report (this
   1.161 +                              option replaces --bounds)
   1.162 +
   1.163 +        Now all GLPK routines performing file I/O support special
   1.164 +        filenames "/dev/stdin", "/dev/stdout", and "/dev/stderr", which
   1.165 +        can be specified in the same way as regular filenames. This
   1.166 +        feature is plaform-independent.
   1.167 +
   1.168 +GLPK 4.41 (release date: Dec 21, 2009)
   1.169 +
   1.170 +        The following new API routies were added:
   1.171 +
   1.172 +        glp_transform_row     transform explicitly specified row
   1.173 +        glp_transform_col     transform explicitly specified column
   1.174 +        glp_prim_rtest        perform primal ratio test
   1.175 +        glp_dual_rtest        perform dual ratio test
   1.176 +
   1.177 +        For description of these new routines see a new edition of the
   1.178 +        reference manual included in the distribution.
   1.179 +
   1.180 +        The following API routines are deprecated: lpx_transform_row,
   1.181 +        lpx_transform_col, lpx_prim_ratio_test, lpx_dual_ratio_test.
   1.182 +
   1.183 +        Some improvements were made in the MIP solver (glp_intopt).
   1.184 +
   1.185 +        The SQL table driver used to read/write data in MathProg models
   1.186 +        was changed to allow multiple arguments separated by semicolon
   1.187 +        in SQL statements. Thanks to Xypron <xypron.glpk@gmx.de>.
   1.188 +
   1.189 +        Two new options were added to the glpsol stand-alone solver:
   1.190 +        --seed value (to initialize the pseudo-random number generator
   1.191 +        used in MathProg models with specified value), and
   1.192 +        --ini filename (to use a basis previously saved with -w option
   1.193 +        as an initial basis on solving similar LP's).
   1.194 +
   1.195 +        Two new MathProg example models were included. Thanks to
   1.196 +        Nigel Galloway <nigel_galloway@operamail.com> and Noli Sicad
   1.197 +        <nsicad@gmail.com> for contribution.
   1.198 +
   1.199 +        Scripts to build GLPK with Microsoft Visual Studio 2010 for
   1.200 +        both 32-bit and 64-bit Windows were included. Thanks to Xypron
   1.201 +        <xypron.glpk@gmx.de> for contribution and testing.
   1.202 +
   1.203 +GLPK 4.40 (release date: Nov 03, 2009)
   1.204 +
   1.205 +        The following new API routines were added:
   1.206 +
   1.207 +        glp_del_vertices      remove vertices from graph
   1.208 +        glp_del_arc           remove arc from graph
   1.209 +        glp_wclique_exact     find maximum weight clique with the exact
   1.210 +                              algorithm developed by Prof. P. Ostergard
   1.211 +        glp_read_ccdata       read graph in DIMACS clique/coloring
   1.212 +                              format
   1.213 +        glp_write_ccdata      write graph in DIMACS clique/coloring
   1.214 +                              format
   1.215 +
   1.216 +        For description of these new routines see a new edition of the
   1.217 +        reference manual included in the distribution.
   1.218 +
   1.219 +        The hybrid pseudocost branching heuristic was included in the
   1.220 +        MIP solver. It is available on API level (iocp.br_tech should
   1.221 +        be set to GLP_BR_PCH) and in the stand-alone solver glpsol
   1.222 +        (via the command-line option --pcost). This heuristic may be
   1.223 +        useful on solving hard MIP instances.
   1.224 +
   1.225 +        The branching heuristic by Driebeck and Tomlin (used in the
   1.226 +        MIP solver by default) was changed to switch to branching on
   1.227 +        most fractional variable if an lower bound of degradation of
   1.228 +        the objective is close to zero for all branching candidates.
   1.229 +
   1.230 +        A bug was fixed in the LP preprocessor (routine npp_empty_col).
   1.231 +        Thanks to Stefan Vigerske <stefan@math.hu-berlin.de> for the
   1.232 +        bug report.
   1.233 +
   1.234 +        A bug was fixed and some improvements were made in the FPUMP
   1.235 +        heuristic module. Thanks to Xypron <xypron.glpk@gmx.de>.
   1.236 +
   1.237 +        A bug was fixed in the API routine glp_warm_up (dual
   1.238 +        feasibility test was incorrect in maximization case). Thanks to
   1.239 +        Uday Venkatadri <Uday.Venkatadri@dal.ca> for the bug report.
   1.240 +
   1.241 +GLPK 4.39 (release date: Jul 26, 2009)
   1.242 +
   1.243 +        The following new API routines were added:
   1.244 +
   1.245 +        glp_warm_up           "warm up" LP basis
   1.246 +        glp_set_vertex_name   assign (change) vertex name
   1.247 +        glp_create_v_index    create vertex name index
   1.248 +        glp_find_vertex       find vertex by its name
   1.249 +        glp_delete_v_index    delete vertex name index
   1.250 +        glp_read_asnprob      read assignment problem data in DIMACS
   1.251 +                              format
   1.252 +        glp_write_asnprob     write assignment problem data in DIMACS
   1.253 +                              format
   1.254 +        glp_check_asnprob     check correctness of assignment problem
   1.255 +                              data
   1.256 +        glp_asnprob_lp        convert assignment problem to LP
   1.257 +        glp_asnprob_okalg     solve assignment problem with the
   1.258 +                              out-of-kilter algorithm
   1.259 +        glp_asnprob_hall      find bipartite matching of maxumum
   1.260 +                              cardinality with Hall's algorithm
   1.261 +
   1.262 +        Also were added some API routines to read plain data files.
   1.263 +
   1.264 +        The API routines glp_read_lp and glp_write_lp to read/write
   1.265 +        files in CPLEX LP format were re-implemented. Now glp_write_lp
   1.266 +        correctly writes double-bounded (ranged) rows by introducing
   1.267 +        slack variables rather than by duplicating the rows.
   1.268 +
   1.269 +        For description of these new routines see a new edition of the
   1.270 +        reference manual included in the distribution.
   1.271 +
   1.272 +        The 'xfree(NULL)' bug was fixed in the AMD routines. Thanks to
   1.273 +        Niels Klitgord <niels@bu.edu> for bug report.
   1.274 +
   1.275 +        The message "Crashing..." was changed to "Constructing initial
   1.276 +        basis..." due to suggestion by Thomas Kahle <tom111@gmx.de>.
   1.277 +
   1.278 +        Some typos were corrected in glpsol output messages. Thanks to
   1.279 +        Xypron <xypron.glpk@gmx.de> for patch.
   1.280 +
   1.281 +GLPK 4.38 (release date: May 02, 2009)
   1.282 +
   1.283 +        API routines glp_read_mps and glp_write_mps were improved.
   1.284 +
   1.285 +        Some improvements were made in the dual simplex routines.
   1.286 +
   1.287 +        Two external software modules AMD and COLAMD were included in
   1.288 +        the distribution (for more details please see src/amd/README
   1.289 +        and src/colamd/README). Now they are used in the interior-point
   1.290 +        solver to reorder the matrix prior to Cholesky factorization.
   1.291 +
   1.292 +        API routine glp_ipt_status may return two new statuses due to
   1.293 +        changes in the routine glp_interior. For details please see the
   1.294 +        reference manual included in the distribution.
   1.295 +
   1.296 +        A minor bug was fixed in the graph/network routines. Thanks to
   1.297 +        Nelson H. F. Beebe <beebe@math.utah.edu> for bug report.
   1.298 +
   1.299 +GLPK 4.37 (release date: Mar 29, 2009)
   1.300 +
   1.301 +        The 0-1 Feasibility Pump heuristic was included in the GLPK
   1.302 +        integer optimizer glp_intopt. On API level the heuristic can be
   1.303 +        enabled by setting the parameter fp_heur in glp_iocp to GLP_ON.
   1.304 +        This feature is also available in the solver glpsol through
   1.305 +        command-line option '--fpump'. For more details please see the
   1.306 +        reference manual included in the distribution.
   1.307 +
   1.308 +        The following new API routines were added:
   1.309 +
   1.310 +        glp_print_sol         write basic solution in printable format
   1.311 +        glp_print_ipt         write interior-point solution in printable
   1.312 +                              format
   1.313 +        glp_print_mip         write MIP solution in printable format
   1.314 +        glp_read_graph        read (di)graph from plain text file
   1.315 +        glp_write_graph       write (di)graph to plain text file
   1.316 +        glp_weak_comp         find all weakly connected components
   1.317 +        glp_strong_comp       find all strongly connected components
   1.318 +
   1.319 +        The following API routines are deprecated: lpx_print_sol,
   1.320 +        lpx_print_ips, lpx_print_mip, lpx_print_prob (the latter is
   1.321 +        equivalent to glp_write_lp).
   1.322 +
   1.323 +        A bug was fixed in the interior-point solver (glp_interior) to
   1.324 +        correctly compute dual solution components when the problem is
   1.325 +        scaled.
   1.326 +
   1.327 +        The files configure.ac and Makefile.am were changed:
   1.328 +        (a) to allow using autoreconf/autoheader;
   1.329 +        (b) to allow building the package in a directory other than its
   1.330 +            source directory.
   1.331 +        Thanks to Marco Atzeri <marco_atzeri@yahoo.it> for bug report.
   1.332 +
   1.333 +        An example model in the GNU MathProg language was added.
   1.334 +        Thanks to Larry D'Agostino <Larry.D'Agostino@gmacrescap.com> for
   1.335 +        contribution.
   1.336 +
   1.337 +GLPK 4.36 (release date: Feb 06, 2009)
   1.338 +
   1.339 +        The following new API routines were added to the package:
   1.340 +
   1.341 +        glp_mincost_okalg     find minimum-cost flow with out-of-kilter
   1.342 +                              algorithm
   1.343 +        glp_maxflow_ffalg     find maximal flow with Ford-Fulkerson
   1.344 +                              algorithm
   1.345 +
   1.346 +        For detailed description of these new routines and related data
   1.347 +        structures see chapter "Graph and Network API Routines" in a new
   1.348 +        edition of the reference manual included in the distribution.
   1.349 +
   1.350 +        The following two new command-line options were added to the
   1.351 +        solver glpsol:
   1.352 +
   1.353 +        --mincost             read min-cost flow data in DIMACS format
   1.354 +        --maxflow             read maximum flow data in DIMACS format
   1.355 +
   1.356 +        Duplicate symbols in the header glpk.h were removed to allow
   1.357 +        using swig.
   1.358 +        Thanks to Kelly Westbrooks <kellywestbrooks@yahoo.com> and
   1.359 +        Nigel Galloway <nigel_galloway@operamail.com> for suggestion.
   1.360 +
   1.361 +        A minor defect was fixed in the routine glp_write_lp.
   1.362 +        Thanks to Sebastien Briais <sbriais@free.fr> for bug report.
   1.363 +
   1.364 +        A minor bug was fixed in the SQL module.
   1.365 +        Thanks to Xypron <xypron.glpk@gmx.de> for patch.
   1.366 +
   1.367 +        Some new example models in the GNU MathProg modeling language
   1.368 +        were added. Thanks to Sebastian Nowozin <nowozin@gmail.com> and
   1.369 +        Nigel Galloway <nigel_galloway@operamail.com> for contribution.
   1.370 +
   1.371 +GLPK 4.35 (release date: Jan 09, 2009)
   1.372 +
   1.373 +        The following new API routines were added to the package:
   1.374 +
   1.375 +        glp_create_graph      create graph
   1.376 +        glp_set_graph_name    assign (change) graph name
   1.377 +        glp_add_vertices      add new vertices to graph
   1.378 +        glp_add_arc           add new arc to graph
   1.379 +        glp_erase_graph       erase graph content
   1.380 +        glp_delete_graph      delete graph
   1.381 +        glp_read_mincost      read minimum cost flow problem data in
   1.382 +                              DIMACS format
   1.383 +        glp_write_mincost     write minimum cost flow problem data in
   1.384 +                              DIMACS format
   1.385 +        glp_mincost_lp        convert minimum cost flow problem to LP
   1.386 +        glp_netgen            Klingman's network problem generator
   1.387 +        glp_gridgen           grid-like network problem generator
   1.388 +        glp_read_maxflow      read maximum flow problem data in DIMACS
   1.389 +                              format
   1.390 +        glp_write_maxflow     write maximum flow problem data in DIMACS
   1.391 +                              format
   1.392 +        glp_maxflow_lp        convert maximum flow problem to LP
   1.393 +        glp_rmfgen            Goldfarb's maximum flow problem generator
   1.394 +
   1.395 +        For detailed description of these new routines and related data
   1.396 +        structures see chapter "Graph and Network API Routines" in a new
   1.397 +        edition of the reference manual included in the distribution.
   1.398 +
   1.399 +        A minor change were made in the internal routine xputc. Thanks
   1.400 +        to Luiz Bettoni <bettoni@cpgei.ct.utfpr.edu.br> for suggestion.
   1.401 +
   1.402 +        A minor bug was fixed in the internal routine mpl_fn_time2str.
   1.403 +        Thanks to Stefan Vigerske <stefan@vigerske.de> for bug report.
   1.404 +
   1.405 +GLPK 4.34 (release date: Dec 04, 2008)
   1.406 +
   1.407 +        The GNU MathProg modeling language was supplemented with three
   1.408 +        new built-in functions:
   1.409 +
   1.410 +        gmtime    obtaining current calendar time
   1.411 +        str2time  converting character string to calendar time
   1.412 +        time2str  converting calendar time to character string
   1.413 +
   1.414 +        (Thanks to Xypron <xypron.glpk@gmx.de>.)
   1.415 +
   1.416 +        For detailed description of these functions see Appendix A in
   1.417 +        the document "Modeling Language GNU MathProg", a new edition of
   1.418 +        which was included in the distribution.
   1.419 +
   1.420 +        A bug was fixed in the MIP solver. Thanks to Nigel Galloway
   1.421 +        <nigel_galloway@operamail.com> for bug report.
   1.422 +
   1.423 +        A new makefile was added to build the GLPK DLL with Microsoft
   1.424 +        Visual Studio Express 2008 for 64-bit Windows. Thanks to Xypron
   1.425 +        <xypron.glpk@gmx.de> for contribution and testing.
   1.426 +
   1.427 +GLPK 4.33 (release date: Oct 30, 2008)
   1.428 +
   1.429 +        The following new API routines were added to the package:
   1.430 +        glp_copy_prob         copy problem object content
   1.431 +        glp_exact             solve LP in exact arithmetic
   1.432 +                              (makes lpx_exact deprecated)
   1.433 +        glp_get_unbnd_ray     determine variable causing unboundedness
   1.434 +                              (makes lpx_get_ray_info deprecated)
   1.435 +        glp_interior          solve LP with interior-point method
   1.436 +                              (makes lpx_interior deprecated)
   1.437 +
   1.438 +        The following new API routines for processing models written in
   1.439 +        the GNU Mathprog language were added to the package:
   1.440 +        glp_mpl_alloc_wksp    allocate the translator workspace
   1.441 +        glp_mpl_read_model    read and translate model section
   1.442 +        glp_mpl_read_data     read and translate data section
   1.443 +        glp_mpl_generate      generate the model
   1.444 +        glp_mpl_build_prob    build LP/MIP instance from the model
   1.445 +        glp_mpl_postsolve     postsolve the model
   1.446 +        glp_mpl_free_wksp     deallocate the translator workspace
   1.447 +        (These routines make lpx_read_model deprecated.)
   1.448 +
   1.449 +        For description of all these new API routines see the reference
   1.450 +        manual included in the distribution.
   1.451 +
   1.452 +        A crude implementation of CPLEX-like interface to GLPK API was
   1.453 +        added to the package. Currently it allows using GLPK as a core
   1.454 +        LP solver for Concorde, a well known computer code for solving
   1.455 +        the symmetric TSP. For details see examples/cplex/README.
   1.456 +
   1.457 +        Some bugs were fixed in the SQL table driver. Thanks to Xypron
   1.458 +        <xypron.glpk@gmx.de>.
   1.459 +
   1.460 +GLPK 4.32 (release date: Oct 03, 2008)
   1.461 +
   1.462 +        The following new features were included in the MIP solver
   1.463 +        (the API routine glp_intopt):
   1.464 +
   1.465 +        *  MIP presolver
   1.466 +        *  mixed cover cut generator
   1.467 +        *  clique cut generator
   1.468 +        *  Euclidean reduction of the objective value
   1.469 +
   1.470 +        Due to changes the routine glp_intopt may additionally return
   1.471 +        GLP_ENOPFS, GLP_ENODFS, and GLP_EMIPGAP.
   1.472 +
   1.473 +        The API routines lpx_integer are lpx_intopt are deprecated,
   1.474 +        since they are completely superseded by glp_intopt.
   1.475 +
   1.476 +        The following new branch-and-cut API routines were added:
   1.477 +        glp_ios_row_attr      determine additional row attributes
   1.478 +        glp_ios_pool_size     determine current size of the cut pool
   1.479 +        glp_ios_add_row       add constraint to the cut pool
   1.480 +        glp_ios_del_row       delete constraint from the cut pool
   1.481 +        glp_ios_clear_pool    delete all constraints from the cut pool
   1.482 +
   1.483 +        For description of these new routines see the reference manual
   1.484 +        included in the distribution.
   1.485 +
   1.486 +        The stand-alone solver glpsol was changed to allow multiple
   1.487 +        data files.
   1.488 +
   1.489 +        A new edition of the supplement "Using Data Tables in the GNU
   1.490 +        MathProg Modeling Language" was included.
   1.491 +
   1.492 +        As usual, some bugs were fixed (in the MathProg translator).
   1.493 +        Thanks to Xypron <xypron.glpk@gmx.de>.
   1.494 +
   1.495 +GLPK 4.31 (release date: Sep 02, 2008)
   1.496 +
   1.497 +        The core LP solver based on the dual simplex method was
   1.498 +        re-implemented and now it provides both phases I and II.
   1.499 +
   1.500 +        The following new API routines were added:
   1.501 +        glp_scale_prob  automatic scaling of problem data
   1.502 +        glp_std_basis   construct standard initial LP basis
   1.503 +        glp_adv_basis   construct advanced initial LP basis
   1.504 +        glp_cpx_basis   construct Bixby's initial LP basis
   1.505 +
   1.506 +        For description of these new routines see the reference manual
   1.507 +        included in the distribution.
   1.508 +
   1.509 +        The following API routines are deprecated:
   1.510 +        lpx_scale_prob, lpx_std_basis, lpx_adv_basis, lpx_cpx_basis.
   1.511 +
   1.512 +        Necessary changes were made in memory allocation routines to
   1.513 +        resolve portability issues for 64-bit platforms.
   1.514 +
   1.515 +        New version of the routine lpx_write_pb to write problem data
   1.516 +        in OPB (pseudo boolean format) was added to the package. Thanks
   1.517 +        to Oscar Gustafsson <oscarg@isy.liu.se> for the contribution.
   1.518 +
   1.519 +        Two new makefiles were added to build the package for 32- and
   1.520 +        64-bit Windows with Microsoft Visual Studio Express 2008.
   1.521 +        Thanks to Heinrich Schuchardt <heinrich.schuchardt@gmx.de> (aka
   1.522 +        Xypron) for the contribution and testing.
   1.523 +
   1.524 +        Two new makefiles were added to build the package with Digital
   1.525 +        Mars C/C++ 8.50 and Open Watcom C/C++ 1.6 (for 32-bit Windows).
   1.526 +
   1.527 +GLPK 4.30 (release date: Aug 13, 2008)
   1.528 +
   1.529 +        The core LP solver based on the primal simplex method was
   1.530 +        re-implemented to allow its further improvements. Currently the
   1.531 +        new version provides the same features as the old one, however,
   1.532 +        it is a bit faster and more numerically stable.
   1.533 +
   1.534 +        Some changes were made in the MathProg translator to allow <,
   1.535 +        <=, >=, and > on comparing symbolic values. Thanks to Heinrich
   1.536 +        Schuchardt <heinrich.schuchardt@gmx.de> for patches.
   1.537 +
   1.538 +        Internal routine set_d_eps in the exact LP solver was changed
   1.539 +        to prevent approximation errors in case of integral data.
   1.540 +        Thanks to Markus Pilz <pilz@cs.uni-bonn.de> for bug report.
   1.541 +
   1.542 +GLPK 4.29 (release date: Jul 06, 2008)
   1.543 +
   1.544 +        The configure script was changed to disable all optional
   1.545 +        features by default. For details please see file INSTALL.
   1.546 +
   1.547 +        The following new API routines were added:
   1.548 +        glp_erase_prob  erase problem object content
   1.549 +        glp_read_mps    read problem data in MPS format
   1.550 +        glp_write_mps   write problem data in MPS format
   1.551 +        glp_read_lp     read problem data in CPLEX LP format
   1.552 +        glp_write_lp    write problem data in CPLEX LP format
   1.553 +
   1.554 +        For description of these new routines see the reference manual
   1.555 +        included in the distribution.
   1.556 +
   1.557 +        The following API routines are deprecated:
   1.558 +        lpx_read_mps, lpx_read_freemps, lpx_write_mps,
   1.559 +        lpx_write_freemps, lpx_read_cpxlp, and lpx_write_cpxlp.
   1.560 +
   1.561 +        Two bugs were fixed. Thanks to
   1.562 +        Anne-Laurence Putz <anne-laurence.putz@eurodecision.com> and
   1.563 +        Xypron <xypron.glpk@gmx.de> for bug report.
   1.564 +
   1.565 +GLPK 4.28 (release date: Mar 25, 2008)
   1.566 +
   1.567 +        The iODBC and MySQL table drivers, which allows transmitting
   1.568 +        data between MathProg model objects and relational databases,
   1.569 +        were re-implemented to replace a static linking by a dynamic
   1.570 +        linking to corresponding shared libraries.
   1.571 +        Many thanks to Heinrich Schuchardt <heinrich.schuchardt@gmx.de>
   1.572 +        for the contribution, Rafael Laboissiere <rafael@debian.org>
   1.573 +        for useful advices concerning the shared library support under
   1.574 +        GNU/Linux, and Vijay Patil <vijay.patil@gmail.com> for testing
   1.575 +        this feature under Windows XP.
   1.576 +
   1.577 +        A new optional feature was added to the package. This feature
   1.578 +        is based on the zlib data compression library and allows GLPK
   1.579 +        API routines and the stand-alone solver to read and write
   1.580 +        compressed data files performing compression/decompression "on
   1.581 +        the fly" (compressed data files are recognized by suffix `.gz'
   1.582 +        in the file name). It may be useful in case of large MPS files
   1.583 +        to save the disk space (up to ten times).
   1.584 +
   1.585 +        The `configure' script was re-implemented. Now it supports the
   1.586 +        following specific options:
   1.587 +
   1.588 +        --with-gmp           Enable using the GNU MP bignum library
   1.589 +        --without-gmp        Disable using the GNU MP bignum library
   1.590 +        --with-zlib          Enable using the zlib data compression
   1.591 +                             library
   1.592 +        --without-zlib       Disable using the zlib data compression
   1.593 +                             library
   1.594 +        --enable-dl          Enable shared library support (auto check)
   1.595 +        --enable-dl=ltdl     Enable shared library support (GNU)
   1.596 +        --enable-dl=dlfcn    Enable shared library support (POSIX)
   1.597 +        --disable-dl         Disable shared library support
   1.598 +        --enable-odbc        Enable using ODBC table driver
   1.599 +        --disable-odbc       Disable using ODBC table driver
   1.600 +        --enable-mysql       Enable using MySQL table driver
   1.601 +        --disable-mysql      Disable using MySQL table driver
   1.602 +
   1.603 +        For more details please see file INSTALL.
   1.604 +
   1.605 +GLPK 4.27 (release date: Mar 02, 2008)
   1.606 +
   1.607 +        Three new table drivers were added to the MathProg translator:
   1.608 +
   1.609 +        xBASE built-in table driver, which allows reading and writing
   1.610 +        data in .dbf format (only C and N fields are supported);
   1.611 +
   1.612 +        MySQL table driver, which provides connection to a MySQL
   1.613 +        database;
   1.614 +
   1.615 +        iODBC table driver, which provides connection to a database
   1.616 +        through ODBC.
   1.617 +
   1.618 +        The MySQL and iODBC table drivers were contributed to GLPK by
   1.619 +        Heinrich Schuchardt <heinrich.schuchardt@gmx.de>.
   1.620 +
   1.621 +        The table driver is a program module which allows transmitting
   1.622 +        data between MathProg model objects and external data tables.
   1.623 +
   1.624 +        For detailed description of the table statement and table
   1.625 +        drivers see the document "Using Data Tables in the GNU MathProg
   1.626 +        Modeling Language" (file doc/tables.txt) included in the
   1.627 +        distribution. Some examples which demonstrate using MySQL and
   1.628 +        iODBC table drivers can be found in subdirectory examples/sql.
   1.629 +
   1.630 +GLPK 4.26 (release date: Feb 17, 2008)
   1.631 +
   1.632 +        The table statement was implemented in the GNU MathProg
   1.633 +        modeling language. This new feature allows reading data from
   1.634 +        external tables into model objects such as sets and parameters
   1.635 +        as well as writing results of computations to external tables.
   1.636 +
   1.637 +        A table is a (unordered) set of records, where each record
   1.638 +        consists of the same number of fields, and each field is
   1.639 +        provided with a unique symbolic name called the field name.
   1.640 +
   1.641 +        Currently the GLPK package has the only built-in table driver,
   1.642 +        which supports tables in the CSV (comma-separated values) file
   1.643 +        format. This format is very simple and supported by almost all
   1.644 +        spreadsheets and database management systems.
   1.645 +
   1.646 +        Detailed description of the table statement and CSV format can
   1.647 +        be found in file doc/tables.txt, included in the distribution.
   1.648 +
   1.649 +GLPK 4.25 (release date: Dec 19, 2007)
   1.650 +
   1.651 +        A tentative implementation of Gomory's mixed integer cuts was
   1.652 +        included in the branch-and-cut solver. To enable generating
   1.653 +        Gomory's cuts the control parameter gmi_cuts passed to the
   1.654 +        routine glp_intopt should be set to GLP_ON. This feature is
   1.655 +        also available in the solver glpsol through command-line option
   1.656 +        '--gomory'. For more details please see the reference manual
   1.657 +        included in the distribution.
   1.658 +
   1.659 +GLPK 4.24 (release date: Nov 21, 2007)
   1.660 +
   1.661 +        A tentative implementation of MIR (mixed integer rounding) cuts
   1.662 +        was included in the MIP solver. To enable generating MIR cuts
   1.663 +        the control parameter mir_cuts passed to the routine glp_intopt
   1.664 +        should be set to GLP_ON. This feature is also available in the
   1.665 +        stand-alone solver glpsol via command-line option '--mir'. For
   1.666 +        more details please see the reference manual included in the
   1.667 +        distribution.
   1.668 +
   1.669 +        The implementation is mainly based on the following two papers:
   1.670 +
   1.671 +        1. H. Marchand and L. A. Wolsey. Aggregation and mixed integer
   1.672 +           rounding to solve MIPs. CORE discussion paper 9839, CORE,
   1.673 +           Universite catholique de Louvain, June 1998.
   1.674 +
   1.675 +        2. G. Andreello, A. Caprara, and M. Fischetti. Embedding cuts
   1.676 +           in a Branch&Cut framework. Preliminary draft, October 2003.
   1.677 +
   1.678 +        MIR cuts can be generated on any level of the search tree that
   1.679 +        makes the GLPK MIP solver to be a real branch-and-cut solver.
   1.680 +
   1.681 +        A bug was fixed in the routine lpx_write_cpxlp. If a variable
   1.682 +        x has upper bound and no lower bound, it should appear in the
   1.683 +        bounds section as "-inf <= x <= u", not as "x <= u". Thanks to
   1.684 +        Enric Rodriguez <erodri@lsi.upc.edu> for the bug report.
   1.685 +
   1.686 +GLPK 4.23 (release date: Oct 28, 2007)
   1.687 +
   1.688 +        The following new API routines were added:
   1.689 +
   1.690 +        glp_read_sol    read basic solution from text file
   1.691 +        glp_write_sol   write basic solution to text file
   1.692 +        glp_read_ipt    read interior-point solution from text file
   1.693 +        glp_write_ipt   write interior-point solution to text file
   1.694 +        glp_read_mip    read MIP solution from text file
   1.695 +        glp_write_mip   write MIP solution to text file
   1.696 +
   1.697 +        For description of these routines and corresponding file
   1.698 +        formats see Chapter "API Routines", Section "Utility routines"
   1.699 +        in the reference manual included in the distribution.
   1.700 +
   1.701 +        Advanced API routine glp_free_env was added. It may be used by
   1.702 +        the application program to free all resources allocated by GLPK
   1.703 +        routines.
   1.704 +
   1.705 +        The following three new command-line options were added to the
   1.706 +        solver glpsol:
   1.707 +
   1.708 +        --mipgap tol    set relative MIP gap tolerance
   1.709 +        -r filename     read solution from filename
   1.710 +        -w filename     write solution to filename
   1.711 +
   1.712 +GLPK 4.22 (release date: Sep 19, 2007)
   1.713 +
   1.714 +        This is a maintainer release.
   1.715 +
   1.716 +        A bug was fixed in the MIP preprocessor (ios_preprocess_node).
   1.717 +        Thanks to Roberto Bagnara <bagnara@cs.unipr.it> (Department of
   1.718 +        Mathematics, University of Parma, Italy) for the bug report.
   1.719 +
   1.720 +        A bug was fixed in the MIP preprocessor (col_implied_bounds),
   1.721 +        due to which constraint coefficients with small magnitude could
   1.722 +        lead to wrong implied bounds of structural variables.
   1.723 +
   1.724 +        A similar bug was fixed in the routine reduce_bounds.
   1.725 +
   1.726 +        A bug was fixed in the routines glp_set_mat_row and
   1.727 +        glp_set_mat_col. (The bug appeared due to incorrect removing
   1.728 +        zero elements from the row/column lists.)
   1.729 +
   1.730 +        A bug was fixed in the API routines lpx_read_mps and
   1.731 +        lpx_read_freemps, due to which bounds of type LI specified in
   1.732 +        BOUNDS section were incorrectly processed.
   1.733 +
   1.734 +        A call to standard function vsprintf was replaced by a call to
   1.735 +        vsnprintf for security reasons. Many thanks to Peter T. Breuer
   1.736 +        <ptb@inv.it.uc3m.es> and Rafael Laboissiere <rafael@debian.org>.
   1.737 +
   1.738 +GLPK 4.21 (release date: Aug 28, 2007)
   1.739 +
   1.740 +        Additional reasons for calling the callback routine used in the
   1.741 +        MIP solver (glp_intopt) were introduced. Currently the following
   1.742 +        reasons are supported:
   1.743 +
   1.744 +        * request for subproblem selection
   1.745 +        * request for preprocessing
   1.746 +        * request for row generation
   1.747 +        * request for heuristic solution
   1.748 +        * request for cut generation
   1.749 +        * request for branching
   1.750 +        * better integer solution found
   1.751 +
   1.752 +        A basic preprocessing component used to improve subproblem
   1.753 +        formulations by tightening bounds of variables was included in
   1.754 +        the MIP solver. Depending on the control parameter pp_tech
   1.755 +        passed to the routine glp_intopt the preprocessing can be
   1.756 +        performed either on the root level or on all levels (default)
   1.757 +        or can be disabled.
   1.758 +
   1.759 +        Backtracking heuristic used by default in the MIP solver was
   1.760 +        changed to the "best local bound".
   1.761 +
   1.762 +        For more details see Chapter "Advanced API routines", Section
   1.763 +        "Branch-and-bound interface routines" in a new edition of the
   1.764 +        reference manual included in the distribution.
   1.765 +
   1.766 +GLPK 4.20 (release date: Jul 26, 2007)
   1.767 +
   1.768 +        API routine lpx_integer was replaced by API routine glp_intopt,
   1.769 +        which provides equivalent functionality and additionally allows
   1.770 +        the application to control the solution process by means of the
   1.771 +        user-written callback routine, which is called by the solver at
   1.772 +        various points of the branch-and-bound algorithm. Besides, the
   1.773 +        new MIP solver allows generating "lazy" constraints and cutting
   1.774 +        planes on all levels of the branch-and-bound tree, not only on
   1.775 +        the root level. The routine lpx_integer is also still available
   1.776 +        for the backward compatibility.
   1.777 +
   1.778 +        The following new advanced API routines, which may be called
   1.779 +        from the B&B callback routine, were included in the package:
   1.780 +
   1.781 +        glp_ios_reason     determine reason for calling callback
   1.782 +                           routine
   1.783 +        glp_ios_get_prob   access the problem object
   1.784 +        glp_ios_tree_size  determine size of the branch-and-bound tree
   1.785 +        glp_ios_curr_node  determine current active subproblem
   1.786 +        glp_ios_next_node  determine next active subproblem
   1.787 +        glp_ios_prev_node  determine previous active subproblem
   1.788 +        glp_ios_up_node    determine parent subproblem
   1.789 +        glp_ios_node_level determine subproblem level
   1.790 +        glp_ios_node_bound determine subproblem local bound
   1.791 +        glp_ios_mip_gap    compute relative MIP gap
   1.792 +        glp_ios_heur_sol   provide solution found by heuristic
   1.793 +        glp_ios_terminate  terminate the solution process
   1.794 +
   1.795 +        For description of these routines see Chapter "Advanced API
   1.796 +        routines", Section "Branch-and-bound interface routines" in a
   1.797 +        new edition of the reference manual, which was included in the
   1.798 +        distribution.
   1.799 +
   1.800 +        Old version of the integer optimization suite (IOS) as well as
   1.801 +        TSP solver tspsol based on it are no longer supported and were
   1.802 +        removed from the package.
   1.803 +
   1.804 +        A minor error in the MIP presolver was fixed; thanks to Graham
   1.805 +        Rockwell <bionomicron@gmail.com> for the bug report.
   1.806 +
   1.807 +GLPK 4.19 (release date: Jul 05, 2007)
   1.808 +
   1.809 +        The principal change is upgrading to GPLv3.
   1.810 +
   1.811 +        A serious bug in the routine glp_del_cols was fixed; thanks to
   1.812 +        Cedric[FR] <fox2113@wanadoo.fr> for the bug report. The bug
   1.813 +        appeared because on deleting non-basic columns the basis header
   1.814 +        remained valid, however, contained invalid (old) column ordinal
   1.815 +        numbers.
   1.816 +
   1.817 +        A new advanced API routine glp_mem_limit was added.
   1.818 +
   1.819 +        The case GLP_EBOUND was added to the routine lpx_simplex.
   1.820 +        Thanks to Cameron Kellough <Cameron.Kellough@sri.com> for the
   1.821 +        bug report.
   1.822 +
   1.823 +        An API routine lpx_write_pb to write the problem instance in
   1.824 +        OPB (pseudo boolean) format format was added. Thanks to Oscar
   1.825 +        Gustafsson <oscarg@isy.liu.se> for the contribution.
   1.826 +
   1.827 +        Two new options --wpb and --wnpb were added to glpsol to write
   1.828 +        the problem instance in OPB format.
   1.829 +
   1.830 +GLPK 4.18 (release date: Jun 25, 2007)
   1.831 +
   1.832 +        The following new API routines were added:
   1.833 +
   1.834 +        glp_set_rii        set (change) row scale factor
   1.835 +        glp_set_sjj        set (change) column scale factor
   1.836 +        glp_get_rii        retrieve row scale factor
   1.837 +        glp_get_sjj        retrieve column scale factor
   1.838 +        glp_simplex        solve LP problem with the simplex method
   1.839 +                           (this routine replaces lpx_simplex, which is
   1.840 +                           also available for backward compatibility)
   1.841 +        glp_init_smcp      initialize simplex method control params
   1.842 +        glp_bf_exists      check if the basis factorization exists
   1.843 +        glp_factorize      compute the basis factorization
   1.844 +        glp_bf_updated     check if the basis factorization has been
   1.845 +                           updated
   1.846 +        glp_get_bfcp       retrieve basis factorization control params
   1.847 +        glp_set_bfcp       change basis factorization control params
   1.848 +        glp_get_bhead      retrieve the basis header information
   1.849 +        glp_get_row_bind   retrieve row index in the basis header
   1.850 +        glp_get_col_bind   retrieve column index in the basis header
   1.851 +        glp_ftran          perform forward transformation
   1.852 +        glp_btran          perform backward transformation
   1.853 +
   1.854 +        For description of all these routines see a new edition of the
   1.855 +        reference manual included in the distribution.
   1.856 +
   1.857 +        Type names ulong_t and uldiv_t were changed to glp_ulong and
   1.858 +        glp_uldiv to avoid conflicts with standard type names on some
   1.859 +        platforms. Thanks to Boris Wirtz <Boris.Wirtz@uni-oldenburg.de>
   1.860 +        for the bug report.
   1.861 +
   1.862 +        Some new examples in the MathProg language were added. Thanks
   1.863 +        to Sebastian Nowozin <nowozin@gmail.com>.
   1.864 +
   1.865 +GLPK 4.17 (release date: May 26, 2007)
   1.866 +
   1.867 +        API routines glp_set_mat_row, glp_set_mat_col, and glp_load_mat
   1.868 +        were modified to allow zero constraint coefficients (which are
   1.869 +        not stored in the constraint matrix). Note that constraint
   1.870 +        coefficients with duplicate row/column indices are not allowed.
   1.871 +
   1.872 +        Another form of LP basis factorization was implemented in the
   1.873 +        package. It is based on LU-factorization of an initial basis
   1.874 +        and Schur complement to reflect changes in the basis. Currently
   1.875 +        the implementation is incomplete and provides only updating the
   1.876 +        factorization on replacing a column of the basis matrix. On API
   1.877 +        level the user can set the control parameter LPX_K_BFTYPE to
   1.878 +        choose between the folloiwng forms of LP basis factorization to
   1.879 +        be used in the simplex method routines:
   1.880 +        1) LU + Forrest-Tomlin update;
   1.881 +        2) LU + Schur complement + Bartels-Golub update;
   1.882 +        3) LU + Schur complement + Givens rotation update.
   1.883 +        The GLPK implementation is similar to LUSOL/LUMOD developed by
   1.884 +        Michael A. Saunders.
   1.885 +
   1.886 +        The user can choose the form of LP basis factorzation used by
   1.887 +        the simplex method routines by specifying the folloiwng options
   1.888 +        of glpsol: --luf, --cbg, --cgr.
   1.889 +
   1.890 +GLPK 4.16 (release date: May 05, 2007)
   1.891 +
   1.892 +        A number of basic GLPK API routines, which now are in the
   1.893 +        stable stable, were renamed to be prefixed with 'glp_'. Note
   1.894 +        that all these routines are available via their old names
   1.895 +        prefixed with 'lpx_' that keeps the downward compatibility with
   1.896 +        older versions of the package.
   1.897 +
   1.898 +        Three new GLPK API routines were added to the package:
   1.899 +        glp_version, glp_term_hook, and glp_mem_usage; for more details
   1.900 +        see a new edition of the GLPK reference manual included in the
   1.901 +        distribution. The routine glp_version reports the actual version
   1.902 +        of the GLPK library and also can be used (along with the header
   1.903 +        glpk.h) in Autotools specification files to check if the GLPK
   1.904 +        library has been installed.
   1.905 +
   1.906 +        The header glpk.h was changed to conform to C++ environment.
   1.907 +
   1.908 +GLPK 4.15 (release date: Feb 18, 2007)
   1.909 +
   1.910 +        Autotools specification files (configure.ac, Makefile.am) were
   1.911 +        changed to use GNU Libtool. This allows building the static as
   1.912 +        well as shared GLPK library.
   1.913 +
   1.914 +GLPK 4.14 (release date: Feb 05, 2007)
   1.915 +
   1.916 +        Now GLPK conforms to ILP32, LLP64, and LP64 programming models
   1.917 +        (the latter seems to be the ultimate choice regarding 64-bit
   1.918 +        architectures). Note that GLPK itself is a 32-bit application,
   1.919 +        and the conformity only means that the package works correctly
   1.920 +        on all these arenae. Nevertheless, on 64-bit platforms it is
   1.921 +        possible to use more than 4GB of memory, if necessary.
   1.922 +
   1.923 +GLPK 4.13 (release date: Nov 13, 2006)
   1.924 +
   1.925 +        A tentative implementation of the "exact" simplex method based
   1.926 +        on bignum (rational) arithmetic was included in the package.
   1.927 +
   1.928 +        On API level this new feature is available through the routine
   1.929 +        lpx_exact, which is similar to the routine lpx_simplex.
   1.930 +
   1.931 +        In the solver glpsol this feature is available through two new
   1.932 +        command-line options: --exact and --xcheck. If the '--exact'
   1.933 +        option is specified, glpsol solves LP instance using the exact
   1.934 +        simplex method; in case of MIP it is used to obtain optimal
   1.935 +        solution of LP relaxation. If the --xcheck option is specified,
   1.936 +        LP instance (or LP relaxation) is solved using the standard
   1.937 +        (floating-point) simplex method, however, then glpsol calls the
   1.938 +        exact simplex routine to make sure that the final LP basis is
   1.939 +        exactly optimal, and if it is not, to perform some additional
   1.940 +        simplex iterations in exact arithmetic.
   1.941 +
   1.942 +GLPK 4.12 (release date: Nov 08, 2006)
   1.943 +
   1.944 +        A tentative implementation of some simplex method routines
   1.945 +        based on exact (bignum) arithmetic was included in the package.
   1.946 +        Currently these routines provide computing LU-factorization of
   1.947 +        the basis matrix and computing components of basic solution.
   1.948 +
   1.949 +        These routines were used to implement a routine, which checks
   1.950 +        primal and dual feasibility of basic solution exactly, i.e. in
   1.951 +        rational numbers, without round-off errors. In glpsol this
   1.952 +        feature is available through the command-line option --xcheck.
   1.953 +
   1.954 +        GLPK has its own low-level routines implementing operations on
   1.955 +        integer and rational numbers that makes it independent on other
   1.956 +        software packages. However, to attain a much better performance
   1.957 +        it is highly recommended to install (before configuring GLPK)
   1.958 +        the GNU Multiple Precision Arithmetic Library (GMP). Using GMP
   1.959 +        makes computations 100-200 times faster.
   1.960 +
   1.961 +GLPK 4.11 (release date: Jul 25, 2006)
   1.962 +
   1.963 +        Three new built-in functions in the modeling language were
   1.964 +        implemented: card (cardinality of set), length (length of
   1.965 +        character string), and substr (substring of character string).
   1.966 +        Another improvement concerns the printf statement which now
   1.967 +        allows redirecting its output to a specified file. These new
   1.968 +        features are illustrated in example models crypto.mod and
   1.969 +        graph.mod included in the distribution. For more details see
   1.970 +        the document "Modeling Language GNU MathProg".
   1.971 +
   1.972 +        Four batch files (along with corresponding makefiles) were
   1.973 +        included in the distribution to simplify building GLPK under
   1.974 +        MS Windows; see them in subdirectory 'w32'.
   1.975 +
   1.976 +GLPK 4.10 (release date: May 11, 2006)
   1.977 +
   1.978 +        Cutting planes of two new classes were implemented: mixed cover
   1.979 +        cuts and clique cuts. On API level this feature can be enabled
   1.980 +        by setting control parameter LPX_K_USECUTS passed to the routine
   1.981 +        lpx_intopt. In glpsol this feature is available through the
   1.982 +        command-line options --cover and --clique. For more details see
   1.983 +        the reference manual.
   1.984 +
   1.985 +        Now the routines lpx_read_mps and lpx_read_freemps support LI
   1.986 +        bound type. It is similar to LO, however, indicates the column
   1.987 +        as of integer kind.
   1.988 +
   1.989 +GLPK 4.9 (release date: Jan 17, 2006)
   1.990 +
   1.991 +        An advanced MIP solver was implemented. It includes:
   1.992 +
   1.993 +        - basic presolving technique (removing free, singleton and
   1.994 +          redundant rows, improving bounds of columns, removing fixed
   1.995 +          columns, reducing constraint coefficents);
   1.996 +
   1.997 +        - generating cutting planes to improve LP relaxation (currently
   1.998 +          only Gomory's mixed integer cuts are implemented);
   1.999 +
  1.1000 +        - using the branch-and-bound method to solve resultant MIP;
  1.1001 +
  1.1002 +        - recovering solution of the original MIP.
  1.1003 +
  1.1004 +        The solver is available on API level via the routine lpx_intopt
  1.1005 +        (see the reference manual). It is similar to the routine
  1.1006 +        lpx_integer, however, does not require initial solution of LP
  1.1007 +        relaxation.
  1.1008 +
  1.1009 +        The solver is also available in the command-line utility glpsol
  1.1010 +        via two options: --intopt (only presolving) and --cuts (assumes
  1.1011 +        --intopt plus generating cuts).
  1.1012 +
  1.1013 +        Note that efficiency of the MIP solver strongly depends on the
  1.1014 +        internal structure of the problem to be solved. For some hard
  1.1015 +        instances it is very efficient, but for other instances it may
  1.1016 +        be significantly worse than the standard branch-and-bound.
  1.1017 +
  1.1018 +        For some comparative benchmarks see doc/bench1.txt.
  1.1019 +
  1.1020 +        Well, what else...
  1.1021 +
  1.1022 +        Three built-in functions were added to MathProg: sin, cos, and
  1.1023 +        atan (the latter allows one or two arguments).
  1.1024 +
  1.1025 +        Some bugs were fixed.
  1.1026 +
  1.1027 +        Several new examples in MathProg were included: color.mod
  1.1028 +        (graph coloring problem), tsp.mod (traveling salesman problem),
  1.1029 +        and pbn.mod (paint-by-numbers puzzle).
  1.1030 +
  1.1031 +GLPK 4.8 (release date: Jan 12, 2005)
  1.1032 +
  1.1033 +        Core simplex method and interior-point method routines were
  1.1034 +        re-implemented and now they use a new, "storage-by-rows" sparse
  1.1035 +        matrix format (unlike previous versions where linked lists were
  1.1036 +        used to represent sparse matrices). For details see ChangeLog.
  1.1037 +
  1.1038 +        Also a minor bug was fixed in API routine lpx_read_cpxlp.
  1.1039 +
  1.1040 +GLPK 4.7 (release date: Aug 23, 2004)
  1.1041 +
  1.1042 +        Now GLPK supports free MPS format. Two new API routines
  1.1043 +        lpx_read_freemps (to read problem data in free MPS format) and
  1.1044 +        lpx_write_freemps (to write problem data in free MPS format)
  1.1045 +        were added. This feature is also available in the solver glpsol
  1.1046 +        via new command-line options --freemps and --wfreemps. For more
  1.1047 +        details see the GLPK reference manual.
  1.1048 +
  1.1049 +        API routines lpx_read_cpxlp and lpx_write_cpxlp for reading and
  1.1050 +        writing problem data in CPLEX LP format were re-implemented to
  1.1051 +        allow long symbolic names (up to 255 characters).
  1.1052 +
  1.1053 +        The following three modules were temporarily removed from the
  1.1054 +        GLPK distribution due to licensing problems: DELI (an interface
  1.1055 +        module to Delphi), GLPKMEX (an interface module to Matlab), and
  1.1056 +        JNI (an interface module to Java).
  1.1057 +
  1.1058 +GLPK 4.6 (release date: Aug 04, 2004)
  1.1059 +
  1.1060 +        Three new statements were implemented in the GNU MathProg
  1.1061 +        language: solve, printf, and for. Their detailed description can
  1.1062 +        be found in the GLPK documentation included in the distribution.
  1.1063 +        (See also a sample model, examples/queens.mod, which illustrates
  1.1064 +        using these new statements.)
  1.1065 +
  1.1066 +        Two new API routines were added to the package: lpx_read_prob
  1.1067 +        and lpx_write_prob. They allow reading/writing problem data in
  1.1068 +        GNU LP low-level text format.
  1.1069 +
  1.1070 +        Three new command-line options were implemented in the LP/MIP
  1.1071 +        solver glpsol: --glp (to read problem data in GNU LP format),
  1.1072 +        --wglp (to write problem data in GNU LP format), and --name (to
  1.1073 +        change problem name). Now glpsol also supports processing models
  1.1074 +        where the new statements (see above) are used.
  1.1075 +
  1.1076 +        A new version of GLPKMEX, a Matlab MEX interface to GLPK, was
  1.1077 +        included. For more details see contrib/glpkmex/ChangeLog.
  1.1078 +
  1.1079 +GLPK 4.5 (release date: Jul 19, 2004)
  1.1080 +
  1.1081 +        The branch-and-bound solver was completely re-implemented.
  1.1082 +
  1.1083 +        Some modifications were made in memory allocation routines that
  1.1084 +        allows using the package on 64-bit platforms.
  1.1085 +
  1.1086 +        For more details see ChangeLog.
  1.1087 +
  1.1088 +GLPK 4.4 (release date: Jan 17, 2004)
  1.1089 +
  1.1090 +        All API routines were re-implemented using new data structures.
  1.1091 +        The new implementation provides the same specifications and
  1.1092 +        functionality of API routines as the old one, however, it has
  1.1093 +        some important advantages, in particular:
  1.1094 +        * linked lists are used everywhere that allows creating and
  1.1095 +          modifying the problem object as efficiently as possible
  1.1096 +        * all data stored in the problem object are non-scaled (even if
  1.1097 +          the internal scaling is used) that prevents distortion of the
  1.1098 +          original problem data
  1.1099 +        * solution components obtained by the solver remain available
  1.1100 +          even if the problem object has been modified
  1.1101 +        * no solver-specific data are used in the new data structures
  1.1102 +          that allows attaching any external lp/mip solver using GLPK
  1.1103 +          API as an uniform interface
  1.1104 +        Note that some API routines became obsolete being replaced by
  1.1105 +        new, more convenient routines. These obsolete routines are kept
  1.1106 +        for backward compatibility, however, they will be removed in
  1.1107 +        the future. For more details please see ChangeLog and the GLPK
  1.1108 +        Reference Manual.
  1.1109 +
  1.1110 +        New edition of the GLPK Reference Manual was included in the
  1.1111 +        distribution.
  1.1112 +
  1.1113 +        GLPKMEX, a Matlab MEX interface to GLPK package, contributed by
  1.1114 +        Nicolo Giorgetti <giorgetti@dii.unisi.it> was included in the
  1.1115 +        distribution.
  1.1116 +
  1.1117 +        GLPK FAQ contributed by Harley Mackenzie <hjm@bigpond.com> was
  1.1118 +        included in the distribution.
  1.1119 +
  1.1120 +GLPK 4.3 (release date: Dec 12, 2003)
  1.1121 +
  1.1122 +        The bug, due to which the standard math library is not linked
  1.1123 +        on building the package on some platforms, was fixed.
  1.1124 +
  1.1125 +        The following new built-in functions were added to the MathProg
  1.1126 +        language: round, trunc, Irand224, Uniform01, Uniform, Normal01,
  1.1127 +        Normal. For details see the language description.
  1.1128 +
  1.1129 +        The MathProg syntax was changed to allow writing 'subj to' that
  1.1130 +        means 'subject to'.
  1.1131 +
  1.1132 +        The new api routine lpx_get_ray_info was added. It is intended
  1.1133 +        to determine which (non-basic) variable causes unboundness. For
  1.1134 +        details see the reference manual.
  1.1135 +
  1.1136 +        The module glpmps.c was changed to avoid compilation errors on
  1.1137 +        building the package on Mac OS X.
  1.1138 +
  1.1139 +        Several typos was fixed and some new material was added to the
  1.1140 +        GLPK documentation.
  1.1141 +
  1.1142 +GLPK 4.2 (release date: Nov 14, 2003)
  1.1143 +
  1.1144 +        A preliminary implementation of the Integer Optimization Suite
  1.1145 +        (IOS) was included in the package. The Branch-and-Cut Framework
  1.1146 +        being completely superseded by IOS was removed from the package.
  1.1147 +
  1.1148 +        New API routine lpx_print_sens_bnds intended for bounds
  1.1149 +        sensitivity analysis was contributed to GLPK by Brady Hunsaker
  1.1150 +        <hunsaker@engr.pitt.edu>. This function is also available in
  1.1151 +        the solver glpsol (via command-line option --bounds).
  1.1152 +
  1.1153 +        An improved version of GLPK JNI (Java Native Interface) was
  1.1154 +        contributed by Chris Rosebrugh <cpr@pobox.com>.
  1.1155 +
  1.1156 +        GLPK DELI (Delphi Interface) was contributed by Ivo van Baren
  1.1157 +        <i.van.baren@freeler.nl>.
  1.1158 +
  1.1159 +        Several makefiles were added to allow compiling GLPK on some
  1.1160 +        non-GNU 32-bit platforms:
  1.1161 +        * Windows single-threaded static library, Visual C++ 6.0
  1.1162 +        * Windows multi-threaded dynamic library, Visual C++ 6.0
  1.1163 +        * Windows single-threaded static library, Borland C++ 5.2
  1.1164 +        * DOS single-threaded static library, Digital Mars C++ 7.50
  1.1165 +
  1.1166 +        And, of course, some bugs were fixed.
  1.1167 +
  1.1168 +        For more details see ChangeLog.
  1.1169 +
  1.1170 +GLPK 4.1 (release date: Aug 23, 2003)
  1.1171 +
  1.1172 +        Some improvements were made in the lp/mip solver routines and
  1.1173 +        several bugs were fixed in the model translator.
  1.1174 +
  1.1175 +        For more details see ChangeLog.
  1.1176 +
  1.1177 +GLPK 4.0 (release date: May 06, 2003)
  1.1178 +
  1.1179 +        Now GLPK supports the GNU MathProg modeling language, which is
  1.1180 +        a subset of the AMPL modeling language.
  1.1181 +
  1.1182 +        The document "GLPK: Modeling Language GNU MathProg" included in
  1.1183 +        the distribution is a complete description of GNU MathProg. (See
  1.1184 +        the files lang.latex, lang.dvi, and lang.ps in the subdirectory
  1.1185 +        'doc'. See also some examples in the subdirectory 'sample'.)
  1.1186 +
  1.1187 +        New version of the solver glpsol, which supports models written
  1.1188 +        in GNU MathProg, was implemented. (Brief instructions how to use
  1.1189 +        glpsol can be found in the GNU MathProg documentation.)
  1.1190 +
  1.1191 +        The GLPK/L modeling language is no more supported. The reason is
  1.1192 +        that GNU MathProg being much more powerful completely supersedes
  1.1193 +        all features of GLPK/L.
  1.1194 +
  1.1195 +GLPK 3.3 (release date: Mar 25, 2003)
  1.1196 +
  1.1197 +        LP PRESOLVER
  1.1198 +        ------------
  1.1199 +
  1.1200 +        Now the routine lpx_simplex (which is a driver to the simplex
  1.1201 +        method for solving LP) is provided with the built-in LP
  1.1202 +        presolver, which is a program that transforms the original LP
  1.1203 +        problem to an equivalent LP problem, which may be easier for
  1.1204 +        solving with the simplex method than the original one. Once the
  1.1205 +        transformed LP has been solver, the presolver transforms its
  1.1206 +        basic solution back to a corresponding basic solution of the
  1.1207 +        original problem. For details about this feature please see the
  1.1208 +        GLPK reference manual.
  1.1209 +
  1.1210 +        Currently the LP presolver implements the following features:
  1.1211 +        * removing empty rows;
  1.1212 +        * removing empty columns;
  1.1213 +        * removing free rows;
  1.1214 +        * removing fixed columns;
  1.1215 +        * removing row singletons, which have the form of equations;
  1.1216 +        * removing row singletons, which have the form of inequalities;
  1.1217 +        * removing column singletons, which are implied slack variables;
  1.1218 +        * fixing and removing column singletons, which are implied free
  1.1219 +          variables;
  1.1220 +        * removing forcing rows that involves fixing and removing the
  1.1221 +          corresponding columns;
  1.1222 +        * checking for primal and dual infeasibilities.
  1.1223 +
  1.1224 +        The LP presolver is also used by default in the stand-alone
  1.1225 +        program glpsol. In order *not* to use it, the option --nopresol
  1.1226 +        should be specified in the command-line.
  1.1227 +
  1.1228 +        CHANGES IN GLPK/L
  1.1229 +        -----------------
  1.1230 +
  1.1231 +        The syntax and semantics of the GLPK/L modeling language was
  1.1232 +        changed to allow declaration of "interval" sets. This means that
  1.1233 +        now the user can declare a set, for example, as:
  1.1234 +
  1.1235 +           set task = [8:11];
  1.1236 +
  1.1237 +        that is exactly equivalent to the following declaration:
  1.1238 +
  1.1239 +           set task = (task_8, task_9, task_10, task_11);
  1.1240 +
  1.1241 +        For details see the language description.
  1.1242 +
  1.1243 +        JAVA INTERFACE
  1.1244 +        --------------
  1.1245 +
  1.1246 +        Now GLPK includes the package GLPK JNI (Java Native Interface)
  1.1247 +        that implements Java binding for GLPK. It allows Java programs
  1.1248 +        to utilize GLPK in solving LP and MIP problems. For details see
  1.1249 +        a brief user's guide in the subdirectory contrib/java-binding.
  1.1250 +        This package was developed and programmed by Yuri Victorovich
  1.1251 +        <yuri@gjt.org>, who contributed it to GLPK.
  1.1252 +
  1.1253 +GLPK 3.2.4 (release date: Feb 18, 2003)
  1.1254 +
  1.1255 +        This is a bug-fix release. For details see ChangeLog.
  1.1256 +
  1.1257 +GLPK 3.2.3 (release date: Nov 11, 2002)
  1.1258 +
  1.1259 +        A new implementation of the api routine lpx_integer which now
  1.1260 +        is based on the b&b driver (which is based on the implicit
  1.1261 +        enumeration suite) was included in the package. This new
  1.1262 +        implementation has exactly the same functionality as the old
  1.1263 +        version, so all changes are transparent to the api user.
  1.1264 +
  1.1265 +        Four new api routines were included in the package:
  1.1266 +        lpx_check_kkt checks Karush-Kuhn-Tucker optmality conditions;
  1.1267 +        lpx_read_bas reads predifined basis in MPS format;
  1.1268 +        lpx_write_bas writes current basis in MPS format;
  1.1269 +        lpx_write_lpt writes problem data in CPLEX LP format.
  1.1270 +
  1.1271 +        Also other minor improvements were made (for details see the
  1.1272 +        file 'ChangeLog').
  1.1273 +
  1.1274 +GLPK 3.2.2 (release date: Oct 14, 2002)
  1.1275 +
  1.1276 +        The api routine lpx_read_lpt was included in the package. It
  1.1277 +        is similar to the routine lpx_read_mps and intended to read
  1.1278 +        LP/MIP data prepared in CPLEX LP format. Description of this
  1.1279 +        format is given in the GLPK reference manual, a new edition of
  1.1280 +        which was also included in the distribution (see the files
  1.1281 +        'refman.latex', 'refman.dvi', 'refman.ps' in the subdirectory
  1.1282 +        'doc'). In order to use data files in CPLEX LP format with the
  1.1283 +        solver glpsol the option '--lpt' should be specified in the
  1.1284 +        command line.
  1.1285 +
  1.1286 +        Several bugs were fixed and some minor improvements were made
  1.1287 +        (for details see the file 'ChangeLog').
  1.1288 +
  1.1289 +GLPK 3.2.1 (release date: Aug 12, 2002)
  1.1290 +
  1.1291 +        Now GLPK includes a preliminary implementation of the
  1.1292 +        branch-and-cut framework, which is a set of data structures and
  1.1293 +        routines intended for developing branch-and-cut methods for
  1.1294 +        solving mixed-integer and combinatorial optimization problems.
  1.1295 +
  1.1296 +        Detailed decsription of the branch-and-cut framework is given in
  1.1297 +        the document "GLPK: A Preliminary Implementation of the
  1.1298 +        Branch-And-Cut Framework" included in the distribution (see the
  1.1299 +        file 'brcut.txt' in the subdirectory 'doc').
  1.1300 +
  1.1301 +        In order to illustrate how the GLPK branch-and-cut framework
  1.1302 +        can be used for solving a particular optimization problem there
  1.1303 +        is an example included in the package. This is a stand-alone
  1.1304 +        program, TSPSOL, which is intended for solving to optimality the
  1.1305 +        symmetric Traveling Salesman Problem (TSP), a classical problem
  1.1306 +        of the combinatorial optimization (see the file 'tspsol.c' in
  1.1307 +        the subdirectory 'sample').
  1.1308 +
  1.1309 +GLPK 3.2 (release date: Jul 15, 2002)
  1.1310 +
  1.1311 +        New edition of the document "GLPK: Reference Manual" was
  1.1312 +        included (see the files 'refman.latex', 'refman.dvi', and
  1.1313 +        'refman.ps' in the subdirectory 'doc').
  1.1314 +
  1.1315 +        New edition of the document "GLPK: Modeling Language GLPK/L" was
  1.1316 +        included (see the files 'lang.latex', 'lang.dvi', and 'lang.ps'
  1.1317 +        in the subdirectory 'doc').
  1.1318 +
  1.1319 +        The following new API routines were added to the package:
  1.1320 +
  1.1321 +        lpx_transform_row (transform explicitly specified row);
  1.1322 +        lpx_transform_col (transform explicitly specified column);
  1.1323 +        lpx_prim_ratio_test (perform primal ratio test);
  1.1324 +        lpx_dual_ratio_test (perform dual ratio test);
  1.1325 +        lpx_interior (solve LP problem using interior point method);
  1.1326 +        lpx_get_ips_stat (query status of interior point solution);
  1.1327 +        lpx_get_ips_row (obtain row interior point solution);
  1.1328 +        lpx_get_ips_col (obtain column interior point solution);
  1.1329 +        lpx_get_ips_obj (obtain interior point value of obj.func.);
  1.1330 +        lpx_read_lpm (read LP/MIP model written in GLPK/L);
  1.1331 +        lpx_write_mps (write problem data using MPS format);
  1.1332 +        lpx_print_ips (print interior point solution).
  1.1333 +
  1.1334 +        Detailed description of all these new API routines are given in
  1.1335 +        the new edition of the reference manual.
  1.1336 +
  1.1337 +        New version of the stand-alone solver glpsol (which is based on
  1.1338 +        the new API) was implemented.
  1.1339 +
  1.1340 +        So long as the new API (introduced in glpk 3.0) now provides
  1.1341 +        all the functions, which were provided by the old API, the old
  1.1342 +        API routines were removed from the package at all.
  1.1343 +
  1.1344 +GLPK 3.1 (release date: May 27, 2002)
  1.1345 +
  1.1346 +        A preliminary implementation of new API routines was completed
  1.1347 +        and included in the package.
  1.1348 +
  1.1349 +        These new API routines provide much more flexible interaction
  1.1350 +        between the application program, LP/MIP problem instances, and
  1.1351 +        solver routines. Based on completely changed data structures
  1.1352 +        they are, however, similar to the API routines and provide the
  1.1353 +        same functionality. Please note that three routines, namely,
  1.1354 +        solving LPs using interior point method, reading model written
  1.1355 +        in the GLPK/L modeling language, and writing problem data in
  1.1356 +        the MPS format, are not implemented in the new API, however,
  1.1357 +        these routines are planned to be implemented in the next version
  1.1358 +        of the package.
  1.1359 +
  1.1360 +        A description of the new API routines is given in the document
  1.1361 +        "GLPK Reference Manual", a draft edition of which is included
  1.1362 +        in the package (see the files 'refman.latex', 'refman.dvi', and
  1.1363 +        'refman.ps' in the subdirectory 'doc').
  1.1364 +
  1.1365 +        Although the old API routines are kept in the package, they are
  1.1366 +        no longer supported and will be removed in the future.
  1.1367 +
  1.1368 +GLPK 3.0.8 (release date: May 13, 2002)
  1.1369 +
  1.1370 +        A preliminary implementation of new API routines was included
  1.1371 +        in the package. These new API routines are intended to provide
  1.1372 +        much more flexible interaction between the application program,
  1.1373 +        LP/MIP problem and solver routines. See the document "New GLPK
  1.1374 +        API Routines" (the file 'newapi.txt' in the subdirectory 'doc')
  1.1375 +        also included in the package.
  1.1376 +
  1.1377 +        The api routines glp_simplex2, glp_call_ipm1, glp_call_bbm1 were
  1.1378 +        renamed, respectively, to glp_simplex, glp_interior, glp_integer
  1.1379 +        in order to reflect changes in implementation. The api routines
  1.1380 +        glp_call_rsm1, glp_simplex1, glp_pivot_in, glp_pivout_out were
  1.1381 +        removed from the package since they are completely supreseded by
  1.1382 +        the new API routines (however, these routines still can be found
  1.1383 +        in the subdirectory 'oldsrc'). Please consult a new edition of
  1.1384 +        the document "GLPK User's Guide" about all these changes in the
  1.1385 +        existing api routines.
  1.1386 +
  1.1387 +        The document "GLPK Library Reference" was removed from the
  1.1388 +        package (into the subdirectory 'oldsrc') since it describes the
  1.1389 +        obsolete library routines, most of which are no longer used.
  1.1390 +
  1.1391 +GLPK 3.0.7 (release date: Apr 22, 2002)
  1.1392 +
  1.1393 +        A new, more efficient implementation of the primal/dual simplex
  1.1394 +        method was included in the package. Due to some improvements the
  1.1395 +        simplex-based solver allows solving many LP problems faster and
  1.1396 +        provides more reliable results. Note that the new implementation
  1.1397 +        is currently incomplete and available only via the api routine
  1.1398 +        glp_simplex2.
  1.1399 +
  1.1400 +        All the changes are transparent on API level.
  1.1401 +
  1.1402 +GLPK 3.0.6 (release date: Mar 28, 2002)
  1.1403 +
  1.1404 +        New version of LU-factorization and basis maintenance routines
  1.1405 +        (based on Forrest-Tomlin updating technique) was implemented.
  1.1406 +        Since these new routines functionally supersede some routines
  1.1407 +        (which implement other forms of the basis matrix) and make them
  1.1408 +        obsolete, the latter were removed from the package (they still
  1.1409 +        can be found in the subdirectory 'oldsrc').
  1.1410 +
  1.1411 +        All the changes are transparent on API level.
  1.1412 +
  1.1413 +GLPK 3.0.5 (release date: Jan 29, 2002)
  1.1414 +
  1.1415 +        New edition of the document "GLPK User's Guide" was included in
  1.1416 +        the distribution. Now it describes all additional API routines,
  1.1417 +        which were recently added to the package.
  1.1418 +
  1.1419 +        Structure of the package was re-organized in order to make its
  1.1420 +        maintenance easier (all small files in the subdurectory 'source'
  1.1421 +        were merged in bigger units). These changes are transparent for
  1.1422 +        the user.
  1.1423 +
  1.1424 +GLPK 3.0.4 (release date: Dec 10, 2001)
  1.1425 +
  1.1426 +        A new, more efficient implementation of the two-phase primal
  1.1427 +        simplex method was included in the package. Due to some new
  1.1428 +        features (an advanced initial basis, projected steepest edge,
  1.1429 +        recursive updating values and reduced costs) the new LP solver
  1.1430 +        is faster and numerically more stable than the old one.
  1.1431 +
  1.1432 +        The new LP solver is available as API routine glp_simplex2 and
  1.1433 +        has the same purpose as API routine glp_call_rsm1. For detailed
  1.1434 +        specification see the file 'newapi.txt' in the directory 'doc'.
  1.1435 +
  1.1436 +        Now the new LP solver is also used by default to solve an
  1.1437 +        initial LP problem in the branch-and-bound routine glp_call_bbm1
  1.1438 +        instead the routine rsm1_driver. Note that the branch-and-bound
  1.1439 +        procedure itself is still based on rsm1_driver.
  1.1440 +
  1.1441 +        The new LP solver is also used as default solver in GLPSOL for
  1.1442 +        solving LP and MIP problems. In order to choose the old solver
  1.1443 +        the option '--old-sim' can be specified in the command line.
  1.1444 +
  1.1445 +GLPK 3.0.3 (release date: Oct 03, 2001)
  1.1446 +
  1.1447 +        Some minor changes were made in the simplex method routines in
  1.1448 +        order to improve numerical stability of the method.
  1.1449 +
  1.1450 +GLPK 3.0.2 (release date: Sep 24, 2001)
  1.1451 +
  1.1452 +        A new implementation of the basis maintaining routines was
  1.1453 +        included in the package. These routines, which are based on so
  1.1454 +        called FHV-factorization (a variety of LU-factorization) of the
  1.1455 +        basis matrix and Gustavson's data structures, allows performing
  1.1456 +        the main operations faster at the expense of some worsening
  1.1457 +        numerical accuracy.
  1.1458 +
  1.1459 +        AFI (Advanced Form of the Inverse), which is the form of the
  1.1460 +        basis matrix based on FHV-factorization, is available via the
  1.1461 +        parameter form = 3 (on API level) or via the option --afi (in
  1.1462 +        GLPSOL solver).
  1.1463 +
  1.1464 +GLPK 3.0.1 (release date: Aug 01, 2001)
  1.1465 +
  1.1466 +        Old GLPK API routines have been removed from the package.
  1.1467 +
  1.1468 +        New GLPK API routines were added:
  1.1469 +
  1.1470 +        - scaling routines;
  1.1471 +
  1.1472 +        - a routine for writing problem data in MPS format;
  1.1473 +
  1.1474 +        - a comprehensive driver to the simplex method;
  1.1475 +
  1.1476 +        - basis maintaining routines.
  1.1477 +
  1.1478 +        A description of the new API routines is given in the document
  1.1479 +        "Additional GLPK API Routines". This document is included into
  1.1480 +        the distribution in plain text format (see the file 'newapi.txt'
  1.1481 +        in the subdirectory 'doc').
  1.1482 +
  1.1483 +        Now the distribution includes a non-trivial example of using
  1.1484 +        GLPK as a base LP solver for Concorde, a well known program that
  1.1485 +        solves Traveling Salesman Problem (TSP). For further details see
  1.1486 +        comments in the file 'sample/lpglpk30.c'.
  1.1487 +
  1.1488 +GLPK 3.0 (release date: Jul 19, 2001)
  1.1489 +
  1.1490 +        Now GLPK is provided with new API, which being more flexible
  1.1491 +        can be used in more complex algorithmic schemes.
  1.1492 +
  1.1493 +        New edition of the document "GLPK User's Guide" is included in
  1.1494 +        the distribution. Now it completely corresponds to the new GLPK
  1.1495 +        API routines.
  1.1496 +
  1.1497 +        Old API routines are not removed yet from the package, however
  1.1498 +        they became obsolete and therefore should not be used. Since now
  1.1499 +        the header glpk.h corresponds to new API, in order to compile
  1.1500 +        existing programs that use old GLPK API routines the statement
  1.1501 +
  1.1502 +        #define GLP_OLD_API
  1.1503 +
  1.1504 +        should be inserted before the statement
  1.1505 +
  1.1506 +        #include "glpk.h"
  1.1507 +
  1.1508 +GLPK 2.4.1 (release date: Jun 14, 2001)
  1.1509 +
  1.1510 +        The document "Modeling language GLPK/L" is included into the
  1.1511 +        distribution in texinfo format.
  1.1512 +
  1.1513 +        New edition of the document "GLPK User's Guide" is included in
  1.1514 +        the distribution. Now it describes all additional API routines
  1.1515 +        which were recently added to the package.
  1.1516 +
  1.1517 +GLPK 2.4 (release date: May 10, 2001)
  1.1518 +
  1.1519 +        Now GLPK includes an implementation of a preliminary version
  1.1520 +        of the GLPK/L modeling language. This language is intended for
  1.1521 +        writing mathematcal programming models. The name GLPK/L is
  1.1522 +        derived from GNU Linear Programming Kit Language.
  1.1523 +
  1.1524 +        A brief description of the GLPK/L language is given in the
  1.1525 +        document "GLPK/L Modeling Language: A Brief Description". This
  1.1526 +        document is included into the distribution in plain text format
  1.1527 +        (see the file 'language.txt' in the subdirectory 'doc').
  1.1528 +
  1.1529 +        The language processor (which is a program that analyzes model
  1.1530 +        description written in GLPK/L and translates it to internal data
  1.1531 +        structures) is available as the GLPK API routine.
  1.1532 +
  1.1533 +        The stand-alone solver GLPSOL now is able: a) to process model
  1.1534 +        descriptions written in the GLPK/L language; b) to solve pure LP
  1.1535 +        problems using the interior point method (therefore the program
  1.1536 +        GLPIPM was removed from the package).
  1.1537 +
  1.1538 +GLPK 2.3 (release date: Apr 09, 2001)
  1.1539 +
  1.1540 +        New edition of the document "GLPK User's Guide" is included in
  1.1541 +        the distribution. Now it describes all additional API routines
  1.1542 +        which were recently added to the package.
  1.1543 +
  1.1544 +        The MIP solver was fully re-programmed in order to improve its
  1.1545 +        robustness and performance. In particular, a basis recovering
  1.1546 +        procedure was implemented (this procedure allows switching to
  1.1547 +        the primal simplex method in case when the dual simplex method
  1.1548 +        fails).
  1.1549 +
  1.1550 +GLPK 2.2 (release date: Mar 15, 2001)
  1.1551 +
  1.1552 +        Now GLPK includes a tentative implementation of the
  1.1553 +        branch-and-bound procedure based on the dual simplex method for
  1.1554 +        mixed integer linear programming (MIP).
  1.1555 +
  1.1556 +        Complete description of this new feature of the package is given
  1.1557 +        in the preliminary document "Mixed Integer Linear Programming
  1.1558 +        Using GLPK Version 2.2 (Supplement to GLPK User's Guide)". This
  1.1559 +        document is included into the distribution in plain text format
  1.1560 +        (see the file 'mip.txt' in the subdirectory 'doc').
  1.1561 +
  1.1562 +        The MIP solver (glp_integer) can be used as GLPK API routine in
  1.1563 +        the same way as the pure LP solver (glp_simplex).
  1.1564 +
  1.1565 +        The stand-alone program 'glpsol' is now able to solve LP as well
  1.1566 +        as MIP problems.
  1.1567 +
  1.1568 +        Note that the current version of GLPK MIP solver is based on
  1.1569 +        easiest heuristics for branching and backtrackng. Therefore the
  1.1570 +        solver is fit mainly for MIP problems which are not very hard
  1.1571 +        and have few integer variables.
  1.1572 +
  1.1573 +GLPK 2.1 (release date: Feb 19, 2001)
  1.1574 +
  1.1575 +        The document "GLPK Implementation of the Revised Simplex Method"
  1.1576 +        is included into the distribution. This document describes most
  1.1577 +        of routines related to the revised simplex method.
  1.1578 +
  1.1579 +GLPK 2.0 (release date: Jan 25, 2001)
  1.1580 +
  1.1581 +        Now GLPK includes a tentative implementation of the primal-dual
  1.1582 +        interior point method for large-scale linear programming.
  1.1583 +
  1.1584 +        The interior point solver can be used as GLPK API routine in the
  1.1585 +        same manner as the simplex method solver (glp_simplex):
  1.1586 +
  1.1587 +        ret = glp_interior();
  1.1588 +
  1.1589 +        Note that currently the interior point solver implemented in
  1.1590 +        GLPK doesn't include many important features, in particular:
  1.1591 +
  1.1592 +        * it can't process dense columns; therefore if the problem has
  1.1593 +          dense columns, the solving will be extremely inefficient;
  1.1594 +
  1.1595 +        * it has no special features against numerical unstability;
  1.1596 +          some problems may cause premature termination of the solving
  1.1597 +          when the matrix A*D*A' becomes ill-conditioned;
  1.1598 +
  1.1599 +        * it computes only values of primal (auxiliary and structural)
  1.1600 +          variables and doesn't compute values of dual variables (i.e.
  1.1601 +          reduced costs) which are just set to zero;
  1.1602 +
  1.1603 +        * it doesn't identify optimal basis corresponding to the found
  1.1604 +          interior point solution; all variables in the found solution
  1.1605 +          are just marked as basic variables.
  1.1606 +
  1.1607 +        GLPK also includes a stand-alone program 'glpipm' which is a
  1.1608 +        demo based on the interior point method. It may be used in the
  1.1609 +        same way as the program 'glpsol' that is based on the simplex
  1.1610 +        method.