doc/mainpage.dox
author marci
Tue, 17 Aug 2004 13:20:46 +0000
changeset 764 615aca7091d2
parent 670 e45bf7830d8c
child 921 818510fa3d99
permissions -rw-r--r--
An experimental LPSolverWrapper class which uses glpk. For a short
demo, max flow problems are solved with it. This demo does not
demonstrates, but the main aims of this class are row and column
generation capabilities, i.e. to be a core for easily
implementable branch-and-cut a column generetion algorithms.
alpar@479
     1
/**
alpar@479
     2
\mainpage
alpar@479
     3
ladanyi@666
     4
\section intro Introduction
alpar@479
     5
ladanyi@666
     6
\subsection whatis What is HugoLib
ladanyi@666
     7
alpar@670
     8
HugoLib stands for Hungarian Graph Optimization Library.
alpar@670
     9
It is a C++ template
alpar@670
    10
library aimed at combinatorial optimization tasks which
alpar@670
    11
often involve in working
ladanyi@666
    12
with graphs. As the name also suggests, its development was started by
ladanyi@666
    13
Hungarian people.
ladanyi@666
    14
ladanyi@666
    15
\subsection howtoread How to read this document
ladanyi@666
    16
alpar@678
    17
Graph structures play central role in HugoLib, so if you are new to it,
alpar@678
    18
you probably should start \ref graphs "here".
alpar@678
    19
You can also find this page along with others under
alpar@678
    20
<a href="pages.html"> Related Pages </a>
alpar@678
    21
(left-hand
ladanyi@666
    22
side frame).
ladanyi@666
    23
alpar@670
    24
If you are more
alpar@670
    25
interested in details about data structures and algorithms then
alpar@670
    26
you should browse the reference manual part of the documentation.
alpar@678
    27
Section <a href="modules.html"> Modules </a>
alpar@678
    28
 is a good starting point for this.
ladanyi@666
    29
ladanyi@666
    30
*/