arg_parser.h: A command line argument parser.
dist_log.h: A tool for measuring one and two dimensional distributions.
2 \page getting_started Getting Started
4 At the beginning we strongly suggest that you open your favorite text
5 editor and enter the code simultaneously as you read it. Compiling the
6 demos is also a good exercise.
8 As the first example we show you a lemon style "Hello World"
9 program. Now we explain almost every line, but later we will skip the
10 basics and focus on new things.
12 \section hello_world Hello World in LEMON
14 In this little program we give you a taste of the LEMON programming.
16 Let's see the code fragment to fragment!
18 \dontinclude hello_world.cc
22 We want to use a \c lemon::ListGraph so the include goes like this:
26 The next few lines are not necessary but useful shortcuts, if you don't
27 want to type \c lemon::ListGraph::Node every time.
31 For this demo we need to declare a ListGraph and a special NodeMap to
32 store the characters associated to the graph's nodes.
36 Adding nodes to the graph is very easy.
40 When a new node or edge is added to the graph the assigned maps are automatically resized.
41 So graphs can be built dynamically. The usage of a map is very natural.
45 Notice that no reference or additional assignment is needed to work with nodes.
46 They won't become illegal or won't lead to throwing any exceptions.
47 You can declare and handle a node like every other basic type such as \c int.
51 As one expects adding an Edge is similar. You need to define the \b source node
52 and the \b destination node. The nodes must belong to the graph of course. The
53 Edge has the direction from the source to the destination. In some cases you don't
54 want the edges to be directed - then you use an undirected graph. For example
59 In the next few lines we add some more nodes and edges and to the graph we need.
60 Those lines are not very interesting so we skip them, but you find the whole
61 working program in file hello_lemon.cc in the demo section.
63 The next statement must be familiar. But what is that INVALID in the \c while
64 test statement? In LEMON we usually use the INVALID to check if an object
65 contains valid information.
69 We take the current node and write out the character assigned to it. Is's easy
74 And here comes the trick. OutEdgeIt iterates on outgoing edges of a given node.
75 We pass the current node as argument to it, so the \c edge iterator will stand
76 on the first outgoing edge of the current node, or will be INVALID if the node
77 has no outgoing edges.
81 The graph we built before is linear, so we know that it ends, when no more outgoing
82 edges found. Otherwise the current node must be the node the edge points to.
83 Basic information about an edge can be requested from the graph.
87 Finish the code, just to be precise.
92 \section compile_hw Compiling Hello World
93 To compile this program all you have to do is type in
94 \code g++ -ohw hello_world.cc \endcode
95 and press \c Enter! This is the case if you installed LEMON on your system.
96 (For more information see the LEMON installation instructions.)
98 This is because LEMON is template library and most of it's code has to be available
99 as source code during compilation.
101 Most programs using LEMON will compile as easy as this one unless you want to
102 use some performance measuring tools LEMON can provide. Then you need to link
103 an additional library against your program.