I am confused about how to actually create a Graph using the boost library, I have looked at the example code and there are no comments explaining what it does.
How do you make a graph, and add vertices and edges as you go?
Here's a simple example, using an adjacency list and executing a topological sort:
I agree that the boost::graph documentation can be intimidating. I suggest you have a look at the link below:
I can't recall if the contents of the printed book is the same, I suspect it's a bit easier on the eyes. I actually learnt to use boost:graph from the book. The learning curve can feel pretty steep though. The book I refer to and reviews can be found here:
This is based off the example given on the boost::graph website, with comments added:
The output is a DOT file that you can quickly feed into the
I think you will find the following resources very helpful.
Graph Theory Primer
If you are unfamiliar with graph theory or need a refresher, then take a look at boost's Review of Elementary Graph Theory: http://www.boost.org/doc/libs/1_58_0/libs/graph/doc/graph_theory_review.html
This primer is helpful in understanding the terminology, how data structures represent graphs (adjacency matrix, adjacency list, etc…), and algorithms (breadth-first search, depth-first search, shortest-path, etc…).
Sample Code Described in Detail
For sample code for creating graphs that is described in detail, then take a look at the following section of Boris Schäling's online book - The Boost C++ Libraries: http://theboostcpplibraries.com/boost.graph-vertices-and-edges
Boris explains how to work with vertices and edges using the adjacenty_list. The code is thoroughly explained so you can understand each example.
Understanding adjacency_list Template Parameters
It is important to understand the template parameters for the adjacency_list. For example, do you want a directed or undirected graph? Do you want your graph to contain multiple edges with the same end nodes (i.e. multigraphs)? Performance also comes into play. Boris' book explains some of these, but you will find additional information on using the adjacenty_list here: http://www.boost.org/doc/libs/1_58_0/libs/graph/doc/using_adjacency_list.html
Using Custom Objects for Vertices, Edges, or Graphs
If you want to use custom objects for the vertices, edges, or even the graph itself, then you will want to use bundled properties. The following links will be helpful for using bundled properties: http://www.boost.org/doc/libs/1_58_0/libs/graph/doc/bundles.html
And perhaps this one too for an example: adding custom vertices to a boost graph
Detecting Circular Dependencies (Cycles)
There are multiple ways to detect circular dependencies including:
Depth-First Search: One simple way is by performing a depth-first search and detecting if the search runs into an already discovered vertex in the current search tree. Here is an example of detecting cyclic dependencies using boost's depth-first search: http://www.boost.org/doc/libs/1_58_0/libs/graph/doc/file_dependency_example.html#sec:cycles
Topological Sort: One can also detect cycles using a topological sort. boost provides a topological_sort algorithm: http://www.boost.org/doc/libs/1_58_0/libs/graph/doc/topological_sort.html
A topological sort works on a directed acyclic graph (DAG). If a cyclic graph is passed in, then an exception is thrown, thus indicating that the graph has a circular dependency. topological_sort includes a depth-first search, but also provides a linear ordering of the vertices. Here is an example: http://www.boost.org/doc/libs/1_58_0/libs/graph/doc/file_dependency_example.html#sec:cycles
Strongly Connected Components: Additionally, finding strongly connected components can indicate whether or not a graph has cycles: http://www.personal.kent.edu/~rmuhamma/Algorithms/MyAlgorithms/GraphAlgor/strongComponent.htm
boost's strong_components function computes the strongly connected components of a directed graph using Tarjan's algorithm. http://www.boost.org/doc/libs/1_58_0/libs/graph/doc/strong_components.html
File Dependency Example
Another helpful link is one that was already provided - boost's File Dependency Example that shows how to setup a graph of source code files, order them based on their compilation order (topological sort), determine what files can be compiled simultaneously, and determine cyclic dependencies: http://www.boost.org/doc/libs/1_58_0/libs/graph/doc/file_dependency_example.html
Some short and to-the-point recipes in getting started with the Boost C++ libraries can be found here:
These code samples listed on here appear reasonably up to date and appear to compile and work fine. I am finding that some of the online documentation concerning the use of the Boost Graph Library seems to be out of date or produces compilation errors.
There are a number of working examples here including creating directed and undirected graphs, printing the weights of edges, finding minimal spanning trees using Kruskal's algorithm, and maximum flow problems.