I'm looking for a simple algorithm to 'serialize' a directed graph. In particular I've got a set of files with interdependencies on their execution order, and I want to find the correct order at compile time. I know it must be a fairly common thing to do - compilers do it all the time - but my google-fu has been weak today. What's the 'go-to' algorithm for this?
Topological Sort (From Wikipedia):
In graph theory, a topological sort or topological ordering of a directed acyclic graph (DAG) is a linear ordering of its nodes in which each node comes before all nodes to which it has outbound edges. Every DAG has one or more topological sorts.
L ← Empty list where we put the sorted elements Q ← Set of all nodes with no incoming edges while Q is non-empty do remove a node n from Q insert n into L for each node m with an edge e from n to m do remove edge e from the graph if m has no other incoming edges then insert m into Q if graph has edges then output error message (graph has a cycle) else output message (proposed topologically sorted order: L)
I would expect tools that need this simply walk the tree in a depth-first manner and when they hit a leaf, just process it (e.g. compile) and remove it from the graph (or mark it as processed, and treat nodes with all leaves processed as leaves).
As long as it's a DAG, this simple stack-based walk should be trivial.
I've come up with a fairly naive recursive algorithm (pseudocode):
Map<Object, List<Object>> source; // map of each object to its dependency list List<Object> dest; // destination list function resolve(a): if (dest.contains(a)) return; foreach (b in source[a]): resolve(b); dest.add(a); foreach (a in source): resolve(a);
The biggest problem with this is that it has no ability to detect cyclic dependencies - it can go into infinite recursion (ie stack overflow ;-p). The only way around that that I can see would be to flip the recursive algorithm into an interative one with a manual stack, and manually check the stack for repeated elements.
Anyone have something better?