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I have two classes MaxFlow and MinMaxFlow.

MaxFlow uses boost graph to create a graph from a network topology:

class MaxFlow {
 public:
  MaxFlow : g_() { createGraph(); } //constructor
  void createGraph();
  void modifyGraph(); // modify the graph to use boost maxflow algorithm
  int maxFlowAlgo(); // use g_ and some other util local variables
 private:
  Graph g_;
  ...   // some other helper containers created during createGraph()
}

MaxFlow maintains a local variable g_ since we only need one instance to do all the work here. MinMaxFlow iterates every edge in the graph to find a minimum max flow if we fail that edge (set capacity to 0):

class MinMaxFlow {
 public:
  int getMinMaxFlow() {
    int minMaxFlow = INT_MAX;
    MaxFlow maxFlowObj; // create a new obj
    maxFlowObj.modifyGraph(); // I suppose this modify current obj
    for (auto edge : graph_edges) {
      // maxFlowAlgo will return incorrect value after several runs
      int maxFlowVal = maxFlowObj.maxFlowAlgo();
      int minMaxFlow = std::min(minMaxFlow, maxFlowVal);
    }
    return minMaxFlow;
  }
}

Now the problem is, maxFlowAlgo is based on local variable g_ in class MaxFlow, when I create new object maxFlowObj in MinMaxFlow, calling maxFlowObj.maxFlowAlgo() will use its own data, which makes the result unpredictable. So my question is: how can I use the method(like maxFlowAlgo) belongs to MaxFlow in the second class MinMaxFlow if the method uses local variables in MaxFlow?

Update: I have figured out the problem is from boost::boykov_kolmogorov_max_flow, I use bundle properties and pass capacity property map into it, but this algorithm will not only modify the capacity property map, but also my original edge capacity variable! Now the workaround is that I have to store the capacity values before running the algorithm and restore them after it. It's not supposed to modify the original members, right?

5
  • g_ is not a local variable, but a member variable. There is a difference. Apr 13, 2016 at 20:37
  • you can make your g_ variable static so all instances of your class "share" it. this may help: Static Members Apr 13, 2016 at 20:42
  • Understand what is local variable, class member and static class member. Making g_ simply static will not instantly make your code correct. Why will maxFlowAlgo "return incorrect value after several runs"? I suppose it should be const. You don't use edge variable inside your loop. Maybe, this edge is intended to be deleted in the beginning of iteration and added in the end? Apr 13, 2016 at 20:46
  • @GeorgeSovetov Thanks. I was thinking delete the edge but it may make boost graph unstable. So I use a workaround by setting the edge capacity to 0. I find the problem happens right after I call the boost max flow algorithm. I use boykov_kolmogorov_max_flow and bundle properties for capacity_property_map. It will modify some edge capacities. I don't see any reason for that. The algorithm shouldn't modify any graph elements, right?
    – Emerson Xu
    Apr 13, 2016 at 23:55
  • @EmersonXu I'll leave answer. Apr 14, 2016 at 8:10

2 Answers 2

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In this case it's OK that edge capacities are changed.

Sometimes algorithms don't modify input data. On other hand, it's better to alter existing data to save resources (memory) and because altered data can make sense. After max flow algorithm is executed, edge capacities are residual capacities; in other words, how much capacity is left in each edge when graph is saturated by flow. At least one of edge will have zero residual capacity; when after second algorithm execution, it will return zero because graph is saturated.

If you want to run max flow algorithm several times, you have to preserve initial graph and copy it each time you run algorithm. Each time in the beginning of loop iteration you have to reconstruct your graph or copy it from preserved.

Since you run algorithm several times, you probably want to run it on different graphs. You probably want to copy graph and set edge capacity to zero.

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  • Yes. I have solved the problem by constructing a default base graph. Modify it, run maxflow algorithm, restore it, and repeat these three steps for each edge groups. It runs perfect now. Thanks again for your insights.
    – Emerson Xu
    Apr 14, 2016 at 20:22
0

It seems you asked a XY Problem.

IF you want to maintains a local variable g_ since we only need one instance, you should use Singleton Design Pattern, other than creating instance when you need it.

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