# Optimization on Algorithm to check “Whether for a given directed graph there is only one way to sort the graph using topological sort or not”

My algorithm for this is :

1. First to calculate Indegree of every node , i.e. count of how many edges are there for which this node is sink for them.
2. Now, will push only those in queue which have indegree==0 because these will be the first to appear in topological sorted list of graph.
3. If now starting size of Queue is zero. that means "Graph can't be sorted".
4. else we start Sorting method.
5. If we encounter that more than 2 vertices are present in queue at any time that means that "Multiple sequences are possible"
6. But there may be a case where further Sequence might not be possible.
7. So I keep track of the node that popped(deleted from Front) from Queue. and Count of them too.
8. If lastly count==number of nodes.and flag for multiple sequence is unset then sequence is possible "Graph can be sorted".
9. or if count==number of nodes and flag for Mutiple sequence was set . we say "Multiple Sequence is Possible"
10. if count!=number of nodes. then "Graph can't be sorted"

Here is My implementation of my Idea

``````vector<vector<int> >list(10000); // Graph is represented as Adjacency list
void topological_sort()
{
int i,l,item,j;
k=0;
queue<int>q; // Queue
vector<int>:: iterator it;
for(i=1;i<=n;i++) // Pushing nodes those who have indegree=0
{
if(indegree[i]==0)
q.push(i);
}
l=q.size();
if(l==0)
{
flag=2; // means no sequence is possible
return;
}
while(q.empty()==0)
{
l=q.size();
if(l>1)
flag=1;     // multiple sequence possible for sure but check whether this is fully possible or not
item=q.front();
q.pop();
ans[k++]=item;
for(it=list[item].begin();it!=list[item].end();it++)
{
j=*it;
indegree[j]--;
if(indegree[j]==0)
q.push(j);

}
}
if(k!=n)
flag=2; // no sequence is possible.
}
``````

This algorithm is too slow! or just a naive implementation. What further Improvements are possible for this. or how can i use toplogical sort using DFS for this ?

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Suggest this Q is more appropriate for Code Review. –  BoBTFish Jun 13 '13 at 15:24
Thanks ! posting it there ! much appreciated ! But i was hoping some help from here too ! –  Shashank Jain Jun 13 '13 at 15:26

Theorem:
A directed graph has a unique topological sort if and only if it is a directed chain.

Proof left as exercise for you

To determine if a directed graph has a unique topological sort, all you have to do is:

1. Find any node with in-degree 0
• If there isn't one, the graph has a cycle and does not have a unique topological sort
2. Repeatedly follow the first out-edge of the current node, adding the visited nodes to a set as you go
3. Stop when:
• You reach a node you have already visited - the graph has a cycle, so it does not have a unique topological sort
• You reach a dead end - the graph has a unique topological sort if and only if the set of visited nodes contains all of the nodes in the graph

Your code doesn't seem to follow this simple approach. (Correct me if I'm wrong about that!) So, rather than trying to figure out if your code is correct or not, I would suggest simply using the algorithm outline above.

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yes ! that is correct.. but i am asking for tips to improve my algorithm –  Shashank Jain Jun 13 '13 at 16:31
@Shashank_Jain The last paragraph in my answer is the tip to improve your algorithm. :) –  Timothy Shields Jun 13 '13 at 16:41
i do get all my answers right.. more precisely i have checked this algorithm against ONLINE JUDGE to the question i was doing.. your algorithm does kinda same.. !! –  Shashank Jain Jun 13 '13 at 17:29
@Shashank_Jain Your algorithm is more complicated than it has to be. The one I offered is simpler. Correctness and conciseness are not the same, though conciseness often leads to correctness. –  Timothy Shields Jun 13 '13 at 17:51
sorry for bad English ! i implemented your method using DFS. and i checked using time benchmarks against mine solution. you algorithm took 1123ms (for a Testcase file that i made) and mine took 3347ms. i just meant that your method is indeed simpler and good than mine ! thanks for improvement –  Shashank Jain Jun 13 '13 at 18:11