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I am writing code for finding cycle in a graph using a DFS algorithm . However , when I go to print the path of the cycle , something very odd happens . Read my concern in the comments.

#include <iostream> 
#include "graph.h" 
#include <stdio.h>

using namespace std;

int discovered[MAXV+1];
int parent[MAXV+1];

//Printing path that contains the cycle 

void find_path(int start, int end)
{
    int s = start;
    int e = end;

    while(s != e)
    {
        cout<<s<<" ";
        s = parent[s];
    }

/*The loop above does not stops ; 
  which means the condition parent[s] == e ;
  does not meet . However , on printing out the 
  values of s , parent[s] , and e , on successive iteration 
  I can see that the value of parent[s] and e becomes
  equal after a certain time , even though the loop does not 
  terminate.

*/
}

void dfs(graph *g , int start)
{    
    int dis = 1;
    int u = 0 ;
    edgenode *p;

    p = g->edges[start]; 
    discovered[start] = dis;

    while(p!= NULL)
    {
        u = p->y;
        parent[u] = start;

        if(discovered[u]== 1){ cout<<"Cycle"<<start<<u<<endl; find_path(start,u);}
        else dfs(g,u);

        p = p->next;
    }

    discovered[start] = dis +1;
    printf("\n");   
}

int main()
{
    for(int i= 1; i<=MAXV+1; i++)
    {
        discovered[i] = false;
        parent[i] = -1;
    }

    graph *g = new graph();
    read_graph(g,true);

    dfs(g,1);
}

So , is there flaw in my logic in calling the above recursion , or my g++ compiler is acting weird . Any perusal of my code will be highly appreciated . Thanks .

P.S:You can assume that I have a graph structure already implemented , which I incorporate during compile time . And I assume that you have a good idea about the implementation of BFS algorithm . If you have any concern of understanding the code , let me know .

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3  
You pass start as 1 to dfs and use it as an array index (as far as I can tell). Why do you skip the 0 (which is the start index of normal arrays)? –  Nobody Sep 14 '12 at 13:38
    
And the discovered[] and parent[] arrays are initialized at index 1 as well...maybe a red herring, but it kinda sticks out there... –  David W Sep 14 '12 at 13:43
2  
At the very least, you are writing past the bounds of the discovered and parent arrays. Index MAXV+1 is not valid for these arrays. Valid indexes range from 0 to MAXV (inclusive). –  Sander De Dycker Sep 14 '12 at 13:54
2  
Without the graph.h header, this code does not compile. Please provide a minimal compiling example that displays the problem. –  TemplateRex Sep 14 '12 at 13:57
1  
so it seems your actual problem is not with the dfs algorithm per se, but with the loop in find_path function - can you give us example numbers in parent array and according start/end parameters, where the loop fails to stop? –  RandolphCarter Sep 14 '12 at 14:00
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1 Answer 1

up vote 0 down vote accepted

The algorithm in dfs is broken. As it examines the edges from node 1, it finds an edge from node 1 to node 2, and it marks 1 as a parent of 2. Later, it finds an edge from node 5 to node 2, and it marks 5 as a parent of 2, replacing the previous entry in the parent array.

Later yet, when it determines there is a cycle from 1 to 5 (to 1), it calls find_path(5, 1). However, find_path can never find node 1, because following the parents from 5 leads to 4, 3, 2, and back to 5.

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Yes , thanks , my logic of visiting a node in dfs was faulty , I visited the same node twice and changed its parents twice . –  motiur Sep 15 '12 at 2:30
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