I'm working on code for a topological sort program for graphs. I've implemented the algorithm by doing a depth-first search of the graph, putting each vertex value into a stack, and the popping the values off of the stack and printing them out. This should be producing a topological sort, but so far I consistently get one value less than I put in as far as number of vertices, and none of the number match those I've inputted.

status topological_search(graph G, vertex vertex_number, bool visited[], status

  edge *p_edge = NULL;
  int *temp ;
  stack S ;

  init_stack(&S) ;
  temp = (int *) malloc(sizeof(int)) ;

  while((p_edge = edge_iterator(G, vertex_number, p_edge)) != NULL){
    if(visited[VERTEX(p_edge)] == FALSE){

      visited[VERTEX(p_edge)] = TRUE ;
      *temp = VERTEX(p_edge) ;
      push(&S, (generic_ptr) temp) ;
      vertex_number = VERTEX(p_edge) ;
    pop(&S, (generic_ptr) &temp) ;
    (*p_func_f)(*temp) ;
  return OK ;

My stack function all work normally, they've been tested in other programs. Edge_iterator is straight from the textbook and functions normally. Any advice on where my sort is getting the wrong number would be greatly appreciated.

EDIT: I've reedited the code to reflect the changes suggested to vertex_number and the while{..} loop. However now the program will only print he first vertex and nothing else. I can see how before the loop would not visit every node in the graph, however now it only visits one before stopping? Where is this being stopped?

Here's Edge_iterator

edge *edge_iterator(graph G, vertex vertex_number, edge *p_last_return){

  vertex other_vertex ;
  if(vertex_number < 0 || vertex_number >= G->number_of_vertices) return NULL ;

  if(p_last_return == NULL) other_vertex = 0 ;
  else other_vertex = VERTEX(p_last_return) + 1 ;

  for( ; other_vertex < G->number_of_vertices; other_vertex++){
    if(G->matrix[vertex_number][other_vertex].weight != UNUSED_WEIGHT)
      return &G->matrix[vertex_number][other_vertex] ;
  return NULL ;

and the graph implementation.

typedef int vertex ;
typedef struct {int weight; vertex vertex_number ;} edge ;

#define UNUSED_WEIGHT (32767)
#define WEIGHT(p_e) ((p_e) -> weight)
#define VERTEX(p_e) ((p_e) -> vertex_number)

typedef enum {directed, undirected} graph_type ;
typedef enum {DEPTH_FIRST, TOPOLOGICAL } searchorder ;

typedef struct {
  graph_type type ;
  int number_of_vertices ;
  edge **matrix ;
}graph_header, *graph ;
  • 1
    How does edge_iterator work? It looks like it's returns the next edge adjacent to vertex number vertex_number after p_edge. Where is the recursive call for the depth first traversal? How much is supposed to be within the while loop? At the moment, it's just the if { … }. It looks like you're setting up a stack, iterating through the edges adjacent to vertex_number (but I don't know how edge_iterator works, marking the vertices on those edges as visited and putting their values in the stack, and then, popping one value off the stack, calling p_func_f with it, and ending. – Joshua Taylor May 7 '13 at 15:34
  • You're right, edge_iterator simply returns the next edge adjacent to the vertex after p_edge. The entirety of the While{..} loop is a depth-first traversal, I just couldnt use a funcition call because it is recursive and i needed each edge to be added to the stack as i went through the traversal one edge at a time. And yes, so far the rest of your analysis is correct. however After all this I'm getting one value less than there are edges in the graph printed out for the traversal, and these numbers do not match the ones inputted. – user2305426 May 7 '13 at 15:41
  • If you have a graph G = { (A, B) (B, C) (C, D) } and you start with the call topological_search( G, A, [false, false, false], ? ), that's supposed to start the depth-first traversal at A. When does the depth-first traversal starting at C happen? I don't see that it would ever happen in this code. When would C be marked as visited? – Joshua Taylor May 7 '13 at 16:19
  • 1
    We're discussing a lot of code that isn't posted, which will make it very hard to anybody to answer the question. Can you post the implementation of the graph and of edge_iterator? – Joshua Taylor May 7 '13 at 16:56
  • 1
    You mentioned that the edge_iterator was taken straight from the textbook, so I did a Google search for it, but only found these slides dated May 10, 2013 (from the future!). Those slides contain an implementation of topological_sort that might be of use to you. All in all, I suggest you focus on getting a depth-first traversal working, and then modify that for your topological sort. The wikipedia article on depth first search has some pseudocode. – Joshua Taylor May 7 '13 at 19:27

Your vertex_number is never updated, so you'll never get any further than the starting node. The typical topological sort marks every node with its number of predecessors. Then it goes to all the nodes for which this count is zero and decreases the count for all its successors. This process is repeated until no new nodes with count zero are found. If all nodes at the end have a count of zero, the graph was acyclic and the order in which the nodes were visited is a topological order.

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