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
(*p_func_f)()){
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) ;
}
}
while(!empty_stack(&S)){
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 ;
```

`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`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 16:19isn'tposted, 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`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 19:275more comments