Lets assume for a moment that I know what you're *really* looking for based on your comment to a different answer : a way to reference a bounded number of Vertex structures as edges of a certain vertex, and this must be replicated for *all* vertex records in your finite set.

Suppose it is a linear list of Vertex structures; an allocated array of a specific size, (or continually extended via a `realloc()`

algorithm):

```
-----------------------------------------
| Vertex[0] | Vertex[1] | Vertex[2] ... |
-----------------------------------------
```

Now suppose at the tail of each of the above you need *some* way of reconciling that

```
Vertex Edges
------ -------
[0] [1],[2]
[1] [0],[2]
[2] [0],[1]
```

Sorry for the use of a simple triangle, but it was the easiest example I could come up with. Anyway moving on. If this is the model you're looking for, you can define your vertex structure as follows:

```
typedef struct Vertex
{
char value; // node 'value'
int n; // number of edge indices.
int *edges; // dynamic edge index list. [0..(n-1)]
} Vertex;
```

In defining the above example, you would do the following.

- Determine which of the Vertex entries in the global list are edges of the current entry.
- Allocate a dynamic index list to hold the slots for those edge 'ids'.
- Assign each edge vertex index into your index-list.

A simple (very) example is warranted:

```
Vertex vtx[3];
// wire vtx[1] and vtx[2] as edges of vtx[0].
vtx[0].value = 'a';
vtx[0].n = 2;
vtx[0].edges = malloc(2 * sizeof(int));
vtx[0].edges[0] = 1;
vtx[0].edges[1] = 2;
// wire vtx[0] and vtx[2] as edges of vtx[1].
vtx[1].value = 'b';
vtx[1].n = 2;
vtx[1].edges = malloc(2 * sizeof(int));
vtx[1].edges[0] = 0;
vtx[1].edges[1] = 2;
// wire vtx[0] and vtx[1] as edges of vtx[2].
vtx[2].value = 'c';
vtx[2].n = 2;
vtx[2].edges = malloc(2 * sizeof(int));
vtx[2].edges[0] = 0;
vtx[2].edges[1] = 1;
```

So suppose you have vtx[0]. How do you get to his first edge?

```
Vertex *edge = vtx[ vtx[0].edges[0] ];
```

From there you can move to *that* edge's first edge

```
edge = vtx[ edge->edges[0] ];
```

Etc. A picture is worth a thousand words:

```
-------------------------------------
| Vertex[0] | Vertex[1] | Vertex[2] |
| value = a | value = b | value = c |
| count = 2 | count = 2 | count = 2 |
|-----------|-----------|-----------|
|edges[0]=1 |edges[0]=0 |edges[0]=0 |
|edges[1]=2 |edges[1]=2 |edges[1]=1 |
-------------------------------------
```

Cleanup requires you `free()`

the index list pointer in each Vertex of the global list. If the global list itself is dynamically allocated, you `free()`

it too. In our sample above it is not.

I hope that at least gives you an idea of how you can do this without having to go malloc-nutz and copy data all over the place. In summary, in this example the Vertex node list can be exploited to maintain the information you really want (edges) without having to make copies of Vertex nodes whatsoever.

`edges`

in the tail-array of this structure are common? I.e. that the edges of one Vertex struct is another top-level Vertex struct that has an edge list as well, also common, which may contain the first, etcby reference (pointer)? – WhozCraig Nov 17 '12 at 2:04