You need to allocate marks - int array of length n, where n is the number of vertex in graph and fill it with zeros. Then:

1) For BFS do the following:

```
Components = 0;
Enumerate all vertices, if for vertex number i, marks[i] == 0 then
++Components;
Put this vertex into queue, and
while queue is not empty,
pop vertex v from q
marks[v] = Components;
Put all adjacent vertices with marks equal to zero into queue.
```

2) For DFS do the following.

```
Components = 0;
Enumerate all vertices, if for vertex number i, marks[i] == 0 then
++Components;
Call DFS(i, Components), where DFS is
DFS(vertex, Components)
{
marks[vertex] = Components;
Enumerate all vertices adjacent to vertex and
for all vertex j for which marks[j] == 0
call DFS(j, Components);
}
```

After performing any of this procedures, Components will have number of connected components,
and for each vertex i, marks[i] will represent index of connected component i belongs.

Both complete on O(n) time, using O(n) memory, where n is matrix size. But I suggest you BFS as far as it doesn't suffer from stack overflow problem, and it doesn't spend time on recursive calls.

BFS code in Java:

```
public static boolean[] BFS(boolean[][] adjacencyMatrix, int vertexCount, int givenVertex){
// Result array.
boolean[] mark = new boolean[vertexCount];
Queue<Integer> queue = new LinkedList<Integer>();
queue.add(givenVertex);
mark[givenVertex] = true;
while (!queue.isEmpty())
{
Integer current = queue.remove();
for (int i = 0; i < vertexCount; ++i)
if (adjacencyMatrix[current][i] && !mark[i])
{
mark[i] = true;
queue.add(i);
}
}
return mark;
}
public static void main(String[] args) {
// Given adjacencyMatrix[x][y] if and only if there is a path between x and y.
boolean[][] adjacencyMatrix = new boolean[][]
{
{false,true,false,false,false},
{true,false,false,true,true},
{false,false,false,false,false},
{true,false,false,false,false},
{true,false,false,false,false}
};
// Mark[i] is true if and only if i belongs to the same connected component as givenVertex vertex does.
boolean[] mark = BFS(adjacencyMatrix, 5, 0);
for (int i = 0; i < 5; ++i)
System.out.println(mark[i]);
```

}