# Find a mapping in a bipartite graph

There is a square binary matrix that denotes connections in a bipartite graph. The question is: does there exist a one-to-one mapping of all rows to columns? (To be clear, if I'm using the language wrong, a fully connected graph satisfies this requirement as we are not restricted to ONLY a one-to-one mapping).

I wrote the following. Is there a ridiculously faster way to accomplish this?

``````/* Is there a one-to-one mapping possible with the given bipartite graph?
input:  graph[a][b] = connected (1) or not (0)
return: 0=no 1=yes */
int one_to_one(int graph[SIZE][SIZE], int rows_checked /* =0 */, int col_chosen /* =0 */)
{
int my_graph[SIZE][SIZE], i, j, retval;
memcpy(my_graph, graph, sizeof(graph[0][0]) * SIZE * SIZE);

if (rows_checked > 0)
for (i=rows_checked; i<SIZE; i++)
my_graph[i][col_chosen] = -1; /* flag for "this column done" */

retval=1;
for (i=0; i<SIZE; i++) {
if (my_graph[rows_checked][i] == -1)
continue;
retval=0;
if (my_graph[rows_checked][i] == 1)
if (one_to_one(my_graph, rows_checked+1, i))
return 1;
}
return retval;
}
``````
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