### Some background

I'm analyzing the control flow graph of a function which basically maps incoming data onto outgoing data. Most of the blocks are like this one:

```
if (input_variable == SPECIFIC_CONSTANT) {
output_variable = TRUE;
}
else {
output_variable = FALSE;
}
```

Typical Control Flow Graph for such code looks like the following graph

```
digraph G {
2 -> 3 -> 5;
2 -> 4 -> 5;
}
```

where execution of `3`

and `4`

are conditioned by the value of the `input_variable`

but `5`

is independent.

### The question

Given a directed graph and a start node, how do I find the nearest node such that any path from the start node goes through this node?

*Example: Given this graph how do I find 6 starting from 2 or 12 starting from 8?*

Can I reverse a Lowest Common Ancestor algorithm and would it be efficient? Like

```
for each node in graph:
ancestors = node.get_all_ancestors()
lca = find_lowest_common_ancestor(ancestors)
junction_node[lca] = node
get_junction_point(node):
return junction_node[node]
```

My programming language is Python and I just discovered NetworkX, but any algorithm would be appreciated. I am not accustomed to graph theory and I think I miss the basic glossary to find what I'm looking for.

Thanks for your help!