# Cycles in directed graph

I am wiring a function to check whether a graph contains a cycle.

It is represented as a list of lists of all indexes of nodes each node is connected to. Nodes are enumerated from 1 (task requirement).

While checking the graph `[[2, 3], [], [4], []]`, the program enters the first listed node correctly, yet in the second iteration, it is assumed that `adjlist[node-1]` is an `int` of value 3 rather than an array (or `int = 2` at very least)

What am I missing?

The code:

``````def is_acyclic(adjlist: List, visited: List, path: List) -> bool:
'''
:param adjlist: list representation of a graph; eg: [[2, 3], [], [4], []]
:param visited: visited nodes
:param path: visited nodes in current iteration
:return: the graph does not contain a cycle
'''

if node not in visited:
visited.append(node)
path.append(node)

if child in path:
return False
elif child not in visited:
if is_acyclic(adjlist[node-1], visited, path) is False:
return False

path.remove(node)
return True
``````

This is due to the fact that the function is being called recursively. This part of your code keeps trimming the graph adjacency list:

``````        elif child not in visited:
if is_acyclic(adjlist[node-1], visited, path, level=level + 1) is False:
return False
``````

The first time adjacency list is:

``````[[2, 3], [], [4], []]
``````

and `adjlist[node-1]` is `[2, 3]`

the second time around adjacency list is:

``````[2, 3]
``````

and `adjlist[node-1]` is `3`

since 2 is already in visited, node actually gets incremented to 2. Hence, you see:

`````` adjlist[node-1] == adjlist[2-1] == adjlist[1] == 3
``````