In a breadth first search of a directed graph (cycles possible), when a node is dequeued, all its children that has not yet been visited are enqueued, and the process continues until the queue its empty.

One time, I implement it the other way around, where all a node's children are enqueued, and the visitation status is checked instead when a node is dequeued. If a node being dequeued has been visited before, it is discarded and the process continue to the next in queue.

But the result is wrong. Wikipedia also says

depth-first search ...... The non-recursive implementation is similar to breadth-first search but differs from it in two ways: it uses a stack instead of a queue, and it delays checking whether a vertex has been discovered until the vertex is popped from the stack rather than making this check before pushing the vertex.

However, I cannot wrap my head around what exactly is the difference. Why does depth first search check when popping items out and breadth first search must check *before* enqueuing?