I have a strange issue with NetworkX.

Given the DS-1 dataset, my task is to create a graph per each year that is reported in the dataset. So far, no problem at all. For 2013, this is what I get

We could say... a little bit crowdy.

Now here's my strange issue. My assignment states that I should select, with some logic, the top k-nodes of every graph. So, since I have some graphs that have less than 5 nodes (and, per requirements, this k will be a value in [0,5,10,50,200]), I thought to exclude in the iteration those graphs whose len(G) is < k.
So, given a dictionary graphsPerYear (key: year - value: the graph)...

```
for x in graphsPerYear:
G = graphsPerYear[x]
if len(G) < k:
print(G.nodes)
print(G.number_of_nodes())
print("Skipping year " + str(x) + " since it has " + str(len(G)) + " nodes which is less than the prompted k")
continue
```

This outputs the following:

```
['linear matrix inequality', 'social inequality']
2
Skipping year 2013 since it has 2 nodes which is less than the prompted k
```

But the image tells the complete opposite. What am I missing?

** EDIT **

Adding the creation of the graph

```
def createGraphPerYear(dataset, year):
insertedWords = set()
listaAnni = set(dataset['anno'].values)
grafi = dict()
for anno in listaAnni:
datasetTemporale = dataset[dataset['anno'] == anno]
G=nx.DiGraph()
for index, row in datasetTemporale.iterrows():
#Reminder: ogni row รจ formato da anno, keyword1, keyword2, dizionario utilizzatore keywords - numero volte
#FASE 1: AGGIUNTA DEI DUE POSSIBILI NODI
if row.keyword1 not in G:
G.add_node(row.keyword1)
if row.keyword2 not in G:
G.add_node(row.keyword2)
if not __areNodesConnected(G,row.keyword1, row.keyword2):
G.add_edge(row.keyword1,row.keyword2)
grafi[anno] = G
return grafi
def __areNodesConnected(G, nodeToCheckOne,nodeToCheckTwo):
return nodeToCheckOne in G.neighbors(nodeToCheckTwo)
```

`DiGraph`

, the command`G.add_edge(u,v)`

will do nothing if there is already an edge from`u`

to`v`

. Otherwise, if either of those nodes doesn't exist, it will first add the node and then create the edge. So your`if`

statements in the`for`

loop can be removed, and`__areNodesConnected`

is not needed. [also`__areNodesConnected`

is equivalent to`G.has_edge(nodeToCheckOne,nodeToCheckTwo)`

]. – Joel Jul 5 '19 at 6:59`2013`

and check that it looks like the plot you've shown and then immediately check`len(G)`

? – Joel Jul 5 '19 at 7:03