I'm just coding a program in C++ that calculates the clustering coefficient [**CC**] (local and global) of an undirected graph in **dot** format. My problem is that the result of my program doesn't match the output from **R** (with **igraph** library):

My program:

```
The cluster coefficient of "0" is: 0.257 (88/342)
The cluster coefficient of "1" is: 0.444 (40/90)
The cluster coefficient of "10" is: 1.000 (2/2)
The cluster coefficient of "2" is: 0.418 (46/110)
The cluster coefficient of "11" is: 1.000 (2/2)
The cluster coefficient of "12" is: 0.667 (8/12)
The cluster coefficient of "3" is: 0.346 (54/156)
The cluster coefficient of "5" is: 0.571 (24/42)
The cluster coefficient of "13" is: 1.000 (12/12)
The cluster coefficient of "4" is: 0.607 (34/56)
The cluster coefficient of "7" is: 0.679 (38/56)
The cluster coefficient of "14" is: 1.000 (6/6)
The cluster coefficient of "15" is: 0.833 (10/12)
The cluster coefficient of "16" is: 1.000 (6/6)
The cluster coefficient of "17" is: 0.733 (22/30)
The cluster coefficient of "9" is: 0.833 (10/12)
The cluster coefficient of "18" is: 0.714 (30/42)
The cluster coefficient of "19" is: 1.000 (6/6)
The cluster coefficient of "6" is: 1.000 (2/2)
The cluster coefficient of "8" is: 0.733 (22/30)
```

Where the ""'s are the **Nodes** of the graph and the (n/m) numbers are "the **links** between the vertices within its neighborhood" (n) and "the number of links that could possibly exist between them" (m) respectively (description from Wikipedia)
And the output from R:

```
0 0.2631579 x (+2 links)
1 0.4666667 x (+2 links)
2 0.4181818
3 0.3461538
4 0.6071429
5 0.6190476 x (+2 links)
6 1.0000000
7 0.6785714
8 0.6666667 x (-2 links)
9 0.8000000
10 1.0000000
11 1.0000000
12 0.6666667
13 1.0000000
14 1.0000000
15 0.8333333
16 1.0000000
17 0.7333333
18 0.7142857
19 1.0000000
```

Where the first number in each row is the **Node**, the second is it's local **CC** and the third one is my annotation when it doesn't match my output (specifying the number of links (n) I need to add/remove to match **R**'s output).

The second problem I have is that the global **CC** from **R** does not match my definition or the **Wikipedia's** (unless I have misunderstood the formula). The output from **R** for this graph is **0.458891** and mine is **0.742**

So I did it manually: I calculated the 8's **CC** and matches my program's output. So my question is that "is even possible that igraph library have a bug?" and if the answer is "no": "what I'm missing?"

The graph file is this one:

```
graph {
1 -- 0;
10 -- 0;
10 -- 2;
11 -- 0;
11 -- 2;
12 -- 0;
12 -- 1;
12 -- 3;
12 -- 5;
13 -- 0;
13 -- 3;
13 -- 4;
13 -- 7;
14 -- 0;
14 -- 1;
14 -- 4;
15 -- 0;
15 -- 2;
15 -- 3;
16 -- 0;
16 -- 15;
16 -- 3;
17 -- 0;
17 -- 1;
17 -- 2;
17 -- 5;
17 -- 7;
17 -- 9;
18 -- 0;
18 -- 1;
18 -- 2;
18 -- 3;
18 -- 4;
18 -- 7;
19 -- 0;
19 -- 18;
19 -- 3;
2 -- 0;
2 -- 1;
3 -- 0;
3 -- 2;
4 -- 0;
4 -- 1;
4 -- 3;
5 -- 0;
5 -- 2;
5 -- 3;
6 -- 0;
6 -- 3;
7 -- 0;
7 -- 1;
7 -- 2;
7 -- 3;
7 -- 4;
8 -- 0;
8 -- 1;
8 -- 2;
8 -- 3;
8 -- 4;
8 -- 5;
9 -- 0;
9 -- 1;
9 -- 5;
}
```

The way I calculated the **CC** with **R** is loading the graph (or generating a new one, because it can't read dot files) into a var "f", for example, and executing *transitivity(f)* for global **CC** and *transitivity(f, "local")* for local one.

Thanks a lot for reading and sorry for my bad English.