# Pandas: Count values on a row basis

I have a numeric DataFrame, for example:

x = np.array([[1,2,3],[-1,-1,1],[0,0,0]])
df = pd.DataFrame(x, columns=['A','B','C'])
df

A  B  C
0  1  2  3
1 -1 -1  1
2  0  0  0

And I want to count, for each row, the number of positive values, negativa values and values equals to 0. I've been trying the following:

df['positive_count'] = df.apply(lambda row: (row > 0).sum(), axis = 1)
df['negative_count'] = df.apply(lambda row: (row < 0).sum(), axis = 1)
df['zero_count'] = df.apply(lambda row: (row == 0).sum(), axis = 1)

But I'm getting the following result, which is obviously incorrent

A  B  C  positive_count  negative_count  zero_count
0  1  2  3               3               0           1
1 -1 -1  1               1               2           0
2  0  0  0               0               0           5

Anyone knows what might be going wrong, or could help me find the best way to do what I'm looking for?

Thank you.

• You assign 'positive_count' and 'negative_count' first, so those get 0s added and then you wind up summing those too in 'zero_count' – ALollz Mar 7 at 20:34
• @ALollz good point out, can't believe I overlooked something so trivial – Jack Mar 7 at 20:38

## 1 Answer

There are some ways, but one option is using np.sign and get_dummies:

u = (pd.get_dummies(np.sign(df.stack()))
.sum(level=0)
.rename({-1: 'negative_count', 1: 'positive_count', 0: 'zero_count'}, axis=1))
u

negative_count  zero_count  positive_count
0               0           0               3
1               2           0               1
2               0           3               0

df = pd.concat([df, u], axis=1)
df

A  B  C  negative_count  zero_count  positive_count
0  1  2  3               0           0               3
1 -1 -1  1               2           0               1
2  0  0  0               0           3               0

np.sign treats zero differently from positive and negative values, so it is ideal to use here.

Another option is groupby and value_counts:

(np.sign(df)
.stack()
.groupby(level=0)
.value_counts()
.unstack(1, fill_value=0)
.rename({-1: 'negative_count', 1: 'positive_count', 0: 'zero_count'}, axis=1))

negative_count  zero_count  positive_count
0               0           0               3
1               2           0               1
2               0           3               0

Slightly more verbose but still worth knowing about.

• Thank you! @ALollz pointed out what I was doing wrong, but I'm gonna try these as well to see which option is more efficient, since I plan to apply it on a big dataset. – Jack Mar 7 at 20:45
• @Jack If performance is important, let me know.... – cs95 Mar 7 at 20:46
• @Jack sign is fast, but stack and unstack are generally on the slower side. Nothing is slower than apply, though. If it is too slow, let me know. Because coming up with a faster solution will involve a lot of effort I'm not going to invest unless you can confirm there are issues with what has been presented :) – cs95 Mar 7 at 21:02
• Im done testing all the options, sign was almost twice as fast than value_counts, both of them were way faster than apply and worked great :D – Jack Mar 7 at 21:15
• @Jack Awesome, thanks for the update! – cs95 Mar 7 at 21:16