The following code does not work.
import pandas as pd
import numpy as np
df=pd.DataFrame(['ONE','Two', np.nan],columns=['x'])
xLower = df["x"].map(lambda x: x.lower())
How should I tweak it to get xLower = ['one','two',np.nan] ? Efficiency is important since the real data frame is huge.
use pandas vectorized string methods; as in the documentation:
these methods exclude missing/NA values automatically
.str.lower() is the very first example there;
>>> df['x'].str.lower()
0 one
1 two
2 NaN
Name: x, dtype: object
10000 loops, best of 3: 96.4 µs per loop versus 10000 loops, best of 3: 125 µs per loop
Another possible solution, in case the column has not only strings but numbers too, is to use astype(str).str.lower() or to_string(na_rep='') because otherwise, given that a number is not a string, when lowered it will return NaN, therefore:
import pandas as pd
import numpy as np
df=pd.DataFrame(['ONE','Two', np.nan,2],columns=['x'])
xSecureLower = df['x'].to_string(na_rep='').lower()
xLower = df['x'].str.lower()
then we have:
>>> xSecureLower
0 one
1 two
2
3 2
Name: x, dtype: object
and not
>>> xLower
0 one
1 two
2 NaN
3 NaN
Name: x, dtype: object
edit:
if you don't want to lose the NaNs, then using map will be better, (from @wojciech-walczak, and @cs95 comment) it will look something like this
xSecureLower = df['x'].map(lambda x: x.lower() if isinstance(x,str) else x)
str.casefoldStarting from v0.25, I recommend using the "vectorized" string method str.casefold if you're dealing with unicode data (it works regardless of string or unicodes):
s = pd.Series(['lower', 'CAPITALS', np.nan, 'SwApCaSe'])
s.str.casefold()
0 lower
1 capitals
2 NaN
3 swapcase
dtype: object
Also see related GitHub issue GH25405.
casefold lends itself to more aggressive case-folding comparison. It also handles NaNs gracefully (just as str.lower does).
The difference is seen with unicodes. Taking the example in the python str.casefold docs,
Casefolding is similar to lowercasing but more aggressive because it is intended to remove all case distinctions in a string. For example, the German lowercase letter
'ß'is equivalent to"ss". Since it is already lowercase,lower()would do nothing to'ß';casefold()converts it to"ss".
Compare the output of lower for,
s = pd.Series(["der Fluß"])
s.str.lower()
0 der fluß
dtype: object
Versus casefold,
s.str.casefold()
0 der fluss
dtype: object
Also see lower() vs. casefold() in string matching and converting to lowercase.
you can try this one also,
df= df.applymap(lambda s:s.lower() if type(s) == str else s)
df['original_category'] = df['original_category'].apply(lambda x:x.lower())
A possible solution:
import pandas as pd
import numpy as np
df=pd.DataFrame(['ONE','Two', np.nan],columns=['x'])
xLower = df["x"].map(lambda x: x if type(x)!=str else x.lower())
print (xLower)
And a result:
0 one
1 two
2 NaN
Name: x, dtype: object
Not sure about the efficiency though.
isinstance when checking the type of an object.
May be using List comprehension
import pandas as pd
import numpy as np
df=pd.DataFrame(['ONE','Two', np.nan],columns=['Name']})
df['Name'] = [str(i).lower() for i in df['Name']]
print(df)
copy your Dataframe column and simply apply
df=data['x']
newdf=df.str.lower()
Use apply function,
Xlower = df['x'].apply(lambda x: x.upper()).head(10)
(Efficiency is important since the real data frame is huge.) and there are a few more replies, please, try to expose which one is the good point of your answer.
Oct 16, 2019 at 10:35
Replace missing values and any other datatype with empty string, and lowercase all the strings:
df["x"] = df["x"].apply(lambda x: x.lower() if isinstance(x, str) else "")
Replace missing values and any other datatype other than string with nan, and lowercase all the strings:
df["x"] = df["x"].apply(lambda x: x.lower() if isinstance(x, str) else np.nan)
Keep nan and any other datatype other than string as they are, and lowercase all the strings:
df["x"] = df["x"].apply(lambda x: x.lower() if isinstance(x, str) else x)
Instead of apply you can also use map
In terms of speed, they are almost the same as df["x"] = df["x"].str.lower() and df["x"] = df["x"].str.lower().
But with apply/map you can handle the missing values as you want.
I tested the speed for one million strings. 10% of which are nan and the remaining are of length 50.
Data generation:
Speed Comparison:
str.casefoldfor more aggressive case folding string comparisons. More information in this answer.