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I have a DataFrame with named columns and rows indexed with not- continuous numbers like from the code:

df1 = DataFrame(np.random.randn(10, 4), columns=['a', 'b', 'c', 'd'])
mask = df1.applymap(lambda x: x <-0.7)
df1 = df1[-mask.any(axis=1)]
sLength = len(df1['a'])
e = Series(np.random.randn(sLength))

I would like to add a new column, 'e', to the existing data frame and do not change anything in the data frame. (The series always got the same length as a dataframe.) I tried different versions of join, append, merge, but I did not get it as what I want, only errors at the most.

The series and data frame is already given and the above code is only to illustrate it with an example.

I am sure there is some easy way to that, but I can't figure it out.

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8 Answers 8

up vote 151 down vote accepted

Use the original df1 indexes to create the series:

df1['e'] = Series(np.random.randn(sLength), index=df1.index)

Edit 2015
Some reported to get the SettingWithCopyWarning with this code.
However, the code still runs perfect with the current pandas version 0.16.1.

>>> sLength = len(df1['a'])
>>> df1
          a         b         c         d
6 -0.269221 -0.026476  0.997517  1.294385
8  0.917438  0.847941  0.034235 -0.448948

>>> df1['e'] = p.Series(np.random.randn(sLength), index=df1.index)
>>> df1
          a         b         c         d         e
6 -0.269221 -0.026476  0.997517  1.294385  1.757167
8  0.917438  0.847941  0.034235 -0.448948  2.228131

>>> p.version.short_version

The SettingWithCopyWarning aims to inform of a possibly invalid assignment on a copy of the Dataframe. It doesn't necessarily say you did it wrong (it can trigger false positives) but from 0.13.0 it let you know there are more adequate methods for the same purpose. Then, if you get the warning, just follow its advise: Try using .loc[row_index,col_indexer] = value instead

>>> df1.loc[:,'f'] = p.Series(np.random.randn(sLength), index=df1.index)
>>> df1
          a         b         c         d         e         f
6 -0.269221 -0.026476  0.997517  1.294385  1.757167 -0.050927
8  0.917438  0.847941  0.034235 -0.448948  2.228131  0.006109

In fact, this is currently the more efficient method as described in pandas docs

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The series comes from sensor and are fed to the computer. The only thing is that it has given length, the same length as DataFrame. The presented code is only to illustrate example – tomasz74 Sep 23 '12 at 19:29
@tomasz74 Not sure what do you mean and how that affects your question and my answer. – joaquin Sep 23 '12 at 19:34
if you need to prepend column use DataFrame.insert: df1.insert(0, 'A', Series(np.random.randn(sLength), index=df1.index)) – lowtech Dec 9 '13 at 21:48
From Pandas version 0.12 onwards, I believe this syntax is not optimal, and gives warning: SettingWithCopyWarning: A value is trying to be set on a copy of a slice from a DataFrame. Try using .loc[row_index,col_indexer] = value instead – Zhubarb Jan 19 at 10:59
@Juanlu001 with that same code ?. Please see edit – joaquin May 14 at 16:17

This is the simple way of adding a new column: df['e'] = e

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Despite the high number of votes: this answer is wrong. Note that the OP has a dataframe with non continuous indexes and e (Series(np.random.randn(sLength))) generates a Series 0-n indexed. If you assign this to df1 then you get some NaN cells. – joaquin Aug 26 '14 at 22:29
What @joaquin says is true, but as long as you keep that in mind, this is a very useful shortcut. – VedTopkar Sep 27 '14 at 2:37

Doing this directly via NumPy will be the most efficient:

df1['e'] = np.random.randn(sLength)

Note my original (very old) suggestion was to use map (which is much slower):

df1['e'] = df1['a'].map(lambda x: np.random.random())
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thanks for your reply, as I have e already given, have can I modify your code, .map to use existing series instead of lambda? I try df1['e'] = df1['a'].map(lambda x: e) or df1['e'] = df1['a'].map(e) but it not what I need. (I am new to pyhon and your previous answer already helped me) – tomasz74 Sep 23 '12 at 20:03
@tomasz74 if you already have e as a Series then you don't need to use map, use df['e']=e (@joaquins answer). – Andy Hayden Sep 23 '12 at 20:33

Before assigning a new column, if you have indexed data, you need to sort the index. At least in my case I had to:

data.set_index(['index_column'], inplace=True)
"if index is unsorted, assignment of a new column will fail"        
data.sort_index(inplace = True)
data.loc['index_value1', 'column_y'] = np.random.randn(data.loc['index_value1', 'column_x'].shape[0])
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The following is what I did... But I'm pretty new to pandas and really Python in general, so no promises.

df = pd.DataFrame([[1, 2], [3, 4], [5,6]], columns=list('AB'))

newCol = [3,5,7]
newName = 'C'

values = np.insert(df.values,df.shape[1],newCol,axis=1)
header = df.columns.values.tolist()

df = pd.DataFrame(values,columns=header)
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One thing to note, though, is that if you do

df1['e'] = Series(np.random.randn(sLength), index=df1.index)

this will effectively be a left join on the df1.index. So if you want to have an outer join effect, my probably imperfect solution is to create a dataframe with index values covering the universe of your data, and then use the code above. For example,

data = pd.DataFrame(index=all_possible_values)
df1['e'] = Series(np.random.randn(sLength), index=df1.index)
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I got the dreaded SettingWithCopyWarning, and it wasn't fixed by using the iloc syntax. My DataFrame was created by read_sql from an ODBC source. Using a suggestion by lowtech above, the following worked for me:

df.insert(len(rec.columns), 'e', pd.Series(np.random.randn(sLength),  index=df.index))

This worked fine to insert the column at the end. I don't know if it is the most efficient, but I don't like warning messages. I think there is a better solution, but I can't find it, and I think it depends on some aspect of the index.

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Let me just add that, just like for hum3, .loc didn't solve the SettingWithCopyWarning and I had to resort to df.insert(). In my case false positive was generated by "fake" chain indexing dict['a']['e'], where 'e' is the new column, and dict['a'] is a DataFrame coming from dictionary.

Also note that if you know what you are doing, you can switch of the warning using pd.options.mode.chained_assignment = None and than use one of the other solutions given here.

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