pythonpandasdataframeindexingchained-assignment

What rules does Pandas use to generate a view vs a copy?


I'm confused about the rules Pandas uses when deciding that a selection from a dataframe is a copy of the original dataframe, or a view on the original.

If I have, for example,

df = pd.DataFrame(np.random.randn(8,8), columns=list('ABCDEFGH'), index=range(1,9))

I understand that a query returns a copy so that something like

foo = df.query('2 < index <= 5')
foo.loc[:,'E'] = 40

will have no effect on the original dataframe, df. I also understand that scalar or named slices return a view, so that assignments to these, such as

df.iloc[3] = 70

or

df.ix[1,'B':'E'] = 222

will change df. But I'm lost when it comes to more complicated cases. For example,

df[df.C <= df.B] = 7654321

changes df, but

df[df.C <= df.B].ix[:,'B':'E']

does not.

Is there a simple rule that Pandas is using that I'm just missing? What's going on in these specific cases; and in particular, how do I change all values (or a subset of values) in a dataframe that satisfy a particular query (as I'm attempting to do in the last example above)?


Note: This is not the same as this question; and I have read the documentation, but am not enlightened by it. I've also read through the "Related" questions on this topic, but I'm still missing the simple rule Pandas is using, and how I'd apply it to — for example — modify the values (or a subset of values) in a dataframe that satisfy a particular query.


Solution

  • Here's the rules, subsequent override:

    Your example of chained indexing

    df[df.C <= df.B].loc[:,'B':'E']
    

    is not guaranteed to work (and thus you should never do this).

    Instead do:

    df.loc[df.C <= df.B, 'B':'E']
    

    as this is faster and will always work

    The chained indexing is 2 separate python operations and thus cannot be reliably intercepted by pandas (you will oftentimes get a SettingWithCopyWarning, but that is not 100% detectable either). The dev docs, which you pointed, offer a much more full explanation.