I cannot find a pandas function (which I had seen before) to substitute the NaN's in a dataframe with values from another dataframe (assuming a common index which can be specified). Any help?
If you have two DataFrames of the same shape, then:
df[df.isnull()] = d2
Will do the trick.
Only locations where
df.isnull() evaluates to
True (highlighted in green) will be eligible for assignment.
In practice, the DataFrames aren't always the same size / shape, and transforming methods (especially
.shift()) are useful.
Data coming in is invariably dirty, incomplete, or inconsistent. Par for the course. There's a pretty extensive pandas tutorial and associated cookbook for dealing with these situations.
As I just learned, there is a
DataFrame.combine_first() method, which does precisely this, with the additional property that if your updating data frame
d2 is bigger than your original
df, the additional rows and columns are added, as well.
df = df.combine_first(d2)
DataFrame.combine_first() answers this question exactly.
However, sometimes you want to fill/replace/overwrite some of the non-missing (non-NaN) values of DataFrame A with values from DataFrame B. That question brought me to this page, and the solution is DataFrame.mask()
A = B.mask(condition, A)
condition is true, the values from A will be used, otherwise B's values will be used.
For example, you could solve the OP's original question with
mask such that when an element from A is non-NaN, use it, otherwise use the corresponding element from B.
But using DataFrame.mask() you could replace the values of A that fail to meet arbitrary criteria (less than zero? more than 100?) with values from B. So
mask is more flexible, and overkill for this problem, but I thought it was worthy of mention (I needed it to solve my problem).
It's also important to note that B could be a numpy array instead of a DataFrame. DataFrame.combine_first() requires that B be a DataFrame, but DataFrame.mask() just requires that B's is an NDFrame and its dimensions match A's dimensions.
This should be as simple as