When I have a pd.DataFrame with paths, I end up doing a lot of .map(lambda path: Path(path).{method_name}, or apply(axis=1) e.g:

    pd.DataFrame({'base_dir': ['dir_A', 'dir_B'], 'file_name': ['file_0', 'file_1']})
    .assign(full_path=lambda df: df.apply(lambda row: Path(row.base_dir) / row.file_name, axis=1))
  base_dir file_name     full_path
0    dir_A    file_0  dir_A/file_0
1    dir_B    file_1  dir_B/file_1

It seems odd to me especially because pathlib does implement / so that something like df.base_dir / df.file_name would be more pythonic and natural.

I have not found any path type implemented in pandas, is there something I am missing?


I have found it may be better to once for all do sort of a astype(path) then at least for path concatenation with pathlib it is vectorized:

    pd.DataFrame({'base_dir': ['dir_A', 'dir_B'], 'file_name': ['file_0', 'file_1']})
    # this is where I would expect `astype({'base_dir': Path})`
    .assign(**{col_name:lambda df: df[col_name].map(Path) for col_name in ["base_dir", "file_name"]})
    .assign(full_path=lambda df: df.base_dir / df.file_name)
  • how about df['full_path'] = df['base_dir']+'/'+df['file_name'] ? – Dennis Lyubyvy May 6 at 21:47
  • What is my answer missing? – Vishesh Mangla Jul 24 at 20:02
  • it uses the apply I was trying to avoid. – ClementWalter Jul 25 at 17:24
  • that's strange why w'd you not want to use apply. That's actually contrary to how one w'd think it. But otherwise, what's the problem with apply? Even in what I have done you can do apply(lambda x:os.path.join([x[i] for i in df.columns]) kind of stuff. – Vishesh Mangla Jul 26 at 15:32
  • I have also updated the answer. – Vishesh Mangla Jul 26 at 15:58

It seems like the easiest way would be:

df.base_dir.map(Path) / df.file_name.map(Path)

It saves the need for a lambda function, but you still need to map to 'Path'.

Alternatively, just do:

df.base_dir.str.cat(df.file_name, sep="/")

The latter won't work on Windows (who cares, right? :) but will probably run faster.

| improve this answer | |
import pandas as pd
import os
df = pd.DataFrame({"p1":["path1"],"p2":["path2"]})
df.apply(lambda x:os.path.join(x.p1, x.p2), axis=1)


0    path1\path2
dtype: object


After being told to not use assign you can try this

See .to_json() docs

import os
import pandas as pd       
df = pd.DataFrame({"p1":["path1", "path3"],"p2":["path2", "path4"]})



From here it's simple, just use map(lambda x:os.path.join(*x), ...) and you get a list of paths.

| improve this answer | |
  • My previous answer was bad according to the docs. Never modify dataframe while iterating with iterrows. – Vishesh Mangla Jul 15 at 8:22

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