The python library pathlib provides Path.relative_to. This function works fine if one path is a subpath of the other one, like this:

from pathlib import Path
foo = Path("C:\\foo")
bar = Path("C:\\foo\\bar")

> WindowsPath('bar')

However, if two paths are on the same level, relative_to does not work.

baz = Path("C:\\baz")

> ValueError: 'C:\\foo' does not start with 'C:\\baz'

I would expect the result to be


The function os.path.relpath does this correctly:

import os
foo = "C:\\foo"
bar = "C:\\bar"
os.path.relpath(foo, bar)

> '..\\foo'

Is there a way to achieve the functionality of os.path.relpath using pathlib.Path?

  • 6
    Did you ever solve this? I have run into the same problem. I would like to standardize on using pathlib over os.path whenever I can, but this problem has me stumped.
    – Phil
    Apr 13, 2017 at 14:45
  • 1
    @Phil it appears in this case you're forced to get back to os.path.relpath :( ... It seems the pathlib module was not thought of as a replacement of os.path :(. Or have you found a pathlib-only solution? Nov 8, 2018 at 10:31
  • No, I have not found a pathlib-only solution.
    – Phil
    Nov 10, 2018 at 14:37

3 Answers 3


The first section solves the OP's problem, though if like me, he really wanted the solution relative to a common root then the second section solves it for him. The third section describes how I originally approached it and is kept for interest sake.

Relative Paths

Recently, as in Python 3.4-6, the os.path module has been extended to accept pathlib.Path objects. In the following case however it does not return a Path object and one is forced to wrap the result.

foo = Path("C:\\foo")
baz = Path("C:\\baz")
Path(os.path.relpath(foo, baz))

> Path("..\\foo")

Common Path

My suspicion is that you're really looking a path relative to a common root. If that is the case the following, from EOL, is more useful

Path(os.path.commonpath([foo, baz]))

> Path('c:/root')

Common Prefix

Before I'd struck upon os.path.commonpath I'd used os.path.comonprefix.

foo = Path("C:\\foo")
baz = Path("C:\\baz")

> Path('baz')

But be forewarned you are not supposed to use it in this context (See commonprefix : Yes, that old chestnut)

foo = Path("C:\\route66\\foo")
baz = Path("C:\\route44\\baz")

> ...
> ValueError : `c:\\route44\baz` does not start with `C:\\route`

but rather the following one from J. F. Sebastian.

Path(*os.path.commonprefix([foo.parts, baz.parts]))

> Path('c:/root')

... or if you're feeling verbose ...

from itertools import takewhile
Path(*[set(i).pop() for i in (takewhile(lambda x : x[0]==x[1], zip(foo.parts, baz.parts)))])

This was bugging me, so here's a pathlib-only version that I think does what os.path.relpath does.

def relpath(path_to, path_from):
    path_to = Path(path_to).resolve()
    path_from = Path(path_from).resolve()
        for p in (*reversed(path_from.parents), path_from):
            head, tail = p, path_to.relative_to(p)
    except ValueError:  # Stop when the paths diverge.
    return Path('../' * (len(path_from.parents) - len(head.parents))).joinpath(tail)
  • 1
    Just a nitpick, this will lead to a different result if any of the paths is a symlink.
    – ypnos
    Jul 5, 2020 at 20:46

A recursive version of @Brett_Ryland's relpath for pathlib. I find this to be a tad more readable and it is going to succeed on first try in most cases so it should have similar performance as the original relative_to function:

def relative(target: Path, origin: Path):
    """ return path of target relative to origin """
        return Path(target).resolve().relative_to(Path(origin).resolve())
    except ValueError as e: # target does not start with origin
        # recursion with origin (eventually origin is root so try will succeed)
        return Path('..').joinpath(relative(target, Path(origin).parent))

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.