# Using pathlib's relative_to for directories on the same level

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")
bar.relative_to(foo)

> WindowsPath('bar')


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

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

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


I would expect the result to be

WindowsPath("..\\baz")


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?

• 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 '17 at 14:45
• @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 '18 at 10:31
• No, I have not found a pathlib-only solution.
– Phil
Nov 10 '18 at 14:37
• you should accept @Carel 's answer as corrrect Nov 30 '19 at 14:14

## 2 Answers

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")
baz.relative_to(os.path.commonprefix([baz,foo]))

> 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")
baz.relative_to(os.path.commonprefix([baz,foo]))

> ...
> 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)))])

• One of the best answers on StackOverflow! Thanks :) Aug 16 '19 at 6:21

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()
try:
for p in (*reversed(path_from.parents), path_from):
head, tail = p, path_to.relative_to(p)
except ValueError:  # Stop when the paths diverge.
pass
return Path('../' * (len(path_from.parents) - len(head.parents))).joinpath(tail)

• Just a nitpick, this will lead to a different result if any of the paths is a symlink. Jul 5 '20 at 20:46