If you've ever tried to move a function or class in python, you'll find it's kind of a pain: you have to not only move the definition (and its imports, etc.) but also update references across the codebase. Slicker is a tool for doing just that!
Note: At this time Slicker is Python 2 only.
pip2 install slicker
To move a function myfunc
defined in foo/bar.py
to foo/baz.py
:
slicker foo.bar.myfunc foo.baz.myfunc
The same syntax works if myfunc
is instead a constant or class (although I
sure hope you didn't name a class myfunc
!). It also works if you want to
change the name of myfunc
:
slicker foo.bar.myfunc foo.bar.new_name_for_myfunc
(And you can also make both changes at once, in the natural way.)
To move an entire module foo/bar.py
to foo/baz.py
you can do similarly:
slicker foo.bar foo.baz
or use filenames like:
slicker foo/bar.py foo/baz.py
You can also move a symbol into an existing module, or a module into an
existing directory, just like mv
. So this is equivalent to the first
example:
slicker foo.bar.myfunc foo.baz
And to move foo/bar.py
to a new file newfoo/bar.py
in an existing directory
newfoo/
, you could do
slicker foo.bar newfoo # (or slicker foo/bar.py newfoo/)
Using this syntax, you can also specify multiple things to move, so you could
move both foo/bar.py
and foo/baz.py
to newfoo/
with
slicker foo/bar.py foo/baz.py newfoo/
You can tell slicker to use an alias when adding imports using -a
/--alias
:
slicker foo.bar.myfunc foo.baz.myfunc --alias baz
in which case slicker will add from foo import baz
everywhere instead of
import foo.baz
. (You could also have used --alias foobaz
in which case
we would have done import foo.baz as foobaz
.)
If you prefer to move the actual definition yourself, and just have slicker
update the references, you can pass --no-automove
. It's probably best to run
slicker
after doing said move.
For a full list of options, run slicker --help
.
If you do import foo.bar
, and some other file (perhaps another one you
import) does import foo.baz
, then your foo
now also has a foo.baz
, and so
you can do foo.baz.func()
with impunity, even though no import in your file
directly mentions that module. (This is because foo
in both files refers to
the same object -- a.k.a. sys.modules['foo']
-- and so when the other file
does import foo.baz
it attaches baz
to that shared object.) So if you've
asked slicker to move foo.bar
to newfoo.bar
, when updating this file, it
would like to replace the import foo.bar
with import newfoo.bar
, but it
can't -- you're actually still using the import. So it will warn you of this
case, and let you sort things out by hand.
Yep, we don't fix these correctly (yet). Your linter should tell you what to fix, though.
Because pythons slither to move around, but this way is, uh, slicker. Which is to say: it seemed like a good idea at the time and as far as I could tell the name wasn't already taken.
See the blog post for an overview. If that's not enough, bug the authors or read the source!
Good question -- we tried! Both are great projects and do a lot of things slicker doesn't; if they work for you then definitely use them. But for us, they were a little buggy and didn't fit our workflow. For more details, see the blog post.
Good question -- we tried! But it takes a lot of gluing things together to figure out all the right references to fix up in each file. And there's basically no hope of doing the right thing when fixing up string-references. We needed something that knew what python imports mean and could handle their special cases.
- Fix description on PyPI, again
- Fix description on PyPI
- Handle relative imports correctly
- Lots of internal refactoring
- Initial release to PyPI