Sometimes it happens that I make some changes in my working directory, and I realize that these changes should be committed in a branch different to the current one. This usually happens when I want to try out new things or do some testing and I forget to create a new branch beforehand, but I don't want to commit dirty code to the master branch.

So, how can I make that uncommitted changes (or changes stored in the index) be committed to a different branch than the current one?


3 Answers 3


The other answers suggesting checking out the other branch, then committing to it, only work if the checkout is possible given the local modifications. If not, you're in the most common use case for git stash:

git stash
git checkout other-branch
git stash pop

The first stash hides away your changes (basically making a temporary commit), and the subsequent stash pop re-applies them. This lets Git use its merge capabilities.

If, when you try to pop the stash, you run into merge conflicts... the next steps depend on what those conflicts are. If all the stashed changes indeed belong on that other branch, you're simply going to have to sort through them - it's a consequence of having made your changes on the wrong branch.

On the other hand, if you've really messed up, and your work tree has a mix of changes for the two branches, and the conflicts are just in the ones you want to commit back on the original branch, you can save some work. As usual, there are a lot of ways to do this. Here's one, starting from after you pop and see the conflicts:

# Unstage everything (warning: this leaves files with conflicts in your tree)
git reset

# Add the things you *do* want to commit here
git add -p     # or maybe git add -i
git commit

# The stash still exists; pop only throws it away if it applied cleanly
git checkout original-branch
git stash pop

# Add the changes meant for this branch
git add -p
git commit

# And throw away the rest
git reset --hard

Alternatively, if you realize ahead of the time that this is going to happen, simply commit the things that belong on the current branch. You can always come back and amend that commit:

git add -p
git commit
git stash
git checkout other-branch
git stash pop

And of course, remember that this all took a bit of work, and avoid it next time, perhaps by putting your current branch name in your prompt by adding $(__git_ps1) to your PS1 environment variable in your bashrc file. (See for example the Git in Bash documentation.)

  • When you said: Checking out the branch and then committing would only work if the checkout is possible given the local modifications. What do you mean? Would you mind giving/discussing one simple example when that would fail? Apr 11, 2013 at 15:04
  • 8
    @user815423426 If you have uncommitted changes, you can check out another branch if and only if the set of files you've changed and the set of files which differ between the two branches are disjoint. That is, if you've modified file A, you can check out another branch only if file A is the same in both branches.
    – Cascabel
    Apr 11, 2013 at 15:06
  • 3
    This answer works very poorly if there are other changes in the working tree, which can't be cleanly unstashed onto the branch where I need to commit a change.
    – Alex D
    Oct 10, 2013 at 15:22
  • 1
    @Alex If you can't unstash cleanly that's an unavoidable merge conflict, a consequence of making changes based on the wrong branch. Git can't magically resolve them for you.
    – Cascabel
    Oct 10, 2013 at 15:40
  • 4
    @sybog64 git is VERY dangerous to a newbie, unfortunately. All of it. It's so easy to end up with stuff getting lost or wiped out in hard-to-retrieve or impossible-to-retrieve ways until you give up on doing anything without understanding out. It's a perfect example of software thoroughly permeated with leaky abstractions, and really almost everything in git is shorthand, not abstraction. Point being: every git answer really needs a generic warning, and it's hard to provide more specific warnings for any single answer since there are usually multiple pitfalls you can maneuver/stumble into.
    – mtraceur
    May 29, 2022 at 22:09

You can just create a new branch and switch onto it. Commit your changes then:

git branch dirty
git checkout dirty
// And your commit follows ...

Alternatively, you can also checkout an existing branch (just git checkout <name>). But only, if there are no collisions (the base of all edited files is the same as in your current branch). Otherwise you will get a message.

Note that in the case of switching to existing divergent branch you can use -m option to tell git to try to merge changes, i.e. git checkout -m <name>

  • 14
    Note that in the case of switching to existing divergent branch you can use -m option to tell git to try to merge changes, i.e. git checkout -m <name> Jun 1, 2010 at 8:40
  • 2
    @Jefromi's answer is better in pretty much every case I think. Jun 4, 2011 at 14:09
  • 9
    Shorter version: git checkout -b dirty Mar 4, 2013 at 7:03
  • 3
    @user815423426: If you edit a file, but do not commit it, you won't be able to checkout a branch, where the file is not committed (or was deleted, previously). Git will abort: error: Your local changes to the following files would be overwritten by checkout: ...
    – tanascius
    Apr 12, 2013 at 11:59
  • 2
    This really is the better answer for when you're committing to a new branch. stash erases what you've staged; this approach does not. Apr 20, 2014 at 15:47
  1. git checkout my_other_branch
  2. git add my_file my_other_file
  3. git commit -m

And provide your commit message.

  • 1
    you may want to write what co and ci is ... though one can guess it (checkout, commit) ^^
    – tanascius
    May 31, 2010 at 15:30
  • 5
    @tanascius Good suggestion, and done. I've been using the aliases so long I forget they aren't the default.
    – Hank Gay
    Jun 1, 2010 at 10:55

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