Without creating a branch and doing a bunch of funky work on a new branch, is it possible to break a single commit into a few different commits after it's been committed to the local repository?
git autorebase split COMMIT_ID
git reset HEAD~
, git stash
, then git cherry-pick
the first commit within the squash, then git stash pop
. My cherry-pick case is quite specific here, but git stash
and git stash pop
is quite handy for others.
git rebase -i
will do it.
First, start with a clean working directory: git status
should show no pending modifications, deletions, or additions.
Now, you have to decide which commit(s) you want to split.
A) Splitting the most recent commit
To split apart your most recent commit, first:
$ git reset HEAD~
Now commit the pieces individually in the usual way, producing as many commits as you need.
B) Splitting a commit farther back
This requires rebasing, that is, rewriting history. To specify the correct commit, you have several choices:
If it is three commits back, then $ git rebase -i HEAD~3 where 3 is how many commits back it is.
If it is farther back in the tree than you want to count, then $ git rebase -i 123abcd~ where 123abcd is the SHA1 of the commit you want to split up.
If you are on a different branch (e.g., a feature branch) that you want to merge into master: $ git rebase -i master
When you get the rebase edit screen, find the commit you want to break apart. At the beginning of that line, replace pick
with edit
(e
for short). Save the buffer and exit. Rebase will now stop just after the commit you want to edit. Then:
$ git reset HEAD~
Commit the pieces individually in the usual way, producing as many commits as you need.
Finally
$ git rebase --continue
From git-rebase manual (SPLITTING COMMITS section)
In interactive mode, you can mark commits with the action "edit". However, this does not necessarily mean that git rebase expects the result of this edit to be exactly one commit. Indeed, you can undo the commit, or you can add other commits. This can be used to split a commit into two: Start an interactive rebase with git rebase -i
~
instead of ^
.
reset
ting the commit, after all - message included. The prudent thing to do, if you know you're going to be splitting a commit but want to keep some/all of its message, is to take a copy of that message. So, git show
the commit before rebase
ing, or if you forget or prefer this: get back to it later via the reflog
. None of it will actually be "lost" until it's garbage-collected away in 2 weeks or whatever.
~
and ^
are different things, even on Windows. You still want the caret ^
, so you'll just need to escape it as appropriate for your shell. In PowerShell, it's HEAD`^
. With cmd.exe, you can double it to escape like HEAD^^
. In most (all?) shells, you can surround with quotes like "HEAD^"
.
git commit --reuse-message=abcd123
. The short option for it is -C
.
Previous answers have covered the use of git rebase -i
to edit the commit that you want to split, and committing it in parts.
This works well when splitting the files into different commits, but if you want to break apart changes to the individual files, there's more you need to know.
Having got to the commit you want to split, using rebase -i
and marking it for edit
, you have two options.
After using git reset HEAD~, go through the patches individually using git add -p to select the ones you want in each commit Edit the working copy to remove the changes you do not want; commit that interim state; and then pull back the full commit for the next round.
Option 2 is useful if you're splitting a large commit, as it lets you check that the interim versions build and run properly as part of the merge. This proceeds as follows.
After using rebase -i
and edit
ing the commit, use
git reset --soft HEAD~
to undo the commit, but leave the committed files in the index. You can also do a mixed reset by omitting --soft, depending on how close to the final result your initial commit is going to be. The only difference is whether you start with all the changes staged or with them all unstaged.
Now go in and edit the code. You can remove changes, delete added files, and do whatever you want to construct the first commit of the series you're looking for. You can also build it, run it, and confirm that you have a consistent set of source.
Once you're happy, stage/unstage the files as needed (I like to use git gui
for this), and commit the changes through the UI or the command line
git commit
That's the first commit done. Now you want to restore your working copy to the state it had after the commit you are splitting, so that you can take more of the changes for your next commit. To find the sha1 of the commit you're editing, use git status
. In the first few lines of the status you'll see the rebase command that is currently executing, in which you can find the sha1 of your original commit:
$ git status
interactive rebase in progress; onto be83b41
Last commands done (3 commands done):
pick 4847406 US135756: add debugging to the file download code
e 65dfb6a US135756: write data and download from remote
(see more in file .git/rebase-merge/done)
...
In this case, the commit I'm editing has sha1 65dfb6a
. Knowing that, I can check out the content of that commit over my working directory using the form of git checkout
which takes both a commit and a file location. Here I use .
as the file location to replace the whole working copy:
git checkout 65dfb6a .
Don't miss the dot on the end!
This will check out, and stage, the files as they were after the commit you're editing, but relative to the previous commit you made, so any changes you already committed won't be part of the commit.
You can either go ahead now and commit it as-is to finish the split, or go around again, deleting some parts of the commit before making another interim commit.
If you want to reuse the original commit message for one or more commits, you can use it straight from the rebase's working files:
git commit --file .git/rebase-merge/message
Finally, once you've committed all the changes,
git rebase --continue
will carry on and complete the rebase operation.
git checkout *Sha I'm Editing* .
it always says Updated 0 paths from *Some Sha That's Not In Git Log*
and gives no changes.
Use git rebase --interactive
to edit that earlier commit, run git reset HEAD~
, and then git add -p
to add some, then make a commit, then add some more and make another commit, as many times as you like. When you're done, run git rebase --continue
, and you'll have all the split commits earlier in your stack.
Important: Note that you can play around and make all the changes you want, and not have to worry about losing old changes, because you can always run git reflog
to find the point in your project that contains the changes you want, (let's call it a8c4ab
), and then git reset a8c4ab
.
Here's a series of commands to show how it works:
mkdir git-test; cd git-test; git init
now add a file A
vi A
add this line:
one
git commit -am one
then add this line to A:
two
git commit -am two
then add this line to A:
three
git commit -am three
now the file A looks like this:
one
two
three
and our git log
looks like the following (well, I use git log --pretty=oneline --pretty="%h %cn %cr ---- %s"
bfb8e46 Rose Perrone 4 seconds ago ---- three
2b613bc Rose Perrone 14 seconds ago ---- two
9aac58f Rose Perrone 24 seconds ago ---- one
Let's say we want to split the second commit, two
.
git rebase --interactive HEAD~2
This brings up a message that looks like this:
pick 2b613bc two
pick bfb8e46 three
Change the first pick
to an e
to edit that commit.
git reset HEAD~
git diff
shows us that we just unstaged the commit we made for the second commit:
diff --git a/A b/A
index 5626abf..814f4a4 100644
--- a/A
+++ b/A
@@ -1 +1,2 @@
one
+two
Let's stage that change, and add "and a third" to that line in file A
.
git add .
This is usually the point during an interactive rebase where we would run git rebase --continue
, because we usually just want to go back in our stack of commits to edit an earlier commit. But this time, we want to create a new commit. So we'll run git commit -am 'two and a third'
. Now we edit file A
and add the line two and two thirds
.
git add .
git commit -am 'two and two thirds'
git rebase --continue
We have a conflict with our commit, three
, so let's resolve it:
We'll change
one
<<<<<<< HEAD
two and a third
two and two thirds
=======
two
three
>>>>>>> bfb8e46... three
to
one
two and a third
two and two thirds
three
git add .; git rebase --continue
Now our git log -p
looks like this:
commit e59ca35bae8360439823d66d459238779e5b4892
Author: Rose Perrone <roseperrone@fake.com>
Date: Sun Jul 7 13:57:00 2013 -0700
three
diff --git a/A b/A
index 5aef867..dd8fb63 100644
--- a/A
+++ b/A
@@ -1,3 +1,4 @@
one
two and a third
two and two thirds
+three
commit 4a283ba9bf83ef664541b467acdd0bb4d770ab8e
Author: Rose Perrone <roseperrone@fake.com>
Date: Sun Jul 7 14:07:07 2013 -0700
two and two thirds
diff --git a/A b/A
index 575010a..5aef867 100644
--- a/A
+++ b/A
@@ -1,2 +1,3 @@
one
two and a third
+two and two thirds
commit 704d323ca1bc7c45ed8b1714d924adcdc83dfa44
Author: Rose Perrone <roseperrone@fake.com>
Date: Sun Jul 7 14:06:40 2013 -0700
two and a third
diff --git a/A b/A
index 5626abf..575010a 100644
--- a/A
+++ b/A
@@ -1 +1,2 @@
one
+two and a third
commit 9aac58f3893488ec643fecab3c85f5a2f481586f
Author: Rose Perrone <roseperrone@fake.com>
Date: Sun Jul 7 13:56:40 2013 -0700
one
diff --git a/A b/A
new file mode 100644
index 0000000..5626abf
--- /dev/null
+++ b/A
@@ -0,0 +1 @@
+one
git rebase --interactive
can be used to split a commit into smaller commits. The Git docs on rebase have a concise walkthrough of the process - Splitting Commits:
In interactive mode, you can mark commits with the action "edit". However, this does not necessarily mean that git rebase expects the result of this edit to be exactly one commit. Indeed, you can undo the commit, or you can add other commits. This can be used to split a commit into two: Start an interactive rebase with git rebase -i
^
is an escape character for command line: it should be doubled. By example, issue git reset HEAD^^
instead of git reset HEAD^
.
^
twice resets two commits above the current HEAD.
"HEAD^"
in cmd.exe or PowerShell, HEAD^^
in cmd.exe, HEAD`^
in PowerShell. It's useful to learn about how shells — and your particular shell — work (i.e., how a command turns into individual parts that get passed to the program) so that you can adapt commands online into the right characters for your particular shell. (Not specific to Windows.)
Now in the latest TortoiseGit on Windows you can do it very easily.
Open the rebase dialog, configure it, and do the following steps.
Right-click the commit you want to split and select "Edit" (among pick, squash, delete...).
Click "Start" to start rebasing.
Once it arrives to the commit to split, check the "Edit/Split" button and click on "Amend" directly. The commit dialog opens.
Unselect the files you want to put on a separate commit.
Edit the commit message, and then click "commit".
Until there are files to commit, the commit dialog will open again and again. When there is no more file to commit, it will still ask you if you want to add one more commit.
Very helpful, thanks TortoiseGit !
You can do interactive rebase git rebase -i
. Man page has exactly what you want:
http://git-scm.com/docs/git-rebase#_splitting_commits
A quick reference of the necessary commands, because I basically know what to do but always forget the right syntax:
git rebase -i <sha1_before_split>
# mark the targeted commit with 'edit'
git reset HEAD^
git add ...
git commit -m "First part"
git add ...
git commit -m "Second part"
git rebase --continue
Credits to Emmanuel Bernard's blog post.
Please note there's also git reset --soft HEAD^
. It's similar to git reset
(which defaults to --mixed
) but it retains the index contents. So that if you've added/removed files, you have them in the index already.
Turns out to be very useful in case of giant commits.
Easiest thing to do without an interactive rebase is (probably) to make a new branch starting at the commit before the one you want to split, cherry-pick -n the commit, reset, stash, commit the file move, reapply the stash and commit the changes, and then either merge with the former branch or cherry-pick the commits that followed. (Then switch the former branch name to the current head.) (It's probably better to follow MBOs advice and do an interactive rebase.)
rebase -i
suggestions. I think this didn't get much attention due to lack of any formatting, though. Maybe you might review it, now that you have 126k points and probably know how to SO. ;)
Here is how to split one commit in IntelliJ IDEA, PyCharm, PhpStorm etc
In Version Control log window, select the commit you would like to split, right click and select the Interactively Rebase from Here mark the one you want to split as edit, click Start Rebasing You should see a yellow tag is placed meaning that the HEAD is set to that commit. Right click on that commit, select Undo Commit Now those commits are back to staging area, you can then commit them separately. After all change has been committed, the old commit becomes inactive.
It's been more than 8 years, but maybe someone will find it helpful anyway. I was able to do the trick without rebase -i
. The idea is to lead git to the same state it was before you did git commit
:
# first rewind back (mind the dot,
# though it can be any valid path,
# for instance if you want to apply only a subset of the commit)
git reset --hard <previous-commit> .
# apply the changes
git checkout <commit-you-want-to-split>
# we're almost there, but the changes are in the index at the moment,
# hence one more step (exactly as git gently suggests):
# (use "git reset HEAD <file>..." to unstage)
git reset
After this you'll see this shiny Unstaged changes after reset:
and your repo is in a state like you're about to commit all these files. From now on you can easily commit it again like you usually do. Hope it helps.
If you just want to extract something from existing commit and keep the original one, you can use
git reset --patch HEAD^
instead of git reset HEAD^
. This command allows you to reset just chunks you need.
After you chose the chunks you want to reset, you'll have staged chunks that will reset changes in previous commit after you do
git commit --amend --no-edit
and unstaged chunks that you can add to the separate commit by
git add .
git commit -m "new commit"
Off topic fact:
In mercurial they have hg split
- the second feature after hg absorb
I'd like to see in git.
I think that the best way i use git rebase -i
. I created a video to show the steps to split a commit: https://www.youtube.com/watch?v=3EzOz7e1ADI
If you have this:
A - B <- mybranch
Where you have committed some content in commit B:
/modules/a/file1
/modules/a/file2
/modules/b/file3
/modules/b/file4
But you want to split B into C - D, and get this result:
A - C - D <-mybranch
You can divide the content like this for example (content from different directories in different commits)...
Reset the branch back to the commit before the one to split:
git checkout mybranch
git reset --hard A
Create first commit (C):
git checkout B /modules/a
git add -u
git commit -m "content of /modules/a"
Create second commit (D):
git checkout B /modules/b
git add -u
git commit -m "content of /modules/b"
Most existing answers suggest using interactive rebasing — git rebase -i
or similar. For those like me who have a phobia of “interactive” approaches and like to hold onto the handrail when they go down stairs, here’s an alternative.
Say your history looks like … —> P –> Q –> R –> … –> Z = mybranch
, and you want to split P –> Q
into two commits, to end up with P –> Q1 –> Q' –> R' –> … Z' = mybranch
, where the code state at Q'
, R'
, etc is identical to Q
, R
, etc.
Before starting, if you’re paranoid, make a backup of mybranch
, so you don’t risk losing history:
git checkout mybranch
git checkout -b mybranch-backup
First, check out P
(the commit before where you want to split), and create a new branch to work with
git checkout P
git checkout -b mybranch-splitting
Now, checkout any files you want from Q
, and edit as desired to create the new intermediate commit:
git checkout Q file1.txt file2.txt
[…edit, stage commit with “git add”, etc…]
git commit -m "Refactored the widgets"
Note the hash of this commit, as Q1
. Now check out the full state of Q
, over a detached HEAD
at Q1
, commit this (creating Q'
), and pull the working branch up to it:
git checkout Q
git reset --soft Q1
git commit -m "Added unit tests for widgets"
git branch -f mybranch-splitting
You’re now on mybranch-splitting
at Q'
, and it should have precisely the same code state as Q
did. Now rebase the original branch (from Q
to Z
) onto this:
git rebase --onto HEAD Q mybranch
Now mybranch
should look like … P -> Q1 –> Q' –> R' –> … Z'
, as you wanted. So after checking that everything has worked correctly, you can delete your working and backup branches, and (if appropriate) push the rewritten mybranch
upstream. If it had already been pushed, you’ll need to force-push, and all the usual caveats about force-pushing apply.
git push --force mybranch
git branch -d mybranch-splitting mybranch-backup
git diff mybranch-backup
to ensure that you didn't accidentally forget something. And if it shows a diff - you can just git reset --hard mybranch-backup
to start over again. Also git checkout Q file1.txt file2.txt
is IMO a much more fragile approach than reset HEAD^
and commit -p
.
I did this with rebase. Editing the commit does not work for me as that already picks the commit files and lets you amend to it, but I wanted to add all the files as untracked files so I could just pick some of them. The steps were:
git rebase -i HEAD~5 (I wanted to split the 5th last commit in my history) Copy the target commit ID (you will need it later) Mark the commit with d to drop it; add a b line right after the commit to stop the rebasing process and continue it later. Even if this is the last commit, this gives you some room to just git rebase --abort and reset everything in case something goes wrong. When rebasing reaches the break point, use git cherry-pick -n
As a huge fan of interactive rebases, this was the easiest and most direct set of steps that I could come with. I hope this helps anyone facing this issue!
This method is most useful if your changes were mostly adding new content.
Sometimes you do not want to lose commit message associated with commit that is being split. If you have commited some changes that you want to split, you can:
Edit the changes you want removed out of the file (ie delete the lines or change the files approprietely to fit into first commit). You can use combination of your chosen editor and git checkout -p HEAD^ -- path/to/file to revert some changes into current tree. Commit this edit as a new commit, with something like git add . ; git commit -m 'removal of things that should be changed later', so you will have original commit in history and you will also have another commit with changes that you made, so the files on current HEAD look like you would want them in first commit after splitting.
000aaa Original commit
000bbb removal of things that should be changed later
Revert the edit with git revert HEAD, this will create revert commit. Files will look like they do on original commit and your history will now look like
000aaa Original commit
000bbb removal of things that should be changed later
000ccc Revert "removal of things that should be changed later" (assuming you didn't edit commit message immediately)
Now, you can squash/fixup first two commits into one with git rebase -i, optionally amend revert commit if you didn't give meaningful commit message to it earlier. You should be left with
000ddd Original commit, but without some content that is changed later
000eee Things that should be changed later
Success story sharing
git rebase --continue
, I actually had togit add (files to be added)
,git commit
, thengit stash
(for the remaining files). Aftergit rebase --continue
, I usedgit checkout stash .
to get the remaining filesgit add -p
to add only partial sections of files, possibly with thee
option to edit diffs to only commit some of a hunk.git stash
is also useful if you want to carry some work forward but remove it from the current commit.git rebase -i HEAD^3
command. This way if the split goes bad you don't have to undo quite as much work.git reset HEAD~
. They are not lost.