How do I move my recent commits on master to a new branch, and reset master to before those commits were made? e.g. From this:

master A - B - C - D - E

To this:

newbranch     C - D - E
master A - B 
  • 170
    Note: I asked the opposite question here
    – Benjol
    Dec 16, 2010 at 8:56
  • 7
    eddmann.com/posts/… this one works Apr 25, 2017 at 6:35
  • 23
    Were the comments here purged? I ask because during my bimonthly visit to this question, I always scroll by that comment.
    – Tejas Kale
    Mar 19, 2018 at 14:02
  • 9
    Side-comment: The question is about a very simple case. Reading the answers and all the "don't do this because..." and "a better solution is..." and "warning with version n+..." just after the answers (possibly when it's too late), it seems to me even very simple operations have no straight solutions in git. A graphical version manager where you would just add a tag for the new branch without dealing with what seems to me obscure and archaic syntax would be such a relief. My kingdom and my gold badges to the first one who "forks" git and starts a new approach ;-) it's urgent.
    – mins
    Jun 15, 2020 at 10:57
  • 3
    Be sure to read through the first ten answers (or so), as the best are not the most upvoted.
    – chb
    Jun 24, 2021 at 23:17

23 Answers 23


WARNING: You need to store uncommitted edits to your stash before doing this, using git stash. Once complete, you can retrieve the stashed uncommitted edits with git stash pop. git reset hard command will remove all changes!

Moving to an existing branch

If you want to move your commits to an existing branch, it will look like this:

git checkout existingbranch
git merge branchToMoveCommitFrom
git checkout branchToMoveCommitFrom
git reset --hard HEAD~3 # Go back 3 commits. You *will* lose uncommitted work.
git checkout existingbranch

Moving to a new branch

WARNING: This method works because you are creating a new branch with the first command: git branch newbranch. If you want to move commits to an existing branch you need to merge your changes into the existing branch before executing git reset --hard HEAD~3 (see Moving to an existing branch above). If you don't merge your changes first, they will be lost.

Unless there are other circumstances involved, this can be easily done by branching and rolling back.

# Note: Any changes not committed will be lost.
git branch newbranch      # Create a new branch, saving the desired commits
git checkout master       # checkout master, this is the place you want to go back
git reset --hard HEAD~3   # Move master back by 3 commits (Make sure you know how many commits you need to go back)
git checkout newbranch    # Go to the new branch that still has the desired commits

But do make sure how many commits to go back. Alternatively, you can instead of HEAD~3, simply provide the hash of the commit (or the reference like origin/master) you want to "revert back to" on the master (/current) branch, e.g:

git reset --hard a1b2c3d4

Note: You will only be "losing" commits from the master branch, but don't worry, you'll have those commits in newbranch! An easy way to check that, after completing the 4 step sequence of commands above, is by looking at git log -n4 which will show the history of newbranch actually retained the 3 commits (and the reason is that newbranch was created at the time those changes were already commited on master!). They have only been removed from master, as git reset only affected the branch that was checked out at the time of its execution, i.e. master (see git reset description: Reset current HEAD to the specified state). git status however will not show any checkouts on the newbranch, which might be surprising at first but that is actually expected.

Lastly, you may need to force push your latest changes to main repo:

git push origin master --force

WARNING: With Git version 2.0 and later, if you later git rebase the new branch upon the original (master) branch, you may need an explicit --no-fork-point option during the rebase to avoid losing the carried-over commits. Having branch.autosetuprebase always set makes this more likely. See John Mellor's answer for details.

  • 291
    And in particular, don't try to go back further than the point where you last pushed commits to another repository from which somebody else might have pulled. Oct 27, 2009 at 3:23
  • 131
    Wondering if you can explain WHY this works. To me you're creating a new branch, removing 3 commits from the old branch you are still on, and then checking out the branch you made. So how do the commits you removed magically show up in the new branch? Aug 3, 2010 at 18:28
  • 166
    @Jonathan Dumaine: Because I created the new branch before removing the commits from the old branch. They're still there in the new branch.
    – sykora
    Aug 4, 2010 at 8:28
  • 102
    branches in git are just markers which point to commits in history, there is nothing being cloned, created or deleted (except the markers)
    – knittl
    Aug 16, 2010 at 11:32
  • 255
    Also note: Don't do this with uncommitted changes in your working copy! This just bit me! :( Oct 25, 2011 at 3:59

For those wondering why it works (as I was at first):

You want to go back to C, and move D and E to the new branch. Here's what it looks like at first:


After git branch newBranch:


After git reset --hard HEAD~2:


Since a branch is just a pointer, master pointed to the last commit. When you made newBranch, you simply made a new pointer to the last commit. Then using git reset you moved the master pointer back two commits. But since you didn't move newBranch, it still points to the commit it originally did.

  • 81
    I also needed to do a git push origin master --force for the change to show up in main repository.
    – Dženan
    Nov 26, 2014 at 19:20
  • 16
    This answer causes commits to be lost: next time you git rebase, the 3 commits will be silently discarded from newbranch. See my answer for details and safer alternatives. Apr 6, 2016 at 22:47
  • 23
    @John, that's nonsense. Rebasing without knowing what you're doing causes commits to be lost. If you lost commits, I'm sorry for you, but this answer didn't lose your commits. Note that origin/master doesn't appear in the above diagram. If you pushed to origin/master and then made the changes above, sure, things would go funny. But that's a "Doctor, it hurts when I do this" kind of problem. And it's out of scope for what the original question asked. I suggest you write your own question to explore your scenario instead of hijacking this one.
    – Ryan Lundy
    Apr 7, 2016 at 3:20
  • 1
    @John, in your answer, you said "Don't do this! git branch -t newbranch". Go back and read the answers again. Nobody suggested doing that.
    – Ryan Lundy
    Apr 7, 2016 at 15:02
  • 3
    @JohnMellor, you are correct that calling git rebase with no arguments enables the --fork-point option, which can cause commits to be lost. In my opinion this is a defect in git rebase. It has nothing to do with my answer above, though. There are many circumstances in which git rebase with no arguments can cause trouble. The moral of the story (unfortunately) is not to call git rebase without passing in a branch, even if that branch is already the upstream. Git's usability has improved quite a lot in the past eight years or so, but this is one area wherre it could use more work.
    – Ryan Lundy
    Jun 1, 2018 at 11:54

In General...

The method exposed by sykora is the best option in this case. But sometimes is not the easiest and it's not a general method. For a general method use git cherry-pick:

To achieve what OP wants, its a 2-step process:

Step 1 - Note which commits from master you want on a newbranch


git checkout master
git log

Note the hashes of (say 3) commits you want on newbranch. Here I shall use:
C commit: 9aa1233
D commit: 453ac3d
E commit: 612ecb3

Note: You can use the first seven characters or the whole commit hash

Step 2 - Put them on the newbranch

git checkout newbranch
git cherry-pick 612ecb3
git cherry-pick 453ac3d
git cherry-pick 9aa1233

OR (on Git 1.7.2+, use ranges)

git checkout newbranch
git cherry-pick 612ecb3~1..9aa1233

git cherry-pick applies those three commits to newbranch.

  • 22
    This works very well if you accidentally commit the wrong, non-master branch, when you should have created a new feature branch.
    – julianc
    Feb 27, 2014 at 16:47
  • 10
    The information on git cherry-pick is nice, but the commands in this post don't work. 1) the 'git checkout newbranch' should be 'git checkout -b newbranch' since newbranch doesn't already exist; 2) if you checkout newbranch from the existing master branch it ALREADY has those three commits included in it, so there's no use in picking them. At the end of the day to get what the OP wanted, you'll still have to do some form of reset --hard HEAD.
    – JESii
    May 24, 2014 at 9:08
  • 5
    +1 for a useful approach in some situations. This is good if you only want to pull your own commits (which are interspersed with others) into a new branch.
    – Tyler V.
    Oct 1, 2014 at 17:11
  • 11
    It's better answer. This way you can move commits to any branch.
    – skywinder
    Nov 5, 2014 at 8:32
  • 3
    I was not able to use the cherry-pick range, got "error: could not apply c682e4b..." on one of the commits, but when used cherry-pick on each commit one at a time, it worked fine (I had to do git cherry-pick --abort after the error). Commenting because I thought those would be equivalent. This is on git version 2.3.8 (Apple Git-58)
    – Hudson
    Oct 31, 2015 at 14:33

Most previous answers are dangerously wrong!

Do NOT do this:

git branch -t newbranch
git reset --hard HEAD~3
git checkout newbranch

As the next time you run git rebase (or git pull --rebase) those 3 commits would be silently discarded from newbranch! (see explanation below)

Instead do this:

git reset --keep HEAD~3
git checkout -t -b newbranch
git cherry-pick ..HEAD@{2}
  • First it discards the 3 most recent commits (--keep is like --hard, but safer, as fails rather than throw away uncommitted changes).
  • Then it forks off newbranch.
  • Then it cherry-picks those 3 commits back onto newbranch. Since they're no longer referenced by a branch, it does that by using git's reflog: HEAD@{2} is the commit that HEAD used to refer to 2 operations ago, i.e. before we 1. checked out newbranch and 2. used git reset to discard the 3 commits.

Warning: the reflog is enabled by default, but if you've manually disabled it (e.g. by using a "bare" git repository), you won't be able to get the 3 commits back after running git reset --keep HEAD~3.

An alternative that doesn't rely on the reflog is:

# newbranch will omit the 3 most recent commits.
git checkout -b newbranch HEAD~3
git branch --set-upstream-to=oldbranch
# Cherry-picks the extra commits from oldbranch.
git cherry-pick ..oldbranch
# Discards the 3 most recent commits from oldbranch.
git branch --force oldbranch oldbranch~3

(if you prefer you can write @{-1} - the previously checked out branch - instead of oldbranch).

Technical explanation

Why would git rebase discard the 3 commits after the first example? It's because git rebase with no arguments enables the --fork-point option by default, which uses the local reflog to try to be robust against the upstream branch being force-pushed.

Suppose you branched off origin/master when it contained commits M1, M2, M3, then made three commits yourself:

M1--M2--M3  <-- origin/master
          T1--T2--T3  <-- topic

but then someone rewrites history by force-pushing origin/master to remove M2:

M1--M3'  <-- origin/master
  M2--M3--T1--T2--T3  <-- topic

Using your local reflog, git rebase can see that you forked from an earlier incarnation of the origin/master branch, and hence that the M2 and M3 commits are not really part of your topic branch. Hence it reasonably assumes that since M2 was removed from the upstream branch, you no longer want it in your topic branch either once the topic branch is rebased:

M1--M3'  <-- origin/master
      T1'--T2'--T3'  <-- topic (rebased)

This behavior makes sense, and is generally the right thing to do when rebasing.

So the reason that the following commands fail:

git branch -t newbranch
git reset --hard HEAD~3
git checkout newbranch

is because they leave the reflog in the wrong state. Git sees newbranch as having forked off the upstream branch at a revision that includes the 3 commits, then the reset --hard rewrites the upstream's history to remove the commits, and so next time you run git rebase it discards them like any other commit that has been removed from the upstream.

But in this particular case we want those 3 commits to be considered as part of the topic branch. To achieve that, we need to fork off the upstream at the earlier revision that doesn't include the 3 commits. That's what my suggested solutions do, hence they both leave the reflog in the correct state.

For more details, see the definition of --fork-point in the git rebase and git merge-base docs.

  • 27
    This answer says "Do NOT do this!" above something that no one suggested doing.
    – Ryan Lundy
    Apr 16, 2016 at 21:41
  • 10
    Most people don't rewrite published history, especially on master. So no, they are not dangerously wrong.
    – Walf
    Sep 14, 2016 at 6:59
  • 5
    @Kyralessa, the -t you are referring to in git branch happens implicitly if you have git config --global branch.autosetuprebase always set. Even if you don't, I already explained to you that the same problem occurs if you setup tracking after performing these commands, as the OP likely intends to do given their question. Sep 16, 2016 at 2:36
  • 4
    @RockLee, yes, the general the way to fix such situations is to create a fresh branch (newbranch2) from a safe starting point then cherry-pick all the commits you want to keep (from badnewbranch to newbranch2). Cherry-picking will give the commits new hashes, so you'll be able to safely rebase newbranch2 (and can now delete badnewbranch). Sep 16, 2016 at 2:36
  • 7
    Too bad this isn't the accepted answer. I followed the steps in the accepted answer and lost 6 commits, just as you described! Oct 18, 2017 at 20:02

Yet another way to do this, using just 2 commands. Also keeps your current working tree intact.

git checkout -b newbranch # switch to a new branch
git branch -f master HEAD~3 # make master point to some older commit

Old version - before I learned about git branch -f

git checkout -b newbranch # switch to a new branch
git push . +HEAD~3:master # make master point to some older commit 

Being able to push to . is a nice trick to know.

  • 1
    Current directory. I guess this would work only if you are in a top directory.
    – aragaer
    Mar 28, 2014 at 5:35
  • 1
    The local push is grin-inducing, but on reflection, how is it different to git branch -f here?
    – jthill
    Aug 5, 2014 at 0:15
  • 3
    @GerardSexton . is current director. git can push to REMOTES or GIT URLs. path to local directory is supported Git URLs syntax. See the GIT URLS section in git help clone.
    – weakish
    Nov 25, 2014 at 10:24
  • 45
    I don't know why this is not rated higher. Dead simple, and without the small but potential danger of git reset --hard.
    – Godsmith
    Feb 6, 2015 at 14:56
  • 7
    @Godsmith My guess is people prefer three simple commands to two slightly more obscure commands. Also, top voted answers get more upvotes by nature of being displayed first.
    – JS_Riddler
    Oct 22, 2015 at 15:43

Much simpler solution using git stash

Here's a far simpler solution for commits to the wrong branch. Starting on branch master that has three mistaken commits:

git reset HEAD~3
git stash
git checkout newbranch
git stash pop

When to use this?

  • If your primary purpose is to roll back master
  • You want to keep file changes
  • You don't care about the messages on the mistaken commits
  • You haven't pushed yet
  • You want this to be easy to memorize
  • You don't want complications like temporary/new branches, finding and copying commit hashes, and other headaches

What this does, by line number

  1. Undoes the last three commits (and their messages) to master, yet leaves all working files intact
  2. Stashes away all the working file changes, making the master working tree exactly equal to the HEAD~3 state
  3. Switches to an existing branch newbranch
  4. Applies the stashed changes to your working directory and clears the stash

You can now use git add and git commit as you normally would. All new commits will be added to newbranch.

What this doesn't do

  • It doesn't leave random temporary branches cluttering your tree
  • It doesn't preserve the mistaken commit messages, so you'll need to add a new commit message to this new commit
  • Update! Use up-arrow to scroll through your command buffer to reapply the prior commit with its commit message (thanks @ARK)


The OP stated the goal was to "take master back to before those commits were made" without losing changes and this solution does that.

I do this at least once a week when I accidentally make new commits to master instead of develop. Usually I have only one commit to rollback in which case using git reset HEAD^ on line 1 is a simpler way to rollback just one commit.

Don't do this if you pushed master's changes upstream

Someone else may have pulled those changes. If you are only rewriting your local master there's no impact when it's pushed upstream, but pushing a rewritten history to collaborators can cause headaches.

  • 7
    Thanks, am so glad I read past/through so much to get to here, cause it's a pretty common use case for me as well. Are we so atypical?
    – Jim Mack
    Sep 10, 2018 at 17:58
  • 11
    I think we're totally typical and "oops I commited to master by mistake" is the most common use-case for need to revert a handful or less of commits. Lucky this solution is so simple I have it memorized now.
    – Slam
    Sep 11, 2018 at 19:58
  • 14
    This should be the accepted answer. It's straightforward, easy to understand and easy to remember Nov 28, 2018 at 0:53
  • 2
    You can easily get your commit messages back, too, if you happen have them in your CLI (command line) history. I happened to have both the git add and git commit commands that I used so all I had to do was hit up arrow and enter a few times and boom! Everything was back, but on the right branch now. Sep 19, 2019 at 14:57
  • 5
    If "newbranch" didn't exist yet, then you can move the unstaged changes after reset to a new branch with this command w/o having to stash: git checkout -b newbranch Aug 19, 2021 at 17:43

This doesn't "move" them in the technical sense but it has the same effect:

A--B--C  (branch-foo)
 \    ^-- I wanted them here!
   D--E--F--G  (branch-bar)
      ^--^--^-- Opps wrong branch!

While on branch-bar:
$ git reset --hard D # remember the SHAs for E, F, G (or E and G for a range)

A--B--C  (branch-foo)
   D-(E--F--G) detached
   ^-- (branch-bar)

Switch to branch-foo
$ git cherry-pick E..G

A--B--C--E'--F'--G' (branch-foo)
 \   E--F--G detached (This can be ignored)
  \ /
   D--H--I (branch-bar)

Now you won't need to worry about the detached branch because it is basically
like they are in the trash can waiting for the day it gets garbage collected.
Eventually some time in the far future it will look like:

A--B--C--E'--F'--G'--L--M--N--... (branch-foo)
   D--H--I--J--K--.... (branch-bar)
  • 1
    Yes you could alternatively use rebase on the detached branch in the scenario above.
    – Sukima
    Jun 30, 2015 at 1:32

To do this without rewriting history (i.e. if you've already pushed the commits):

git checkout master
git revert <commitID(s)>
git checkout -b new-branch
git cherry-pick <commitID(s)>

Both branches can then be pushed without force!

  • 1
    But then you have to deal with the revert scenario, which, depending on your circumstance, can be a lot trickier. If you revert a commit on the branch, Git will still see those commits as have taken place, so in order to undo that, you have to revert the revert. This burns quite a few people, especially when they revert a merge and try to merge the branch back, only to find that Git believes that it's already merged that branch in (which is entirely true).
    – Makoto
    Apr 7, 2016 at 16:15
  • 1
    That's why I cherry-pick the commits at the end, onto a new branch. That way git sees them as new commits, which solves your issue.
    – teh_senaus
    Apr 7, 2016 at 17:18
  • This is more dangerous than it first seems, since you're changing the state of the repository's history without really understanding the implications of this state.
    – Makoto
    Apr 7, 2016 at 19:25
  • 7
    I don't follow your argument - the point of this answer is that you're not changing history, simply adding new commits (which effectively undo the redo the changes). These new commits can be pushed and merged as normal.
    – teh_senaus
    Apr 8, 2016 at 10:33

How can I go from this

A - B - C - D - E 

to this?

A - B - C - D - E 
    |           |
    master      newbranch

With two commands

  • git branch -m master newbranch


A - B - C - D - E 


  • git branch master B


A - B - C - D - E
    |           |
    master      newbranch
  • Yep, this works and is quite easy. Sourcetree GUI is a little confused about the changes made in the git shell, but after a fetch it's all right again.
    – lars k.
    May 24, 2019 at 15:05
  • Yes, they are as in the question. The first couple of diagrams are intended to be equivalent to those in the question, just redrawn the way I would like for the purpose of illustration in the answer. Basically rename the master branch as newbranch and create a new master branch where you want it.
    – Ivan
    Jul 16, 2019 at 15:22

Had just this situation:

Branch one: A B C D E F     J   L M  
                       \ (Merge)
Branch two:             G I   K     N

I performed:

git branch newbranch 
git reset --hard HEAD~8 
git checkout newbranch

I expected that commit I would be the HEAD, but commit L is it now...

To be sure to land on the right spot in the history its easier to work with the hash of the commit

git branch newbranch 
git reset --hard #########
git checkout newbranch

If you just need to move all your unpushed commits to a new branch, then you just need to,

  1. create a new branch from the current one :git branch new-branch-name

  2. push your new branch: git push origin new-branch-name

  3. revert your old(current) branch to the last pushed/stable state: git reset --hard origin/old-branch-name

Some people also have other upstreams rather than origin, they should use appropriate upstream



git checkout branch_to_remove_commits
git reset --hard ${hash_of_new_tip}
git checkout -b branch_to_store_commits
# Move commits (single hash, list of hashes or range ffaa..ffoo) 
git cherry-pick ${commit_hash}
git push --set-upstream origin branch_to_store_commits
# Switch back to last branch
git checkout -
git push -f

For me

git log --pretty=oneline -n ${NUMBER}

works best to identify the commit hashes in question.


You can do this is just 3 simple step that i used.

1) make new branch where you want to commit you recent update.

git branch <branch name>

2) Find Recent Commit Id for commit on new branch.

git log

3) Copy that commit id note that Most Recent commit list take place on top. so you can find your commit. you also find this via message.

git cherry-pick d34bcef232f6c...

you can also provide some rang of commit id.

git cherry-pick d34bcef...86d2aec

Now your job done. If you picked correct id and correct branch then you will success. So before do this be careful. else another problem can occur.

Now you can push your code

git push


I was surprised that nobody recommended this way:

git checkout master
git checkout <commit hash from which you want to split>
git checkout -b new_branch
git rebase master
git checkout master
git reset --hard <commit hash you splitted>

to explain:

  1. step we checking out the commit where we want to split
  2. then from this commit creating a new branch
  3. doing rebase will synchronize new_branch and master. So now we have two same branches with same commits
  4. with reset on master, we cleanup last commits after split
  5. List item
  • This way only creates a branch with the first commit that changes from Main/Master, but forgets about the rest. Mar 8, 2022 at 2:53

1) Create a new branch, which moves all your changes to new_branch.

git checkout -b new_branch

2) Then go back to old branch.

git checkout master

3) Do git rebase

git rebase -i <short-hash-of-B-commit>

4) Then the opened editor contains last 3 commit information.

pick <C's hash> C
pick <D's hash> D
pick <E's hash> E

5) Change pick to drop in all those 3 commits. Then save and close the editor.

drop <C's hash> C
drop <D's hash> D
drop <E's hash> E

6) Now last 3 commits are removed from current branch (master). Now push the branch forcefully, with + sign before branch name.

git push origin +master

Using Emacs' git porcelain Magit, you can do this simply by hitting b s (magit-branch-spinoff). You'll be asked to enter a name for your new branch and once you hit enter, voila.

From the Magit documentation:

This command creates and checks out a new branch starting at and tracking the current branch. That branch in turn is reset to the last commit it shares with its upstream. If the current branch has no upstream or no unpushed commits, then the new branch is created anyway and the previously current branch is not touched.

This is useful to create a feature branch after work has already began on the old branch (likely but not necessarily "master").


Most of the solutions here count the amount of commits you'd like to go back. I think this is an error prone methodology. Counting would require recounting.

You can simply pass the commit hash of the commit you want to be at HEAD or in other words, the commit you'd like to be the last commit via:

(Notice see commit hash)

To avoid this:

1) git checkout master

2) git branch <feature branch> master

3) git reset --hard <commit hash>

4) git push -f origin master

You can put the files affected by the 3 commits back to Staged and then re-commit the code to a new branch. Assuming you're on master and want to move exactly 3 commits to new-branch:

git reset --soft HEAD~3
git checkout -b new-branch
git commit -m "message"

The code is now committed with a new hash into new-branch, avoiding any future rebase-issues highlighted by some other answers. To avoid any merge conflicts, push master:

git checkout master
git push -ff

This solution also provides the flexibility to re-create your commits completely. In the example above, I replace 3 commits with 1 commit. However, you can of course unstage your staged files by replacing the commit-step above with:

git reset                        # unstage all files
git add path/file_1
git commit -m "first-commit"
git add path/file_2
git commit -m "second-commit"

I got to move 7 commits from one old-branch to a new-branch.

git checkout old-branch     # in the example, master
git reset --hard h4sh       # h4sh is the hash for the commit 
git checkout -b new-branch  
git push origin new-branch

After that, both branches were related to the 7 commits I have done. After git checkout new-branch, I was getting fine git log and git status, but, when accessing the old-branch (git checkout old-branch), I'd got the message "git is behind by 7 commits and can be fast-forwarded". What worked for me to erase this message was the followind:

git checkout old-branch
git status 
> git is behind by 7 commits and can be fast-forwarded
git push origin old-branch -f

After that step, the last 7 commits was referenced only for the new-branch and the previous ones were referenced as old-branch and new-branch in the Bitbucket tree.


If you are a UI person like me and you are using Visual Studio. Then you can do the following: In my case, I want to take the latest commit to another branch.

  1. Right-click on the one (commit) before.

enter image description here

  1. So all commit changes will appear in the Git Changes pane.

  2. Now, stash your changes

enter image description here

  1. Go to your targeted branch or create a new one from the bottom right corner.

enter image description here

  1. From "Git Changes" double click on your latest Stash.

  2. "Stash details" pane will be opened. Click on "Pop", then resolve conflicts (if exists).

enter image description here

  1. And finally, commit your changes.

I had a similar problem and solved like this, considering "E" as the hash of the last commit and "B" the hash of the commit that I want the master to point to:

git branch new_branch E
git branch --force master B

What worked for me was this:

git checkout -b newbranch
git push -u origin newbranch
git checkout oldbranch
git revert --no-commit <hash-to-keep>..HEAD
git commit -m Reverting the previous three commits
git push

The "-u origin newbranch" was needed on "git push" because there was no new commit. My changes were on a new branch, where they belonged. Everyone who had unpushed commits just needed to pull, and they'd see no conflicts. I'd tried to use a couple of the other solutions here, but my remote would not allow me to rewrite history.


Taking some ideas from other posts, avoiding anything to do with reset, and being ultra paranoid, my solution is:

  1. git branch # changes are available in new branch
  2. git push # upload, you may need to mess with "--set-upstream", e.g. git push --set-upstream https:///
  3. check the new branch is in git via a GUI
  4. destroy current directory
  5. re-clone from git repository

I'm not proud, but I kept my data ;)

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