I have a git repository that looks like this:

A <- B <- C <- D <- HEAD

I want the head of the branch to point to A, i.e. I want B, C, D, and HEAD to disappear and I want head to be synonymous with A.

It sounds like I can either try to rebase (doesn't apply, since I've pushed changes in between), or revert. But how do I revert multiple commits? Do I revert one at a time? Is the order important?

  • 3
    If you just want to reset the remote, you can clobber it with anything! But let us use the fourth commit ago: git push -f HEAD~4:master (assuming the remote branch is master). Yes, you can push any commit like that. – u0b34a0f6ae Sep 23 '09 at 1:01
  • 24
    If people have pulled you have to make a commit that reverts changes using git revert. – Jakub Narębski Sep 23 '09 at 8:21
  • 1
    Use git show HEAD~4 to ensure you are pushing to right one to the remote – Mâtt Frëëman Jun 11 '16 at 3:08
  • 1
    Possible duplicate of How to undo last commit(s) in Git? – Jim Fell Feb 14 '17 at 18:53
  • 5
    "Is the order important?" Yes, if the commits affect the same lines in the same files. Then you should start reverting the most recent commit, and work your way back. – avandeursen Apr 22 '17 at 11:26

15 Answers 15


Expanding what I wrote in a comment

The general rule is that you should not rewrite (change) history that you have published, because somebody might have based their work on it. If you rewrite (change) history, you would make problems with merging their changes and with updating for them.

So the solution is to create a new commit which reverts changes that you want to get rid of. You can do this using git revert command.

You have the following situation:

A <-- B  <-- C <-- D                                  <-- master <-- HEAD

(arrows here refers to the direction of the pointer: the "parent" reference in the case of commits, the top commit in the case of branch head (branch ref), and the name of branch in the case of HEAD reference).

What you need to create is the following:

A <-- B  <-- C <-- D <-- [(BCD)-1]                   <-- master <-- HEAD

where [(BCD)^-1] means the commit that reverts changes in commits B, C, D. Mathematics tells us that (BCD)-1 = D-1 C-1 B-1, so you can get the required situation using the following commands:

$ git revert --no-commit D
$ git revert --no-commit C
$ git revert --no-commit B
$ git commit -m "the commit message for all of them"

Works for everything except merge commits.

Alternate solution would be to checkout contents of commit A, and commit this state. Also works with merge commits. Added files will not be deleted, however. If you have any local changes git stash them first:

$ git checkout -f A -- . # checkout that revision over the top of local files
$ git commit -a

Then you would have the following situation:

A <-- B  <-- C <-- D <-- A'                       <-- master <-- HEAD

The commit A' has the same contents as commit A, but is a different commit (commit message, parents, commit date).

Alternate solution by Jeff Ferland, modified by Charles Bailey builds upon the same idea, but uses git reset. Here it is slightly modified, this way WORKS FOR EVERYTHING:

$ git reset --hard A
$ git reset --soft D # (or ORIG_HEAD or @{1} [previous location of HEAD]), all of which are D
$ git commit
  • 47
    If you added files in B, C or D. the git checkout -f A -- . Will not delete these, you will have to do it manually. I applied this strategy now, thanks Jakub – oma Mar 31 '11 at 14:56
  • 18
    Those solutions are not equivalent. The first one doesn't delete newly created files. – m33lky Jan 26 '12 at 5:57
  • 10
    @Jerry: git checkout foo might mean checkout branch foo (switch to branch) or checkout file foo (from index). -- is used to disambiguate, e.g. git checkout -- foo is always about file. – Jakub Narębski Jan 23 '13 at 2:34
  • 115
    In addition to great answer. This shorthand works for me git revert --no-commit D C B – welldan97 Aug 9 '13 at 12:34
  • 9
    @welldan97: Thanks for a comment. When writing this answer git revert didn't accept multiple commits; it is quite new addition. – Jakub Narębski Aug 9 '13 at 18:39

Clean way which I found useful

git revert --no-commit HEAD~3..

This command reverts last 3 commits with only one commit.

Also doesn't rewrite history.

The .. helps create a range. Meaning HEAD~3.. is the same as HEAD~3..HEAD

  • how can this work if there is no commit? What needs to be done in addition to the above command? what git commands are needed before/after this command? – John Little Oct 23 '17 at 19:18
  • 5
    @JohnLittle it stages the changes. git commit from there will actually do the commit. – x1a4 Nov 1 '17 at 20:08
  • 31
    This will not work if some commits are merge commits. – MegaManX Sep 7 '18 at 13:51
  • 9
    What do the two dots at the end do? – cardamom Dec 18 '18 at 10:09
  • 11
    @cardamom Those specify a range. HEAD~3.. is the same as HEAD~3..HEAD – Toine H Dec 18 '18 at 15:41

For doing so you just have to use the revert command, specifying the range of commits you want to get reverted.

Taking into account your example, you'd have to do this (assuming you're on branch 'master'):

git revert master~3..master

or git revert B...D or git revert D C B

This will create a new commit in your local with the inverse commit of B, C and D (meaning that it will undo changes introduced by these commits):

A <- B <- C <- D <- BCD' <- HEAD
  • 135
    git revert --no-commit HEAD~2.. is a slightly more idiomatic way to do it. If you're on master branch, no need to specify master again. The --no-commit option lets git try to revert all the commits at once, instead of littering the history with multiple revert commit ... messages (assuming that's what you want). – kubi Jan 15 '13 at 18:49
  • 7
    @Victor I fixed your commit range. The beginning of the range is exclusive, meaning it's not included. So if you want to revert the last 3 commits, you need to start the range from the parent of the 3rd commit, i.e. master~3. – user456814 Apr 25 '14 at 18:50
  • 3
    @kubi is there no way of including the SHAs in a commit message, using a single commit (your method but without having to manually enter the commits that were reverted)? – Chris S Oct 1 '15 at 18:33
  • @ChrisS My first thought would be to not use --no-commit (so you get a separate commit for each revert), and then squash all of them together in an interactive rebase. The combined commit message will contain all of the SHAs, and you can arrange them however you like using your favorite commit message editor. – Radon Rosborough Nov 15 '16 at 20:52
  • Sure enough, if you do this without --no-commit it does them one at a time and you have to keep typing git revert --continue over and over for each one...dang I was hoping git would have a friendly commit option like "do them all and list all the hashes for me in a single commit" but appears not :| – rogerdpack Oct 12 '20 at 14:04

Similar to Jakub's answer, this allows you to easily select consecutive commits to revert.

# revert all commits from B to HEAD, inclusively
$ git revert --no-commit B..HEAD  
$ git commit -m 'message'
  • 10
    Your solution worked fine for me, but with a slight modification. If we have this case Z -> A -> B -> C -> D -> HEAD and if I would want to return to the A state, then weirdly I would have to execute git revert --no-commit Z..HEAD – Bogdan Feb 22 '16 at 16:42
  • 3
    Agree with @Bogdan, the revert range is like that: SHA_TO_REVERT_TO..HEAD – Vadym Tyemirov May 10 '16 at 16:44
  • 11
    The range is wrong. It should be B^..HEAD, otherwise B is excluded. – tessus Apr 28 '18 at 3:50
  • 3
    Agree with @tessus, so the right thing to do would be: git revert --no-commit B^..HEAD or git revert --no-commit A..HEAD – Yoho Sep 29 '18 at 0:09
git reset --hard a
git reset --mixed d
git commit

That will act as a revert for all of them at once. Give a good commit message.

  • 6
    If he wants HEAD to look like A then he probably want the index to match so git reset --soft D is probably more appropriate. – CB Bailey Sep 23 '09 at 5:38
  • 2
    --soft resetting doesn't move the index, so when he commits, it would look like the commit came directly from a instead of from D. That would make the branch split. --mixed leaves the changes, but moves the index pointer, so D will become the parent commit. – Jeff Ferland Sep 25 '09 at 14:42
  • 5
    Yes, I think git reset --keep is exactly what I have above. It came out in version 1.7.1, released in April of 2010, so the answer wasn't around at that time. – Jeff Ferland Nov 11 '10 at 1:56
  • 1
    git checkout A then git commit above did not work for me, but this answer did. – SimplGy Aug 29 '13 at 3:38
  • 2
    Why is git reset --mixed D required? Specifically why reset? Is it because, without resetting to D, that, HEAD would point at A, causing B, C, and D to be "dangling" and garbage-collected -- which is not what he wants? But then why --mixed? You already answered "--soft resetting doesn't move the index..." So by moving the index, this means index will contain D's changes, while Working Directory will contain A's changes -- this way a git status or git diff (which compares Index [D] to Working Directory [A]) will show the substance; that user is going from D back to A? – The Red Pea Jan 10 '16 at 18:03

First be sure that your working copy is not modified. Then:

git diff --binary HEAD commit_sha_you_want_to_revert_to | git apply

and then just commit. Don't forget to document what's the reason for revert.

  • 1
    Worked for me! Had a problem with feature branch obsoleting changes made in develop branch ( some bug fixes), so that the feature branch had to overwrite all changes made in develop (including deleting some files). – silentser Oct 14 '15 at 9:42
  • 1
    Won't work with binary files: error: cannot apply binary patch to 'some/image.png' without full index line error: some/image.png: patch does not apply – GabLeRoux Jul 10 '17 at 19:16
  • 2
    This is a much more flexible solution than the accepted answer. Thanks! – Brian Kung Sep 29 '17 at 13:57
  • 3
    re: binary files use --binary option: git diff --binary HEAD commit_sha_you_want_to_revert_to | git apply – weinerk Jan 3 '18 at 14:25
  • 2
    This will work even if you want to revert a range of commits that contains merge commits. When using git revert A..Z you'd get error: commit X is a merge but no -m option was given. – Juliusz Gonera Aug 22 '18 at 0:10

I'm so frustrated that this question can't just be answered. Every other question is in relation to how to revert correctly and preserve history. This question says "I want the head of the branch to point to A, i.e. I want B, C, D, and HEAD to disappear and I want head to be synonymous with A."

git checkout <branch_name>
git reset --hard <commit Hash for A>
git push -f

I learned a lot reading Jakub's post, but some guy in the company (with access to push to our "testing" branch without Pull-Request) pushed like 5 bad commits trying to fix and fix and fix a mistake he made 5 commits ago. Not only that, but one or two Pull Requests were accepted, which were now bad. So forget it, I found the last good commit (abc1234) and just ran the basic script:

git checkout testing
git reset --hard abc1234
git push -f

I told the other 5 guys working in this repo that they better make note of their changes for the last few hours and Wipe/Re-Branch from the latest testing. End of the story.

  • 4
    I hadn't published the commits, so this was the answer I needed. Thanks, @Suamere. – Tom Barron Nov 30 '16 at 17:37
  • 4
    The better way to do this is git push --force-with-lease, which will rewrite history only if no one else has committed to the branch after or within the range of the commits to vapourize. If other people have used the branch, then its history should never be rewritten, and the commit should simply be visibly reverted. – frandroid Dec 1 '17 at 16:59
  • 2
    @frandroid "history should never be rewritten", only the sith deal in absolutes. The question of this thread, and the point of my answer, is exactly that for a particular scenario, all history should be wiped. – Suamere Apr 24 '18 at 2:18
  • @Suamere Sure, that's the question. But as your answer mentions about what you had to tell the other guys, there is potential for trouble. From personal experience, push -f can mess up your code-base if other people have committed after what you're trying to erase. --force-with-lease achieves the same result, except that it saves your ass if you were about to mess up your repo. Why take the chance? If --force-with-lease fails, you can see which commit gets in the way, assess properly, adjust, and try again. – frandroid Apr 28 '18 at 15:02
  • 1
    @Suamere Thank you! I agree the question clearly states it wants to rewrite history. I'm in the same situation as you and I'm guessing the OP in that someone made dozens of ugly reverts and odd commits and reverts of reverts by accident (while I was on vacation) and the state needs to be reverted. In any event along with a good healthy warning this should be the accepted answer. – Lee Richardson Jun 19 '19 at 13:53

This is an expansion of one of the solutions provided in Jakub's answer

I was faced with a situation where the commits I needed to roll back were somewhat complex, with several of the commits being merge commits, and I needed to avoid rewriting history. I was not able to use a series of git revert commands because I eventually ran into conflicts between the reversion changes being added. I ended up using the following steps.

First, check out the contents of the target commit while leaving HEAD at the tip of the branch:

$ git checkout -f <target-commit> -- .

(The -- makes sure <target-commit> is interpreted as a commit rather than a file; the . refers to the current directory.)

Then, determine what files were added in the commits being rolled back, and thus need to be deleted:

$ git diff --name-status --cached <target-commit>

Files that were added should show up with an "A" at the beginning of the line, and there should be no other differences. Now, if any files need to be removed, stage these files for removal:

$ git rm <filespec>[ <filespec> ...]

Finally, commit the reversion:

$ git commit -m 'revert to <target-commit>'

If desired, make sure that we're back to the desired state:

$git diff <target-commit> <current-commit>

There should be no differences.

  • Are you sure you can git HEAD with just the tip of the branch? – Suamere Nov 8 '16 at 18:25
  • 2
    This was a much better solution for me, since in mine I had merge commits. – sovemp Nov 18 '16 at 2:15

The easy way to revert a group of commits on shared repository (that people use and you want to preserve the history) is to use git revert in conjunction with git rev-list. The latter one will provide you with a list of commits, the former will do the revert itself.

There are two ways to do that. If you want the revert multiple commits in a single commit use:

for i in `git rev-list <first-commit-sha>^..<last-commit-sha>`; do git revert --no-commit $i; done

this will revert a group of commits you need, but leave all the changes on your working tree, you should commit them all as usual afterward.

Another option is to have a single commit per reverted change:

for i in `git rev-list <first-commit-sha>^..<last-commit-sha>`; do git revert --no-edit -s $i; done

For instance, if you have a commit tree like

fff eee ddd ccc bbb aaa

to revert the changes from eee to bbb, run

for i in `git rev-list eee^..bbb`; do git revert --no-edit -s $i; done

None of those worked for me, so I had three commits to revert (the last three commits), so I did:

git revert HEAD
git revert HEAD~2
git revert HEAD~4
git rebase -i HEAD~3 # pick, squash, squash

Worked like a charm :)

  • 3
    This is a viable option only if your changes aren't pushed yet. – kboom Mar 18 '18 at 14:51

In my opinion a very easy and clean way could be:

go back to A

git checkout -f A

point master's head to the current state

git symbolic-ref HEAD refs/heads/master


git commit
  • 1
    Can you please explain the reason of downvoting? – nulll Feb 13 '19 at 11:49
  • This works fine. What is the point of giving downvote for this useful answer or can anybody explain what is the best-practice? – Levent Divilioglu Jul 1 '19 at 11:35
  • Is that the same as git checkout master; git reset --hard A ? Or if not could you explain a bit more about what this does? – M.M Nov 19 '19 at 3:44
  • just works , but symbolic-ref HEAD seems not be a "safe" command – Sérgio Dec 10 '19 at 3:51
  • err I don't want fix master , I want fix a branch – Sérgio Dec 10 '19 at 4:01

I really wanted to avoid hard resets, this is what I came up with.

A -> B -> C -> D -> HEAD

To go back to A (which is 4 steps back):

git pull                  # Get latest changes
git reset --soft HEAD~4   # Set back 4 steps
git stash                 # Stash the reset
git pull                  # Go back to head
git stash pop             # Pop the reset 
git commit -m "Revert"    # Commit the changes

If you

  1. have a merged commit and
  2. you are not able to revert, and
  3. you don't mind squashing the history you are to revert,

then you can

git reset --soft HEAD~(number of commits you'd like to revert)
git commit -m "The stuff you didn't like."
git log
# copy the hash of your last commit
git revert <hash of your last (squashed) commit>

Then when you want to push your changes remember to use the -f flag because you modified the history

git push <your fork> <your branch> -f

Probably less elegant than other approaches here, but I've always used get reset --hard HEAD~N to undo multiple commits, where N is the number of commits you want to go back.

Or, if unsure of the exact number of commits, just running git reset --hard HEAD^ (which goes back one commit) multiple times until you reach the desired state.


If you want to temporarily revert the commits of a feature, then you can use the series of following commands.

Here is how it works

git log --pretty=oneline | grep 'feature_name' | cut -d ' ' -f1 | xargs -n1 git revert --no-edit

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.