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The above is the result of merge and rebase.

My question is that in the final state ,are C5 and C3' identical?

Or say,git rebase is equal to git merge + remove C3?


The example isn't very good, because it only consider one commit (merged or rebased), giving you the impression that the resulting commits are similar. In general, a rebase will add multiple commits, while a merge will add at most one (fast-forward merges add none).

Moreover, as long as there is no conflict to solve, or if you solve said conflicts the same way each time, the final content of C3' and C5 will be the same but they remain different commits (since C3' and C5 have different parents, they'll also have different hashes, a fact that is more obvious in the illustrations below). Correspondingly, the recorded history for each is different. Note for the rebase, the history is linear, while for the merge it's a lattice.

Consider the same question when merging/rebasing several commits, as illustrated in "A Visual Git Reference" from Mark Lodato. You will see that the end result is quite different.

git checkout master
git merge other # update master with tip of branch 'other' changes

git merge other

You take only:

  • the current commit (ed489 below since you are on master),
  • the latest commit of branch other (which is a snapshot representing the full content of the repo when branched in 'other', not a delta)
  • their common ancestor (b325c), and performs a three-way merge.

For the meaning of the working directory and stage in this diagram, note the arrows going to the three-way merge, then to the working directory and stage. The working directory represents all the files that you see (on your hard drive), some of which are changed as a result of the three-way merge. The stage holds the files changed by the three-way merge, which is then used to create the new commit (f8bc5).

This is very different from a rebase which strives to reapply each and every commit of a branch on top of the destination branch:

git checkout topic # this time we are on topic
git rebase master  # means: recreate every topic commits on top of master
                           at the end, we are still on (new) 'topic' branch

git rebase master

The above command takes all the commits that exist in 'topic' but not in master (namely 169a6 and 2c33a), replays them onto master, and then moves the branch head to the new tip. Note that the old commits will be [eventually] garbage collected if they are no longer referenced.

Rebasing uses the working directory and the staging area as it replays the commits (apply changes to working directory, add changes to staging area, commit the staged changes, repeat). Once all this is done, the head of the rebased branch is set to the last of the new commits (f7e63).

2 additional differences:

  • I now have this doubt,is the net result the same when you do git push ,no matter you do git merge or git rebase? Maybe the committing message will be lost though.. – asker Aug 15 '11 at 8:20
  • @asker: git push is about updating a remote repo with the new merges done locally (default being "all changes on the local branches that have matching remote branches"). If that remote repo hadn't had any new changes pushed by others, then the commits pushed will be identical (same SHA1). The fact that those local commits (that you are pushing) are the result of a merge or a rebase doesn't matter. – VonC Aug 15 '11 at 8:26
  • Not identical,as git merge will compress multiple commits into a single commit, the committing message will be lost .. – asker Aug 15 '11 at 8:32
  • I don't understand the links of Working Directory and Stage in the first chart .. – asker Aug 15 '11 at 8:55
  • 1
    @kevinmajor1 git rebase has its use: see stackoverflow.com/questions/457927/… and stackoverflow.com/questions/804115/git-rebase-vs-git-merge?lq=1 – VonC Sep 18 '12 at 15:38

No. C5 and C3' will have different parent commits, meaning they will themselves be different.

If you are asking whether the root treeish referenced by C5 and C3' will be identical, then yes (assuming that any conflicts were resolved the same way). In other words, the tree of files "contained in" both commits will be the same.

  • git rebase is equal to git merge + remove C3? – asker Aug 15 '11 at 6:26
  • Not precisely, but the resulting treeish should be identical, yes. – cdhowie Aug 15 '11 at 6:31
  • Why do you say not precisely ?IMO the're exactly the same, when remove C3,will point experiment to C5. – asker Aug 15 '11 at 6:33
  • In this case, they are roughly identical. But they would not be identical if you were rebasing more than one commit. – cdhowie Aug 15 '11 at 6:36
  • Isn't rebasing more than one commit just doing rebasing one commit more than once? If they're the same when doing once,they're still the same after doing more than once.. – asker Aug 15 '11 at 6:39

If you look at just the contents of the commits (i.e. not what are their parents) then both C5 and C3' contain the same thing (assuming there were no merge conflicts or other things requiring manual change). So somebody could think of it as being the same as if C3 had been removed, for some definition of "remove C3". But in Git it's not possible to remove any commits (all commits are immutable), so the operation of removing a commit from the tree is not defined for Git.

  • Wrong, AFAIK git commit -a --ameng will also destroy a state,search destroy in this article: cworth.org/hgbook-git/tour – asker Aug 15 '11 at 6:43
  • No. It creates a new commit. The old commit is not lost and you can get it back with git reflog (or git checkout if you remember the commit hash). The only command which removes commits is git gc. – Esko Luontola Aug 15 '11 at 6:48
  • So git CAN remove commits. – asker Aug 15 '11 at 6:49
  • A good article for understanding how Git works is eagain.net/articles/git-for-computer-scientists – Esko Luontola Aug 15 '11 at 6:50
  • It won't remove commits which are reachable from a branch, and it cannot change the parents of any commit. – Esko Luontola Aug 15 '11 at 6:51

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