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git: why can't I delete my branch after a squash merge?

I have a git repo with mainline (equivalent to master) and some local feature branches. For example:

$ git branch
* mainline
  feature1
  feature2
  feature3

When I do the following, I am able to squash merge all of my edits in a feature branch into one commit to mainline:

$ git checkout mainline
$ git pull
$ git checkout feature1
$ git rebase mainline
$ git checkout mainline
$ git merge --squash feature1
$ git commit
$ git push

My question is, at this point, when I try to delete the feature1 branch, it tells me it is not fully merged:

$ git branch -d feature1
error: The branch 'feature1' is not fully merged.
If you are sure you want to delete it, run 'git branch -D feature1'.

What causes this error? I thought git merge --squash feature1 merged feature1 into mainline.

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This happens because Git doesn't know that the squash merge is "equivalent to" the various branch-specific commits. You must forcibly delete the branch, with git branch -D instead of git branch -d.

(The rest of this is merely about why this is the case.)

Draw the commit graph

Let's draw (part of) the commit graph (this step is appropriate for so many things in Git...). In fact, let's step back one more step, so that we start before your git rebase, with something like this:

...--o--o--o     <-- mainline
      
       A--B--C   <-- feature1

A branch name, like mainline or feature1, points only to one specific commit. That commit points back (leftward) to a previous commit, and so on, and it's these backward pointers that form the actual branches.

The top row of commits, all just called o here, are kind of boring, so we didn't give them letter-names. The bottom row of commits, A-B-C, are only on branch feature1. C is the newest such commit; it leads back to B, which leads back to A, which leads back to one of the boring o commits. (As an aside: the leftmost o commit, along with all earlier commits in the ... section, is on both branches.)

When you ran git rebase, the three A-B-C commits were copied to new commits appended to the tip of mainline, giving us:

...--o--o--o            <-- mainline
           
            A'-B'-C'   <-- feature1
        
         A--B--C       [old feature1, now abandoned]

The new A'-B'-C' commits are mostly the same as the original three, but they are moved in the graph. (Note that all three boring o commits are on both branches now.) Abandoning the original three means that Git usually doesn't have to compare the copies to the originals. (If the originals had been reachable by some other name—a branch that appended to the old feature1, for instance—Git can figure this out, at least in most cases. The precise details of how Git figures this out are not particularly important here.)

Anyway, now you go on to run git checkout mainline; git merge --squash feature1. This makes one new commit that is a "squash copy" of the three—or however many—commits that are on feature1. I will stop drawing the old abandoned ones, and call the new squash-commit S for Squash:

...--o--o--o--S         <-- mainline
            
             A'-B'-C'   <-- feature1

"Delete safety" is determined entirely by commit history

When you ask Git to delete feature1, it performs a safety check: "is feature1 merged into mainline?" This "is merged into" test is based purely on the graph connectivity. The name mainline points to commit S; commit S points back to the first boring o commit, which leads back to more boring o commits. Commit C', the tip of feature1, is not reachable from S: we're not allowed to move rightward, only leftward.

Contrast this with making a "normal" merge M:

...--o--o--o---------M   <-- mainline
                   /
             A'-B'-C'    <-- feature1

Using the same test—"is the tip commit of feature1 reachable from the tip commit of mainline?"—the answer is now yes, because commit M has a down-and-left link to commit C'. (Commit C' is, in Git internal parlance, the second parent of merge commit M.)

Since squash merges are not actually merges, though, there is no connection from S back to C'.

Again, Git doesn't even try to see if S is "the same as" A', B', or C'. If it did, though, it would say "not the same", because S is only the same as the sum of all three commits. The only way to get S to match the squashed commits is to have only one such commit (and in this case, there's no need to squash in the first place).


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