Technically—and I claim this is a bit stupid of git, the
pull script (it's a shell script) should just do this for you—you have to run
git pull --rebase=preserve rather than attempting to use
git pull --rebase --preserve-merges. (Or, as I noted in a comment on Vlad Nikitin's answer, you can set
preserve to get the same effect automatically.)
In other words, you should never run
git pull --rebase --preserve-merges as it (incorrectly) passes
--preserve-merges to the
fetch step, instead of to the
rebase step. However, you can run
git pull --rebase=preserve.
The question of when (and whether) to use any kind of rebase, whether merge-preserving or not, is more a matter of opinion. Which means it really does not go well on stackoverflow in the first place. :-)
Still, I'll make one claim here: you should only rebase if you know (in a sort of general sense) what you are doing,1 and if you do know what you are doing, you would probably prefer a merge-preserving rebase as a general rule, although by the time you've decided that rebasing is a good idea, you will probably find that a history that has its own embedded branch-and-merge-points is not necessarily the correct "final rewritten history".
That is, if it's appropriate to do a rebase at all, it's at least fairly likely that the history to be rebased is itself linear, so that the preserve-vs-flatten question is moot anyway.
Edit: add drawing
Here's a drawing of part of a commit graph, showing two named branches,
experiment. The common base for
experiment is commit node
mainline has a commit
G that is not on the
...--o--A-------------G <-- mainline
B E--F <-- experiment
Note that the
experiment branch has a branch-and-merge within it too, though: the base for these two branches is
B, one branch holds commit
C, and the other branch holds commit
D. These two (unnamed) branches shrink back to a single thread of development at merge commit
E, and then commit
F sits atop the merge commit and is the tip of branch
Here's what happens if you are on
experiment and run
git rebase mainline:
$ git rebase mainline
First, rewinding head to replay your work on top of it...
Here's what is now in the commit graph:
...--o--A--G <-- mainline
B'-C'-D'-F' <-- experiment
The "structural branch" that used to be there on branch
experiment is gone. The
rebase operation copied all the changes I'd made in commits
F; these became the new commits
E was a pure merge with no changes and did not require copying. I have not tested what happens if I rebase a merge with embedded changes, either to resolve conflicts or, as some call it, an "evil merge".)
On the other hand, if I do this:
$ git rebase --preserve-merges mainline
[git grinds away doing the rebase; this takes a bit longer
than the "flattening" rebase, and there is a progress indicator]
Successfully rebased and updated refs/heads/experiment.
I get this graph instead:
...--o--A--G <-- mainline
B' E'-F' <-- experiment
This has preserved the merge, and hence the "internal branchiness", of
experiment. Is that good? Bad? Indifferent? Read the (very long) footnote!
1It's a good idea to learn "what rebase does" anyway, which in git (alas!) pretty much requires learning "how it does it" as well, at least on a medium-level. Basically, rebase makes copies of (the changes from your earlier) commits, which you then apply to (your or someone else's) later commits, making it "seem like" you did the work in some other order. A simple example: two developers, let's say Alice and Bob, are both working on the same branch. Let's say that Marketing has asked for a feature code-named Strawberry, and both Alice and Bob are doing some work to implement
strawberry, both on a branch named
Alice and Bob both run
git fetch to bring
strawberry over from
Alice discovers that file
abc needs some change to prepare for the new feature. She writes that and commits, but does not push yet.
Bob writes a description of the new feature, that changes file
README, but has no other effect. Bob commits his change and pushes.
Alice then updates file
feat to provide the actual feature. She writes and commits (separately) that, and is now ready to push. But, oh no, Bob beat her to it:
$ git push origin strawberry
! [rejected] strawberry -> strawberry (non-fast-forward)
Alice should then fetch the changes and look at them (not just blindly merge or rebase):
$ git fetch
$ git log origin/strawberry
gitk or whatever—I tend to use
git lola myself, and
git show individual commits if/as needed).
She can see from this that Bob only changed the
README, so her changes are definitely not affected either way. At this point, she can tell that it's safe to rebase her changes onto
$ git rebase origin/strawberry
(note that there are no merges to preserve), which makes it look (in terms of git history) like she first waited for Bob to update the documentation, and only then actually started to implement the changes—which are still split into two separate commits so that it's easy to tell, later, whether the change to file
abc broke anything else. Those two separate commits are now adjacent, though, so it's easy to tell, later, that the point of the change to
abc was to enable the change to file
feat. And since the change to
README comes first, it's even more clear that the this was the point of the change to
abc. Not that it would be hard to tell even if Alice just did:
$ git merge origin/strawberry
instead, although that creates a merge commit whose only point seems to be to say "Alice started in on
abc before Bob finished updating
README, and finished
feat after", which is not really helpful.
In more complex cases, where Bob did more than just update the documentation, Alice might find that it's best to rearrange her own commits (probably more than two in this case) into a new, different linear history, so that some of Bob's changes (this time, probably more than one commit) are "in the middle", for instance, as if they had co-operated in real time (and who knows, maybe they did). Or she might find that it's better to keep her changes as a separate development line that merges, perhaps even more than once, with Bob's changes.
It's all a matter of what will provide the most useful information to someone(s)—possibly Alice and Bob, possibly other developers—in the future, if and when it becomes necessary to go back and look at the (apparent, if rebased, or actual if not) sequence of events. Sometimes each individual commit is useful information. Sometimes it's more useful to rearrange and combine commits, or drop some commits entirely: for instance, changes that proved to be a bad idea. (But consider leaving them in just for the value of pointing out "this was a bad idea so don't try it again in the future" as well!)