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I had an interesting thing happen using git, wondering if anyone could explain it to me so I can understand better.

When doing a merge of multiple branches (A,B),

git merge A B

fails as non-fast-forward, while

git merge B A

worked well. Why would that be?

share|improve this question
What kind of conflicts did you get? I think in general this is going to be because the change made by B made A easier to merge, e.g. A tried to patch a file which doesn't exist until it's renamed to that name in B. – Jefromi Jun 29 '11 at 14:24
up vote 29 down vote accepted

Let's assume that A is a strict, direct child of the current branch. Then assume that B is a strict, direct child of A.

The octopus merge, which processes heads given as arguments from left to right, incrementally with respect to the tree, but independently with respect to the index succeeds without conflict if it tries to apply B and then A, but encounters a conflict if it does the convert.

As per the git-merge manual, section MERGE STRATEGIES:

   This resolves cases with more than two heads, but refuses to do a
   complex merge that needs manual resolution.

For instance:

 ~                 $ git init testdir && cd testdir && echo "This is C" > myfile
 Initialized empty Git repository in /home/huitseeker/testdir/.git/
 ~/testdir         $ git add myfile && git commit -m "C" 
 [master (root-commit) f0c8c82] C
  1 files changed, 1 insertions(+), 0 deletions(-)
  create mode 100644 myfile
 ~/testdir(master) $ git checkout -b "A" && echo "This is A1" > myfile
 Switched to a new branch 'A'
 ~/testdir(A)      $ git commit -m "A1" myfile
 [A ac5b51c] A1
  1 files changed, 1 insertions(+), 1 deletions(-)
 ~/testdir(A)      $ git checkout -b "B" && echo "This is B1" >> myfile
 Switched to a new branch 'B'
 ~/testdir(B)      $ git commit -m "B1" myfile
 [B 5bc838c] B1
  1 files changed, 1 insertions(+), 0 deletions(-)
 ~/testdir(B)      $ git checkout master
 Switched to branch 'master'
 ~/testdir(master) $ git merge B A
 Fast-forwarding to: B
 Already up-to-date with A
 Merge made by octopus.
  myfile |    3 ++-
  1 files changed, 2 insertions(+), 1 deletions(-)
 ~/testdir(master) $ git reset --hard HEAD^^^
 HEAD is now at f0c8c82 C
 ~/testdir(master) $ git merge A B
 Fast-forwarding to: A
 Fast-forwarding to: B
 error: Entry 'myfile' would be overwritten by merge. Cannot merge.
 Merge with strategy octopus failed.
 ~/testdir(master) $ cat myfile
 This is A1

Indeed, when fast-forwarding to A, the label of master has not been pushed forward, though the tree has.

 ~/testdir(master) $ git status
 # On branch master
 # Changes to be committed:
 #   (use "git reset HEAD <file>..." to unstage)
 #  modified:   myfile

If, looking at the code of what the octopus merge does, I perform this manually (look above for hashes):

 ~/testdir(master) $ git reset --hard f0c8c82
 HEAD is now at f0c8c82 C     
 ~/testdir(master) $ git read-tree -u -m f0c8c82 ac5b51c
 ~/testdir(master) $ git read-tree -u -m f0c8c82 5bc838c
 error: Entry 'myfile' would be overwritten by merge. Cannot merge.

In the other direction (merge B A), now, if you look again at the code of merge-octopus, it tries to detect the branch we are trying to add is already in the tree (second case of the for loop). Indeed, at the merge of A, it sees ac5b51c (a.k.a. A's head) is the common ancestor of A and B, and aborts without doing the second read-tree.

This behavior is consistent with the fresh version of git : though I've pointed to v.1.3.1, this is still happening with my version.

 ~/testdir(master) $ git --version
 git version

tl;dr : you want your octopus merge branches to touch distinct files

share|improve this answer
Your link doesn't really explain what you mean by direct upstream. My best guess is that you mean the merge would be a fast-forward, i.e. B is a "strict, direct upstream" of A means that A is an ancestor of B. In that case, your example doesn't work. In the first case, both merges are fast-forwards, and all is good, and in the second case, the first is a fast-forward and the second is already merged and therefore a no-op, not a cause of merge conflicts. – Jefromi Jun 29 '11 at 14:12
You are right, I was grossly imprecise. I have edited my answer to reflect your comments, added the crucial indication that octopus does not update the head index between merge applications, and included a minimal example. – huitseeker Jun 29 '11 at 16:16
Awesome, now that's an answer. – Jefromi Jun 29 '11 at 19:43
Link to is dead (404). – Pang Jun 25 '13 at 9:10

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