I have cloned a public repository. In my local repository I have a branch structure like this where letters represent commits:
[public tag: v1] - A - B - C [myBranch1] \ \- D [myBranch2]
The public repo has moved and released a new tag "v2". I want to rebase my branches onto the new version so I did:
git rebase --onto v2 v1 myBranch1 git rebase --onto v2 v1 myBranch2
This seems to work, except it creates distinct copies of commits A and B with the same contents but different hash codes:
[public tag: v2] - A' - B' - C' [myBranch1] \ \A''- B''- D' [myBranch2]
I realize I could do something more complicated like:
git rebase --onto v2 v1 myBranch1 git rebase --onto myBranch1 B myBranch2
This should give me the result that I want but is quite a bit more complicated, particularly if/when I create more additional branches. It's far more error prone as I go fishing for commit hashcodes and have to keep track of where each branch diverged from which other branch.
1) Is there a better way to achieve this result? I guess you could suggest alternative workflows, but I'm pretty sure this is the kind of branch/commit structure I'd like to maintain.
2) Why do the hash codes of A' and A'' differ? Aren't they the product of applying the same diff/author/timestamp to the same baseline/contents? I realize the two are produced as two separate operations, but I would have expected those operations to be deterministic and therefore "collide"(correctly).