The way you have drawn it, C
has all B
plus some, D
has all C
plus some, and E
has all D
plus some, so when you merge E
into A
, you get all of D
, C
, and B
into A
, so A
will have it all.
If you say that you can merge any of B
, C
, D
or E
, in any order and ask "How will Git know what commits to merge each time"? Well, that's one of the the big ideas of git merge - git will go back and realize what has already been merged in and won't try to remerge those changes. For instance, if you merge B
, which is composed of B1
, B2
, and B3
and then merge C
(which is composed of C1
, C2
, C3
+ B
(B1
, B2
, B3
)), then git looks at the merge history and finds all the commits that are already reached from the merge point and finds the ones that are not reached and merges those that are not reachable - that's how it knows what to merge (in this case, it would be C1
, C2
, C3
since it finds that B1
, B2
, B3
are reachable). So, internally, for instance, if you have already merged B
into A
and then tell it to merge C
into A
, git identifies the un-merged commits by doing something like git rev-list C --not A
and merges those commits.The key to understanding this is to think about it like a graph and realize that git is simply trying to figure out which parts of the graph are not reachable from the merge point and the branch to be merged and those are the changes that it then wants to merge in.
If you continue on B
(with B4
) after the merge of B
, that's fine, you can simply remerge branch B
and it will take in just the new changes from B
onto A
because it does that graph traversal that I just described and realizes that B1
, B2
, and B3
have already been merged, and now its just this new B4
that it needs to merge.