Side note: the octopus merge and the octopus branchpoint scenarios are very different. Please remember that pointers in DAG (directed acyclic graph) of commits point from child (newer commit) to parent or parents. So in the case of octopus merge you have commit (commit object) which has more than two parents; in the case of "octopus branchpoint" you simply have a few commits pointing to the same commit as its parent.
1 <---- M
2 <----/ |
P <----- 1
So I think naming of this question is simply wrong
Now, if what you want to do is to split modifications in your working area between different branches, to put each feature in separate topic branch, you can make use of explicit staging area (aka index) in Git.
Let's assume that you modified two files, 'a' and 'b', and you want modification to file 'a' to go to branch 'A', and modification in file 'b' to go to branch 'B'. Let's assume that the branch you are currently on, the branching point you want to be base of many branches you want to create, is named 'master'.
First, lets create branch 'A'
$ git checkout -b A master
Git replies with:
Switched to a new branch "A"
The "M" means that the files 'a' and 'b' are modified with respect to the point you based branch 'A' on (the 'master' branch). (Below, I will simply put git response below commandline invocation, instead of separately noting what's a reply.)
Let us add contents of file 'a' to the staging area (index).
$ git add a
Note that if you want to add only some subset of changes in file 'a' to branch 'A', you could use "git add --interactive" (abbreviated as "-i") or "git gui" to do per-hunk addition of changes to the staging area and other such manipulations.
Now we commit changes to branch 'A'
$ git commit
Created commit 35d0061: Commit description...
1 files changed, 1 insertions(+), 0 deletions(-)
Note that we didn't use the '-a' option to git-commit!
By the way, if you want to test changes before comitting from staging area, you can use "git stash save --keep-index" to get working area to the state you are to commit using "git commit", test changes, then go back to previous state using "git stash pop --index" (or "git stash pop"; I don't remember which one do you need here).
Now we create the other branch, branch 'B', based on branch 'master'
$ git checkout -b B master
Switched to a new branch "B"
You can easily see that the changes you have left for branch 'B' (the changes you didn't commit to branch 'A') goes to newly created branch 'B'. No need to delete files, or remove changes. No need to know what is in other branches. Everything is automatic.
Once again, add contents of file 'b' to staging area (index), and commit on branch 'B':
$ git add B
$ git commit
You can repeat this as often as necessary, and it doesn't get harder with the new branch.