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If I understand it correctly, by:

$ git remote add github-repo <github-repo-url>
$ git checkout master                
$ git push github-repo master

I would be able to push changes to another repository. But that what that would do is it wold make these two repositories same, right?

In my situation:

  1. I have repository 1.
  2. I have almost same project at repository 2 but with slight changes and language localization.

What I would need to do instead of rewritting everything, is to leave my second repository as it is and only push updates from what is done in particular commit at first repository, so I can push only some updates, that do not affect language localization.

Is this possible somehow?

Thank you for your effort, guys!

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  • you want to push updates from second repo to the first right? – rasengan__ Mar 19 '20 at 10:27
  • I would like to have one repository as a "core"/"universal" repository and then second with language localization and slight changes in website graphics etc... Also another localization can come at the future. If I understand it correctly, I should do git remote add at repository 1? – Banik Mar 19 '20 at 10:34
  • If you do a git remote add <remote-name> <url of repo 1> in repo 2, I think that might work. – rasengan__ Mar 19 '20 at 10:41
1

Some very important corrections:

  • Git stores commits, not changes. You cannot push changes, because Git does not have changes.

  • Commits are history.

The way this works is that each commit has an ID number. If the ID numbers were just counting up, that might be more comprehensible—but the ID numbers are hash IDs, and look random. But those are still the IDs.

These IDs are shared across all Git repositories. Regardless of how many commits any given repository has, that repository can get another commit from some other Git. When it does, it uses the same ID number. This means that each commit ID is unique, across all Git repositories, for all commits. This makes it easy for each Git to know whether it has some commit: the other Git says do you have _____? (fill in the blank), and your Git checks the ID numbers.

Since each commit has a unique ID, each commit commit can list its previous commit's ID number. That makes commits form a backwards-pointing chain. If we draw these commits by replacing the actual hash ID with a single uppercase letter, this looks like:

... <-F <-G <-H

where H is the hash ID of the last commit in the chain. Commit H stores the raw hash ID of earlier commit G; G stores the hash ID of earlier commit F; and so on.

Each commit, meanwhile, stores a full snapshot of every file. And, when you git push some commit, you have your Git call up some other Git and offer it that commit, by its hash ID. The other Git checks: do I have this commit? If not, the other Git asks for it—and your Git is now obligated to offer the parent commit. So if you offer them H, and they say they want H, you must offer them G. If they don't have G yet, and therefore want it, you must offer them F, and so on.

Note that your branch names simply store the hash ID of the last commit in each branch. Hence if the last commit in your master is commit H, you have:

...--F--G--H   <-- master

(where I've gotten too lazy to draw the commit-to-commit arrows in their correct, i.e., backwards, direction). Note that your master is yours; some other Git repository will have its own name master, storing some hash ID. That hash ID might be the same H as in your repository, but might not.

Hence:

git push github-repo master ... would make these two repositories same, right?

Close, but not quite exact. This would call up whatever Git answers the Internet-phone-number at the URL listed under your name github-repo. It would then offer them the last commit in your master branch. If they need it, it would offer them the second to last commit, and so on. Once they get all these commits—all the commits needed to lead up to the last commit in your master—your Git would then ask them to set their master to point to H.

If their master already points to (say) commit F—the same hash ID you have in your Git—then they already have F and you'll send G and H, and ask them to set their master to point to H. Since H connects back to F, they will probably accept this request. You and they will now both have all the commits that are required to go from the beginning of the repository, up to and including commit H.

If, on the other hand, they have something like:

...--F--I--J   <-- master

where they have commits that you don't have, your offer will give them:

...--F--I--J   <-- master
      \
       G--H   [proposal: set master to point here]

They will say no because if they set their master to point to H, they'll lose commits I-J.

What I would need to do instead of rewriting everything, is to leave my second repository as it is and only push updates from what is done in particular commit at first repository, so I can push only some updates, that do not affect language localization.

Again, Git doesn't store changes. Git stores commits. If they have:

...--F--I--J   <-- master

in their repository, and you'd like to give them a fix that you made on H in your repository, what you will need to do initially is:

  • use git remote add to add a name for the URL by which you will call up their Git:

    git remote add github-repo <url>
    
  • use git fetch to get their commits:

    git fetch github-repo
    

You will now have, in your repository, a sequence that looks like this:

...--F--G--H   <-- master (HEAD)
      \
       I--J   <-- github-repo/master

(The (HEAD) here is to remember which branch you have git checkout-ed. Right now you have only one, but we're about to add one.)

That is, your Git adds a new name to your repository. This name is a remote-tracking name, rather than a branch name. It starts with the name you invented to hold the URL for their Git, in this case, github-repo. Then it has a slash to separate it from the remaining part, and then it has their branch name.

This remote-tracking name is your Git's memory of their Git's branch name. All remote-tracking names work this way; you probably have some origin/* remote-tracking names right now. Use git branch -r to list your remote-tracking names. Use git branch -a to list your branch names and your remote-tracking names.1

You can now create a new branch name in your repository. This branch name is yours and you can call it whatever you want, although if you want to call it master you have the problem that you already have a branch name master that you're using to remember the hash ID of your commit H. So you probably want some other name. I will use the name them here (you should probably invent a better name):

git branch them github-repo/master
git checkout them

or, to combine it into one command:

git checkout -b them github-repo/master

You now have, in your repository:

...--F--G--H   <-- master
      \
       I--J   <-- them (HEAD), github-repo/master

You will now have, in your work-tree (and index as well), the result of checking out commit J. This is a commit you got from them in the git fetch step. It's the last commit in their master, and now also the last commit in your them.

You should now make changes to this commit. The changes you want may well be those represented by comparing your snapshot H to your snapshot G, assuming that between G and H you made the change that you'd like to give to them.

We'll assume here that you don't want to give them changes you made between commits F and G. If those changes should remain private, you'll need to be sure you do not give them commit G, nor any snapshot that contains changes taken from there.

You now need to copy the effects of commit H. To do this, you can use git cherry-pick.


1For no obvious reason, git branch -a sticks the word remotes/ in front of your remote-tracking names. In fact, your remote-tracking names are all shortened when you see them with either git branch -r or git branch -a: they all have the full form refs/remotes/remote/name, where remote is the remote and name is the branch's name on that remote. But your branch names are also shortened: master is really refs/heads/master. All of Git's names—branch names, tag names, remote-tracking names, and others—are unified via this refs/ thing, and then split into various name spaces to distinguish what kind of name each one is.


Cherry-pick copies the changes of a commit

We said earlier that commits don't store changes. They only have snapshots. That's true—but suppose we take two commits that are right in a row, with their two snapshots, and compare the two? That is, suppose we have:

...--G--H--...

There's a snapshot in commit G, and another snapshot in commit H. If we extract G to one temporary area, and H to another, and compare the snapshots, we'll see what changed.

That's what git diff does, for instance: git diff <hash-of-G> <hash-of-H> will extract the two snapshots and compare them and tell you what changed. That's what git log -p does too, and that's what git show <hash> does: they both find the parent of a commit, compare the parent to the commit, and show you what changed.

The cherry-pick command makes use of this. By comparing the parent and child commits, cherry-pick can see what changed. Then it can apply those same changes to your current commit. So, given this:

...--F--G--H   <-- master
      \
       I--J   <-- them (HEAD), github-repo/master

and your work-tree and index matching existing commit J, you can run:

git cherry-pick <hash-of-H>

or:

git cherry-pick master

and get Git to compare G vs H, see what changed, and make the same changes now and commit them.2 If all goes well, the result is:

...--F--G--H   <-- master
      \
       I--J   <-- github-repo/master
           \
            H'  <-- them (HEAD)

where H' is a sort of copy of H: J vs H' show the same changes as G vs H. The cherry-pick command copies the commit log message from H, too.


2This comparison actually uses Git's merge machinery. Git will not only compare G vs H, but also compare G vs J, and then merge these diffs. The effect, though, is almost the same as just applying the G-vs-H patch to commit J.


We're now ready to git push

Now that we have commit H' as the last commit of our branch them, we can use git push to send this commit—H'—to the Git over at github-repo. To do this, we'll run:

git push github-repo them:master

Our Git will call up their Git, using the URL stored in the name github-repo. We'll now offer them commit H': the one identified by our branch name them. They will not have this commit, so they will say please send that one. We'll immediately offer them commit J because that's the parent commit of H', but they have J, so they will say no thanks, I have that one already.

Hence, we'll just send the one commit that we wanted to send.

Now that they have H', we'll ask them to set their master. That's what them:master is about, in this git push command: we choose the commits to send from our them, then ask them to set their master. Since H' just adds on to existing commit J, they can accept this request. Assuming they do accept this, they will have, in their repository, the sequence:

...--F--I--J--H'  <-- master

and our Git will update our memory of their master so that we have:

...--F--G--H   <-- master
      \
       I--J--H'   <-- them (HEAD), github-repo/master

and we're all good now—unless, perhaps, we'd like to add to our master. (In which case, we can just git merge github-repo/master at this point. There are a lot of options here and what to do depends on how you want to work with this.)

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