Other people's answers are right, but I wanted to specifically answer your questions
Now, what's the point of cloning the whole thing?
You now have your own private repository. This makes a lot of operations faster because they're local, but also allows you to make changes that are private until you want to share them.
The knock on effect of this is that developers can separate 'checking-in' with publishing their work. This means that you don't get large periods of time when nothing is checked in, because "it's not ready to go public".
When Dev A changes RootViewController, then Dev B wants to continue work based on that change. Or not? But how will Dev B ever get that change?
When Dev A is happy to share his changes, he can either:
- 'push' his changes the original repo that they both cloned. Dev B can then 'pull' them from the original repo.
- 'serve' his repo, so Dev B can 'pull' directly from him.
- 'bundle' up his changes into a file, which can be sent to Dev B. He can then 'unbundle' them into his repo.
- ...probably some other methods I've forgotten.
By cloning the whole thing every day?
Cloning is only done to create a new copy of a repository. Think "svn co".
You normally 'pull' change-sets into a repo, a bit like 'svn update'
How about his own changes? Is there some kind of super merge operation that merges all clones into one big superclone which everyone would have to replace with his individual clone once in a while?
When change-sets are brought into a repo (e.g. via 'pull') they will exist on another branch. The repository will be said to have multiple 'heads', which are the open ends of branches. By merging these heads he'll get a single version which contains the changes from both branches. Dev B can then continue working on top of that. You would get a graph that looked something like this.
/----o----o Head 'Dev A'
\----o----o Head 'Dev B'
----O Central \
\----o----o----o Head 'Dev B'
This merging might sound like a lot of extra work, but because Mercurial uses the information about when the developers split, and doesn't just 'diff' the two heads, it's pretty smart. In general, merge conflicts are rare.
Maybe Dev A does some more work, and then publishes to the central repo (Note: previously Dev B got Dev A's changes directly from him. Maybe B is working on a feature that relies on A's code, and needed a beta version of the code early). You could end up with a graph like this:
Dev A /----o----o----o----o----o----o----o--\
/ \ \ \
----O Central \ \ o--\ /-o
\ \ \ \ /
Dev B \----o----o----o----o----o----o----o----o----o----o
Dev B has taken a couple of snapshots of Dev A's code during development, and when Dev A published his final code to the central repository, Dev B was able to pull the extra changes, merge with them, and push all of his changes back to the central repo too. Because mercurial knew about the snapshots B had of A's code, it didn't get confused when it pulled from the central repo. It just said "Oh, I've already got some of this."
So, for me the two killer features of DVCS are:
- Checking in no longer means publishing.
- Developers can share code in a controlled way, without going through the central repo and therefore publishing.
Wow, that got long, but hope it helps.