Every Git repository has its own copies of names. Each name maps to exactly one hash ID, e.g., in your sample:
you've suggested that
refs/heads/fix-async-stdout-order maps to hash ID
refs/pull/10/head maps to hash ID
The names are things that Git calls refs or references. (The hash IDs are the hashes that you should be quite familiar with by now.)
In most cases, when you give Git a name, Git just immediately turns it into the underlying hash ID. The hash IDs are what really matter: the names are mainly provided to allow us, mere humans, to deal with the real names that are the hash IDs. The hash IDs never change: they always uniquely identify that particular content—that one specific commit, for instance. The commit and its hash ID are forever, while one or more names can be created or destroyed at will or whim.2
When a name identifies a commit, we can use the name directly to find the commit:
refs/heads/fix-async-stdout-order, for instance, identifies commit
c31a55. But commits also allow us to find their immediate parent commits: from
c31a55 we can work backwards to whatever its parent is, and from that parent we can work backwards another step to another commit, and so on, all the way back to the beginning of time in the repository. So a name like this not only serves to find the one commit whose hash ID it stores, but also all earlier commits in its chain.
When the name is a branch name—as this one is—Git also allows us to use it specially with
git checkout. The
git checkout command attaches another special name,
HEAD, to the branch name. Git now considers us to be "on" the branch, so that if we make new commits, Git will automatically change the hash ID stored under that branch name.
That is, after:
git checkout fix-async-stdout-order
if we do some work and then make a new commit, the name
fix-async-stdout-order—which is really
refs/heads/fix-async-stdout-order, we've just shortened it for display purposes—will stop pointing to commit
c31a55 and start, instead, to point to our new commit. Our new commit will have
c31a55 as its parent.
This property, of being able to get "on" a branch, is only allowed for branch names. Git has many names: branch names, tag names, remote-tracking names, and so on. All of them are references, but only references whose spelling starts with
refs/heads/ are branch names.
refs/tags/v1.2, if it exists, is the tag named
refs/remotes/origin/master, if it exists, is the remote-tracking name
Each of these prefixes—
refs/remotes/—represents a namespace. References in the
refs/heads/ namespace are branch names.
Besides being special in terms of allowing
git checkout to use them in the way described above, the other special feature of a branch name occurs when a client Git—such as your own Git—connects to a server Git. The server Git displays, for the client, all of its names, including the branch names, along with the hash IDs that those names represent. The client Git copies down the server's branch names but changes them at the same time, so that what the server calls
refs/heads/master, the client calls
This process is how your Git comes to have remote-tracking names in the first place. The server Git has its branches, and your Git comes along—when you run
git fetch—and sees and then remembers their branches as your remote-tracking
origin/* names. These live in your Git, in the
This process occurs only for branch names!3 Since
refs/pull/10/head does not start with
refs/heads/, it is not a branch name. The process does not apply to
refs/pull/10/head. So that's why and how
heads differs from
1These are both abbreviated hash IDs; actual hash IDs are currently always 40 characters long.
2The caveat here is that without a name that allows you to find a commit, or other Git object, that commit or other object is now unprotected from Git's garbage collection process. So not only do names allow us to find the last commit in a chain, they also protect that commit and all of its predecessors from being taken out as trash.
3The process is programmable, through what Git calls refspecs. The description above applies only to the default refspecs that you get when you run
git clone. If you make up your own refspecs, you can change what happens here. See the
git fetch documentation and note that
remote.origin.fetch is a cumulative setting; each instance of
remote.origin.fetch provides one refspec.
The default at clone time is for Git to create one
remote.origin.fetch setting, that either copies all of their branches to your remote-tracking names, or copies one of their branches to one remote-tracking name if you opted for
--single-branch during cloning.