6 git-subtree - Merge subtrees together and split repository into subtrees
12 'git subtree' [<options>] -P <prefix> add <local-commit>
13 'git subtree' [<options>] -P <prefix> add <repository> <remote-ref>
14 'git subtree' [<options>] -P <prefix> merge <local-commit> [<repository>]
15 'git subtree' [<options>] -P <prefix> split [<local-commit>]
18 'git subtree' [<options>] -P <prefix> pull <repository> <remote-ref>
19 'git subtree' [<options>] -P <prefix> push <repository> <refspec>
23 Subtrees allow subprojects to be included within a subdirectory
24 of the main project, optionally including the subproject's
27 For example, you could include the source code for a library
28 as a subdirectory of your application.
30 Subtrees are not to be confused with submodules, which are meant for
31 the same task. Unlike submodules, subtrees do not need any special
32 constructions (like '.gitmodules' files or gitlinks) be present in
33 your repository, and do not force end-users of your
34 repository to do anything special or to understand how subtrees
35 work. A subtree is just a subdirectory that can be
36 committed to, branched, and merged along with your project in
39 They are also not to be confused with using the subtree merge
40 strategy. The main difference is that, besides merging
41 the other project as a subdirectory, you can also extract the
42 entire history of a subdirectory from your project and make it
43 into a standalone project. Unlike the subtree merge strategy
44 you can alternate back and forth between these
45 two operations. If the standalone library gets updated, you can
46 automatically merge the changes into your project; if you
47 update the library inside your project, you can "split" the
48 changes back out again and merge them back into the library
51 For example, if a library you made for one application ends up being
52 useful elsewhere, you can extract its entire history and publish
53 that as its own git repository, without accidentally
54 intermingling the history of your application project.
57 In order to keep your commit messages clean, we recommend that
58 people split their commits between the subtrees and the main
59 project as much as possible. That is, if you make a change that
60 affects both the library and the main application, commit it in
61 two pieces. That way, when you split the library commits out
62 later, their descriptions will still make sense. But if this
63 isn't important to you, it's not *necessary*. 'git subtree' will
64 simply leave out the non-library-related parts of the commit
65 when it splits it out into the subproject later.
71 add <repository> <remote-ref>::
72 Create the <prefix> subtree by importing its contents
73 from the given <local-commit> or <repository> and <remote-ref>.
74 A new commit is created automatically, joining the imported
75 project's history with your own. With '--squash', import
76 only a single commit from the subproject, rather than its
79 merge <local-commit> [<repository>]::
80 Merge recent changes up to <local-commit> into the <prefix>
81 subtree. As with normal 'git merge', this doesn't
82 remove your own local changes; it just merges those
83 changes into the latest <local-commit>. With '--squash',
84 create only one commit that contains all the changes,
85 rather than merging in the entire history.
87 If you use '--squash', the merge direction doesn't always have to be
88 forward; you can use this command to go back in time from v2.5 to v2.4,
89 for example. If your merge introduces a conflict, you can resolve it in
92 When using '--squash', and the previous merge with '--squash' merged an
93 annotated tag of the subtree repository, that tag needs to be available locally.
94 If <repository> is given, a missing tag will automatically be fetched from that
97 split [<local-commit>] [<repository>]::
98 Extract a new, synthetic project history from the
99 history of the <prefix> subtree of <local-commit>, or of
100 HEAD if no <local-commit> is given. The new history
101 includes only the commits (including merges) that
102 affected <prefix>, and each of those commits now has the
103 contents of <prefix> at the root of the project instead
104 of in a subdirectory. Thus, the newly created history
105 is suitable for export as a separate git repository.
107 After splitting successfully, a single commit ID is printed to stdout.
108 This corresponds to the HEAD of the newly created tree, which you can
109 manipulate however you want.
111 Repeated splits of exactly the same history are guaranteed to be
112 identical (i.e. to produce the same commit IDs) as long as the
113 settings passed to 'split' (such as '--annotate') are the same.
114 Because of this, if you add new commits and then re-split, the new
115 commits will be attached as commits on top of the history you
116 generated last time, so 'git merge' and friends will work as expected.
118 When a previous merge with '--squash' merged an annotated tag of the
119 subtree repository, that tag needs to be available locally.
120 If <repository> is given, a missing tag will automatically be fetched from that
123 pull <repository> <remote-ref>::
124 Exactly like 'merge', but parallels 'git pull' in that
125 it fetches the given ref from the specified remote
128 push <repository> [+][<local-commit>:]<remote-ref>::
129 Does a 'split' using the <prefix> subtree of <local-commit>
130 and then does a 'git push' to push the result to the
131 <repository> and <remote-ref>. This can be used to push your
132 subtree to different branches of the remote repository. Just
133 as with 'split', if no <local-commit> is given, then HEAD is
134 used. The optional leading '+' is ignored.
136 OPTIONS FOR ALL COMMANDS
137 ------------------------
140 Suppress unnecessary output messages on stderr.
144 Produce even more unnecessary output messages on stderr.
148 Specify the path in the repository to the subtree you
149 want to manipulate. This option is mandatory
152 OPTIONS FOR 'add' AND 'merge' (ALSO: 'pull', 'split --rejoin', AND 'push --rejoin')
153 -----------------------------------------------------------------------------------
154 These options for 'add' and 'merge' may also be given to 'pull' (which
155 wraps 'merge'), 'split --rejoin' (which wraps either 'add' or 'merge'
156 as appropriate), and 'push --rejoin' (which wraps 'split --rejoin').
159 Instead of merging the entire history from the subtree project, produce
160 only a single commit that contains all the differences you want to
161 merge, and then merge that new commit into your project.
163 Using this option helps to reduce log clutter. People rarely want to see
164 every change that happened between v1.0 and v1.1 of the library they're
165 using, since none of the interim versions were ever included in their
168 Using '--squash' also helps avoid problems when the same subproject is
169 included multiple times in the same project, or is removed and then
170 re-added. In such a case, it doesn't make sense to combine the
171 histories anyway, since it's unclear which part of the history belongs
174 Furthermore, with '--squash', you can switch back and forth between
175 different versions of a subtree, rather than strictly forward. 'git
176 subtree merge --squash' always adjusts the subtree to match the exactly
177 specified commit, even if getting to that commit would require undoing
178 some changes that were added earlier.
180 Whether or not you use '--squash', changes made in your local repository
181 remain intact and can be later split and send upstream to the
185 --message=<message>::
186 Specify <message> as the commit message for the merge commit.
188 OPTIONS FOR 'split' (ALSO: 'push')
189 ----------------------------------
190 These options for 'split' may also be given to 'push' (which wraps
193 --annotate=<annotation>::
194 When generating synthetic history, add <annotation> as a prefix to each
195 commit message. Since we're creating new commits with the same commit
196 message, but possibly different content, from the original commits, this
197 can help to differentiate them and avoid confusion.
199 Whenever you split, you need to use the same <annotation>, or else you
200 don't have a guarantee that the new re-created history will be identical
201 to the old one. That will prevent merging from working correctly. git
202 subtree tries to make it work anyway, particularly if you use '--rejoin',
203 but it may not always be effective.
207 After generating the synthetic history, create a new branch called
208 <branch> that contains the new history. This is suitable for immediate
209 pushing upstream. <branch> must not already exist.
212 If you use '--rejoin', git subtree attempts to optimize its history
213 reconstruction to generate only the new commits since the last
214 '--rejoin'. '--ignore-joins' disables this behavior, forcing it to
215 regenerate the entire history. In a large project, this can take a long
219 If your subtree was originally imported using something other than git
220 subtree, its history may not match what git subtree is expecting. In
221 that case, you can specify the commit ID <onto> that corresponds to the
222 first revision of the subproject's history that was imported into your
223 project, and git subtree will attempt to build its history from there.
225 If you used 'git subtree add', you should never need this option.
228 After splitting, merge the newly created synthetic history back into
229 your main project. That way, future splits can search only the part of
230 history that has been added since the most recent '--rejoin'.
232 If your split commits end up merged into the upstream subproject, and
233 then you want to get the latest upstream version, this will allow git's
234 merge algorithm to more intelligently avoid conflicts (since it knows
235 these synthetic commits are already part of the upstream repository).
237 Unfortunately, using this option results in 'git log' showing an extra
238 copy of every new commit that was created (the original, and the
241 If you do all your merges with '--squash', make sure you also use
242 '--squash' when you 'split --rejoin'.
245 EXAMPLE 1. 'add' command
246 ------------------------
247 Let's assume that you have a local repository that you would like
248 to add an external vendor library to. In this case we will add the
249 git-subtree repository as a subdirectory of your already existing
250 git-extensions repository in ~/git-extensions/:
252 $ git subtree add --prefix=git-subtree --squash \
253 git://github.com/apenwarr/git-subtree.git master
255 'master' needs to be a valid remote ref and can be a different branch
258 You can omit the '--squash' flag, but doing so will increase the number
259 of commits that are included in your local repository.
261 We now have a ~/git-extensions/git-subtree directory containing code
262 from the master branch of git://github.com/apenwarr/git-subtree.git
263 in our git-extensions repository.
265 EXAMPLE 2. Extract a subtree using 'commit', 'merge' and 'pull'
266 ---------------------------------------------------------------
267 Let's use the repository for the git source code as an example.
268 First, get your own copy of the git.git repository:
270 $ git clone git://git.kernel.org/pub/scm/git/git.git test-git
273 gitweb (commit 1130ef3) was merged into git as of commit
274 0a8f4f0, after which it was no longer maintained separately.
275 But imagine it had been maintained separately, and we wanted to
276 extract git's changes to gitweb since that time, to share with
277 the upstream. You could do this:
279 $ git subtree split --prefix=gitweb --annotate='(split) ' \
280 0a8f4f0^.. --onto=1130ef3 --rejoin \
281 --branch gitweb-latest
283 $ git push git@github.com:whatever/gitweb.git gitweb-latest:master
285 (We use '0a8f4f0^..' because that means "all the changes from
286 0a8f4f0 to the current version, including 0a8f4f0 itself.")
288 If gitweb had originally been merged using 'git subtree add' (or
289 a previous split had already been done with '--rejoin' specified)
290 then you can do all your splits without having to remember any
293 $ git subtree split --prefix=gitweb --annotate='(split) ' --rejoin \
294 --branch gitweb-latest2
296 And you can merge changes back in from the upstream project just
299 $ git subtree pull --prefix=gitweb \
300 git@github.com:whatever/gitweb.git master
302 Or, using '--squash', you can actually rewind to an earlier
305 $ git subtree merge --prefix=gitweb --squash gitweb-latest~10
307 Then make some changes:
309 $ date >gitweb/myfile
310 $ git add gitweb/myfile
311 $ git commit -m 'created myfile'
313 And fast forward again:
315 $ git subtree merge --prefix=gitweb --squash gitweb-latest
317 And notice that your change is still intact:
319 $ ls -l gitweb/myfile
321 And you can split it out and look at your changes versus
324 git log gitweb-latest..$(git subtree split --prefix=gitweb)
326 EXAMPLE 3. Extract a subtree using a branch
327 -------------------------------------------
328 Suppose you have a source directory with many files and
329 subdirectories, and you want to extract the lib directory to its own
330 git project. Here's a short way to do it:
332 First, make the new repository wherever you want:
334 $ <go to the new location>
337 Back in your original directory:
339 $ git subtree split --prefix=lib --annotate="(split)" -b split
341 Then push the new branch onto the new empty repository:
343 $ git push <new-repo> split:master
348 Written by Avery Pennarun <apenwarr@gmail.com>
353 Part of the linkgit:git[1] suite