1git-subtree(1) 2============== 3 4NAME 5---- 6git-subtree - Merge subtrees together and split repository into subtrees 7 8 9SYNOPSIS 10-------- 11[verse] 12'git subtree' add -P <prefix> <refspec> 13'git subtree' add -P <prefix> <repository> <refspec> 14'git subtree' pull -P <prefix> <repository> <refspec...> 15'git subtree' push -P <prefix> <repository> <refspec...> 16'git subtree' merge -P <prefix> <commit> 17'git subtree' split -P <prefix> [OPTIONS] [<commit>] 18 19 20DESCRIPTION 21----------- 22Subtrees allow subprojects to be included within a subdirectory 23of the main project, optionally including the subproject's 24entire history. 25 26For example, you could include the source code for a library 27as a subdirectory of your application. 28 29Subtrees are not to be confused with submodules, which are meant for 30the same task. Unlike submodules, subtrees do not need any special 31constructions (like .gitmodule files or gitlinks) be present in 32your repository, and do not force end-users of your 33repository to do anything special or to understand how subtrees 34work. A subtree is just a subdirectory that can be 35committed to, branched, and merged along with your project in 36any way you want. 37 38They are also not to be confused with using the subtree merge 39strategy. The main difference is that, besides merging 40the other project as a subdirectory, you can also extract the 41entire history of a subdirectory from your project and make it 42into a standalone project. Unlike the subtree merge strategy 43you can alternate back and forth between these 44two operations. If the standalone library gets updated, you can 45automatically merge the changes into your project; if you 46update the library inside your project, you can "split" the 47changes back out again and merge them back into the library 48project. 49 50For example, if a library you made for one application ends up being 51useful elsewhere, you can extract its entire history and publish 52that as its own git repository, without accidentally 53intermingling the history of your application project. 54 55[TIP] 56In order to keep your commit messages clean, we recommend that 57people split their commits between the subtrees and the main 58project as much as possible. That is, if you make a change that 59affects both the library and the main application, commit it in 60two pieces. That way, when you split the library commits out 61later, their descriptions will still make sense. But if this 62isn't important to you, it's not *necessary*. git subtree will 63simply leave out the non-library-related parts of the commit 64when it splits it out into the subproject later. 65 66 67COMMANDS 68-------- 69add:: 70 Create the <prefix> subtree by importing its contents 71 from the given <refspec> or <repository> and remote <refspec>. 72 A new commit is created automatically, joining the imported 73 project's history with your own. With '--squash', imports 74 only a single commit from the subproject, rather than its 75 entire history. 76 77merge:: 78 Merge recent changes up to <commit> into the <prefix> 79 subtree. As with normal 'git merge', this doesn't 80 remove your own local changes; it just merges those 81 changes into the latest <commit>. With '--squash', 82 creates only one commit that contains all the changes, 83 rather than merging in the entire history. 84 85 If you use '--squash', the merge direction doesn't 86 always have to be forward; you can use this command to 87 go back in time from v2.5 to v2.4, for example. If your 88 merge introduces a conflict, you can resolve it in the 89 usual ways. 90 91pull:: 92 Exactly like 'merge', but parallels 'git pull' in that 93 it fetches the given commit from the specified remote 94 repository. 95 96push:: 97 Does a 'split' (see below) using the <prefix> supplied 98 and then does a 'git push' to push the result to the 99 repository and refspec. This can be used to push your 100 subtree to different branches of the remote repository. 101 102split:: 103 Extract a new, synthetic project history from the 104 history of the <prefix> subtree. The new history 105 includes only the commits (including merges) that 106 affected <prefix>, and each of those commits now has the 107 contents of <prefix> at the root of the project instead 108 of in a subdirectory. Thus, the newly created history 109 is suitable for export as a separate git repository. 110 111 After splitting successfully, a single commit id is 112 printed to stdout. This corresponds to the HEAD of the 113 newly created tree, which you can manipulate however you 114 want. 115 116 Repeated splits of exactly the same history are 117 guaranteed to be identical (ie. to produce the same 118 commit ids). Because of this, if you add new commits 119 and then re-split, the new commits will be attached as 120 commits on top of the history you generated last time, 121 so 'git merge' and friends will work as expected. 122 123 Note that if you use '--squash' when you merge, you 124 should usually not just '--rejoin' when you split. 125 126 127OPTIONS 128------- 129-q:: 130--quiet:: 131 Suppress unnecessary output messages on stderr. 132 133-d:: 134--debug:: 135 Produce even more unnecessary output messages on stderr. 136 137-P <prefix>:: 138--prefix=<prefix>:: 139 Specify the path in the repository to the subtree you 140 want to manipulate. This option is mandatory 141 for all commands. 142 143-m <message>:: 144--message=<message>:: 145 This option is only valid for add, merge and pull (unsure). 146 Specify <message> as the commit message for the merge commit. 147 148 149OPTIONS FOR add, merge, push, pull 150---------------------------------- 151--squash:: 152 This option is only valid for add, merge, push and pull 153 commands. 154 155 Instead of merging the entire history from the subtree 156 project, produce only a single commit that contains all 157 the differences you want to merge, and then merge that 158 new commit into your project. 159 160 Using this option helps to reduce log clutter. People 161 rarely want to see every change that happened between 162 v1.0 and v1.1 of the library they're using, since none of the 163 interim versions were ever included in their application. 164 165 Using '--squash' also helps avoid problems when the same 166 subproject is included multiple times in the same 167 project, or is removed and then re-added. In such a 168 case, it doesn't make sense to combine the histories 169 anyway, since it's unclear which part of the history 170 belongs to which subtree. 171 172 Furthermore, with '--squash', you can switch back and 173 forth between different versions of a subtree, rather 174 than strictly forward. 'git subtree merge --squash' 175 always adjusts the subtree to match the exactly 176 specified commit, even if getting to that commit would 177 require undoing some changes that were added earlier. 178 179 Whether or not you use '--squash', changes made in your 180 local repository remain intact and can be later split 181 and send upstream to the subproject. 182 183 184OPTIONS FOR split 185----------------- 186--annotate=<annotation>:: 187 This option is only valid for the split command. 188 189 When generating synthetic history, add <annotation> as a 190 prefix to each commit message. Since we're creating new 191 commits with the same commit message, but possibly 192 different content, from the original commits, this can help 193 to differentiate them and avoid confusion. 194 195 Whenever you split, you need to use the same 196 <annotation>, or else you don't have a guarantee that 197 the new re-created history will be identical to the old 198 one. That will prevent merging from working correctly. 199 git subtree tries to make it work anyway, particularly 200 if you use --rejoin, but it may not always be effective. 201 202-b <branch>:: 203--branch=<branch>:: 204 This option is only valid for the split command. 205 206 After generating the synthetic history, create a new 207 branch called <branch> that contains the new history. 208 This is suitable for immediate pushing upstream. 209 <branch> must not already exist. 210 211--ignore-joins:: 212 This option is only valid for the split command. 213 214 If you use '--rejoin', git subtree attempts to optimize 215 its history reconstruction to generate only the new 216 commits since the last '--rejoin'. '--ignore-join' 217 disables this behaviour, forcing it to regenerate the 218 entire history. In a large project, this can take a 219 long time. 220 221--onto=<onto>:: 222 This option is only valid for the split command. 223 224 If your subtree was originally imported using something 225 other than git subtree, its history may not match what 226 git subtree is expecting. In that case, you can specify 227 the commit id <onto> that corresponds to the first 228 revision of the subproject's history that was imported 229 into your project, and git subtree will attempt to build 230 its history from there. 231 232 If you used 'git subtree add', you should never need 233 this option. 234 235--rejoin:: 236 This option is only valid for the split command. 237 238 After splitting, merge the newly created synthetic 239 history back into your main project. That way, future 240 splits can search only the part of history that has 241 been added since the most recent --rejoin. 242 243 If your split commits end up merged into the upstream 244 subproject, and then you want to get the latest upstream 245 version, this will allow git's merge algorithm to more 246 intelligently avoid conflicts (since it knows these 247 synthetic commits are already part of the upstream 248 repository). 249 250 Unfortunately, using this option results in 'git log' 251 showing an extra copy of every new commit that was 252 created (the original, and the synthetic one). 253 254 If you do all your merges with '--squash', don't use 255 '--rejoin' when you split, because you don't want the 256 subproject's history to be part of your project anyway. 257 258 259EXAMPLE 1. Add command 260---------------------- 261Let's assume that you have a local repository that you would like 262to add an external vendor library to. In this case we will add the 263git-subtree repository as a subdirectory of your already existing 264git-extensions repository in ~/git-extensions/: 265 266 $ git subtree add --prefix=git-subtree --squash \ 267 git://github.com/apenwarr/git-subtree.git master 268 269'master' needs to be a valid remote ref and can be a different branch 270name 271 272You can omit the --squash flag, but doing so will increase the number 273of commits that are included in your local repository. 274 275We now have a ~/git-extensions/git-subtree directory containing code 276from the master branch of git://github.com/apenwarr/git-subtree.git 277in our git-extensions repository. 278 279EXAMPLE 2. Extract a subtree using commit, merge and pull 280--------------------------------------------------------- 281Let's use the repository for the git source code as an example. 282First, get your own copy of the git.git repository: 283 284 $ git clone git://git.kernel.org/pub/scm/git/git.git test-git 285 $ cd test-git 286 287gitweb (commit 1130ef3) was merged into git as of commit 2880a8f4f0, after which it was no longer maintained separately. 289But imagine it had been maintained separately, and we wanted to 290extract git's changes to gitweb since that time, to share with 291the upstream. You could do this: 292 293 $ git subtree split --prefix=gitweb --annotate='(split) ' \ 294 0a8f4f0^.. --onto=1130ef3 --rejoin \ 295 --branch gitweb-latest 296 $ gitk gitweb-latest 297 $ git push git@github.com:whatever/gitweb.git gitweb-latest:master 298 299(We use '0a8f4f0^..' because that means "all the changes from 3000a8f4f0 to the current version, including 0a8f4f0 itself.") 301 302If gitweb had originally been merged using 'git subtree add' (or 303a previous split had already been done with --rejoin specified) 304then you can do all your splits without having to remember any 305weird commit ids: 306 307 $ git subtree split --prefix=gitweb --annotate='(split) ' --rejoin \ 308 --branch gitweb-latest2 309 310And you can merge changes back in from the upstream project just 311as easily: 312 313 $ git subtree pull --prefix=gitweb \ 314 git@github.com:whatever/gitweb.git master 315 316Or, using '--squash', you can actually rewind to an earlier 317version of gitweb: 318 319 $ git subtree merge --prefix=gitweb --squash gitweb-latest~10 320 321Then make some changes: 322 323 $ date >gitweb/myfile 324 $ git add gitweb/myfile 325 $ git commit -m 'created myfile' 326 327And fast forward again: 328 329 $ git subtree merge --prefix=gitweb --squash gitweb-latest 330 331And notice that your change is still intact: 332 333 $ ls -l gitweb/myfile 334 335And you can split it out and look at your changes versus 336the standard gitweb: 337 338 git log gitweb-latest..$(git subtree split --prefix=gitweb) 339 340EXAMPLE 3. Extract a subtree using branch 341----------------------------------------- 342Suppose you have a source directory with many files and 343subdirectories, and you want to extract the lib directory to its own 344git project. Here's a short way to do it: 345 346First, make the new repository wherever you want: 347 348 $ <go to the new location> 349 $ git init --bare 350 351Back in your original directory: 352 353 $ git subtree split --prefix=lib --annotate="(split)" -b split 354 355Then push the new branch onto the new empty repository: 356 357 $ git push <new-repo> split:master 358 359 360AUTHOR 361------ 362Written by Avery Pennarun <apenwarr@gmail.com> 363 364 365GIT 366--- 367Part of the linkgit:git[1] suite