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index a085ca1d3919205d20923d73301f3d79ea1605af..d99adc6f728aebfa0b7e4b956c4f784e3d2f7bd4 100644 (file)
commit. You can find out with this:
-------------------------------------------------
-$ git log --raw --abbrev=40 --pretty=oneline -- filename |
+$ git log --raw --abbrev=40 --pretty=oneline |
grep -B 1 `git hash-object filename`
-------------------------------------------------
-------------------------
On large repositories, git depends on compression to keep the history
-information from taking up to much space on disk or in memory.
+information from taking up too much space on disk or in memory.
This compression is not performed automatically. Therefore you
should occasionally run gitlink:git-gc[1]:
Dangling objects are not a problem. At worst they may take up a little
extra disk space. They can sometimes provide a last-resort method for
recovering lost work--see <<dangling-objects>> for details. However, if
-you wish, you can remove them with gitlink:git-prune[1] or the --prune
+you wish, you can remove them with gitlink:git-prune[1] or the `--prune`
option to gitlink:git-gc[1]:
-------------------------------------------------
Reflogs
^^^^^^^
-Say you modify a branch with gitlink:git-reset[1] --hard, and then
+Say you modify a branch with `gitlink:git-reset[1] --hard`, and then
realize that the branch was the only reference you had to that point in
history.
More generally, a branch that is created from a remote branch will pull
by default from that branch. See the descriptions of the
branch.<name>.remote and branch.<name>.merge options in
-gitlink:git-config[1], and the discussion of the --track option in
+gitlink:git-config[1], and the discussion of the `--track` option in
gitlink:git-checkout[1], to learn how to control these defaults.
In addition to saving you keystrokes, "git pull" also helps you by
$ git pull /path/to/other/repository
-------------------------------------------------
-or an ssh url:
+or an ssh URL:
-------------------------------------------------
$ git clone ssh://yourhost/~you/repository
This is the preferred method.
If someone else administers the server, they should tell you what
-directory to put the repository in, and what git:// url it will appear
+directory to put the repository in, and what git:// URL it will appear
at. You can then skip to the section
"<<pushing-changes-to-a-public-repository,Pushing changes to a public
repository>>", below.
gitlink:git-update-server-info[1], and the documentation
link:hooks.html[Hooks used by git].)
-Advertise the url of proj.git. Anybody else should then be able to
-clone or pull from that url, for example with a command line like:
+Advertise the URL of proj.git. Anybody else should then be able to
+clone or pull from that URL, for example with a command line like:
-------------------------------------------------
$ git clone http://yourserver.com/~you/proj.git
a <<fast-forwards,fast forward>>. Normally this is a sign of
something wrong. However, if you are sure you know what you're
doing, you may force git-push to perform the update anyway by
-proceeding the branch name by a plus sign:
+preceding the branch name by a plus sign:
-------------------------------------------------
$ git push ssh://yourserver.com/~you/proj.git +master
$ git branch --track release origin/master
-------------------------------------------------
-These can be easily kept up to date using gitlink:git-pull[1]
+These can be easily kept up to date using gitlink:git-pull[1].
-------------------------------------------------
$ git checkout test && git pull
$ git log linux..branchname | git-shortlog
-------------------------------------------------
-To see whether it has already been merged into the test or release branches
+To see whether it has already been merged into the test or release branches,
use:
-------------------------------------------------
$ git log release..branchname
-------------------------------------------------
-(If this branch has not yet been merged you will see some log entries.
+(If this branch has not yet been merged, you will see some log entries.
If it has been merged, then there will be no output.)
Once a patch completes the great cycle (moving from test to release,
then pulled by Linus, and finally coming back into your local
-"origin/master" branch) the branch for this change is no longer needed.
+"origin/master" branch), the branch for this change is no longer needed.
You detect this when the output from:
-------------------------------------------------
and git will continue applying the rest of the patches.
-At any point you may use the --abort option to abort this process and
+At any point you may use the `--abort` option to abort this process and
return mywork to the state it had before you started the rebase:
-------------------------------------------------
$ gitk origin..mywork &
-------------------------------------------------
-And browse through the list of patches in the mywork branch using gitk,
+and browse through the list of patches in the mywork branch using gitk,
applying them (possibly in a different order) to mywork-new using
-cherry-pick, and possibly modifying them as you go using commit --amend.
+cherry-pick, and possibly modifying them as you go using `commit --amend`.
The gitlink:git-gui[1] command may also help as it allows you to
individually select diff hunks for inclusion in the index (by
right-clicking on the diff hunk and choosing "Stage Hunk for Commit").
- Git can quickly determine whether two objects are identical or not,
just by comparing names.
-- Since object names are computed the same way in ever repository, the
+- Since object names are computed the same way in every repository, the
same content stored in two repositories will always be stored under
the same name.
- Git can detect errors when it reads an object, by checking that the
"blob" objects into a directory structure. In addition, a tree object
can refer to other tree objects, thus creating a directory hierarchy.
- A <<def_commit_object,"commit" object>> ties such directory hierarchies
- together into a <<def_DAG,directed acyclic graph>> of revisions - each
+ together into a <<def_DAG,directed acyclic graph>> of revisions--each
commit contains the object name of exactly one tree designating the
directory hierarchy at the time of the commit. In addition, a commit
refers to "parent" commit objects that describe the history of how we
identical object names.
(Note: in the presence of submodules, trees may also have commits as
-entries. See gitlink:git-submodule[1] and gitlink:gitmodules.txt[1]
-for partial documentation.)
+entries. See <<submodules>> for documentation.)
Note that the files all have mode 644 or 755: git actually only pays
attention to the executable bit.
example, a "dangling blob" may arise because you did a "git add" of a
file, but then, before you actually committed it and made it part of the
bigger picture, you changed something else in that file and committed
-that *updated* thing - the old state that you added originally ends up
+that *updated* thing--the old state that you added originally ends up
not being pointed to by any commit or tree, so it's now a dangling blob
object.
Generally, dangling objects aren't anything to worry about. They can
even be very useful: if you screw something up, the dangling objects can
be how you recover your old tree (say, you did a rebase, and realized
-that you really didn't want to - you can look at what dangling objects
+that you really didn't want to--you can look at what dangling objects
you have, and decide to reset your head to some old dangling state).
For commits, you can just use:
------------------------------------------------
and they'll be gone. But you should only run "git prune" on a quiescent
-repository - it's kind of like doing a filesystem fsck recovery: you
+repository--it's kind of like doing a filesystem fsck recovery: you
don't want to do that while the filesystem is mounted.
-(The same is true of "git-fsck" itself, btw - but since
+(The same is true of "git-fsck" itself, btw, but since
git-fsck never actually *changes* the repository, it just reports
on what it found, git-fsck itself is never "dangerous" to run.
Running it while somebody is actually changing the repository can cause
Submodules
==========
-This tutorial explains how to create and publish a repository with submodules
-using the gitlink:git-submodule[1] command.
-
-Submodules maintain their own identity; the submodule support just stores the
-submodule repository location and commit ID, so other developers who clone the
-superproject can easily clone all the submodules at the same revision.
+Large projects are often composed of smaller, self-contained modules. For
+example, an embedded Linux distribution's source tree would include every
+piece of software in the distribution with some local modifications; a movie
+player might need to build against a specific, known-working version of a
+decompression library; several independent programs might all share the same
+build scripts.
+
+With centralized revision control systems this is often accomplished by
+including every module in one single repository. Developers can check out
+all modules or only the modules they need to work with. They can even modify
+files across several modules in a single commit while moving things around
+or updating APIs and translations.
+
+Git does not allow partial checkouts, so duplicating this approach in Git
+would force developers to keep a local copy of modules they are not
+interested in touching. Commits in an enormous checkout would be slower
+than you'd expect as Git would have to scan every directory for changes.
+If modules have a lot of local history, clones would take forever.
+
+On the plus side, distributed revision control systems can much better
+integrate with external sources. In a centralized model, a single arbitrary
+snapshot of the external project is exported from its own revision control
+and then imported into the local revision control on a vendor branch. All
+the history is hidden. With distributed revision control you can clone the
+entire external history and much more easily follow development and re-merge
+local changes.
+
+Git's submodule support allows a repository to contain, as a subdirectory, a
+checkout of an external project. Submodules maintain their own identity;
+the submodule support just stores the submodule repository location and
+commit ID, so other developers who clone the containing project
+("superproject") can easily clone all the submodules at the same revision.
+Partial checkouts of the superproject are possible: you can tell Git to
+clone none, some or all of the submodules.
+
+The gitlink:git-submodule[1] command is available since Git 1.5.3. Users
+with Git 1.5.2 can look up the submodule commits in the repository and
+manually check them out; earlier versions won't recognize the submodules at
+all.
To see how submodule support works, create (for example) four example
repositories that can be used later as a submodule:
- It clones the submodule under the current directory and by default checks out
the master branch.
-- It adds the submodule's clone path to the `.gitmodules` file and adds this
- file to the index, ready to be committed.
+- It adds the submodule's clone path to the gitlink:gitmodules[5] file and
+ adds this file to the index, ready to be committed.
- It adds the submodule's current commit ID to the index, ready to be
committed.
------------
High-level operations such as gitlink:git-commit[1],
-gitlink:git-checkout[1] and git-reset[1] work by moving data between the
-working tree, the index, and the object database. Git provides
-low-level operations which perform each of these steps individually.
+gitlink:git-checkout[1] and gitlink:git-reset[1] work by moving data
+between the working tree, the index, and the object database. Git
+provides low-level operations which perform each of these steps
+individually.
Generally, all "git" operations work on the index file. Some operations
work *purely* on the index file (showing the current state of the
$ git write-tree
-------------------------------------------------
-that doesn't come with any options - it will just write out the
+that doesn't come with any options--it will just write out the
current index into the set of tree objects that describe that state,
and it will return the name of the resulting top-level tree. You can
use that tree to re-generate the index at any time by going in the
~~~~~~~~~~~~~~~~~~~~~~~~
You read a "tree" file from the object database, and use that to
-populate (and overwrite - don't do this if your index contains any
+populate (and overwrite--don't do this if your index contains any
unsaved state that you might want to restore later!) your current
index. Normal operation is just
To commit a tree you have instantiated with "git-write-tree", you'd
create a "commit" object that refers to that tree and the history
-behind it - most notably the "parent" commits that preceded it in
+behind it--most notably the "parent" commits that preceded it in
history.
Normally a "commit" has one parent: the previous state of the tree
tree, aka the common tree, and the two "result" trees, aka the branches
you want to merge), you do a "merge" read into the index. This will
complain if it has to throw away your old index contents, so you should
-make sure that you've committed those - in fact you would normally
+make sure that you've committed those--in fact you would normally
always do a merge against your last commit (which should thus match what
you have in your current index anyway).
---------------------------------
Sadly, many merges aren't trivial. If there are files that have
-been added.moved or removed, or if both branches have modified the
+been added, moved or removed, or if both branches have modified the
same file, you will be left with an index tree that contains "merge
entries" in it. Such an index tree can 'NOT' be written out to a tree
object, and you will have to resolve any such merge clashes using
- `get_sha1()` returns 0 on _success_. This might surprise some new
Git hackers, but there is a long tradition in UNIX to return different
- negative numbers in case of different errors -- and 0 on success.
+ negative numbers in case of different errors--and 0 on success.
- the variable `sha1` in the function signature of `get_sha1()` is `unsigned
char \*`, but is actually expected to be a pointer to `unsigned
$ git branch -d new # delete branch "new"
-----------------------------------------------
-Instead of basing new branch on current HEAD (the default), use:
+Instead of basing a new branch on current HEAD (the default), use:
-----------------------------------------------
$ git branch new test # branch named "test"
Alternates, clone -reference, etc.
git unpack-objects -r for recovery
-
-submodules