doc/git-howto.txt - third_party/ffmpeg - Git at Google


 About Git write access:
 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

 Before everything else, you should know how to use GIT properly.
 Luckily Git comes with excellent documentation.

   git --help
   man git

 shows you the available subcommands,

   git <command> --help
   man git-<command>

 shows information about the subcommand <command>.

 The most comprehensive manual is the website Git Reference

 http://gitref.org/

 For more information about the Git project, visit

 http://git-scm.com/

 Consult these resources whenever you have problems, they are quite exhaustive.

 You do not need a special username or password.
 All you need is to provide a ssh public key to the Git server admin.

 What follows now is a basic introduction to Git and some FFmpeg-specific
 guidelines. Read it at least once, if you are granted commit privileges to the
 FFmpeg project you are expected to be familiar with these rules.


 I. BASICS:
 ==========

 0. Get GIT:

   Most distributions have a git package, if not
   You can get git from http://git-scm.com/


 1. Cloning the source tree:

     git clone git://source.ffmpeg.org/ffmpeg <target>

   This will put the FFmpeg sources into the directory <target>.

     git clone git@source.ffmpeg.org:ffmpeg <target>

   This will put the FFmpeg sources into the directory <target> and let
   you push back your changes to the remote repository.


 2. Updating the source tree to the latest revision:

     git pull (--ff-only)

   pulls in the latest changes from the tracked branch. The tracked branch
   can be remote. By default the master branch tracks the branch master in
   the remote origin.
   Caveat: Since merge commits are forbidden at least for the initial
           months of git --ff-only or --rebase (see below) are recommended.
           --ff-only will fail and not create merge commits if your branch
           has diverged (has a different history) from the tracked branch.

 2.a Rebasing your local branches:

     git pull --rebase

   fetches the changes from the main repository and replays your local commits
   over it. This is required to keep all your local changes at the top of
   FFmpeg's master tree. The master tree will reject pushes with merge commits.


 3. Adding/removing files/directories:

     git add [-A] <filename/dirname>
     git rm [-r] <filename/dirname>

   GIT needs to get notified of all changes you make to your working
   directory that makes files appear or disappear.
   Line moves across files are automatically tracked.


 4. Showing modifications:

     git diff <filename(s)>

   will show all local modifications in your working directory as unified diff.


 5. Inspecting the changelog:

     git log <filename(s)>

   You may also use the graphical tools like gitview or gitk or the web
   interface available at http://source.ffmpeg.org

 6. Checking source tree status:

     git status

   detects all the changes you made and lists what actions will be taken in case
   of a commit (additions, modifications, deletions, etc.).


 7. Committing:

     git diff --check

   to double check your changes before committing them to avoid trouble later
   on. All experienced developers do this on each and every commit, no matter
   how small.
   Every one of them has been saved from looking like a fool by this many times.
   It's very easy for stray debug output or cosmetic modifications to slip in,
   please avoid problems through this extra level of scrutiny.

   For cosmetics-only commits you should get (almost) empty output from

     git diff -w -b <filename(s)>

   Also check the output of

     git status

   to make sure you don't have untracked files or deletions.

     git add [-i|-p|-A] <filenames/dirnames>

   Make sure you have told git your name and email address, e.g. by running
     git config --global user.name "My Name"
     git config --global user.email my@email.invalid
   (--global to set the global configuration for all your git checkouts).

   Git will select the changes to the files for commit. Optionally you can use
   the interactive or the patch mode to select hunk by hunk what should be
   added to the commit.

     git commit

   Git will commit the selected changes to your current local branch.

   You will be prompted for a log message in an editor, which is either
   set in your personal configuration file through

     git config core.editor

   or set by one of the following environment variables:
   GIT_EDITOR, VISUAL or EDITOR.

   Log messages should be concise but descriptive. Explain why you made a change,
   what you did will be obvious from the changes themselves most of the time.
   Saying just "bug fix" or "10l" is bad. Remember that people of varying skill
   levels look at and educate themselves while reading through your code. Don't
   include filenames in log messages, Git provides that information.

   Possibly make the commit message have a terse, descriptive first line, an
   empty line and then a full description. The first line will be used to name
   the patch by git format-patch.


 8. Renaming/moving/copying files or contents of files:

   Git automatically tracks such changes, making those normal commits.

     mv/cp path/file otherpath/otherfile

     git add [-A] .

     git commit

   Do not move, rename or copy files of which you are not the maintainer without
   discussing it on the mailing list first!

 9. Reverting broken commits

     git revert <commit>

   git revert will generate a revert commit. This will not make the faulty
   commit disappear from the history.

     git reset <commit>

   git reset will uncommit the changes till <commit> rewriting the current
   branch history.

     git commit --amend

   allows to amend the last commit details quickly.

     git rebase -i origin/master

   will replay local commits over the main repository allowing to edit,
   merge or remove some of them in the process.

   Note that the reset, commit --amend and rebase rewrite history, so you
   should use them ONLY on your local or topic branches.

   The main repository will reject those changes.

 10. Preparing a patchset.

     git format-patch <commit> [-o directory]

   will generate a set of patches for each commit between <commit> and
   current HEAD. E.g.

     git format-patch origin/master

   will generate patches for all commits on current branch which are not
   present in upstream.
   A useful shortcut is also

     git format-patch -n

   which will generate patches from last n commits.
   By default the patches are created in the current directory.

 11. Sending patches for review

     git send-email <commit list|directory>

   will send the patches created by git format-patch or directly generates
   them. All the email fields can be configured in the global/local
   configuration or overridden by command line.
   Note that this tool must often be installed separately (e.g. git-email
   package on Debian-based distros).

 12. Pushing changes to remote trees

     git push

   Will push the changes to the default remote (origin).
   Git will prevent you from pushing changes if the local and remote trees are
   out of sync. Refer to 2 and 2.a to sync the local tree.

     git remote add <name> <url>

   Will add additional remote with a name reference, it is useful if you want
   to push your local branch for review on a remote host.

     git push <remote> <refspec>

   Will push the changes to the remote repository. Omitting refspec makes git
   push update all the remote branches matching the local ones.

 13. Finding a specific svn revision

   Since version 1.7.1 git supports ':/foo' syntax for specifying commits
   based on a regular expression. see man gitrevisions

     git show :/'as revision 23456'

   will show the svn changeset r23456. With older git versions searching in
   the git log output is the easiest option (especially if a pager with
   search capabilities is used).
   This commit can be checked out with

     git checkout -b svn_23456 :/'as revision 23456'

   or for git < 1.7.1 with

     git checkout -b svn_23456 $SHA1

   where $SHA1 is the commit SHA1 from the 'git log' output.


 Contact the project admins <root at ffmpeg dot org> if you have technical
 problems with the GIT server.

	About Git write access:
	~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

	Before everything else, you should know how to use GIT properly.
	Luckily Git comes with excellent documentation.

	git --help
	man git

	shows you the available subcommands,

	git <command> --help
	man git-<command>

	shows information about the subcommand <command>.

	The most comprehensive manual is the website Git Reference

	http://gitref.org/

	For more information about the Git project, visit

	http://git-scm.com/

	Consult these resources whenever you have problems, they are quite exhaustive.

	You do not need a special username or password.
	All you need is to provide a ssh public key to the Git server admin.

	What follows now is a basic introduction to Git and some FFmpeg-specific
	guidelines. Read it at least once, if you are granted commit privileges to the
	FFmpeg project you are expected to be familiar with these rules.



	I. BASICS:
	==========

	0. Get GIT:

	Most distributions have a git package, if not
	You can get git from http://git-scm.com/


	1. Cloning the source tree:

	git clone git://source.ffmpeg.org/ffmpeg <target>

	This will put the FFmpeg sources into the directory <target>.

	git clone git@source.ffmpeg.org:ffmpeg <target>

	This will put the FFmpeg sources into the directory <target> and let
	you push back your changes to the remote repository.


	2. Updating the source tree to the latest revision:

	git pull (--ff-only)

	pulls in the latest changes from the tracked branch. The tracked branch
	can be remote. By default the master branch tracks the branch master in
	the remote origin.
	Caveat: Since merge commits are forbidden at least for the initial
	months of git --ff-only or --rebase (see below) are recommended.
	--ff-only will fail and not create merge commits if your branch
	has diverged (has a different history) from the tracked branch.

	2.a Rebasing your local branches:

	git pull --rebase

	fetches the changes from the main repository and replays your local commits
	over it. This is required to keep all your local changes at the top of
	FFmpeg's master tree. The master tree will reject pushes with merge commits.


	3. Adding/removing files/directories:

	git add [-A] <filename/dirname>
	git rm [-r] <filename/dirname>

	GIT needs to get notified of all changes you make to your working
	directory that makes files appear or disappear.
	Line moves across files are automatically tracked.


	4. Showing modifications:

	git diff <filename(s)>

	will show all local modifications in your working directory as unified diff.


	5. Inspecting the changelog:

	git log <filename(s)>

	You may also use the graphical tools like gitview or gitk or the web
	interface available at http://source.ffmpeg.org

	6. Checking source tree status:

	git status

	detects all the changes you made and lists what actions will be taken in case
	of a commit (additions, modifications, deletions, etc.).


	7. Committing:

	git diff --check

	to double check your changes before committing them to avoid trouble later
	on. All experienced developers do this on each and every commit, no matter
	how small.
	Every one of them has been saved from looking like a fool by this many times.
	It's very easy for stray debug output or cosmetic modifications to slip in,
	please avoid problems through this extra level of scrutiny.

	For cosmetics-only commits you should get (almost) empty output from

	git diff -w -b <filename(s)>

	Also check the output of

	git status

	to make sure you don't have untracked files or deletions.

	git add [-i\|-p\|-A] <filenames/dirnames>

	Make sure you have told git your name and email address, e.g. by running
	git config --global user.name "My Name"
	git config --global user.email my@email.invalid
	(--global to set the global configuration for all your git checkouts).

	Git will select the changes to the files for commit. Optionally you can use
	the interactive or the patch mode to select hunk by hunk what should be
	added to the commit.

	git commit

	Git will commit the selected changes to your current local branch.

	You will be prompted for a log message in an editor, which is either
	set in your personal configuration file through

	git config core.editor

	or set by one of the following environment variables:
	GIT_EDITOR, VISUAL or EDITOR.

	Log messages should be concise but descriptive. Explain why you made a change,
	what you did will be obvious from the changes themselves most of the time.
	Saying just "bug fix" or "10l" is bad. Remember that people of varying skill
	levels look at and educate themselves while reading through your code. Don't
	include filenames in log messages, Git provides that information.

	Possibly make the commit message have a terse, descriptive first line, an
	empty line and then a full description. The first line will be used to name
	the patch by git format-patch.


	8. Renaming/moving/copying files or contents of files:

	Git automatically tracks such changes, making those normal commits.

	mv/cp path/file otherpath/otherfile

	git add [-A] .

	git commit

	Do not move, rename or copy files of which you are not the maintainer without
	discussing it on the mailing list first!

	9. Reverting broken commits

	git revert <commit>

	git revert will generate a revert commit. This will not make the faulty
	commit disappear from the history.

	git reset <commit>

	git reset will uncommit the changes till <commit> rewriting the current
	branch history.

	git commit --amend

	allows to amend the last commit details quickly.

	git rebase -i origin/master

	will replay local commits over the main repository allowing to edit,
	merge or remove some of them in the process.

	Note that the reset, commit --amend and rebase rewrite history, so you
	should use them ONLY on your local or topic branches.

	The main repository will reject those changes.

	10. Preparing a patchset.

	git format-patch <commit> [-o directory]

	will generate a set of patches for each commit between <commit> and
	current HEAD. E.g.

	git format-patch origin/master

	will generate patches for all commits on current branch which are not
	present in upstream.
	A useful shortcut is also

	git format-patch -n

	which will generate patches from last n commits.
	By default the patches are created in the current directory.

	11. Sending patches for review

	git send-email <commit list\|directory>

	will send the patches created by git format-patch or directly generates
	them. All the email fields can be configured in the global/local
	configuration or overridden by command line.
	Note that this tool must often be installed separately (e.g. git-email
	package on Debian-based distros).

	12. Pushing changes to remote trees

	git push

	Will push the changes to the default remote (origin).
	Git will prevent you from pushing changes if the local and remote trees are
	out of sync. Refer to 2 and 2.a to sync the local tree.

	git remote add <name> <url>

	Will add additional remote with a name reference, it is useful if you want
	to push your local branch for review on a remote host.

	git push <remote> <refspec>

	Will push the changes to the remote repository. Omitting refspec makes git
	push update all the remote branches matching the local ones.

	13. Finding a specific svn revision

	Since version 1.7.1 git supports ':/foo' syntax for specifying commits
	based on a regular expression. see man gitrevisions

	git show :/'as revision 23456'

	will show the svn changeset r23456. With older git versions searching in
	the git log output is the easiest option (especially if a pager with
	search capabilities is used).
	This commit can be checked out with

	git checkout -b svn_23456 :/'as revision 23456'

	or for git < 1.7.1 with

	git checkout -b svn_23456 $SHA1

	where $SHA1 is the commit SHA1 from the 'git log' output.


	Contact the project admins <root at ffmpeg dot org> if you have technical
	problems with the GIT server.