\input texinfo.tex @c -*-texinfo-*- @c %**start of header @setfilename magit.info @settitle Magit User Manual @c %**end of header @dircategory Emacs @direntry * Magit: (magit). Using Git from Emacs with Magit. @end direntry @copying Copyright @copyright{} 2008 Marius Vollmer @quotation Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.2 or any later version published by the Free Software Foundation; with no Invariant Sections, with no Front-Cover Texts, and with no Back-Cover Texts. @end quotation @end copying @node Top @top Magit User Manual Magit is an interface to the version control system Git, implemented as an extension to Emacs. @menu * Introduction:: * Acknowledgments:: * Status:: * Staging and Committing:: * History:: * Reflogs:: * Diffing:: * Resetting:: * Branching:: * Merging:: * Rebasing:: * Pushing and Pulling:: @end menu @node Introduction @chapter Introduction With Magit, you can inspect and modify any number of Git repositories. You can review and commit the changes you have made to the tracked files, for example, and you can browse the history of past changes. There is also support for cherry picking, reverting, merging and rebasing, and other common Git operations. Magit is not a complete interface to Git, it just makes the most common Git command-line tools more convenient to use. Thus, while Magit is a good way to experiment with Git, it will not save you from learning Git itself. This manual provides a tour of all Magit features. It does not give a introduction to version control in general, or to Git in particular. The main entry point to Magit is @kbd{M-x magit-status}, which will put you in Magit's status buffer. You will be using it frequently, so it is probably a good idea to bind @code{magit-status} to a key of your choice. In addition to the status buffer, Magit will also create buffers that show lists of commits, buffers with diffs, and other kinds of buffers. All these buffers are in @code{magit-mode} and have the same key bindings. Not all commands make sense in all contexts, but a given key will always do the same thing in all Magit buffers. @node Acknowledgments @chapter Acknowledgments From day one of the first Magit announcement, John Wiegley, Linh Dang, and Christian Neukirchen have contributed fixes, UI improvements, and new features. Thanks! Phil Hagelberg joined a few days later. Thanks! @node Status @chapter Status Running @kbd{M-x magit-status} displays the main interface of Magit, the status buffer. You can have multiple status buffers active at the same time, each associated with its own Git repository. Running @code{magit-status} in a buffer will display the status buffer for the repository that contains the file in that buffer. Running @code{magit-status} outside of any Git repository, or when giving it a prefix argument, will ask you for the directory to run it in. You need to explicitly refresh the status buffer when you have made changes to the repository from outside of Emacs. You can type @kbd{g} in the status buffer itself, or just use @kbd{M-x magit-status} instead of @kbd{C-x b} when switching to it. You also need to refresh the status buffer in this way after saving a file in Emacs. The header at the top of the status buffer shows a short summary of the repository state: where it is located, which branch is checked out, etc. Below the header are a number of sections that show details about the working tree and the staging area. Only sections that are not empty are shown. You control how much of a section is visible by moving point to its title and hitting @kbd{TAB}. This will cycle through three visibility states of the section: fully visible, fully hidden (expect for the first line), and collapsed, where only the first line of the children are visible. You can also control the visibility of sub-sections this way. The first of these sections lists @emph{Untracked files}. These are the files that are present in your working tree but are not known to Git; they are neither tracked in the current branch nor explicitly ignored. You can move point to one of the listed files and type @kbd{s} to add it to the staging area. You can tell Git to ignore the file by typing @kbd{i}, and you can remove it from the filesystem with @kbd{k}. Magit has no shortcuts for removing or renaming files. You need to use @code{git rm} or @code{git mv} in a shell and then refresh the status buffer. The next one or two sections show your local changes. They are explained fully in the next chapter, @ref{Staging and Committing}. If the current branch is associated with a remote repository, the status buffer will show a section named @emph{Unpushed commits}. It will briefly list the commits that you have made in your local repository, but have not yet pushed. See @ref{Pushing and Pulling} for more information. Typing a digit in the status buffer will move point to a section header: @kbd{1} will move to @emph{Untracked files}, @kbd{2} will move to @emph{Unstaged changes} or @emph{Changes}, @kbd{3} will move to @emph{Staged changes}, and @kbd{4} will move to @emph{Unpushed commits}. Note that these relations are fixed, @kbd{3} always moves to @emph{Unstaged changes}, not the third visible section. @node Staging and Committing @chapter Staging and Committing Comitting with Git is conceptually a two step process: first you add the changes you want to commit to a 'staging area', and then you commit them to the repository. This allows you to only commit a subset of your local changes. Magit allows you to ignore the staging area if you wish. As long as your staging area is unused, Magit will show your uncomitted changes in a section named @emph{Changes}. When the staging area is in use, Magit uses two sections: @emph{Unstaged changes} and @emph{Staged changes}. The @emph{Staged changes} section shows the changes that will be included in the next commit, while the @emph{Unstaged changes} section shows the changes that will be left out. Unlike other version control interfaces, Magit does not usually operate on files: Instead of dealing with files (or sets of files), uncommitted changes are shown as diffs and you usually deal with the individual hunks. You can discard uncommitted changes by moving point into a hunk and typing @kbd{k}. To move a unstaged hunk into the staging area, move point into the hunk and type @kbd{s}. Likewise, to unstage a hunk, move point into it and type @kbd{u}. If point is in a diff header when you type @kbd{s} or @kbd{u}, all hunks belonging to that diff are moved at the same time. To move all hunks of all diffs into the staging area in one go, type @kbd{S}. To unstage everything, type @kbd{U}. Before committing, you should write a short description of the changes. Type @kbd{c} to pop up a buffer where you can write your change description. Once you are happy with the description, type @kbd{C-c C-c} in that buffer to perform the commit. When your stagin area is unused at this point, all your uncommitted changes are committed. When the staging area is in use, only the staged changes are committed. You can type @kbd{C-c C-a} in the buffer with the change description toggles a flag that determines whether the next commit will be a @emph{amending} one. Typing @kbd{C} will also pop up the change description buffer, but in addition, it will try to insert a ChangeLog-style entry for the change that point is in. @node History @chapter History To show the repository history of your current head, type @kbd{l}. A new buffer will be shown that displays the history in a terse form. The first paragraph of each commit message is displayed, next to a representation of the relationships between commits. Typing @kbd{L} will ask for the starting and end point of the history. This can be used to show the commits that are in one branch, but not in another, for example. You can move point to a commit and then cause various things to happen with it. (The following commands work in any list of commit, such as the one shown in the @emph{Unpushed commits} section.) Typing @kbd{RET} will pop up more information about the current commit and move point into the new buffer. Typing @kbd{SPC} and @kbd{DEL} will also show the information, but will scroll the new buffer up or down when typed again. Typing @kbd{a} will apply the current commit to your current branch. This is useful when you are browsing the history of some other branch and you want to `cherry-pick' some changes from it. A typical situation is applying selected bug fixes from the development version of a program to a release branch. The cherry-picked changes will not be committed automatically; you need to do that explicitly. Typing @kbd{A} will cherry-pick the current commit and will also commit the changes automatically when there have not been any conflicts. Typing @kbd{v} will revert the current commit. Thus, it will apply the changes made by that commit in reverse. This is obviously useful to cleanly undo changes that turned out to be wrong. As with @kbd{a}, you need to commit the changes explicitly. Typing @kbd{=} will show the differences from the current commit to the @dfn{marked} commit. You can mark the current commit by typing @kbd{.}. Some commands, such as @kbd{=}, will use the current commit and the marked commit as implicit arguments. Other commands will offer the marked commit as a default when prompting for their arguments. @node Reflogs @chapter Reflogs You can use @kbd{h} and @kbd{H} to browse your @emph{reflog}, the local history of changes made to your repository heads. Typing @kbd{H} will ask for a head, while @kbd{h} will show the reflog of @code{HEAD}. The resulting buffer is just like the buffer produced by @kbd{l} and @kbd{L} that shows the commit history. @node Diffing @chapter Diffing To show the changes from you working tree to another revision, type @kbd{d}. To show the changes between two arbitrary revisions, type @kbd{D}. @node Resetting @chapter Resetting Once you have added a commit to your local repository, you can not change that commit anymore in any way. But you can reset your current head to an earlier commit and start over. If you have published your history already, rewriting it in this way can be confusing and should be avoided. However, rewriting your local history is fine and it is often cleaner to fix mistakes this way than by reverting commits (with @kbd{v}, for example). Typing @kbd{x} will ask for a revision and reset your current head to it. No changes will be made to your working tree and staging area. Thus, the @emph{Staged changes} section in the status buffer will show the changes that you have removed from your commit history. You can commit the changes again as if you had just made them, thus rewriting history. Typing @kbd{x} while point is in a line that describes a commit will offer this commit as the default revision to reset to. Thus, you can move point to one of the commits in the @emph{Unpushed commits} section and hit @kbd{x RET} to reset your current head to it. Type @kbd{X} to reset your working tree and staging area to the most recently committed state. This will discard your local modifications, so be careful. @node Branching @chapter Branching The current branch is indicated in the header of the status buffer. You can switch to a different branch by typing @kbd{b}. This will immediately checkout the branch into your working copy, so you shouldn't have any local modifications when switching branches. Similar to @kbd{x}, typing @kbd{b} while point is at a commit description will offer that commit as the default to switch to. This will result in a detached head. To create a new branch and switch to it immediately, type @kbd{B}. @node Merging @chapter Merging Magit offers two ways to merge branches: manually and automatic. A manual merge will apply all changes to your working tree and staging area, but will not commit them, while a automatic merge will go ahead and commit them immediately. Type @kbd{m} to initiate a manual merge, and type @kbd{M} for a automatic merge. A manual merge is useful when carefully merging a new feature that you want to review and test before even committing it. A automatic merge is appropriate when you are on a feature branch and want to catch up with the master, say. After initiating a manual merge, the header of the status buffer will remind you that the next commit will be a merge commit (with more than one parent). If you want to abort a manual merge, just do a hard reset to HEAD with @kbd{X}. Merges can fail if the two branches you merge want to introduce conflicting changes. In that case, the automatic merge stops before the commit, essentially falling back to a manual merge. You need to resolve the conflicts and stage the resolved files, for example with @kbd{S}. You can not stage individual hunks one by one as you resolve them, you can only stage whole files once all conflicts in them have been resolved. @node Rebasing @chapter Rebasing Typing @kbd{R} in the status buffer will initiate a rebase or, if one is already in progress, ask you how to continue. When a rebase is stopped in the middle because of a conflict, the header of the status buffer will indicate how far along you are in the series of commits that are being replayed. Of course, you can initiate a rebase in any number of ways, by configuring @code{git pull} to rebase instead of merge, for example. Such a rebase can be finished with @kbd{R} as well. @node Pushing and Pulling @chapter Pushing and Pulling Magit will run @code{git push} when you type @kbd{P}. You can type @kbd{$} to pop up a buffer with the transcript of running these commands. Typing @kbd{f} will run @code{git remote update} and @kbd{F} will run @code{git pull}. That's almost all the support for remote repositories that Magit offers. You should have setup your Git configuration to do the right thing for @code{git push} and @code{git pull}. If you have configured a default remote repository for the current branch (by setting the Git config option @code{branch..remote}), Magit will show that repository in the status buffer header. In this case, the status buffer will also have a @emph{Unpushed commits} section that shows the commits on your current head that are not in the branch named @code{/}. This section works just like the history buffer: you can see details about a commit with @kbd{RET}, compare two of them with @kbd{.} and @kbd{=}, and you can reset your current head to one of them with @kbd{x}, for example. @bye