\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 @setchapternewpage off @c Put everything in one index (arbitrarily chosen to be the concept index). @syncodeindex fn cp @syncodeindex ky cp @syncodeindex pg cp @syncodeindex vr cp @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 @titlepage @title Magit User Manual @author Marius Vollmer @page @vskip 0pt plus 1filll @insertcopying @end titlepage @contents @ifnottex @node Top @top Magit User Manual @end ifnottex @menu * Introduction:: * The Status Buffer:: * The History Buffer:: * Branching Merging and Rebasing:: * Pushing and Pulling:: @end menu @node Introduction @chapter Introduction Magit is an interface to the distributed version control system Git, implemented as an extension to Emacs. 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. Magit is not a complete interface to git, it just makes using the most common git command-line tools more convenient. Thus, while magit is a good way to experiment with git, using it will not save you from learning git itself. This manual provides a tour of all magit features and short discussions of how you would typically use them together for simple version control tasks. It does not, in its current form, 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. @node The Status Buffer @chapter The Status Buffer Running @kbd{M-x magit-status} displays the main interface of magit, the status buffer. Almost all operations are initiated with single letter keystrokes from that buffer. You can have multiple status buffers active at the same time, each associated with its own git repository. Running @kbd{M-x magit-status} in a buffer visiting a file inside a git repository will display the status buffer for that repository. Running @kbd{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. 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. The @dfn{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 three or four sections that show details about the working tree and the staging area. 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{a} to add it to the staging area. Or you can tell git to ignore the file by typing @kbd{i}. Magit has no shortcuts for removing or renaming files (yet). You need to use @code{git rm} or @code{git mv} in a shell and then refresh the status buffer. The next section, named @emph{Unstaged changes}, show the differences between the working tree and the staging area. Thus, it shows the modifications that have not been staged yet and would thus not be included if you would commit now. The next section, @emph{Staged changes}, shows the differences between the staging area and the current head. These are the changes that would be included if you would commit now. Unlike other version control interfaces, magit does not usually operate on files: Instead of dealing with files (or sets of files), differences are shown as @emph{diffs} and you deal with individual @emph{hunks}. Normally, you will prepare the staging area so that it contains changes that you want to commit as a unit. You can leave changes that you are not yet ready to commit safely out of the staging area. To move a hunk from the working tree into the staging area, move point into the hunk and type @kbd{a}. Likewise, to unstage a hunk, move point into it and type @kbd{u}. If point is in a diff header when you type @kbd{a} 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{A}. Once you have a set of changes in the staging area that you want to commit, you should write a short description of them and then commit them. 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 commit the staged changes. 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. If the current branch is associated with a remote repository, the status buffer wil show a fourth 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. You can use @kbd{x} and @kbd{X} to ... @node The History Buffer @chapter The History Buffer To browse the repository history, type @kbd{l} or @kbd{L} in the status buffer. Typing @kbd{l} will show the history starting from the current head, while @kbd{L} will ask for a starting point. 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. You can move point to a commit and then cause various things to happen with it. Typing @kbd{RET} will pop up more information about the current commit and typing @kbd{l} will use it as the new starting point of the history buffer. Typing @kbd{R} will revert the current commit in your working tree and staging area. 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. Typing @kbd{P} will apply the current commit in the normal way. This is useful when you are browsing the history of some other branch and you want to `cherry-pick' some changes from it for your current branch. A typical situation is applying selected bug fixes from the development version of a program to a release branch. Typing @kbd{C} will switch your working tree to the current commit. You can also mark the current commit by typing @kbd{.}. Once you have marked a commit, you can show the differences between it and the current commit by typing @kbd{=}. @node Branching Merging Rebasing Conflicts @chapter Branching, Merging, Rebasing, and Conflicts The current branch is indicated in the header of the status buffer. You can checkout a different branch by typing @kbd{b}. To create a new branch and it check it out immediately, type @kbd{B}. You can also compare your working tree with some other branch. Type @kbd{d} and then specify the branch to compare with. 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. A manual merge is useful when carefully merging a new feature that you want to review and test before committing it. A automatic merge is appropriate when you are on a feature branch and want to catch up with the master, say. @node Pushing and Pulling @chapter Pushing and Pulling @bye