Archive:Development/Tutorials/Git
This tutorial will show you the basics for Git. For more information, please consult for example the official tutorial of Git or this excellent Cheat-Sheet.
Setting up Git
First, you should tell Git your name and EMail address. These information will be shown in the log and in commits. Also, you should allow color in Git. There are other color-related features, but this tutorial is just about basics.
git config --global user.name "Your Name" git config --global user.email [email protected] git config --global color.diff auto git config --global color.status auto git config --global color.branch auto
In case you experience problems with colors you should test adding the following to you ~/.bashrc. The 'R' is the important part here.
#needed for git colours export LESS="-RIM"
First steps with Git
We will start with a new Git repository and add one file to it.
carsten@moinmoin:~/git> git init Initialized empty Git repository in .git/ carsten@moinmoin:~/git> echo "Test content" > testfile
Now we will check the status of the repository. Git will list one untracked file, that means the file has not yet been added to the repository.
carsten@moinmoin:~/git> git status # On branch master # # Initial commit # # Untracked files: # (use "git add <file>..." to include in what will be committed) # # testfile nothing added to commit but untracked files present (use "git add" to track)
In the next three commands the file 'testfile' will be added and commited. Then Git will check the status again.
carsten@moinmoin:~/git> git add testfile carsten@moinmoin:~/git> git commit Created initial commit 246d7aa: This is the first commit 1 files changed, 1 insertions(+), 0 deletions(-) create mode 100644 testfile carsten@moinmoin:~/git> git status # On branch master nothing to commit (working directory clean)
Ok, as you can see the file has been commited. Now let's see what we change the contents of the file:
carsten@moinmoin:~/git> echo "new content" > testfile carsten@moinmoin:~/git> git status # On branch master # Changed but not updated: # (use "git add <file>..." to update what will be committed) # # modified: testfile # no changes added to commit (use "git add" and/or "git commit -a") carsten@moinmoin:~/git> git commit -a Created commit 14a9802: Second commit 1 files changed, 1 insertions(+), 1 deletions(-)
You see that Git noticed the changes in the file. "git-commit -a" commits all changes in the repository.
Branches and merging are cheap in Git
git-branch shows you the branches of the repository, the one with the '*' is the active one. So let us create a new branch called "bugfix-branch" and assume we want to fix a branch there. After this fix (in this case the new file) we will merge back all the hard work into the master branch.
carsten@moinmoin:~/git> git-branch * master carsten@moinmoin:~/git> git branch bugfix-branch carsten@moinmoin:~/git> git checkout bugfix-branch Switched to branch "bugfix-branch" carsten@moinmoin:~/git> git branch * bugfix-branch master carsten@moinmoin:~/git> echo "a second file" > newfile carsten@moinmoin:~/git> git commit -a # On branch bugfix-branch # Untracked files: # (use "git add <file>..." to include in what will be committed) # # newfile nothing added to commit but untracked files present (use "git add" to track) carsten@moinmoin:~/git> git add newfile carsten@moinmoin:~/git> git commit -a Created commit 3264357: This file is here for a demonstration of Gits branch- and merge feature 1 files changed, 1 insertions(+), 0 deletions(-) create mode 100644 newfile
Ok, the bug is fixed now. Next step: Checkout the master branch and merge the two branches:
carsten@moinmoin:~/git> git checkout master Switched to branch "master" carsten@moinmoin:~/git> ls testfile carsten@moinmoin:~/git> git merge bugfix-branch Updating 14a9802..3264357 Fast forward newfile | 1 + 1 files changed, 1 insertions(+), 0 deletions(-) create mode 100644 newfile carsten@moinmoin:~/git> ls newfile testfile
If you would have edited "testfile" in the bugfix-branch, then git would automatically try to merge the contents of "testfile" in the bugfix-branch with the contents of "testfile" in the master branch. Sometimes this can cause a merge conflict. In that case you have to manually edit the "testfile" in the master branch, and afterwards you do a "git commit -a" to complete the merge. Git indicates the conflicting lines in the file itself.
Lets now have a look at the log of the testfile
carsten@moinmoin:~/git> git log testfile commit 14a9802e249413003d1fa40002baa025aa54c75f Author: Carsten Niehaus <[email protected]> Date: Fri Apr 18 18:07:18 2008 +0200 Second commit commit 246d7aad05139314e7ff62a5becb6c930f72fb8f Author: Carsten Niehaus <[email protected]> Date: Fri Apr 18 18:06:33 2008 +0200 This is the first commit
Interfacing KDE's SVN-repository with git-svn
Here I will explain to you how to fetch KDE-EDU-trunk and import it into Git. I will then demonstrate how to make use of Gits features and sync with SVN again.
git-svn init https://svn.kde.org/home/kde/trunk/KDE/kdeedu git-svn fetch -r798745
The revision has to be the latest revision of the module (to be found here).
To later update (sync with SVN) do:
git-svn rebase
Now you can do everything you want, for example creating as many local branches as you like and merge back and forth. Whenever you want you can use this command to push your changes back into KDE's SVN-repository:
git-svn dcommit
Be warned, Git will create one SVN commit for each commit in your Git repository. To create just one commit for the whole merge of a branch into the master branch use the "--squash" feature like this:
git merge --squash mybranch
This tutorial is really just a start for Git. Another great Git-SVN tutorial is this one.