Source code management

The main source code management tool for the FreeCAD project is Git, which can be easily installed in most operating systems from a package manager or directly from the Git's website. You are advised to become familiar with Git before working with the FreeCAD source code directly. Visit the Git documentation page for the reference manual as well as tutorials to learn to use the system. The present article explains how to use Git with FreeCAD.

While Git is primarily a terminal application, there are many graphical clients for it which facilitate working with branches, applying patches, and submitting pull requests to a master branch. Examples include git-cola, gitg, and GitKraken. Please see Developing FreeCAD with GitKraken for a cursory introduction to this tool.

Source Code Access
Everybody can access and get a copy of the FreeCAD source code, but only the FreeCAD project managers have write access to it. You can get a copy of the code, study it and modify it as you wish, but if you make a change that you wish to see included in the official source code, you need to ask for a pull request on the pull requests section of the FreeCAD forum.

Official GitHub Repo
An easy way to start with the FreeCAD source code is using the official FreeCAD repository at https://github.com/FreeCAD/FreeCAD

Setting your git username
Users should commit to their project repository using their GitHub username. If that is not already set globally, you can set it locally for the current Git repository like this: git config user.name "YOUR NAME" git config user.email "GITHUB_USERNAME@users.noreply.github.com"

You can now use some combination of "git add" and "git commit" commands to create one or more commits in your local repository.

A note about Remotes
Please read some background to help you understand better the difference between what origin and upstream mean in the context of git. This section explains how to set the correct upstream and origin remote git repos. Essentially: So, based on the above, there are 2 main ways to setup your git environment: We recommend the 1st method for the reason mentioned above.
 *   = Your fork of the FreeCAD git repo AKA https://github.com/GITHUB_USERNAME/FreeCAD.git
 *   = The official FreeCAD git repo AKA https://github.com/FreeCAD/FreeCAD.git
 * This is important to understand because if you  directly from   then confusingly, your origin will be listed as https://github.com/FreeCAD/FreeCAD.git BTW, if you do this accidentally you can use the   command to remedy the situation.
 * 1st Method: Fork on GitHub and clone your fork locally
 * 2nd Method: Clone FreeCAD official directly to your local machine

1st Method: Fork on GitHub and clone your fork locally
This method is the recommended way since it takes less steps. You will essentially fork the FreeCAD repo on your own GitHub account and then clone said GitHub fork locally. Then you will set your upstream repo in git. The procedure is as follows:  Sign up for a GitHub account if you don't already have one  Go to the FreeCAD repo: https://github.com/FreeCAD/FreeCAD In the top right of the page find and press the "Fork" button (this will essentially git clone the official FreeCAD repo to your personal GitHub repo: https://github.com/GITHUB_USERNAME/FreeCAD.git)  On your machine, clone your newly created FreeCAD fork by opening a terminal and typing: git clone https://github.com/GITHUB_USERNAME/FreeCAD.git  Once the clone process is complete, now set your   remote repo (see "A note about Remotes"). Find out what and where your remote git repositories are set to. Type   and the output should look similar to: [foo@bar FreeCAD]$ git remote -v origin	https://github.com/GITHUB_USERNAME/FreeCAD.git (fetch) origin	https://github.com/GITHUB_USERNAME/FreeCAD.git (push)  Great. Now set your   repo [foo@bar FreeCAD]$ git remote add upstream https://github.com/FreeCAD/FreeCAD.git  Check your remotes again, they should look similiar to this: [foo@bar FreeCAD]$ git remote -v origin	https://github.com/GITHUB_USERNAME/FreeCAD.git (fetch) origin	https://github.com/GITHUB_USERNAME/FreeCAD.git (push) upstream	https://github.com/FreeCAD/FreeCAD.git (fetch) upstream	https://github.com/FreeCAD/FreeCAD.git (push)   Now we can start developing. Please refer to "Git Development Process"</li> </ol>

2nd Method: Clone Official FreeCAD git repo to your local machine
This method of setuping your git environment takes a few more steps then the 1st method. You will clone the FC git repo directly to your local machine and then alter your remotes via the terminal. The procedure is as follows: <ol> Clone the FreeCAD code with git: git clone https://github.com/FreeCAD/FreeCAD.git </li> Create an account on a public git server (GitHub, GitLab, etc... for our purposes we're assuming it's GitHub)</li> Find out what and where your remote git repositories are set to: git remote -v </li> This will return something that looks like the following: [foo@bar FreeCAD]$ git remote -v origin https://github.com/FreeCAD/FreeCAD.git (fetch) origin https://github.com/FreeCAD/FreeCAD.git (push) </li> As was explained above in "A note about Remotes" you need to modify these remote git repo addresses.

So first set up your   remote: [foo@bar FreeCAD]$ git remote add origin https://github.com/GITHUB_USERNAME/FreeCAD.git </li> Then we set up our   remote: [foo@bar FreeCAD]$ git remote add upstream https://github.com/FreeCAD/FreeCAD.git </li> Check your remotes again, they should look similiar to this: [foo@bar FreeCAD]$ git remote -v origin	https://github.com/GITHUB_USERNAME/FreeCAD.git (fetch) origin	https://github.com/GITHUB_USERNAME/FreeCAD.git (push) upstream	https://github.com/FreeCAD/FreeCAD.git (fetch) upstream	https://github.com/FreeCAD/FreeCAD.git (push) </li> Now we can start developing. Please refer to "Git Development Process"</li> </ol>

Branching
An important feature of Git is that it is extremely easy to work with branches and merge them together. Best practices recommend to create a new branch whenever you want to work on a new feature. Creating a branch is done with: git branch myNewBranch git checkout myNewBranch

or you can combine both git branch && git checkout together by using the -b flag git checkout -b myNewBranch

How do you know which branch you are currently using? Easy, type: git branch

Committing
Once you did some work, you commit them with: git commit -a

Unlike SVN, you need to specifically tell which files to commit (or all with the -a option). Your text editor will open to allow you to write a commit message.

Please read more about Writing good commit messages in the below section.

Publishing your work on your GitHub repository
After you're correctly branched made some modifications to your local branch and commit them 'locally', you can push your repository to your remote git server (in this example we're assuming GitHub). This opens your branch to the public and allows the main developers to review and integrate your branch into master. git push <REMOTENAME> <BRANCHNAME> git push origin my-branch

For further info on this subject please read https://help.github.com/articles/pushing-to-a-remote/

Writing good commit messages
You should try to work in small chunks. If you cannot summarize your changes in one sentence, then it has probably been too long since you have made a commit. It is also important that you have helpful and useful descriptions of your work. For commit messages, FreeCAD has adopted a format mentioned in book Pro Git (see ).

Short (50 chars or less) summary of changes More detailed explanatory text, if necessary. Wrap it to about 72 characters or so. In some contexts, the first line is treated as the subject of an email and the rest of the text as the body. The blank line separating the summary from the body is critical (unless you omit the body entirely); tools like rebase can get confused if you run the two together. Further paragraphs come after blank lines. - Bullet points are okay, too - Typically a hyphen or asterisk is used for the bullet, preceded by a   single space, with blank lines in between, but conventions vary here

If you are doing a lot of related work, it has been suggested here that one should make as many commits large or small as makes sense for what you are working on using the short one sentence commit messages. When you want to merge, do a git log master..BRANCH and use the output as a basis for your quality commit message. Then when you merge to master use the --squash option and commit with your quality commit message. This will allow you to be very liberal with your commits and help to provide a good level of detail in commit messages without so many distinct descriptions.

Check out GitHub Requests Locally
https://gist.github.com/piscisaureus/3342247

Resolving Merge Conflicts

 * git-scm explanation on how conflicts are presented
 * GitHub article on resolving merge conflicts via the command-line
 * Customize your preferred merge tool when you encounter a git conflict.

Applying patches via git
Git has the capability to merge patches/diffs. To read more about this read the following reference: https://www.drupal.org/node/1399218 git apply [patch-name].patch

Apply a patch via curl
A very handy and powerful feature of git and the command line is the ability to quickly test patches all through the terminal. curl -O https://github.com/FreeCAD/FreeCAD/commit/[patch-name].patch git apply [patch-name].patch or alternatively, using bash pipes you can make a sweet 1-liner: curl https://github.com/FreeCAD/FreeCAD/commit/c476589652a0f67b544735740e20ff702e8d0621.patch | git apply -


 * Useful tip: Just add .diff or .patch at the end of the URL for a GitHub commit page, Pull Request, or Compare View and it'll show you theplaintext view of that page. Example:
 * Regular GitHub page: https://github.com/FreeCAD/FreeCAD/commit/c476589652a0f67b544735740e20ff702e8d0621
 * 'Diffed' GitHub page: https://github.com/FreeCAD/FreeCAD/commit/c476589652a0f67b544735740e20ff702e8d0621.diff
 * 'Patched' GitHub page: https://github.com/FreeCAD/FreeCAD/commit/c476589652a0f67b544735740e20ff702e8d0621.patch

Creating patches from git
There are times when one may need to create a patch instead of submitting a PR. The following workflow explains how to do this: <ol> Make sure you are in the correct branch (i.e. not the master branch) by checking with git branch -v </li> Create the patch: we do this by using the git format-patch command which we patch against the master branch and redirect to STDOUT. We create the patch in the directory outside of the source build (in order not to pollute the source dir itself, this is optional as you can decide the location wherever you want the patch to be created) git format-patch master --stdout > ../patch.name.patch </li> Another method is to use git format-patch HEAD^ or git format-patch HEAD~1 The ^ or 1 can be changed to number of commits that should be covered i.e.: ^^^ or ~3. git format-patch HEAD^ </li> It will create a patch or series of patches with file name format XXXX-commit-message.patch. An example: 0001-fix-ViewProjMatrix-getProjectionMatrix.patch

</ol>

Reversing a patch in git
If you've followed the instructions above and then have a change of heart about using the patch, you can quickly reverse it using: git apply -R path/file.patch or another way is to use: git checkout -f which will remove non-committed changes to the branch

Stashing git commits
Say you're working on a branch and you find yourself making some modification to the source that is out of the scope of your current branch in other words it would be better to add certain commits to a whole other branch and submit it instead of the current one. This is where the git stash command can be very useful. The git stash command can help you to (temporarily but safely) store your uncommitted local changes. git stash Then in the future when you want to use these commits you can git stash apply or git stash pop pop will delete the stash If you have multiple stashes you can git stash list To read more about what other functions you can use checkout https://medium.freecodecamp.org/useful-tricks-you-might-not-know-about-git-stash-e8a9490f0a1a

What is the latest FreeCAD Dev Revision
There are 2 ways to do this: git rev-list --count master
 * 1st method: In your cloned git directory type:
 * 2nd method: Browse https://github.com/FreeCAD/FreeCAD and read the amount of commits FreeCAD is at.

What is the Revision number of a specific commit hash and visa ver?
git rev-list --count 9948ee4 13541


 * some forum topics in this regard:
 * https://forum.freecadweb.org/viewtopic.php?f=10&t=26673
 * https://forum.freecadweb.org/viewtopic.php?t=5308
 * https://forum.freecadweb.org/viewtopic.php?f=18&t=12883&p=103207#p103203
 * https://forum.freecadweb.org/viewtopic.php?f=10&t=31118

How is the Revision number in FreeCAD help about generated?

 * https://forum.freecadweb.org/viewtopic.php?f=4&t=3025

Alternative repositories
The beauty of git is that everybody can clone a project, and start modifying the code. Several frequent collaborators of the FreeCAD project have their own git repository, where they build up their work before it is ready to be included in the official source code, or simply where they experiment new ideas. In certain cases, you might want to clone your FreeCAD code from one of these, instead of the official repos, to benefit from the changes their users did.

Be warned, though, that this is at your own risk, and only the official repository above is fully guaranteed to work and contain clean code.

It is also possible to attach several remote repositories to a same local FreeCAD git code, using the "git remote" command. This is useful to keep in sync with the master code branch, but keep an eye on the work of different developers.

Using git in a Graphical User Interface

 * Developing FreeCAD with GitKraken