There are many Git workflows out there, I heavily suggest also reading the atlassian.com Git Workflow article as there is more detail then presented here.
The two prevailing workflows are Gitflow and feature branches. IMHO, being more of a subscriber to continuous integration, I feel that the feature branch workflow is better suited.
When using Bash in the command line, it leaves a bit to be desired when it comes to awareness of state. I would suggest following these instructions on setting up GIT Bash autocompletion.
When working with a centralized workflow the concepts are simple, master
represented the official history and is always deployable. With each now scope of work, aka feature, the developer is to create a new branch. For clarity, make sure to use descriptive names like transaction-fail-message
or github-oauth
for your branches.
#Protip: Although you may have a feature like 'user login and registration`, this is not considered appropriate to create a feature branch at this level, there is too much work to be done. It is better to break these large deliverables down to smaller bits of work that can be continuously integrated into the project. Remember, commit early and often.
Before you create a branch, be sure you have all the upstream changes from the origin/master
branch.
Before I pull, I make sure I am on the right branch. I have GIT Bash autocompletion installed, this tells me the branch in the prompt. Otherwise, the following command is good to know to list out the branches I have locally as well designate which branch I am currently on.
$ git branch
The checked out branch will have a *
before the name. If the return designates anything other then master
then switch to master
$ git checkout master
Once on master and ready to pull updates, I use the following:
$ git pull origin master
The git pull
command combines two other commands, git fetch
and git merge
. When doing a fetch
the resulting commits are stored as remote branch allowing you to review the changes before merging. Merging on the other hand can involve additional steps and flags in the command, but more on that later. For now, I'll stick with git pull
.
Now that I am all up to date with the remote repo, I'll create a branch. For efficiency, I will use the following:
$ git checkout -b my-new-feature-branch
This command will create a new branch from master
as well checkout out that new branch at the same time. Doing a git branch
will list out the branches in my local repo and place a *
before the branch that is checked out.
master
* my-new-feature-branch
No. There is a command that that allows me to create a new branch from any other branch while having checked out yet another branch. WAT?!
$ git checkout -b transaction-fail-message master
In that example, say I was in branch github-oauth
and I needed to create a new branch and then checkout the new branch? By adding master
at the end of that command, Git will create a new branch from master and then move me (checkout) to that new branch.
This is a nice command, but make sure you understand what you are doing before you do this. Creating bad branches can cause a real headache when trying to merge back into master.
As I am working on my new feature branch, it is a good idea to commit often. This allows me to move forward without fear that if something goes wrong, or you have to back out for some reason, I don't lose too much work. Think of committing like that save button habit you have so well programed into you.
Each commit also tells a little bit about what I just worked on. That's important when other devs on the team are reviewing my code. It's better to have more commits with messages that explain the step versus one large commit that glosses over important details.
As I am creating changes in my project, these are all unseated updates. With each commit there most likely will be additions, and there will also be deletions from time to time. To get a baring of the updates I have made, lets get the status.
$ git status
This command will give you a list of all the updated, added and deleted files.
To add files, I can add them individually or I can add all at once. From the root of the project I can use:
$ git add .
In order to remove deleted files from the version control, I can again either remove individually or from the root address them all like so:
$ git add -u
I'm lazy, I don't want to think, so the following command I make heavy use of to address all additions and deletions.
$ git add --all
All the preceding commands will stage the updates for commitment. If I run a git status
at this point, I will see my updates presented differently, typically under the heading of Changes to be committed:
. At this point, the changes are only staged and not yet committed to the branch. To commit, do the following:
$ git commit -m "a commit message in the present tense"
It is considered best to illustrate your comment in the tense that this will do something to the code. It didn't do something in the past and it won't do something in the future. The commit is doing something now.
A bad example would be:
$ git commit -m "fixed bug with login feature"
A good example would be:
$ git commit -m "update app config to address login bug"
Comments are cheap. For more on how to write expressive commit messages, read 5 Useful Tips For A Better Commit Message.
When working with feature branches on a team, it is typically not appropriate to merge your own code into master. Although this is up to your team as how to manage these expectations, but the norm is to make use of pull requests. Pull requests require that you push your branch to the remote repo.
To push the new feature branch to the remote repo, simply do the following:
$ git push origin my-new-feature-brach
As far as Git is concerned, there is no real difference between master
and a feature branch. So, all the same Git features apply.
This is a special case when working on a team and the branch I am are pushing is out of sync with the remote. To address this, it's simple, pull the latest changes:
$ git pull origin my-new-feature-branch
This will fetch and merge any changes on the remote repo into my local brach with the changes, thus now allowing you to push.
When I am are creating the feature branch, this is all pretty simple. But when I need to work on a co-workers branch, there are a few additional steps that I follow.
My local .git/
directory will of course manage all my local branches, but my local repo is not always aware of any remote branches. To see what knowledge my local branch has of the remote branch index, adding the -r
flag to git branch
will return a list.
$ git branch -r
To keep my local repo 100% in sync with deleted remote branches, I make use of this command:
$ git fetch -p
The -p
or --prune
flag, after fetching, will remove any remote-tracking branches which no longer exist.
Doing a git pull
or git fetch
will update my local repo's index of remote branches. As long as co-workers have pushed their branch, my local repo will have knowledge of that feature branch. By doing a git branch
you will see a list of my local branches. By doing a git branch -r
I will see a list of remote branches. There is a good chance that the new feature branch is not in my list of local branches.
The process of making this remote branch a local branch to work on is easy, simply checkout the branch.
$ git checkout new-remote-feature-branch
This command will pull it's knowledge of the remote branch and create a local instance for me to work on.
The pull request is where the rubber meets the road. As stated previously, one of the key points of the feature branch workflow is that the developer who wrote the code does not merge the code with master until there has been a peer review. Leveraging Github's pull request features, once you have completed the feature branch and pushed it to the repo, there will be an option to review the diff and create a pull request.
In essence, a pull request is a notification of the new code in an experience that allows a peer developer to review the individual updates within context of the update. For example, if the update was on line 18 of header.haml
, then you will only see header.haml
and a few lines before and after line 18.
This experience also allows the peer reviewer to place a comment on any line within the update. This will be communicated back to the editor of origin. This review experience really allows for everyone on the team to be actively involved in each update.
Once the reviewer has approved the editors updates, there are two ways to merge in the code. One from the Github interface and another from the command line.
Although I can merge from Github's interface, it is preferred to do it from the command line. After all, what happens if Github merging tools are broken? It can happen.
So let's assume that I created a feature branch, edited code and pushed it to the repo. I initiated a pull request and the code update was approved. Here are the steps I will go through to merge the new code. Keep in mind, this illustration is simply managing code, this is not including running tests, while it can be worked into this workflow, that is a separate concern.
-
Make sure that I have the latest version of the feature branch from the remote repo
$ git checkout my-feature-branch $ git pull origin my-feature-branch
-
Make sure that the feature branch is up to date with
master
, while in the feature branch, execrate the following:$ git pull origin master
If there are any conflicts, best to address them here.
-
Now that I know that the feature branch is up to date with the remote repo and that it has the latest code from
master
, I can now merge these branches. I also need to make sure that my localmaster
branch is up to date as well.$ git checkout master $ git pull origin master $ git merge --no-ff my-feature-branch
Notice the
--no-ff
flag in the merge command. This flag keeps the repo branching history from flattening out. If I were to look at the history of this branch, using GitX for example, when using the--no-ff
flag, I will see the appropriate bump illustrating the history of the feature branch. This is helpful information. If I didn't use this flag, then Git will move the commit pointer forward.I can either enter the
--no-ff
flag each time I merge or I can set this as my default. I prefer the default option. Running the following command will update the global gitconfig.$ git config --global merge.ff false
And of course, setting the bit back to
true
, will return the default setting to fast forward with merging.NOTE: there is a mild side-effect that will happen when you set this flag to
false
. Every time you do apull
this will not fast forward your local repo and basically make this a new commit. That's ok, but you will see this in the commit logsMerge branch 'master' of github.com: ...
and
# Your branch is ahead of 'origin/master' by 1 commit.
If you are ok with this, then keep the flag. If this annoys or bothers you, do not use the flag and set
--no-ff
manually with each merge. -
Now that I have merged the code, the feature branch by definition is obsolete. First, delete the branch from the local repo.
$ git branch -d my-feature-branch
The
-d
flag for delete will typically delete any branch. Remember, you can't delete a branch you have checked out.If you happen to see the following error when deleting a branch, then simply replace the
-d
with-D
to force the delete.error: The branch 'name-of-branch' is not an ancestor of your current HEAD.
-
If the feature branch was pushed to the repo, as it should have been per the workflow we described, you will want to delete this from the remote repo as well.
$ git push origin --delete my-feature-branch
There are some steps in there that we should just be doing all the time. What about making a single command alias that will cycle through all these commands just so we know things are always in good shape? Yup, we can do that.
Using Git and Bash is like using a zipper and pants. They just go together. Creating a Bash alias is extremely simple. From your Terminal, enter
$ open ~/.bash_profile
This will open a hidden file in a default text editor. If you have a shortcut command for opening in an editor like Sublime Text, use that to open the file. In the file add the following:
alias refresh="git checkout master && dskil && git pull && git fetch -p"
The alias dskil
is useful for removing annoying .DS_Store
files. You should have a .gitignore
file that keeps these out of version control, but I like to keep a clean house too. To make that work, add the following:
alias dskil="find . -name '*.DS_Store' -type f -delete"
With this in your .bash_profile
, you simply need to enter refresh
in the command line and POW!
If you are on Windows and using Powershell, you can use the same aliases, but the set up is different. The article Windows PowerShell Aliases is a good tutorial of the process.
Following this simple workflow has helped keep my projects clean and Git hell
free. I hope it serves you well too.
But ... the story doesn't end here. Well, the post does, but the story does not. There are many more advanced features that your team can use. I am sure some of you reading this will say "What about rebasing?" This is a perfectly practical addition to this workflow and many teams use it. But out of all the teams I have ever worked for, only one has ever made use of this feature. Just saying.
Outside of that, for more in-depth learning on Git, I invite you to read the Git book, it's free and contains awesome learning.
Regard to aliases, Git is also providing configurations.
https://github.com/amano-takahisa/dotfiles/blob/d8ab04eab37c7673813528a76ea613fb1343cb96/.config/git/config#L12-L18
With this settings, command to use aliases will be
git lo # show log tree
By this, we can avoid name conflicts with between git alias and other generic command.