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Group Git


After this lesson students will be able to

  • Describe the different layers of the data model git exposes to the user
  • Explain basic git commands in terms of this model, e.g., commit, add, log
  • Safely work on a feature branch and merge it back to the master branch
  • Be aware of 2 pitfalls when working with git in a Group and how to resolve/avoid them.


First, let's call to mind some of the git commands we've already seen.

What does each one do? Are there similarities in basic functionality and code/objects handled by each command?

The Golden Rule

Don't change what's been shared


It's not the end of the world if it happens, but it's on you to make the world right


We'll fill in the gaps as we go, but if you remember anything from this lecture it should be these maxims.

  • Do not (accidentally) change committed history that has been pushed to origin

  • If you do, make sure to either undo the change or ensure that all team members have a consistent history before proceeding

Git's Data Model for Users


Thank the guy on the right, but don't forget the guy on the left.

From wikipedia

Torvalds cited an example of a source-control management system needing 30 seconds to apply a patch and update all associated metadata, and noted that this would not scale to the needs of Linux kernel development, where syncing with fellow maintainers could require 250 such actions at once. For his design criteria, he specified that patching should take no more than three seconds, and added three more points:

Take Concurrent Versions System (CVS) as an example of what not to do; if in doubt, make the exact opposite decision

Support a distributed, BitKeeper-like workflow

Include very strong safeguards against corruption, either accidental or malicious

The development of Git began on 3 April 2005. Torvalds announced the project on 6 April; it became self-hosting as of 7 April. The first merge of multiple branches took place on 18 April. Torvalds achieved his performance goals; on 29 April, the nascent Git was benchmarked recording patches to the Linux kernel tree at the rate of 6.7 patches per second. On 16 June Git managed the kernel 2.6.12 release.

Torvalds turned over maintenance on 26 July 2005 to Junio Hamano, a major contributor to the project. Hamano was responsible for the 1.0 release on 21 December 2005, and remains the project's maintainer.

Data Layer Description
Working Directory Local file system (your computer's files like normal)
Staging Area Changes that have been added and are ready to commit
History Changes that have been committed in a series of commits uniquely identified by a SHA1 hash
Remote An associated version of the repository on a remote host accessible via networking
Reflog All branch checkouts, stashes, and commits, as well as other events in the repo within about the past month
Stash Changes that have been stashed and can be retrieved later, similar to a stack of pseudo-commits

The first three layers are ones we've seen before. The working directory is the normal files on your machine; the staging area are files that will be included in the next commit; history denotes all committed changes.

We've also been working with remotes when cloning/pushing from github.

The other two layers are utility areas that git exposes, mostly as a view into its inner workings and as a hail-mary toolkit when things get rough or when a quick and dirty transition is helpful. Generally speaking, the reflog should not be trusted as a reliable layer to work with and is mostly there to get you out of a jam; the stash can be used for quickly stowing away a few simple changes and getting them back later.

Git Command Review

Now let's go over some git commands in light of this data model. Each command will typically either be used to inspect the changes at a particular layer(s) or it will transition a set of changes from one layer to another.

Command Function Data Layer(s)
add move changes WD -> Staging
commit move changes Staging -> History
status inspect changes WD/Staging/History (via what commit is the last one)
show inspect changes WD/History (if SHA1 is given)
branch inspect WD/History (via what branch is current)
diff inspect changes WD<-->History (by default other possibilities exist but this is the main one)
log inspect History
push move changes/sync Local History -> Remote History
pull move changes/sync Remote History -> Local History/WD/Current Branch
fetch move changes/sync Local History -> Local History(background)
checkout move index WD (moves WD reference to a different HEAD of History)
merge move changes applies new changes from one branch to the HEAD of the current branch
rebase move changes applies changes from a different branch's history underneath the current branch's history
reset un-set changes History -> Staging/WD/Null depending on what flag is set

Note: HEAD is a special alias for the last commit's SHA1. You can use it with commands that take a SHA1 as arguments, e.g., git show HEAD will show the last commit.

^ can be added to HEAD to point one commit back. git show HEAD^ will display the commit made before the most recent commit. ^ can be chained, e.g., git show HEAD^^^ will show the third most recent commit.

We can inspect the changes on origin by prefacing a branch or SHA1 with origin/. Try it with show or log

NOTE: git log --oneline --decorate --graph --all is your friend


Let's look at an example and outline the steps up to committing and pushing to origin:

(I Do): Feature Branching + Merging

Main branch

  • Init repo
  • Touch hello.js
  • write helloWorld()
  • Add the changes
  • Commit
  • Create remote
  • Push to origin

What story can we tell using the model of git's data layers from above?

Feature Branch

As a project grows, it can help substantially to break out sets of changes into their own branches which are subsequently merged back in to the master branch. As you know, these branches can also be pushed to github.

Let's check out two feature branches and merge them back in to master

  • checkout -b bye
  • Write bye() in bye.js
  • Commit
  • Add convo.js
  • Commit + run
  • checkout master + fix
  • checkout bye + merge changes from master
  • checkout master and merge in bye

Conflict Resolution

Feature branches are great but can lead to difficulties when overlapping or incompatible sets of changes are merged back in to a common branch, e.g., master. Git is pretty good about safely handling multiple streams of changes, but sometimes you have to manually pitch in to get the job done.

When trying to git merge that produces a conflict the output will look something like this:

Auto-merging convo.js
CONFLICT (content): Merge conflict in convo.js
Resolved 'convo.js' using previous resolution.
Automatic merge failed; fix conflicts and then commit the result.

To see the beginning of the merge conflict in your file, search the file for the conflict marker <<<<<<<. When you open the file in your text editor, you'll see the changes from the HEAD or base branch after the line <<<<<<< HEAD. Next, you'll see =======, which divides your changes from the changes in the other branch, followed by >>>>>>> BRANCH-NAME. source

  • touch stringly.js

  • checkout -b upper

  • add function toUpper() + commit

  • git checkout master

  • checkout -b uower + commit

  • add function toLower()

  • Merge both back into master

    • see the following conflict:
      <<<<<<< HEAD
    function toUpper(str) {
      return str.toUpperCase();
    function toLower(str) {
      return str.toLowerCase();
    >>>>>>> lower
  • Resolve conflict by either removing the utility lines (a rarely available solution but it works in this case), or remove one set of changes. Either way, whatever the state of the file when we save+quite, that will be what ends up being committed so make sure it's valid!

(You Do) Local Conflict Resolution

Go here and follow the instructions

Merging and rebasing branches


git merge

Typically branches, should be merged into master. This should be done from Github. Merging takes every commit and along with a merge-commit from the branch and adds that to the target branch (usually master)

Ex: From master: git merge BRANCH-NAME takes all the commits from BRANCH-NAME and a merge-commit and adds those to master.


git rebase

Rebasing rewrites history. This adds the commits from another branch and puts your commits on top of your branch. (Actually it puts new copies of your commits on top). Typically, we rebase master from another branch. This does not add an extra merge-commit.

Ex: From some branch: git rebase master will take anything that was added to master since branched off (or last rebased) and put those commits before yours. Your commits are then added on top of your branch.

Technically, git pull is a shorthand for git fetch origin HEAD together with git merge origin/HEAD. In other words, pull is an alias for fetching the changes from origin and merging them into the local copy of the branch. adding the --rebase flag to pull will rebase rather than merge, thereby not adding a merge commit to your history but carrying with it additional pain when conflicts emerge.

(I +1 Do:) PR Approval + merge in GitHub

Now I'll make a small repo and accept a PR from someone else before pulling down the changes locally.

Creating a PR from a branch

Appriving/Merging a PR

These may prove helpful in the following exercise

(You Do): Group Gitting

It's Go Time: Git 'r Done

Resets (Resources)

git reset can be used to undo committed history and place the changes back either into the staging area --soft or in the working directory --mixed or discard them entirely --hard. Be very careful with git reset especially with the --hard option since this is potentially destructive.

If you undo public history you will have to git push --force after making the changes.

How to Reset (almost) anything

Reset, Checkout, Revert

Extra Resources