Understand Git history

Git represents history in a fundamentally different way than centralized version controls systems (CVCS) such as Team Foundation Version Control, Perforce, or Subversion. Centralized systems store a separate history for each file in a repository.  Git stores history as a graph of snapshots of the entire repository. These snapshots—which are called commits in Git—can have multiple parents, creating a history that looks like a graph instead of a straight line. This difference in history is incredibly important and is the main reason users familiar with CVCS find Git confusing.

Commit history basics

Start with a simple history example: a repo with 3 linear commits.

three commits in a line

Commit A is the parent of commit B, and commit B is the parent of commit C. This history looks very similar to a CVCS. The arrow pointing to commit C is a branch. It’s named master because that’s the default name for the mainline branch in a Git repo. Branches are pointers to specific commits, which is why branching is so lightweight and easy in Git.

A key difference in Git compared to CVCS is that I have my own full copy of the repo. I need to keep my local repository in sync with the remote repository by getting the latest commits from the remote repository. To do this, I’ll pull the master branch with the following command:

git pull origin master

This merges all changes from the master branch in the remote repository, which Git names origin by default . This pull brought one new commit and the master branch in my local repo moves to that commit.

a fourth commit, D, is added to the line

Understand branch history

Now I want to make a change to my code. It’s common to have multiple active branches where you’re working on different features in parallel. This is in stark contrast to CVCS where new branches are heavy and rarely created. The first step is to checkout to a new branch using the following command:

 git checkout -b cool-new-feature

This is a shortcut combining two commands: git branch cool-new-feature to create the branch followed by git checkout cool-new-feature to begin working in the branch.

Branch cool-new-feature is added

Two branches now point to the same commit. I’ll make a few changes on the cool-new-feature branch in two new commits, E and F.

My commits are reachable by the cool-new-feature branch since I made them in that branch. I’m done with my feature and want to merge it into the master branch. To do that I’ll use the following command:

git merge cool-feature master

The graph structure of history becomes visible when there’s a merge. Git creates a new commit when I merged my branch into another branch. This is a merge commit. There aren’t any changes included this merge commit since I didn’t have conflicts. If I had conflicts, the merge commit would include the changes needed to resolve those conflicts.

History in the real world

Here is an example of Git history that more closely resembles code in active development on a team. There are three people who merge commits from their own branches into the master branch around the same time.

console log of git graph

Now that you understand how branches and merges create the shape of the graph, this shouldn’t be too scary!

Learn more about Git history in our Team Services Git tutorial

 Get started with unlimited free private Git repos in Visual Studio Team Services.