Branching and merging

Objectives

• Be able to create and merge branches.

• Know the difference between a branch and a tag.

Instructor note

• 30 min teaching/type-along

• 20 min exercise

Motivation for branches

In the previous section we tracked a guacamole recipe with Git.

Up until now our repository had only one branch with one commit coming after the other:

Linear Git repository.

• Commits are depicted here as little boxes with abbreviated hashes.

• Here the branch main points to a commit.

• “HEAD” is the current position (remember the recording head of tape recorders?). When we say HEAD, we mean those literal letters - this isn’t a placeholder for something else.

• When we talk about branches, we often mean all parent commits, not only the commit pointed to.

Now we want to do this:

Image created using https://gopherize.me/ (inspiration).

Software development is often not linear:

• We typically need at least one version of the code to “work” (to compile, to give expected results, …).

• At the same time we work on new features, often several features concurrently. Often they are unfinished.

• We need to be able to separate different lines of work really well.

The strength of version control is that it permits the researcher to isolate different tracks of work, which can later be merged to create a composite version that contains all changes:

Isolated tracks of work.

• We see branching points and merging points.

• Main line development is often called main or master.

• Other than this convention there is nothing special about main or master, it is a branch like any other.

• Commits form a directed acyclic graph (we have left out the arrows to avoid confusion about the time arrow).

A group of commits that create a single narrative are called a branch. There are different branching strategies, but it is useful to think that a branch tells the story of a feature, e.g. “fast sequence extraction” or “Python interface” or “fixing bug in matrix inversion algorithm”.

An important alias

We will now define an alias in Git, to be able to nicely visualize branch structure in the terminal without having to remember a long Git command (more details about aliases are given in a later section). This is extensively used in the rest of this and other lessons:

$ git config --global alias.graph "log --all --graph --decorate --oneline"

Instructor note

Instructors, please demonstrate how to set this alias and ensure that all create it. This is very important for this lesson and git-collaborative.

Let us inspect the project history using the git graph alias:

$ git graph

* e7cf023 (HEAD -> main) don't forget to enjoy
* 79161b6 add half an onion
* a3394e3 adding README
* 3696246 adding instructions
* f146d25 adding ingredients

• We have a couple commits and only one development line (branch) and this branch is called main.

• Commits are states characterized by a 40-character hash (checksum).

• git graph print abbreviations of these checksums.

• Branches are pointers that point to a commit.

• Branch main points to a commit (in this example it is e7cf023efe382340e5284c278c6ae2c087dd3ff7 but on your computer the hash will be different).

• HEAD is another pointer, it points to where we are right now (currently main)

In the following we will learn how to create branches, how to switch between them, how to merge branches, and how to remove them afterwards.

Creating and working with branches

Instructor note

We do the following part together. Encourage participants to type along.

It is possible to create and merge branches directly on GitHub

• However, we do not have screenshots for that in this episode

• But if you prefer to work in the browser, please try it

• Please contribute screenshots to this lesson

Let’s create a branch called experiment where we add cilantro to ingredients.txt (text after “#” are comments and not part of the command).

$ git branch experiment main  # creates branch "experiment" from "main"
$ git switch experiment       # switch to branch "experiment"
$ git branch                  # list all local branches and show on which branch we are

Note

In case git switch does not work, your Git version might be older than from 2019. On older Git it is git checkout instead of git switch.

• Verify that you are on the experiment branch (note that git graph also makes it clear what branch you are on: HEAD -> branchname):

  $ git branch
  
  * experiment
    main
  

  This command shows where we are, it does not create a branch.

• Then add 2 tbsp cilantro on top of the ingredients.txt:

  * 2 tbsp cilantro
  * 2 avocados
  * 1 chili
  * 1 lime
  * 2 tsp salt
  * 1/2 onion
  

• Stage this and commit it with the message “let us try with some cilantro”.

• Then reduce the amount of cilantro to 1 tbsp, stage and commit again with “maybe little bit less cilantro”.

We have created two new commits:

$ git graph

* bcb8b78 (HEAD -> experiment) maybe little bit less cilantro
* f6ec7b7 let us try with some cilantro
* e7cf023 (main) don't forget to enjoy
* 79161b6 add half an onion
* a3394e3 adding README
* 3696246 adding instructions
* f146d25 adding ingredients

• The branch experiment is two commits ahead of main.

• We commit our changes to this branch.

Exercise: Create and commit to branches

Branch-1: Create and commit to branches

In this exercise, you will create another new branch and few more commits. We will use this in the next section, to practice merging. The goal of the exercise is to end up with 3 branches.

• Change to the branch main.

• Create another branch called less-salt.

  • Note! makes sure you are on main branch when you create the less-salt branch.

  • A safer way would be to explicitly mention to create from the main branch as shown below:

    $ git branch less-salt main
    

• Switch to the less-salt branch.

• On the less-salt branch reduce the amount of salt.

• Commit your changes to the less-salt branch.

Use the same commands as we used above.

We now have three branches (in this case HEAD points to less-salt):

$ git branch

  experiment
* less-salt
  main

$ git graph

* bf28166 (HEAD -> less-salt) reduce amount of salt
| * bcb8b78 (experiment) maybe little bit less cilantro
| * f6ec7b7 let us try with some cilantro
|/
* e7cf023 (main) don't forget to enjoy
* 79161b6 add half an onion
* a3394e3 adding README
* 3696246 adding instructions
* f146d25 adding ingredients

Here is a graphical representation of what we have created:

• Now switch to main.

• In a new commit, improve the README.md file (we added the word “Guacamole”):

  # Guacamole recipe
  
  This is an exercise repository.
  

Now you should have this situation:

$ git graph

* b4af65b (HEAD -> main) improve the documentation
| * bf28166 (less-salt) reduce amount of salt
|/
| * bcb8b78 (experiment) maybe little bit less cilantro
| * f6ec7b7 let us try with some cilantro
|/
* e7cf023 don't forget to enjoy
* 79161b6 add half an onion
* a3394e3 adding README
* 3696246 adding instructions
* f146d25 adding ingredients

And for comparison this is how it looks on GitHub.

Exercise: Merging branches

It turned out that our experiment with cilantro was a good idea. Our goal now is to merge experiment into main.

Branch-2: Merge branches

Merge experiment and less-salt back into main following the lesson below until the point where we start deleting branches.

If you got stuck in the above exercises or joined later

If you got stuck in the above exercises or joined later, you can apply the commands below. But skip this box if you managed to create branches.

$ cd ..  # step out of the current directory

$ git clone https://github.com/coderefinery/recipe-before-merge.git
$ cd recipe-before-merge

$ git switch experiment
$ git switch less-salt
$ git switch main

$ git remote remove origin

$ git graph

Or call a helper to un-stuck it for you.

First we make sure we are on the branch we wish to merge into:

$ git branch

  experiment
  less-salt
* main

Then we merge experiment into main:

$ git merge experiment

We can verify the result:

$ git graph

*   81fcc0c (HEAD -> main) Merge branch 'experiment'
|\
| * bcb8b78 (experiment) maybe little bit less cilantro
| * f6ec7b7 let us try with some cilantro
* | b4af65b improve the documentation
|/
| * bf28166 (less-salt) reduce amount of salt
|/
* e7cf023 don't forget to enjoy
* 79161b6 add half an onion
* a3394e3 adding README
* 3696246 adding instructions
* f146d25 adding ingredients

What happens internally when you merge two branches is that Git creates a new commit, attempts to incorporate changes from both branches and records the state of all files in the new commit. While a regular commit has one parent, a merge commit has two (or more) parents.

To view the branches that are merged into the current branch we can use the command:

$ git branch --merged

  experiment
* main

We are also happy with the work on the less-salt branch. Let us merge that one, too, into main:

$ git branch  # make sure you are on main
$ git merge less-salt

Commit graph after merge.

We can verify the result in the terminal:

$ git graph

*   4e03d4b (HEAD -> main) Merge branch 'less-salt'
|\
| * bf28166 (less-salt) reduce amount of salt
* |   81fcc0c Merge branch 'experiment'
|\ \
| * | bcb8b78 (experiment) maybe little bit less cilantro
| * | f6ec7b7 let us try with some cilantro
| |/
* / b4af65b improve the documentation
|/
* e7cf023 don't forget to enjoy
* 79161b6 add half an onion
* a3394e3 adding README
* 3696246 adding instructions
* f146d25 adding ingredients

Observe how Git nicely merged the changed amount of salt and the new ingredient in the same file without us merging it manually:

$ cat ingredients.txt

* 1 tbsp cilantro
* 2 avocados
* 1 chili
* 1 lime
* 1 tsp salt
* 1/2 onion

If the same file is changed in both branches, Git attempts to incorporate both changes into the merged file. If the changes overlap then the user has to manually settle merge conflicts (we will do that later).

Deleting branches safely

Both feature branches are merged:

$ git branch --merged

  experiment
  less-salt
* main

This means we can delete the branches:

$ git branch -d experiment
$ git branch -d less-salt

This is the result:

Commit graph after merged branches were deleted.

We observe that when deleting branches, only the pointers (“sticky notes”) disappeared, not the commits.

Git will not let you delete a branch which has not been reintegrated unless you insist using git branch -D. Even then your commits will not be lost but you may have a hard time finding them as there is no branch pointing to them.

Optional exercises with branches

The following exercises are more advanced, absolutely no problem to postpone them to a few months later. If you give them a go, keep in mind that you might run into conflicts, which we will learn to resolve in the next section.

(optional) Branch-3: Perform a fast-forward merge

1. Create a new branch from main and switch to it.

2. Create a couple of commits on the new branch (for instance edit README.md):

   

3. Now switch to main.

4. Merge the new branch to main.

5. Examine the result with git graph.

6. Have you expected the result? Discuss what you see.

Solution

You will see that in this case no merge commit was created and Git merged the two branches by moving (fast-forwarding) the “main” branch (label) three commits forward.

This was possible since one branch is the ancestor of the other and their developments did not diverge.

A merge that does not require any merge commit is a fast-forward merge.

(optional) Branch-4: Rebase a branch (instead of merge)

As an alternative to merging branches, one can also rebase branches. Rebasing means that the new commits are replayed on top of another branch (instead of creating an explicit merge commit). Note that rebasing changes history and should not be done on public commits!

1. Create a new branch, and make a couple of commits on it.

2. Switch back to main, and make a couple of commits on it.

3. Inspect the situation with git graph.

4. Now rebase the new branch on top of main by first switching to the new branch, and then git rebase main.

5. Inspect again the situation with git graph. Notice that the commit hashes have changed - think about why!

Solution

You will notice two things:

• History is now linear and does not contain merge commits.

• All the commit hashes that were on the branch that got rebased, have changed. This also demonstrates that git rebase is a command that alters history. The commit history looks as if the rebased commits were all done after the main commits.

Tags

• A tag is a pointer to a commit but in contrast to a branch it does not ever move when creating new commits later.

• It can be useful to think of branches as sticky notes and of tags as commemorative plaques.

• We use tags to record particular states or milestones of a project at a given point in time, like for instance versions (have a look at semantic versioning, v1.0.3 is easier to understand and remember than 64441c1934def7d91ff0b66af0795749d5f1954a).

• There are two basic types of tags: annotated and lightweight.

• Use annotated tags since they contain the author and can be cryptographically signed using GPG, timestamped, and a message attached.

Let’s add an annotated tag to our current state of the guacamole recipe:

$ git tag -a nobel-2023 -m "recipe I made for the 2023 Nobel banquet"

As you may have found out already, git show is a very versatile command. Try this:

$ git show nobel-2023

For more information about tags see for example the Pro Git book chapter on the subject.

---

Summary

Let us pause for a moment and recapitulate what we have just learned:

$ git branch               # see where we are
$ git branch NAME          # create branch NAME
$ git switch NAME          # switch to branch NAME
$ git merge NAME           # merge branch NAME (to current branch)
$ git branch -d NAME       # delete branch NAME
$ git branch -D NAME       # delete unmerged branch NAME

Since the following command combo is so frequent:

$ git branch NAME          # create branch NAME
$ git switch NAME          # switch to branch NAME

There is a shortcut for it:

$ git switch --create NAME  # create branch NAME and switch to it

Typical workflows

With this there are two typical workflows:

$ git switch --create new-feature  # create branch, switch to it
$ git commit                       # work, work, work, ..., and test
$ git switch main                  # once feature is ready, switch to main
$ git merge new-feature            # merge work to main
$ git branch -d new-feature        # remove branch

Sometimes you have a wild idea which does not work. Or you want some throw-away branch for debugging:

$ git switch --create wild-idea    # create branch, switch to it, work, work, work ...
$ git switch main                  # realize it was a bad idea, back to main
$ git branch -D wild-idea          # it is gone, off to a new idea

---

Branch-5: Test your understanding

Which of the following combos (one or more) creates a new branch and makes a commit to it?

1. $ git branch new-branch
   $ git add file.txt
   $ git commit
   

2. $ git add file.txt
   $ git branch new-branch
   $ git switch new-branch
   $ git commit
   

3. $ git switch --create new-branch
   $ git add file.txt
   $ git commit
   

4. $ git switch new-branch
   $ git add file.txt
   $ git commit
   

Solution

Both 2 and 3 would do the job. Note that in 2 we first stage the file, and then create the branch and commit to it. In 1 we create the branch but do not switch to it, while in 4 we don’t give the --create flag to git switch to create the new branch.

Keypoints

• A branch is a division unit of work, to be merged with other units of work.

• A tag is a pointer to a moment in the history of a project.