Getting Started
6.031 requires you to get up to speed quickly. You need to:
- set up your software development environment,
- learn the basics of programming in Java, and
- learn basic version control with Git.
To learn Java, you will read Reading 2 and complete the reading exercises on that page, and you will do Java Tutor exercises to practice writing code.
If you have any questions, or any trouble following the instructions below, please visit lab hours to ask questions and get help from TAs and LAs.
Lab hours and deadlines in the 1st week
10pm: Reading 1 and Reading 2 reading exercises and Java Tutor exercises due | 11am before class: Problem Set 0 Part I due, including all steps and GitStream exercises on this page. You must have Java, Eclipse, Constellation, and Git set up and working on your laptop. |
10pm: Reading 3 reading exercises and Java Tutor exercises due | ||
See the course calendar for the full schedule of office and lab hours. Regular office hours will begin Monday, February 12. Lab hours may change depending on deadlines, so always check the calendar to see when lab hours are scheduled. |
Step 1: Install Java
From Java Development Kit 8 Downloads, download Java SE Development Kit 8u161 (you don’t need the demos and samples) and run the installer.
The latest version of Java 8 is required (8u161).
Java 9 may work, but 6.031 does not officially support it. Java 8 will be used to run and grade the code you submit.
Step 2: Install Git
We will be using the command-line interface to Git.
You may already have Git installed.
If so, you do not need to install the latest version.
Windows users should look for Git Bash.
macOS and Linux users should open a terminal and try running: git
To install Git: from the Git project page, follow the link on the right side to download the installer for your platform.
Follow the instructions in the README file in the downloaded .zip
or .dmg
.
- use Git from the Windows command prompt,
- checkout Windows-style, commit UNIX-style line endings, and
- add a shortcut to the Desktop
macOS: if you receive an “unidentified developer” warning, right-click the .pkg
file, select Open, then click Open.
Step 3: Install Eclipse
The Eclipse integrated development environment (IDE) is a powerful, flexible, complicated, and occasionally frustrating set of tools for developing and debugging programs, especially in Java.
6.031 provides an Eclipse setup script that installs:
- Eclipse IDE for Java Developers
- Java Tutor, our plug-in for learning the syntax and semantics of Java
- Constellation, our plug-in for working on in-class programming exercises
It also sets up Java code formatting and compiler warnings according to 6.031’s expectations, installs a few other plugins we’ll be using in this class, and sets other useful preferences.
From Eclipse Downloads, download the Eclipse Oxygen installer (orange button).
The latest version of Eclipse is required (Oxygen.2, a.k.a. 4.7.2).
-
Start the installer.
Click the hamburger menu in the top right corner.
Click ADVANCED MODE.(If asked whether to “keep the installer in a permanent location,” click No.)
-
https://raw.githubusercontent.com/6031/eclipse031/master/eclipse-for-6031.setup
-
The product Eclipse for 6.031 should be selected.
Near the bottom of the dialog, next to Java 1.8+ VM, look for the full version number in the middle of the path. You must have at least 1.8.0_121. If you see a lower version, even if only the last number is lower, quit the installer and update your Java installation first.
Click Next.
-
Variables: if you want, you can change the installation folder name.
That folder will go inside the root install folder — by default, your home directory, but you can Browse to pick a different one.
(If you change either of these, you must use locations with no spaces in their names. For example, using “Program Files” on Windows will not work.)
Click Next.
-
Unsigned Content: during the installation, you will be asked to confirm the installation of 6.031’s unsigned plug-ins.
-
Select a directory as workspace: the installer automatically launches Eclipse, which will prompt you for a workspace location.
-
When Eclipse launches, you can dismiss the welcome screen by clicking Workbench in the top right corner.
Step 4: Set up Eclipse
When you run Eclipse, you are prompted for a “workspace” directory, where Eclipse will store its configuration data. You should not run more than one copy of Eclipse at the same time with the same workspace.
While you can store your code in the workspace directory, we do not recommend it. Instead, put your code elsewhere (in 6.031, you will do that with Git in the terminal), then import it into Eclipse by following assignment instructions.
On the left side of your Eclipse window is the Package Explorer, which shows you all the projects in your workspace. The Package Explorer looks like a file browser, but it is not. It rearranges files and folders, includes things that are not files or folders, and includes projects stored anywhere on your hard drive that have been added to the workspace.
The 6.031 technical FAQ has some tips and tricks to help you make the most of Eclipse.
4.1: Set preferences
-
Go to Help → Perform Setup Tasks… and click Finish to set 6.031 defaults, including:
Open Eclipse preferences.
Windows and Linux: go to Window → Preferences.
macOS: go to Eclipse → Preferences.Make sure assertions are always on. Assertions are a great tool for keeping your code safe from bugs, but Java has them off by default.
In preferences, go to Java → Installed JREs. Click “Java SE 8”, click “Edit…”, and in the “Default VM arguments” box enter:
-ea
(which stands for enable assertions).
4.2: Log into the Java Tutor
Click the Java Tutor tab next to Package Explorer.
If you don’t see it: go to Window → Show View → Other…, select Java Tutor → Java Tutor and press OK. Then drag the Java Tutor view so it stacks with the Package Explorer, filling up the left side of the window.
Finish setting up the Java Tutor by copying and pasting your personal start URL
-
When you’re using the Tutor, be sure to bring Problems to the front, so that you can see Java compiler errors more easily. Your Eclipse window should look something like the window on the right.
4.3: Set up Constellation
-
In the Quick Access field in the top right of your Eclipse window, enter “set up constellation” and select Set up Constellation.
-
Your web browser should open a Constellation page that requires MIT certificates. Click the red button.
If you see a “Waiting for pair…” dialog but your browser does not open, or if the wrong browser opens and you do not have certificates: first set a different browser as your default (e.g., make Safari your default browser if you want to use Chrome), then go back and set the desired browser as the default. Cancel “Waiting for pair…” and do “Set up Constellation” again to make sure the correct browser opens.
-
After following the prompts, you should see a “Success” message in Eclipse to confirm that Constellation is ready to use.
Step 5: Open the command line
One thing that makes learning Git harder for many students is that it’s a command-line program. If you’re not familiar with the command-line, this can be confusing.
A command-line is an interface to your computer, similar to the Mac Finder or Windows Explorer, except that it’s text-based. As the name implies, you interact with it through “commands” — each line of input begins with a command and has zero or more arguments, separated by spaces. The command-line keeps track of what directory (folder) you’re in, which is important to many of the commands you might be running.
On macOS and Linux, open the Terminal application.
On Windows, Git for Windows includes Git Bash. Run Git Bash to open a terminal where you can run all the commands below, in addition to Git commands.
Common commands
cd
(stands for “change directory”)Changes the current directory. If you’re in a directory that has a subdirectory called
hello
, thencd hello
moves into that subdirectory.Use
cd ..
to move to the parent directory of your current directory.pwd
(“print working directory”)Prints out the current directory, if you’re not sure where you are.
On a well-configured system, your current directory is displayed as part of the prompt that the system shows when it’s ready to receive a command. If that’s not the case on your system, post on Piazza to get help configuring your prompt.
-
Lists the files in the current directory.
Use
ls -l
for extra information (a “long” listing) about the files. Usels -a
(stands for “all”) to show hidden files, which are files and subdirectories whose names begin with a period. -
Creates a new directory in the current directory. To create a directory called
goodbye
, usemkdir goodbye
. -
Use up arrow to put the command you just ran back on the command line. You can now edit that command to fix a typo, or just press enter to run it again.
Use the up and down arrow keys to navigate through your history of commands, so you never have to re-type a long command line.
Step 6: Set up Git
Before using Git, we’ll do some required setup and make it behave a little nicer.
Who are you?
git config --global user.name "Your Name" git config --global user.email username@mit.edu
-
Every Git commit has a descriptive message, called the commit message. Pick one of the two options below to set up your commit message editor.
Option 1: set up an easy-to-use editor
macOS and Linux: use nano
nano is a simple text editor. It does not come with the Windows version of Git, so Windows users should choose a different option.
To see if you have nano, try running:
nano
in the terminal. The result should be a simple editor with instructions at the bottom of the screen; quit with
ctrl-X
. If that worked:git config --global core.editor nano
will configure Git to use the nano editor. The commands to use the text editor (like copy, paste, quit, etc.) will be shown on the bottom of the screen. The
^
symbol represents thectrl
key. For example, you can pressctrl-O
to save (nano calls it “write out”) and thenctrl-X
to quit.Windows: use Notepad
You can change the default editor to Notepad with:
git config --global core.editor notepad
If you prefer to edit your commit messages in the terminal, choose Option 2 instead.
Option 2: use Vim
On macOS and Windows, your default editor will be Vim.
On Linux, the default editor depends on your distribution.
Vim is a popular text editor, but it’s tricky to use.
To see if you have Vim, try running:
vim
in the terminal.
You start in a mode called “normal mode”. You can’t immediately type anything into the file!
In order to start typing, press
i
(stands for “insert”). This will bring you to “insert mode”, so named because in this mode you can type text into the file.When you are done typing, press
esc
. This will bring you back to “normal mode”.Once you’re back in normal mode, you can type commands that start with
:
.To save your work, type
:w
(stands for “write”) and press return.To exit (quit) Vim, type
:q
and press return.To save and quit in one command, combine them: type
:wq
and press return. -
Out of the box, it can be hard to see and understand all the output that git prints out at you. One way to make it a little easier is to add some color. Run the following commands to make your git output colorful:
git config --global color.branch auto git config --global color.diff auto git config --global color.interactive auto git config --global color.status auto git config --global color.grep auto
-
As we’ll see in the next step of this guide,
git log
is a command for looking at the history of your repository.To create a special version of
git log
that summarizes the history of your repo, let’s create agit lol
alias using the command (all on one line):git config --global alias.lol "log --graph --oneline --decorate --color --all"
Now, in any repository you can use:
git lol
Step 7: Learn the Git workflow
This section includes links to a Git tutor called GitStream. GitStream allows you to practice Git on your machine: for each exercise, you clone a GitStream repository, then follow the instructions on the web page. GitStream will give you feedback in both the terminal and on the web as you complete each exercise.
As you read: complete the GitStream exercises to practice using Git.
You can find general instructions and a list of exercises on the GitStream page. If you encounter a problem, please post on Piazza.
GitStream will not work with multiple exercise pages open at the same time.
Don’t open exercises in multiple tabs. If an exercise doesn’t work, please close all open GitStream pages and try again.
What is Git?
Git is a version control system (VCS). The Pro Git book describes what Git is used for:
Version control is a system that records changes to a file or set of files over time so that you can recall specific versions later. […] It allows you to revert files back to a previous state, revert the entire project back to a previous state, compare changes over time, see who last modified something that might be causing a problem, who introduced an issue and when, and more. Using a VCS also generally means that if you screw things up or lose files, you can easily recover.
Some of the most important Git concepts:
repository: A folder containing all the files associated with a project (e.g., a 6.031 problem set or team project), as well as the entire history of commits to those files.
commit (or “revision”): A snapshot of the files in a repository at a given point in time.
add (or “stage”): Before changes to a file can be committed to a repository, the files in question must be added or staged (before each commit). This lets you commit changes to only certain files of your choosing at a time, but can also be a bit of a pain if you accidentally forget to add all the files you wanted to commit before committing.
clone: Since Git is a “distributed” version control system, there is no concept of a centralized Git “server” that holds the latest official version of your code. Instead, developers “clone” remote repositories that contain files they want access to, and then commit to their local clones. Only when they push their local commits to the original remote repository are other developers able to see their changes.
push: The act of sending your local commits to a remote repository. Again, until you add, commit, and push your changes, no one else can see them.
pull: The act of retrieving commits made to a remote repository and writing them into your local repository. This is how you are able to see commits made by others after the time at which you made an initial clone.
Cloning
You start working with Git repos in 6.031 by cloning a remote repository into a local repository on your computer.
To do this, open the terminal (use Git Bash on Windows) and use the cd
command to change to the directory where you would like to store your code.
Then run:
git clone URI-of-remote-repo
or
git clone URI-of-remote-repo project-name
Replace URI-of-remote-repo
with the location of the remote repository, and replace project-name
with the appropriate project name, like ps0
.
The result will be a new directory project-name
with the contents of the repository.
This is your local repository.
After you have cloned a repository, you should navigate into the repository on your command prompt using cd
.
This lets you run git
commands on the repository.
git clone
Cloning problem sets: for each problem set in 6.031, you will have a Git repository on Athena.
Initially this remote repository only contains some template code.
To start working on the problem set, you will clone that repository onto your machine.
As you complete each part of the problem set, you will commit your changes to the local repository and then push them to the remote repository.
When the time comes for grading your assignment, we will clone the remote repository and look at the last commit you made and pushed there before the deadline.
Creating a commit
The basic building block of data in Git is called a “commit”. A commit represents some change to one or more files (or the creation or deletion of one or more files).
When you change a file or create a new file, that change is not part of the repository. Adding it takes two steps. First, run:
git add file.txt
(where file.txt
is the file you want to add)
You’ll either need to run that command from the same directory as the file, or include directory names in the file path.
This stages the file. Second, once you’ve staged all your changes, run:
This will pop up the editor for your commit message. When you save and close the editor, the commit will be created.
Getting the status of your repository
Git has some nice commands for seeing the status of your repository.
The most important of these is git status
.
Run it any time to see which files Git sees have been modified and are still unstaged and which files have been modified and staged (so that if you git commit
those changes will be included in the commit).
Note that the same file might have both staged and unstaged changes, if you changed the file more after running git add
.
When you have unstaged changes, you can see what the changes were (relative to the last commit) by running git diff
.
Note that this will not include changes that were staged (but not committed).
You can see those by running git diff --staged
.
Pushing
After you’ve made some commits, you’ll want to push them to a remote repository.
In 6.031, you should have only one remote repository to push to, called origin
.
To push to it, you run the command:
The origin
in the command specifies that you’re pushing to the origin
remote.
By convention, that’s the remote repository you cloned from.
The master
refers to the master
branch.
We won’t use branches in 6.031.
master
is Git’s default branch name, so all our commits will be on master
, and that’s the branch we want to push.
Once you run this, you will be prompted for your password and hopefully everything will push. You’ll get a line like this:
a67cc45..b4db9b0 master -> master
GitStream → Practice adding a new file
GitStream → Practice deleting a file
Merges
Sometimes, when you try to push, things will go wrong. You might get an output like this:
! [rejected] master -> master (non-fast-forward)
What’s going on here is that Git won’t let you push to a repository unless all your commits come after all the ones already in your remote repository. If you get an error message like that, it means that there is a commit in your remote repository that you don’t have in your local one (on a project, probably because a teammate pushed before you did). If you find yourself in this situation, you have to pull first and then push.
Pulling
To perform a pull, you should run git pull
.
When you run this, Git actually does two things:
It downloads the changes and stores them in its internal state. At this point, the repository doesn’t look any different, but it knows what the state of the remote repository is and what the state of your local repository is.
It incorporates the changes from the remote repository into the local repository by merging, described below.
Merging
If you made some changes to your repository and you’re trying to incorporate the changes from another repository, you need to merge them together somehow. In terms of commits, what actually needs to happen is that you have to create a special merge commit that combines both changes. How this process actually happens depends on the changes.
If you’re lucky, then the changes you made and the changes that you downloaded from the remote repository don’t conflict.
For example, maybe you changed one file and your project partner changed another.
In this case, it’s safe to just include both changes.
Similarly, maybe you changed different parts of the same file.
In these cases, Git can do the merge automatically.
When you run git pull
, it will pop up an editor as if you were making a commit: this is the commit message of the merge commit that Git automatically generated.
Once you save and close this editor, the merge commit will be made and you will have incorporated both changes.
At this point, you can try to git push
again.
Merge conflicts
Sometimes, you’re not so lucky.
If the changes you made and the changes you pulled edit the same part of the same file, Git won’t know how to resolve it.
This is called a merge conflict.
In this case, you will get an output that says CONFLICT
in big letters.
If you run git status
, it will show the conflicting files with the label Both modified
.
You now have to edit these files and resolve them by hand.
First, open the files in Eclipse.
The parts that are conflicted will be really obviously marked with obnoxious <<<<<<<<<<<<<<<<<<
, ==================
, and >>>>>>>>>>>>>>>>>>
lines.
Everything between the <<<<
and the ====
lines are the changes you made.
Everything between the ====
and the >>>>
lines are the changes you pulled in.
It’s your job to figure out how to combine these.
The answer will of course depend on the situation.
Maybe one change logically supercedes the other, or maybe they can be merged somehow.
You should edit the file to your satisfaction and remove the <<<<
/====
/>>>>
markers when you’re done.
Once you have resolved all the conflicts (note that there can be several conflicting files, and also several conflicts per file), git add
all the affected files and then git commit
.
You will have an opportunity to write the merge commit message (where you should describe how you did the merge).
Now you should be able to push.
Getting the history of the repository
You can see the list of all the commits in the repository (with their commit messages) using git log
.
You can see the last commit on the repository using git show
.
This will show you the commit message as well as all the modifications.
Long output: if git log
or git show
generate more output than fits on one page, you will see a colon (:
) symbol at the bottom of the screen.
You will not be able to type another command!
Use the arrow keys to scroll up and down, and quit the output viewer by pressing q
.
Commit IDs: every Git commit has a unique ID, the hexadecimal numbers you see in git log
or git show
.
The commit ID is a unique cryptographic hash of the contents of that commit.
Every commit, not just within your repository but within the universe of all Git repositories, has a unique ID (with extremely high probability).
You can reference a commit by its ID (usually just by the first few characters).
This is useful with a command like git show
, where you can look at a particular commit rather than only the most recent one.
You will also see commits identified by ID in tools like gitweb and Didit.
Reverting to previous versions
If you’d like to practice using the version history to undo a change:
git log
and git revert
We will revisit Git and learn more about version control in future classes. If you’ve installed the software, set up Eclipse, and completed the GitStream exercises above, you’re ready to move on to Problem Set 0.