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Can someone tell me the difference between HEAD, working tree and index, in Git?

From what I understand, they are all names for different branches. Is my assumption correct?


Edit

I found this

A single git repository can track an arbitrary number of branches, but your working tree is associated with just one of them (the "current" or "checked out" branch), and HEAD points to that branch.

Does this mean that HEAD and working tree are always the same?

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    With respect to your edit: absolutely not. HEAD is the commit at the tip of the current branch. If you've just checked out the branch, i.e. have no modified files, then its content matches the working tree. As soon as you modify anything, it no longer matches.
    – Cascabel
    Sep 11 '10 at 13:17
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    I think you have to read this: think-like-a-git.net Apr 28 '14 at 12:27
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    I would also add a Staging Area to that list. What is HEAD, Working Tree, Index and a Staging Area
    – Green
    Sep 28 '16 at 14:31
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    The last sentence of @Jefromi's would be more clear as: > As soon as you modify anything, the working tree no longer matches the HEAD commit Oct 8 '16 at 17:41
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    For any reading this in future the best way to truly understand some of these answers is to see and feel and visually conceptualize what is going on: this is the best tool for learning git ever: onlywei.github.io/explain-git-with-d3/#fetchrebase
    – BenKoshy
    Jul 8 '17 at 10:25
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A few other good references on those topics:

workflow

I use the index as a checkpoint.

When I'm about to make a change that might go awry — when I want to explore some direction that I'm not sure if I can follow through on or even whether it's a good idea, such as a conceptually demanding refactoring or changing a representation type — I checkpoint my work into the index.

If this is the first change I've made since my last commit, then I can use the local repository as a checkpoint, but often I've got one conceptual change that I'm implementing as a set of little steps.
I want to checkpoint after each step, but save the commit until I've gotten back to working, tested code.

Notes:

  1. the workspace is the directory tree of (source) files that you see and edit.

  2. The index is a single, large, binary file in <baseOfRepo>/.git/index, which lists all files in the current branch, their sha1 checksums, time stamps and the file name -- it is not another directory with a copy of files in it.

  3. The local repository is a hidden directory (.git) including an objects directory containing all versions of every file in the repo (local branches and copies of remote branches) as a compressed "blob" file.

Don't think of the four 'disks' represented in the image above as separate copies of the repo files.

3 states

They are basically named references for Git commits. There are two major types of refs: tags and heads.

  • Tags are fixed references that mark a specific point in history, for example v2.6.29.
  • On the contrary, heads are always moved to reflect the current position of project development.

commits

(note: as commented by Timo Huovinen, those arrows are not what the commits point to, it's the workflow order, basically showing arrows as 1 -> 2 -> 3 -> 4 where 1 is the first commit and 4 is the last)

Now we know what is happening in the project.
But to know what is happening right here, right now there is a special reference called HEAD. It serves two major purposes:

  • it tells Git which commit to take files from when you checkout, and
  • it tells Git where to put new commits when you commit.

When you run git checkout ref it points HEAD to the ref you’ve designated and extracts files from it. When you run git commit it creates a new commit object, which becomes a child of current HEAD. Normally HEAD points to one of the heads, so everything works out just fine.

checkout

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    After reading about git lot many times I never ever understand it completely I got really frustrated n I wanna use the f word; But im in community! U've mentioned heads but in the images above there is always a single HEAD where r the remaining f**ng heads? "Normally HEAD points to one of the heads, so everything works out just fine." I beg u to explain this, Ur statement.
    – Necktwi
    Apr 27 '14 at 5:48
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    @neckTwi HEAD is the current commit you are working with (stackoverflow.com/a/964927/6309). It usually is one of the "branch heads" (one of the commits referenced by branches, representing the tip of said branches). But you can checkout (and work on) any commit. If you checkout a commit which isn't one of the (branch) heads, you are in a "detached HEAD" mode: stackoverflow.com/a/3965714/6309
    – VonC
    Apr 27 '14 at 6:34
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    @Imray I agree, but that is how I found those pictures 5 years ago (hades.name/blog/2010/01/28/…)
    – VonC
    Jan 24 '15 at 18:13
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    Regarding the index, I think the most useful thing that can be said is "The index is just another name for the staging area," like @ashraf-alam said. I feel like most of the time in discussion it's referred to as the staging area, which is why I didn't automatically make the connection that it was the same thing as the index.
    – Pete
    Feb 8 '16 at 18:47
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    @Pete I agree. For more on the difference between cache and index, see my other answer stackoverflow.com/a/6718135/6309
    – VonC
    Feb 8 '16 at 19:20
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The difference between HEAD (current branch or last committed state on current branch), index (aka. staging area) and working tree (the state of files in checkout) is described in "The Three States" section of the "1.3 Git Basics" chapter of Pro Git book by Scott Chacon (Creative Commons licensed).

Here is the image illustrating it from this chapter:

Local Operations - working directory vs. staging area (index) vs git repository (HEAD)

In the above image "working directory" is the same as "working tree", the "staging area" is an alternate name for git "index", and HEAD points to currently checked out branch, which tip points to last commit in the "git directory (repository)"

Note that git commit -a would stage changes and commit in one step.

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    "A picture is worth a thousand words". Thanks Jakub.. And thanks for the link.
    – Joyce Babu
    Sep 11 '10 at 10:38
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    Note: working tree seems to be preferred to working directory nowadays. See github.com/git/git/commit/…
    – VonC
    Jul 9 '16 at 19:24
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    This picture is not exactly accurate because the Staging Area is contained in a single file called "index"--and that index file happens to be in the root of the .git directory. So if you define the repo as the .git directory, the staging area is technically inside the repo. The third column would be better labeled "HEAD's Root tree object" to indicate that the checked-out files are coming from a commit object and that committing writes a new tree to a commit object--both commit objects are pointed to by HEAD.
    – Jazimov
    Apr 28 '17 at 15:37
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    @Jazimov You are probably right, but as he wrote, he has taken that picture from the well-known Pro Git book, and he has provided a link. Thus, if the picture could be improved or is even wrong, somebody should tell the authors of that book ... In general, I would be willing to do that, but to be honest, I am still a git beginner and have not yet understood what you said, so I am definitely the wrong person in that case.
    – Binarus
    Aug 6 '17 at 10:09
  • @Binarus: The danger in the wholesale reproduction of images like this is that it serves to propagate a "misrepresentation" made by one author/book. I think this is a case of literal versus functional interpretations here: In the literal sense, the index in fact is contained IN the repo if you define the repo as everything under the .git folder. In the functional sense, however, the index helps Git maintain the DAG in the repo and can be thought of a being external to it.
    – Jazimov
    Aug 6 '17 at 17:56
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Your working tree is what is actually in the files that you are currently working on.

HEAD is a pointer to the branch or commit that you last checked out, and which will be the parent of a new commit if you make it. For instance, if you're on the master branch, then HEAD will point to master, and when you commit, that new commit will be a descendent of the revision that master pointed to, and master will be updated to point to the new commit.

The index is a staging area where the new commit is prepared. Essentially, the contents of the index are what will go into the new commit (though if you do git commit -a, this will automatically add all changes to files that Git knows about to the index before committing, so it will commit the current contents of your working tree). git add will add or update files from the working tree into your index.

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  • Thanks a lot for the explanation Brian. So, the working tree contains all the uncommitted changes. If I commit my changes with git commit -a, then at that specific time my Working Tree and Index will be the same. When I push to my central repo, all three will be the same. Am I correct?
    – Joyce Babu
    Sep 11 '10 at 5:36
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    @Vinod Pretty much. You can have files in your working tree that Git doesn't know about, and those won't be committed with git commit -a (you need to add them with git add), so your working tree may have extra files that your index, your local repo, or your remote repo do not have. Sep 11 '10 at 6:01
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    @Vinod: The working tree and index can become the same without committing (git add updates the index from the working tree, and git checkout <path> updates working tree from index). HEAD refers to the most recent commit, so when you commit, you are updating HEAD to your new commit, which matches the index. Pushing doesn't have much to do with it - it makes branches in the remote match branches in your local repo.
    – Cascabel
    Sep 11 '10 at 13:15
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Working tree

Your working tree are the files that you are currently working on.

Git index

  • The git "index" is where you place files you want commit to the git repository.

  • The index is also known as cache, directory cache, current directory cache, staging area, staged files.

  • Before you "commit" (checkin) files to the git repository, you need to first place the files in the git "index".

  • The index is not the working directory: you can type a command such as git status, and git will tell you what files in your working directory have been added to the git index (for example, by using the git add filename command).

  • The index is not the git repository: files in the git index are files that git would commit to the git repository if you used the git commit command.

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    Note that Git 2.5 will bring multiple working trees (stackoverflow.com/a/30185564/6309). +1
    – VonC
    Jun 2 '15 at 17:34
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    I'm not sure that "The Index Isn't The Working Directory" is 100% correct. It should be "The Index Isn't The Working Directory, but it includes entire working directory + changes you want to be committed next". Proof? go to a git repository, reset --hard HEAD to make sure that your index == your working tree. an then: mkdir history && git checkout-index --prefix history/ -a The result is a duplication of your entire working tree in your history/ directory. Ergo git index >= git working directory Jul 21 '15 at 10:39
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    Index is not the working directory and does not have to include the working directory. Index is just a file within the git repository that stores info what you want to commit.
    – Boon
    Jul 27 '15 at 20:08
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    "The "index" holds a snapshot of the content of the working tree, and it is this snapshot that is taken as the contents of the next commit. Thus after making any changes to the working directory, and before running the commit command, you must use the add command to add any new or modified files to the index" (git-scm.com/docs/git-add)
    – anth
    Oct 15 '15 at 22:38
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    @AdamKurkiewicz: the proof fails if you first echo untracked-data > untracked-file, before or after the git reset --HARD and git checkout-index steps. You will find that the untracked file is not in the history directory. You can also modify both index and work-tree independently, although modifying the index without first touching the work-tree is hard (requires using git update-index --index-info).
    – torek
    Jan 19 '17 at 22:18
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This is an inevitably long yet easy to follow explanation from ProGit book:

Note: For reference you can read Chapter 7.7 of the book, Reset Demystified

Git as a system manages and manipulates three trees in its normal operation:

  • HEAD: Last commit snapshot, next parent
  • Index: Proposed next commit snapshot
  • Working Directory: Sandbox

The HEAD

HEAD is the pointer to the current branch reference, which is in turn a pointer to the last commit made on that branch. That means HEAD will be the parent of the next commit that is created. It’s generally simplest to think of HEAD as the snapshot of your last commit on that branch.

What does it contain?
To see what that snapshot looks like run the following in root directory of your repository:

                                 git ls-tree -r HEAD

it would result in something like this:

                       $ git ls-tree -r HEAD  
                       100644 blob a906cb2a4a904a152... README  
                       100644 blob 8f94139338f9404f2... Rakefile  
                       040000 tree 99f1a6d12cb4b6f19... lib  

The Index

Git populates this index with a list of all the file contents that were last checked out into your working directory and what they looked like when they were originally checked out. You then replace some of those files with new versions of them, and git commit converts that into the tree for a new commit.

What does it contain?
Use git ls-files -s to see what it looks like. You should see something like this:

                 100644 a906cb2a4a904a152e80877d4088654daad0c859 0 README   
                 100644 8f94139338f9404f26296befa88755fc2598c289 0 Rakefile  
                 100644 47c6340d6459e05787f644c2447d2595f5d3a54b 0 lib/simplegit.rb  

The Working Directory

This is where your files reside and where you can try changes out before committing them to your staging area (index) and then into history.

Visualized Sample

Let's see how do these three trees (As the ProGit book refers to them) work together?
Git’s typical workflow is to record snapshots of your project in successively better states, by manipulating these three trees. Take a look at this picture:

enter image description here

To get a good visualized understanding consider this scenario. Say you go into a new directory with a single file in it. Call this v1 of the file. It is indicated in blue. Running git init will create a Git repository with a HEAD reference which points to the unborn master branch

enter image description here

At this point, only the working directory tree has any content. Now we want to commit this file, so we use git add to take content in the working directory and copy it to the index.

enter image description here

Then we run git commit, which takes the contents of the index and saves it as a permanent snapshot, creates a commit object which points to that snapshot, and updates master to point to that commit.

enter image description here

If we run git status, we’ll see no changes, because all three trees are the same.

The beautiful point

git status shows the difference between these trees in the following manner:

  • If the Working Tree is different from index, then git status will show there are some changes not staged for commit
  • If the Working Tree is the same as index, but they are different from HEAD, then git status will show some files under changes to be committed section in its result
  • If the Working Tree is different from the index, and index is different from HEAD, then git status will show some files under changes not staged for commit section and some other files under changes to be committed section in its result.

For the more curious

Note about git reset command
Hopefully, knowing how reset command works will further brighten the reason behind the existence of these three trees.

reset command is your Time Machine in git which can easily take you back in time and bring some old snapshots for you to work on. In this manner, HEAD is the wormhole through which you can travel in time. Let's see how it works with an example from the book:

Consider the following repository which has a single file and 3 commits which are shown in different colours and different version numbers:

enter image description here

The state of trees is like the next picture:

enter image description here

Step 1: Moving HEAD (--soft):

The first thing reset will do is move what HEAD points to. This isn’t the same as changing HEAD itself (which is what checkout does). reset moves the branch that HEAD is pointing to. This means if HEAD is set to the master branch, running git reset 9e5e6a4 will start by making master point to 9e5e6a4. If you call reset with --soft option it will stop here, without changing index and working directory. Our repo will look like this now:
Notice: HEAD~ is the parent of HEAD

enter image description here

Looking a second time at the image, we can see that the command essentially undid the last commit. As the working tree and the index are the same but different from HEAD, git status will now show changes in green ready to be committed.

Step 2: Updating the index (--mixed):

This is the default option of the command

Running reset with --mixed option updates the index with the contents of whatever snapshot HEAD points to currently, leaving Working Directory intact. Doing so, your repository will look like when you had done some work that is not staged and git status will show that as changes not staged for commit in red. This option will also undo the last commit and also unstage all the changes. It's like you made changes but have not called git add command yet. Our repo would look like this now:

enter image description here

Step 3: Updating the Working Directory (--hard)

If you call reset with --hard option it will copy contents of the snapshot HEAD is pointing to into HEAD, index and Working Directory. After executing reset --hard command, it would mean like you got back to a previous point in time and haven't done anything after that at all. see the picture below:

enter image description here

Conclusion

I hope now you have a better understanding of these trees and have a great idea of the power they bring to you by enabling you to change your files in your repository to undo or redo things you have done mistakenly.

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