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Could somebody explain how git knows internally that files X, Y and Z have changed? What is the process behind the scenes that recognizes when a file has not yet been added or has modifications? I am asking because, with Subversion it's simple to figure out that it keeps track of these things by having a .svn directory under each folder, but for git I can't seem to find a description of the inner workings of this. I doubt it scans through all the sub-directories for changes, as it's quite fast.

So, out if curiosity, what are it's inner workings?

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@H2CO3: I already know how to work with git, just not that bit. –  carlspring Apr 2 '13 at 13:31
that's exactly what the duplicate deals with. –  user529758 Apr 2 '13 at 13:32
That "answer" is just a set of links to pages and paid books. I believe my questions is sufficiently specific and I don't seem to be convinced it duplicates the other one, unless I am not seeing something. –  carlspring Apr 2 '13 at 13:37
@H2CO3 I also disagree - the question you link to is a scattershot collection of various books on git of varying levels. –  Edward Thomson Apr 2 '13 at 14:30

3 Answers 3

up vote 3 down vote accepted

The mechanisms by which one determines the status of a file is fairly straightforward. To know what files have been staged, one simply diffs the HEAD tree with the index. Any items that appear only in the index have been staged for addition, any items that appear only in HEAD have been removed and any items that are different have had changes staged.

Similarly, one would detect unstaged changes by diff'ing the index with the working directory.

Your question in particular asks how this can be so fast (after all, computing the SHA1 hash of a file is not exactly speedy.) This is where the index - also known as the cache - comes in to play again. The index also has fields for the file size and file modification time. Thus one can simply stat(2) a file on disk and compare against the index's file size and file modification time to know whether to hash the file or not.

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Thank you for this explanation. This helps make the picture clearer. –  carlspring Apr 2 '13 at 15:05
Could you please clarify how this works for untracked files? Does it scan through the files on the file system? –  carlspring Apr 2 '13 at 15:15
@carlspring That's the diff against the index and the working directory. If there's some item that's in the working directory and not the index, it's untracked... –  Edward Thomson Apr 2 '13 at 15:26
A-ha! So it is indeed scanning it. Thanks! –  carlspring Apr 2 '13 at 15:30
@carlspring: Yes - but again, only if the timestamp doesn't match. –  Edward Thomson Apr 2 '13 at 16:01

You can find your answer in the free book Pro-Git on chapter Git Internals

This chapter explains how git works behind the hood.

As Leo stated, git checks the SHA1 of the files to see if it has changed you can check it like this (Taken from Git Internals):

$ echo 'version 1' > test.txt
$ git hash-object -w test.txt

Then, write some new content to the file, and save it again:

$ echo 'version 2' > test.txt
$ git hash-object -w test.txt
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Right, and how does it actually know which files have changed since the last commit and which files are new? Does it run a scan through the directories, or does it check the blobs in the .git directory, or what...? –  carlspring Apr 2 '13 at 14:01

If the answer in the possible duplicate doesn't suffice you might want to take a look at this http://www.geekgumbo.com/2011/07/19/git-basics-how-git-saves-your-work/

To make a long story short, Git uses the SHA-1 of the file contents to keep track of changes. Git keeps track of four objects: a blob, a tree, a commit, and a tag.

To answer your question on how it keeps track of changes here's a quote from that link:

The tree object is how Git keeps track of file names and directories. There is a tree object for each directory. The tree object points to the SHA-1 blobs, the files, in that directory, and other trees, sub-directories at the time of the commit. Each tree object is encrypted into, you guessed it, a SHA-1 hash of its contents, and stored in .git/objects. The name of the trees, since they are SHA-1 hashes, allow Git to quickly see if there's been any changes to any files or directories by comparing the name to the previous name. Pretty slick.

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