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145M = .git/objects/pack/

I wrote a script to add up the sizes of differences of each commit and the commit before it going backwards from the tip of each branch. I get 129MB, which is without compression and without accounting for same files across branches and common history among branches.

Git takes all those things into account so I would expect much much smaller repository. So why is .git so big?

I've done:

git fsck --full
git gc --prune=today --aggressive
git repack

To answer about how many files/commits, I have 19 branches about 40 files in each. 287 commits, found using:

git log --oneline --all|wc -l

It should not be taking 10's of megabytes to store information about this.

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So... You're wondering what this other 16 megs is or...? –  baudtack Jun 23 '09 at 0:15
No, I didn't get it. That's why I asked for clarification. –  baudtack Jun 23 '09 at 0:23
:) I updated it to be more explicit. –  Ian Kelling Jun 23 '09 at 0:24
Linus recommends the following over aggressive gc. Does it make a significant difference? git repack -a -d --depth=250 --window=250 –  Greg Bacon Jun 23 '09 at 1:18
thanks gbacon, but no difference. –  Ian Kelling Jun 23 '09 at 1:21

8 Answers 8

up vote 41 down vote accepted

I recently pulled the wrong remote repository into the local one (git remote add ... and git remote update). After deleting the unwanted remote ref, branches and tags I still had 1.4GB (!) of wasted space in my repository. I was only able to get rid of this by cloning it with git clone file:///path/to/repository. Note that the file:// makes a world of difference when cloning a local repository - only the referenced objects are copied across, not the whole directory structure.

Edit: Here's Ian's one liner for recreating all branches in the new repo:

d1=#original repo
d2=#new repo (must already exist)
cd $d1
for b in $(git branch | cut -c 3-)
    git checkout $b
    x=$(git rev-parse HEAD)
    cd $d2
    git checkout -b $b $x
    cd $d1
share|improve this answer
wow. THANK YOU. .git = 15M now!! after cloning, here is a little 1 liner for preserving your previous branches. d1=#original repo; d2=#new repo; cd $d1; for b in $(git branch | cut -c 3-); do git checkout $b; x=$(git rev-parse HEAD); cd $d2; git checkout -b $b $x; cd $d1; done –  Ian Kelling Jun 25 '09 at 0:31
if you check this, you could add the 1 liner to your answer so its formatted as code. –  Ian Kelling Jun 25 '09 at 0:36
I foolishly added a bunch of video files to my repo, and had to reset --soft HEAD^ and recommit. The .git/objects dir was huge after that, and this was the only way that got it back down. However I didn't like the way the one liner changed my branch names around (it showed origin/branchname instead of just branchname). So I went a step further and executed some sketchy surgery--I deleted the .git/objects directory from the original, and put in the one from the clone. That did the trick, leaving all of the original branches, refs, etc intact, and everything seems to work (crossing fingers). –  Jack Senechal Jan 4 '11 at 12:01
thanks for the tip about the file:// clone, that did the trick for me –  adam.wulf Apr 2 '12 at 4:32
@vonbrand if you hard link to a file and delete the original file, nothing happens except that a reference counter gets decremented from 2 to 1. Only if that counter gets decremented to 0 the space is freed for other files on the fs. So no, even if the files were hard linked nothing would happen if the original gets deleted. –  stefreak Mar 29 '13 at 11:35

Some scripts I use:


git rev-list --all --objects | \
    sed -n $(git rev-list --objects --all | \
    cut -f1 -d' ' | \
    git cat-file --batch-check | \
    grep blob | \
    sort -n -k 3 | \
    tail -n40 | \
    while read hash type size; do 
         echo -n "-e s/$hash/$size/p ";
    done) | \
    sort -n -k1
89076 images/screenshots/properties.png
103472 images/screenshots/signals.png
9434202 video/parasite-intro.avi

git-eradicate (for video/parasite.avi):

git filter-branch -f  --index-filter \
    'git rm --force --cached --ignore-unmatch video/parasite-intro.avi' \
     -- --all
rm -Rf .git/refs/original && \
    git reflog expire --expire=now --all && \
    git gc --aggressive && \
    git prune

Note: the second script is designed to remove info from Git completely (including all info from reflogs). Use with caution.

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Finally... Ironically I saw this answer earlier in my search but it looked too complicated...after trying other things, this one started to make sense and voila! –  msanteler Sep 29 '14 at 4:27
@msanteler, The former (git-fatfiles) script has emerged when I asked the question on IRC (Freenode/#git). I saved the best version to a file, then posted it as an answer here. (I can't the original author in IRC logs although). –  Vi. Sep 30 '14 at 22:04

git gc already does a git repack so there is no sense in manually repacking unless you are going to be passing some special options to it.

The first step is to see whether the majority of space is (as would normally be the case) your object database.

git count-objects -v

This should give a report of how many unpacked objects there are in your repository, how much space they take up, how many pack files you have and how much space they take up.

Ideally, after a repack, you would have no unpacked objects and one pack file but it's perfectly normal to have some objects which aren't directly reference by current branches still present and unpacked.

If you have a single large pack and you want to know what is taking up the space then you can list the objects which make up the pack along with how they are stored.

git verify-pack -v .git/objects/pack/pack-*.idx

Note that verify-pack takes an index file and not the pack file itself. This give a report of every object in the pack, its true size and its packed size as well as information about whether it's been 'deltified' and if so the origin of delta chain.

To see if there are any unusally large objects in your repository you can sort the output numerically on the third of fourth columns (e.g. | sort -k3n).

From this output you will be able to see the contents of any object using the git show command, although it is not possible to see exactly where in the commit history of the repository the object is referenced. If you need to do this, try something from this question.

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This found the big objects great. The accepted answer got rid of them. –  Ian Kelling Jun 25 '09 at 0:59
The difference between git gc and git repack according to linus torvalds. metalinguist.wordpress.com/2007/12/06/… –  spuder Jan 9 '14 at 0:17

Just FYI, the biggest reason why you may end up with unwanted objects being kept around is that git maintains a reflog.

The reflog is there to save your butt when you accidentally delete your master branch or somehow otherwise catastrophically damage your repository.

The easiest way to fix this is to truncate your reflogs before compressing (just make sure that you never want to go back to any of the commits in the reflog).

git gc --prune=now --aggressive
git repack

This is different from git gc --prune=today in that it expires the entire reflog immediately.

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Are you sure you are counting just the .pack files and not the .idx files? They are in the same directory as the .pack files, but do not have any of the repository data (as the extension indicates, they are nothing more than indexes for the corresponding pack — in fact, if you know the correct command, you can easily recreate them from the pack file, and git itself does it when cloning, as only a pack file is transferred using the native git protocol).

As a representative sample, I took a look at my local clone of the linux-2.6 repository:

$ du -c *.pack
505888  total

$ du -c *.idx
34300   total

Which indicates an expansion of around 7% should be common.

There are also the files outside objects/; in my personal experience, of them index and gitk.cache tend to be the biggest ones (totaling 11M in my clone of the linux-2.6 repository).

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Other git objects stored in .git include trees, commits, and tags. Commits and tags are small, but trees can get big particularly if you have a very large number of small files in your repository. How many files and how many commits do you have?

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Good question. 19 branches with about 40 files in each. git count-objects -v says "in-pack: 1570". Not sure exactly what that means or how to count how many commits I have. A few hundred I'd guess. –  Ian Kelling Jun 23 '09 at 1:00
Ok, it doesn't sound like that is the answer then. A few hundred will be insignificant compared to 145 MB. –  Greg Hewgill Jun 23 '09 at 1:13

Did you try using git repack?

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Good question. I did, I also got the impression that git gc does that also? –  Ian Kelling Jun 23 '09 at 0:23
It does with git gc --auto Not sure about what you used. –  baudtack Jun 23 '09 at 0:25

before doing git filter-branch & git gc you should review tags that are present in your repo. Any real system which has automatic tagging for things like continuous integration and deployments will make unwated objects still refrenced by these tags , hence gc cant remove them and you will still keep wondering why the size of repo is still so big.

The best way to get rid of all un-wanted stuff is to run git-filter & git gc and then push master to a new bare repo. The new bare repo will have the cleaned up tree.

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