Often, when you’ve been working on part of your project, things are in a messy state and you want to switch branches for a bit to work on something else.
The problem is, you don’t want to do a commit of half-done work just so you can get back to this point later.
The answer to this issue is the git stash
command.
Stashing takes the dirty state of your working directory – that is, your modified tracked files and staged changes – and saves it on a stack of unfinished changes that you can reapply at any time.
To demonstrate, you’ll go into your project and start working on a couple of files and possibly stage one of the changes.
If you run git status
, you can see your dirty state:
$ git status
Changes to be committed:
(use "git reset HEAD <file>..." to unstage)
modified: index.html
Changes not staged for commit:
(use "git add <file>..." to update what will be committed)
(use "git checkout -- <file>..." to discard changes in working directory)
modified: lib/simplegit.rb
Now you want to switch branches, but you don’t want to commit what you’ve been working on yet; so you’ll stash the changes.
To push a new stash onto your stack, run git stash
or git stash save
:
$ git stash
Saved working directory and index state \
"WIP on master: 049d078 added the index file"
HEAD is now at 049d078 added the index file
(To restore them type "git stash apply")
Your working directory is clean:
$ git status
# On branch master
nothing to commit, working directory clean
At this point, you can easily switch branches and do work elsewhere; your changes are stored on your stack.
To see which stashes you’ve stored, you can use git stash list
:
$ git stash list
stash@{0}: WIP on master: 049d078 added the index file
stash@{1}: WIP on master: c264051 Revert "added file_size"
stash@{2}: WIP on master: 21d80a5 added number to log
In this case, two stashes were done previously, so you have access to three different stashed works.
You can reapply the one you just stashed by using the command shown in the help output of the original stash command: git stash apply
.
If you want to apply one of the older stashes, you can specify it by naming it, like this: git stash apply stash@{2}
.
If you don’t specify a stash, Git assumes the most recent stash and tries to apply it:
$ git stash apply
# On branch master
# Changed but not updated:
# (use "git add <file>..." to update what will be committed)
#
# modified: index.html
# modified: lib/simplegit.rb
#
You can see that Git re-modifies the files you reverted when you saved the stash. In this case, you had a clean working directory when you tried to apply the stash, and you tried to apply it on the same branch you saved it from; but having a clean working directory and applying it on the same branch aren’t necessary to successfully apply a stash. You can save a stash on one branch, switch to another branch later, and try to reapply the changes. You can also have modified and uncommitted files in your working directory when you apply a stash – Git gives you merge conflicts if anything no longer applies cleanly.
The changes to your files were reapplied, but the file you staged before wasn’t restaged.
To do that, you must run the git stash apply
command with a --index
option to tell the command to try to reapply the staged changes.
If you had run that instead, you’d have gotten back to your original position:
$ git stash apply --index
# On branch master
# Changes to be committed:
# (use "git reset HEAD <file>..." to unstage)
#
# modified: index.html
#
# Changed but not updated:
# (use "git add <file>..." to update what will be committed)
#
# modified: lib/simplegit.rb
#
The apply option only tries to apply the stashed work – you continue to have it on your stack.
To remove it, you can run git stash drop
with the name of the stash to remove:
$ git stash list
stash@{0}: WIP on master: 049d078 added the index file
stash@{1}: WIP on master: c264051 Revert "added file_size"
stash@{2}: WIP on master: 21d80a5 added number to log
$ git stash drop stash@{0}
Dropped stash@{0} (364e91f3f268f0900bc3ee613f9f733e82aaed43)
You can also run git stash pop
to apply the stash and then immediately drop it from your stack.
There are a few stash variants that may also be helpful. The first option that is quite popular is the --keep-index
option to the stash save
command. This tells Git to not stash anything that you’ve already staged with the git add
command.
This can be really helpful if you’ve made a number of changes but want to only commit some of them and then come back to the rest of the changes at a later time.
$ git status -s
M index.html
M lib/simplegit.rb
$ git stash --keep-index
Saved working directory and index state WIP on master: 1b65b17 added the index file
HEAD is now at 1b65b17 added the index file
$ git status -s
M index.html
Another common thing you may want to do with stash is to stash the untracked files as well as the tracked ones. By default, git stash
will only store files that are already in the index. If you specify --include-untracked
or -u
, Git will also stash any untracked files you have created.
$ git status -s
M index.html
M lib/simplegit.rb
?? new-file.txt
$ git stash -u
Saved working directory and index state WIP on master: 1b65b17 added the index file
HEAD is now at 1b65b17 added the index file
$ git status -s
$
Finally, if you specify the --patch
flag, Git will not stash everything that is modified but will instead prompt you interactively which of the changes you would like to stash and which you would like to keep in your working directly.
$ git stash --patch
diff --git a/lib/simplegit.rb b/lib/simplegit.rb
index 66d332e..8bb5674 100644
--- a/lib/simplegit.rb
+++ b/lib/simplegit.rb
@@ -16,6 +16,10 @@ class SimpleGit
return `#{git_cmd} 2>&1`.chomp
end
end
+
+ def show(treeish = 'master')
+ command("git show #{treeish}")
+ end
end
test
Stash this hunk [y,n,q,a,d,/,e,?]? y
Saved working directory and index state WIP on master: 1b65b17 added the index file
If you stash some work, leave it there for a while, and continue on the branch from which you stashed the work, you may have a problem reapplying the work.
If the apply tries to modify a file that you’ve since modified, you’ll get a merge conflict and will have to try to resolve it.
If you want an easier way to test the stashed changes again, you can run git stash branch
, which creates a new branch for you, checks out the commit you were on when you stashed your work, reapplies your work there, and then drops the stash if it applies successfully:
$ git stash branch testchanges
Switched to a new branch "testchanges"
# On branch testchanges
# Changes to be committed:
# (use "git reset HEAD <file>..." to unstage)
#
# modified: index.html
#
# Changed but not updated:
# (use "git add <file>..." to update what will be committed)
#
# modified: lib/simplegit.rb
#
Dropped refs/stash@{0} (f0dfc4d5dc332d1cee34a634182e168c4efc3359)
This is a nice shortcut to recover stashed work easily and work on it in a new branch.
Finally, you may not want to stash some work or files in your working directory, but simply get rid of them. The git clean
command will do this for you.
Some common reasons for this might be to remove cruft that has been generated by merges or external tools or to remove build artifacts in order to run a clean build.
You’ll want to be pretty careful with this command, since it’s designed to remove files from your working directory that are not tracked. If you change your mind, there is often no retrieving the content of those files. A safer option is to run git stash --all
to remove everything but save it in a stash.
Assuming you do want to remove cruft files or clean your working directory, you can do so with git clean
. To remove all the untracked files in your working directory, you can run git clean -f -d
, which removes any files and also any subdirectories that become empty as a result. The -f
means 'force' or "really do this".
If you ever want to see what it would do, you can run the command with the -n
option, which means ``do a dry run and tell me what you would have removed''.
$ git clean -d -n
Would remove test.o
Would remove tmp/
By default, the git clean
command will only remove untracked files that are not ignored. Any file that matches a pattern in your .gitignore
or other ignore files will not be removed. If you want to remove those files too, such as to remove all .o
files generated from a build so you can do a fully clean build, you can add a -x
to the clean command.
$ git status -s
M lib/simplegit.rb
?? build.TMP
?? tmp/
$ git clean -n -d
Would remove build.TMP
Would remove tmp/
$ git clean -n -d -x
Would remove build.TMP
Would remove test.o
Would remove tmp/
If you don’t know what the git clean
command is going to do, always run it with a -n
first to double check before changing the -n
to a -f
and doing it for real. The other way you can be careful about the process is to run it with the -i
or ``interactive'' flag.
This will run the clean command in an interactive mode.
$ git clean -x -i
Would remove the following items:
build.TMP test.o
*** Commands ***
1: clean 2: filter by pattern 3: select by numbers 4: ask each 5: quit
6: help
What now>
This way you can step through each file individually or specify patterns for deletion interactively.