Comparison with Git¶
Introduction¶
This document attempts to describe how Jujutsu is different from Git. See
the Git-compatibility doc for information about how
the jj
command interoperates with Git repos.
Overview¶
Here is a list of conceptual differences between Jujutsu and Git, along with links to more details where applicable and available. There's a table further down explaining how to achieve various use cases.
- The working copy is automatically committed. That results in a simpler and more consistent CLI because the working copy is now treated like any other commit. Details.
- There's no index (staging area). That also results in a simpler
CLI for similar reasons. The index is very similar to an intermediate commit
between
HEAD
and the working copy, so workflows that depend on it can be modeled using proper commits instead. Details. - No need for branch names. Git lets you check out a commit without attaching a branch. It calls this state "detached HEAD". This is the normal state in Jujutsu (there's actually no way -- yet, at least -- to have an active branch). However, Jujutsu keeps track of all visible heads (leaves) of the commit graph, so the commits won't get lost or garbage-collected.
- No current branch. Git lets you check out a branch, making it the 'current branch', and new commits will automatically update the branch. This is necessary in Git because Git might otherwise lose track of the new commits. Jujutsu does not have a 'current branch'; instead, you update branches manually. For example, if you check out a commit with a branch, new commits are created on top of the branch, then you issue a later command to update the branch.
- Conflicts can be committed. No commands fail because of merge conflicts. The conflicts are instead recorded in commits and you can resolve them later. Details.
- Descendant commits are automatically rebased. Whenever you rewrite a
commit (e.g. by running
jj rebase
), all its descendants commits will automatically be rebased on top. Branches pointing to it will also get updated, and so will the working copy if it points to any of the rebased commits. - Branches are identified by their names (across remotes). For example, if
you pull from a remote that has a
main
branch, you'll get a branch by that name in your local repo as well. If you then move it and push back to the remote, themain
branch on the remote will be updated. Details. - The operation log replaces reflogs. The operation log is similar to reflogs, but is much more powerful. It keeps track of atomic updates to all refs at once (Jujutsu thus improves on Git's per-ref history much in the same way that Subversion improved on RCS's per-file history). The operation log powers e.g. the undo functionality. Details
- There's a single, virtual root commit. Like Mercurial, Jujutsu has a
virtual commit (with a hash consisting of only zeros) called the "root commit"
(called the "null revision" in Mercurial). This commit is a common ancestor of
all commits. That removes the awkward state Git calls the "unborn branch"
state (which is the state a newly initialized Git repo is in), and related
command-line flags (e.g.
git rebase --root
,git checkout --orphan
).
The index¶
Git's "index" has
multiple roles. One role is as a cache of file system information. Jujutsu has
something similar. Unfortunately, Git exposes the index to the user, which makes
the CLI unnecessarily complicated (learning what the different flavors of
git reset
do, especially when combined with commits and/or paths, usually
takes a while). Jujutsu, like Mercurial, doesn't make that mistake.
As a Git power-user, you may think that you need the power of the index to
commit only part of the working copy. However, Jujutsu provides commands for
more directly achieving most use cases you're used to using Git's index for. For
example, to create a commit from part of the changes in the working copy, you
might be used to using git add -p; git commit
. With Jujutsu, you'd instead
use jj split
to split the working-copy commit into two commits. To add more
changes into the parent commit, which you might normally use
git add -p; git commit --amend
for, you can instead use jj squash -i
to
choose which changes to move into the parent commit, or jj squash <file>
to
move a specific file.
Command equivalence table¶
Note that all jj
commands can be run on any commit (not just the working-copy
commit), but that's left out of the table to keep it simple. For example,
jj squash/amend -r <revision>
will move the diff from that revision into its
parent.
Use case | Jujutsu command | Git command |
---|---|---|
Create a new repo | jj init --git (without --git , you get a
native Jujutsu repo, which is slow and whose format will change) |
git init |
Clone an existing repo | jj git clone <source> <destination> (there is no support
for cloning non-Git repos yet) |
git clone <source> <destination> |
Update the local repo with all branches from a remote | jj git fetch [--remote <remote>] (there is no
support for fetching into non-Git repos yet) |
git fetch [<remote>] |
Update a remote repo with all branches from the local repo | jj git push --all [--remote <remote>] (there is no
support for pushing from non-Git repos yet) |
git push --all [<remote>] |
Update a remote repo with a single branch from the local repo | jj git push --branch <branch name>
[--remote <remote>] (there is no support for
pushing from non-Git repos yet) |
git push <remote> <branch name> |
Show summary of current work and repo status | jj st |
git status |
Show diff of the current change | jj diff |
git diff HEAD |
Show diff of another change | jj diff -r <revision> |
git diff <revision>^ <revision> |
Show diff from another change to the current change | jj diff --from <revision> |
git diff <revision> |
Show diff from change A to change B | jj diff --from A --to B |
git diff A B |
Show description and diff of a change | jj show <revision> |
git show <revision> |
Add a file to the current change | touch filename |
touch filename; git add filename |
Remove a file from the current change | rm filename |
git rm filename |
Modify a file in the current change | echo stuff >> filename |
echo stuff >> filename |
Finish work on the current change and start a new change | jj commit |
git commit -a |
See log of commits | jj log |
git log --oneline --graph --decorate |
Show log of ancestors of the current commit only, including all ancestors, not just stopping at immutable commits | jj log -r ::@ |
git log |
Abandon the current change and start a new change | jj abandon |
git reset --hard (cannot be undone) |
Make the current change empty | jj restore |
git reset --hard (same as abandoning a change since Git
has no concept of a "change") |
Discard working copy changes in some files | jj restore <paths>... |
git restore <paths>... or git checkout HEAD -- <paths>... |
Edit description (commit message) of the current change | jj describe |
Not supported |
Edit description (commit message) of the previous change | jj describe @- |
git commit --amend (first make sure that nothing is
staged) |
Temporarily put away the current change | Not needed | git stash |
Start working on a new change based on the <main> branch | jj co main |
git switch -c topic main or
git checkout -b topic main (may need to stash or commit
first) |
Move branch A onto branch B | jj rebase -b A -d B |
git rebase B A
(may need to rebase other descendant branches separately) |
Move change A and its descendants onto change B | jj rebase -s A -d B |
git rebase --onto B A^ <some descendant branch>
(may need to rebase other descendant branches separately) |
Reorder changes from A-B-C-D to A-C-B-D | jj rebase -r C -d A; rebase -s B -d C (pass change IDs,
not commit IDs, to not have to look up commit ID of rewritten C) |
git rebase -i A |
Move the diff in the current change into the parent change | jj squash/amend |
git commit --amend -a |
Interactively move part of the diff in the current change into the parent change | jj squash/amend -i |
git add -p; git commit --amend |
Move the diff in the working copy into an ancestor | jj move --to X |
git commit --fixup=X; git rebase -i --autosquash X^ |
Interactively move part of the diff in an arbitrary change to another arbitrary change | jj move -i --from X --to Y |
Not supported |
Interactively split the changes in the working copy in two | jj split |
git commit -p |
Interactively split an arbitrary change in two | jj split -r <revision> |
Not supported (can be emulated with the "edit" action in
git rebase -i ) |
Interactively edit the diff in a given change | jj diffedit -r <revision> |
Not supported (can be emulated with the "edit" action in
git rebase -i ) |
Resolve conflicts and continue interrupted operation | echo resolved > filename; jj squash/amend (operations
don't get interrupted, so no need to continue) |
echo resolved > filename; git add filename; git
rebase/merge/cherry-pick --continue |
Create a copy of a commit on top of another commit | jj duplicate <source>; jj rebase -r <duplicate commit> -d <destination>
(there's no single command for it yet) |
git co <destination>; git cherry-pick <source> |
List branches | jj branch list |
git branch |
Create a branch | jj branch create <name> -r <revision> |
git branch <name> <revision> |
Move a branch forward | jj branch set <name> -r <revision> |
git branch -f <name> <revision> |
Move a branch backward or sideways | jj branch set <name> -r <revision> --allow-backwards |
git branch -f <name> <revision> |
Delete a branch | jj branch delete <name> |
git branch --delete <name> |
See log of operations performed on the repo | jj op log |
Not supported |
Undo an earlier operation | jj [op] undo <operation ID>
(jj undo is an alias for jj op undo )
|
Not supported |
Create a commit that cancels out a previous commit | jj backout -r <revision>
|
git revert <revision> |