`WorkingCopy::current_commit()` has been there from the beginning. It
has made less sense since we made the repo view keep track of the
current checkout. Let's remove it.
If you import Git refs, then rebase a commit pointed to by some Git
ref, and then re-import Git refs, you don't want the old commit to be
made a visible head again. That's particularly annoying when Git refs
are automatically updated by every command.
I recently (0c441d9558) made it so we don't create an operation when
nothing changed. Soon thereafter (94e03f5ac8), I broke that when I
introduced a cache-invalidation bug when I made the filtering-out of
non-heads be lazy. This patch fixes that and also adds a test to
prevent regressions.
This patch adds a place for tracking the current `HEAD` commit in the
underlying Git repo. It updates `git::import_refs()` to record it. We
don't use it anywhere yet.
This is part of #44.
I'm about to change `ReadonlyRepo::load()` to take the path to the
`.jj/` directory, so this patch prepares for that. It already works
because `ReadonlyRepo::load()` will search up the directory tree for
the `.jj/` entry.
`ReadonlyRepo::init_*()` currently calls `WorkingCopy::init()`. In
order to remove that dependency, this patch wraps the
`ReadonlyRepo::init_*()` functions in new `Workspace` functions. A
later patch will have those functions call `WorkspaceCopy::init()`.`
The `Repo` doesn't do anything with the `WorkingCopy` except keeping a
reference to it for its users to use. In fact, the entire lib crate
doesn't do antyhing with the `WorkingCopy`. It therefore seems simpler
to have the users of the crate manage the `WorkingCopy` instance. This
patch does that by letting `Workspace` own it. By not keeping an
instance in `Repo`, which is `Sync`, we can also drop the
`Arc<Mutex<>>` wrapping.
I left `Repo::working_copy()` for convenience for now, but now it
creates a new instance every time. It's only used in tests.
This further decoupling should help us add support for multiple
working copies (#13).
The recent e5dd93cbf7, whose description says "cleanup: make Vec
inside CommitId etc. non-public", made all ID types in the `backend`
module *except* for `CommitId` non-public :P This patch makes
A while ago, I replaced a call to git2-rs's `Remote::fetch()` by calls
to `Remote::download()` and `Remote::update_tips()`. The function is
documented to be a convenience for those function, but it turns out
that the pruning of deleted remote refs is a separate call
(`Remote::prune()`), so we need to call that too.
Since the working copy can now handle conflicts, we don't need to
materialize conflicts when checking out a commit.
Before this patch, we used to create a new commit on top whenever we
checked out a commit with conflicts. That new commit was intended just
for resolving the conflicts. The typical workflow was the resolve the
conflicts and then amend. To use the same workflow after this patch,
one needs to explicitly create a new commit on top with `jj new` after
checking out a commit with conflict.
I realized only recently that we can try to parse conflict markers in
files and leave them as conflicted if they haven't changed. If they
have changed and some conflict markers have been removed, we can even
update the conflict with that partial resolution.
This change teaches the working copy to write conflicts to the working
copy. It used to expect that the caller had already updated the tree
by materializing conflicts. With this change, we also start parsing
the conflict markers and leave the conflicts unresolved in the working
copy if the conflict markers remain.
There are some cases that we don't handle yet. For example, we don't
even try to set the executable bit correctly when we write
conflicts. OTOH, we didn't do that even before this change.
We still never actually write conflicts to the working copy (outside
of tests) because we currently materialize conflicts in
`MutRepo::check_out()`. I'll change that next.
I initially made the working copy materialize conflicts in its
`check_out()` method. Then I changed it later (exactly a year ago, on
Halloween of 2020, actually) so that the working copy expected
conflicts to already have been materalized, which happens in
`MutableRepo::check_out`().
I think my reasoning then was that the file system cannot represent a
conflict. While it's true that the file system itself doesn't have
information to know whether a file represents a conflict, we can
record that ourselves. We already record whether a file is executable
or not and then preserve that if we're on a file system that isn't
able to record it. It's not that different to do the same for
conflicts if we're on a file system that doesn't understand conflicts
(i.e. all file systems).
The plan is to have the working copy remember whether a file
represents a conflict. When we check if it has changed, we parse the
file, including conflict markers, and recreate the conflict from
it. We should be able to do that losslessly (and we should adjust
formats to make it possible if we find cases where it's not).
Having the working copy preserve conflict states has several
advantages:
* Because conflicts are not materialized in the working copy, you can
rebase the conflicted commit and the working copy without causing
more conflicts (that's currently a UX bug I run into every now and
then).
* If you don't change anything in the working copy, it will be
unchanged compared to its parent, which means we'll automatically
abandon it if you update away from it.
* The user can choose to resolve only some of the conflicts in a file
and squash those in, and it'll work they way you'd hope.
* It should make it easier to implement support for external merge
tools (#18) without having them treat the working copy differently.
This patch prepares for that work by adding support for parsing
materialized conflicts.
While working on demos, I noticed that `jj log` output in the
octocat/Hello-World repo was unstable: sometimes the first parent of
the merge was on the left and sometimes it was on the right. This
patch fixes that by sorting the edges by position in the index just
before returning them. It seems that most applications would want
stable output so I put it in the `RevsetGraphIterator` rather than
doing at the call site in the CLI. I ordered them with the reverse
index position rather than forward because it seemed to make the
graphs in the git.git repo slight nicer, with the left-most edge going
between subsequent releases.
There performance difference is within the noise level.
If you rewrite a commit that's also available on some remote, you'll
currently see both the old version and the new version in the view,
which means they're divergent. They're not logically divergent (the
rewritten version should replace the old version), so this is a UX
bug. I think it indicates that the set of current heads should be
redefined to be the *desired* heads. That's also what I had suspected
in the TODO removed by this change. I think another indication that
we should hide the old heads even if they have e.g. a remote branch
pointing to them is that we don't want them to be rebased if we
rewrite an ancestor.
So that's what I decided to do: let the view's heads be the desired
heads. The user can still define revsets for showing non-current
commits pointed to by e.g. remote branches.
This fixes a bug I've run into somewhat frequently. What happens is
that if you have a conflict on top of another conflict and you resolve
the conflict in the bottom commit, we just simplify the `Conflict`
object in the second commit, but we don't try to resolve the new
conflict. That shows up as an unexpected "conflict" in `jj log`
output, and when you check out the commit, there are actually no
conflicts, so you can just `jj squash` right away.
This patch fixes that bug. It also teaches the code to work with more
than 3 parts in the merge, so if there's a 5-way conflict, for
example, we still try to resolve it if possible.
With this change, you can do e.g. `heads(remote_branches())`. That
should currently be the same as `public_heads()`, except that we don't
yet remove public heads when remote branches have been updated. Having
this support should be generally useful, but I may use it in the short
term specifically for depending less on the public heads, until I get
around to keeping them up to date.
It's been a lot of work, but now we're finally able to remove the
`Evolution` state! `jj obslog` still works as before (it just walks
the predecessor pointers).
